CROSS REFERENCE TO RELATED APPLICATIONS This application claims benefit under 35 U.S.C. § 119(c) of U.S. Provisional Application No. 62/288,011, filed Jan. 28, 2016, the contents of which are incorporated herein by reference in its entirety.
BACKGROUND Vertebrate immune systems have evolved sophisticated genetic mechanisms to generate T-cell receptor and antibody repertoires, which are combinatorial libraries of affinity molecules capable of distinguishing between self and non-self. In higher mammals, a delicate balance is struck between metabolism, immune defense against pathogens and autoimmunity, wherein disturbances can result in disease and dysfunction. Amongst such pathogens are viruses. A host's antibody response is crucial for preventing viral infection, or resolution of infection, as antibodies are produced against many epitopes on multiple virus proteins upon viral contact. However, these processes can go awry when, for example, antibodies recognizing viral peptides cross-react with human antigens and contribute to autoimmune disease.
Antibodies bind protein antigens by a variety of mechanisms and knowledge of the processes governing these interactions is improving. For instance, it is now understood that antibody binding surfaces on natively folded proteins tend to be dominated by ‘discontinuous’ epitopes, which are patches of ˜4 to 14 amino acid side chains formed by two or more noncontiguous peptides brought into proximity during protein folding. If a protein is divided into its constituent peptides, antibody affinity can decrease due to the loss of contacts contributed by noncontiguous residues, and the increased entropic costs of binding a free peptide as opposed to the natively constrained peptide. On the other hand, antibodies targeting normally inaccessible epitopes can be generated, such as those that recognize proteolytic cleavage products, misfolded proteins or protein aggregates. In circumstances such as these, full-length, folded proteins may be less sensitive using antigen detection techniques than with shorter peptides. Thus, the degree to which individual peptides interact with a given antibody is difficult to predict, and is expected to vary widely not only amongst different peptides, but also within same or similar peptides introduced into different individuals. In the specific instance of viral antigens, wide-scale, parallel detection is particularly challenging, given highly adaptive evolutionary nature of viruses and comparatively small antigenic signature.
Unfortunately, traditional phage display systems, lack sufficient sensitivity and accuracy to account for such potential antigenic variations. For example, existing techniques for identifying autoantibody targets have relied largely on the expression of fragmented cDNA libraries, such as polypeptides fused to the capsid proteins of bacteriophage. Notable technical limitations of this method include the small fraction of clones expressing coding sequences in the correct reading frame (with a lower bound of 6%), and system bias due to the highly skewed representation of differentially expressed cDNAs.
SUMMARY Described herein is a proteomic technology applying a phage library that can uniformly express peptide libraries, such as the substantially complete human peptidome, or synthetic representations of a substantially complete set of viral peptides known to infect humans. By combining T7-Pep phage library with high-throughput DNA sequencing, the described systems and methods allow for a wide variety of high-throughput proteomic investigations, with unprecedented speed, precision, and accuracy. For example, the inventors successfully established a complete set of viral peptides containing 79,407 peptide sequences derived from 788 unique viruses, encompassing over 201 species, 67 genera, and 29 families of viruses. This comprehensive library allows simultaneous detection of antiviral antibody response in a subject for both prior and ongoing exposure against virtually all of known viruses capable of infecting humans. Such systems and methods allow a systematic approach for detection of virus infection, mapping of antiviral antibody epitopes, identification of cross-reactive autoimmune epitopes, among a variety of other diagnostic, clinical and technical uses. Thus, provided herein are phage libraries and methods for use including, but not limited to, methods for detecting an antibody against a virus, methods for identifying a viral cause of disease, and methods for improving vaccine design.
One aspect provided herein relates to a method for detecting an antibody against a pathogen in a subject, the method comprising: (a) contacting a reaction sample comprising a display library with a biological sample comprising antibodies, wherein the display library comprises a plurality of peptides derived from a plurality of pathogens, and (b) detecting a peptide bound to at least one antibody, thereby detecting an antibody capable of binding the peptide.
In one embodiment of this aspect and all other aspects described herein, the plurality of pathogens is a plurality of viruses, bacteria or fungi.
In another embodiment of this aspect and all other aspects described herein, the display library is a phage display library.
In another embodiment of this aspect and all other aspects described herein, the antibodies in the reaction sample are immobilized.
In another embodiment of this aspect and all other aspects described herein, the antibodies are immobilized to a solid support adapted for binding IgM, IgA, or IgG subclasses.
In another embodiment of this aspect and all other aspects described herein, the antibodies are immobilized by contacting the display library and antibodies from the biological sample with Protein A and/or Protein G.
In another embodiment of this aspect and all other aspects described herein, the Protein A and/or Protein G are immobilized to a solid support.
In another embodiment of this aspect and all other aspects described herein, the method further comprises removing unbound antibody and peptides of the display library.
In another embodiment of this aspect and all other aspects described herein, the plurality of peptides are each less than 100, 200, 300, 500, 500, 600, 700, 800, or 900 amino acids long.
In another embodiment of this aspect and all other aspects described herein, the plurality of peptides are each less than 75 amino acids long.
In another embodiment of this aspect and all other aspects described herein, each peptide of the plurality of peptides comprises a common adapter region appended to the end of the nucleic acid sequence encoding the peptide.
In another embodiment of this aspect and all other aspects described herein, the detection of the at least one peptide comprises a step of lysing the phage and amplifying the DNA.
In another embodiment of this aspect and all other aspects described herein, at least two antibodies are detected. In another embodiment of this aspect and all other aspects described herein, at least two peptides are detected.
In another embodiment of this aspect and all other aspects described herein, the at least two antibodies are detected simultaneously. In another embodiment of this aspect and all other aspects described herein, the at least two peptides are detected simultaneously.
In another embodiment of this aspect and all other aspects described herein, antibodies from the biological samples are immobilized.
In another embodiment of this aspect and all other aspects described herein, the display library comprises at least 2 peptides from Table 4. In other embodiments of this aspect and all other aspects described herein, the display library comprises at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 15, at least 20, at least 30, at least 40, at least 50, at least 60, at least 70, at least 80, at least 90, at least 100, at least 200, at least 300, at least 400, at least 500, at least 600, at least 700, at least 800, at least 900, at least 1000, at least 2000, at least 3000, at least 4000, at least 5000 peptides or more as selected in any desired combination from Table 4. In some embodiments, the display library comprises all of the peptides in Table 4.
In certain embodiments, the display library can comprise peptides from at least 1 family (e.g., human herpesvirus) or sub-family (e.g., human herpesvirus 5) of related viruses. In other embodiments, the display library can comprise peptides from at least 2 families, at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 11, at least 12, at least 13, at least 14, at least 15, at least 16, at least 17, at least 18, at least 19, at least 20, at least 25, at least 30, at least 35, at least 40, at least 45, or at least 50 peptides from at least 1 family (e.g., human herpesvirus) or sub-family (e.g., human herpesvirus 5) of viruses from Table 4, in any desired combination. In one embodiment, the display library comprises peptides from each of the viral families or subfamilies in Table 4.
Another aspect provided herein relates to a method for identifying a pathogenic component in a disease, the method comprising: (a) obtaining a biological sample from a plurality of subjects having a common disease, wherein the common disease is suspected of having a pathogenic component, (b) separately contacting each sample of a plurality of reaction samples with each biological sample under conditions that allow formation of at least one antibody-peptide complex, wherein the reaction samples each comprise a display library comprising a plurality of peptides derived from a plurality of pathogens, (c) isolating the at least one antibody-peptide complex formed in each reaction sample from unbound phage, (d) correlating at least one peptide in the at least one antibody-peptide complex in each reaction sample to the pathogen from which it is derived, and (e) identifying a pathogen that is significantly enriched in the plurality of subjects with disease compared to subjects without the disease.
In one embodiment of this aspect and all other aspects described herein, the plurality of pathogens is a plurality of viruses, bacteria or fungi.
In another embodiment of this aspect and all other aspects described herein, the display library is a phage display library.
In another embodiment of this aspect and all other aspects described herein, the antibodies in the reaction sample are immobilized.
In another embodiment of this aspect and all other aspects described herein, the antibodies are immobilized to a solid support adapted for binding IgM, IgA, or IgG subclasses.
In another embodiment of this aspect and all other aspects described herein, the antibodies are immobilized by contacting the display library and antibodies from the biological sample with Protein A and/or Protein G.
In another embodiment of this aspect and all other aspects described herein, the Protein A and/or Protein G are immobilized to a solid support.
In another embodiment of this aspect and all other aspects described herein, the plurality of peptides are each less than 100, 200, 300, 400, 500, 600, 700, 800 or 900 amino acids long.
In another embodiment of this aspect and all other aspects described herein, the plurality of peptides are each less than 75 amino acids long.
In another embodiment of this aspect and all other aspects described herein, each peptide of the plurality of peptides comprises a common adapter region appended to the end of the nucleic acid sequence encoding the peptide.
In another embodiment of this aspect and all other aspects described herein, correlating the at least one peptide comprises a step of lysing the phage and amplifying the DNA.
In another embodiment of this aspect and all other aspects described herein, at least two peptides are detected.
In another embodiment of this aspect and all other aspects described herein, the at least two peptides are detected simultaneously.
In another embodiment of this aspect and all other aspects described herein, the common disease comprises disease selected from the group consisting of: Kawasaki Disease, Bell's Palsy, Meniere's Disease, Type I diabetes, juvenile idiopathic arthritis, Chronic Fatigue Syndrome, Gulf War Illness, Myasthenia Gravis, and IgG4 disease.
In another embodiment of this aspect and all other aspects described herein, the method further comprises identifying the epitope to which the antibody binds.
In another embodiment of this aspect and all other aspects described herein, the method further comprises determining whether the antibody cross-reacts with an autoimmune antigen in the subject.
Another aspect provided herein relates to a method for improving vaccine design, the method comprising: (a) obtaining a biological sample from a plurality of subjects exposed to a pathogen, (b) separately contacting each sample of a plurality of reaction samples with each biological sample under conditions that allow formation of at least one antibody-peptide complex, wherein the reaction samples each comprise a display library comprising a plurality of peptides derived from a plurality of pathogens, (c) isolating the at least one antibody-peptide complex formed in each reaction sample from unbound phage, (d) correlating at least one peptide in the at least one antibody-peptide complex in each reaction sample to the pathogen from which it is derived, and (e) identifying an antigenic peptide that is significantly enriched in the plurality of subjects exposed to the pathogen as compared to subjects that have not been exposed to the pathogen for use in designing an improved vaccine.
In one embodiment of this aspect and all other aspects described herein, the plurality of pathogens is a plurality of viruses, bacteria or fungi.
In another embodiment of this aspect and all other aspects described herein, the display library is a phage display library.
In another embodiment of this aspect and all other aspects described herein, the antibodies in the reaction sample are immobilized.
In another embodiment of this aspect and all other aspects described herein, the antibodies are immobilized to a solid support adapted for binding IgM, IgA, or IgG subclasses.
In another embodiment of this aspect and all other aspects described herein, the antibodies are immobilized by contacting the display library and antibodies from the biological sample with Protein A and/or Protein G.
In another embodiment of this aspect and all other aspects described herein, the Protein A and/or Protein G are immobilized to a solid support.
In another embodiment of this aspect and all other aspects described herein, the plurality of peptides are each less than 100 amino acids long.
In another embodiment of this aspect and all other aspects described herein, the plurality of peptides are each less than 75 amino acids long.
In another embodiment of this aspect and all other aspects described herein, each peptide of the plurality of peptides comprises a common adapter region appended to the end of the nucleic acid sequence encoding the peptide.
In another embodiment of this aspect and all other aspects described herein, the detection of the antigenic peptide comprises a step of lysing the phage and amplifying the DNA.
In another embodiment of this aspect and all other aspects described herein, at least two antibodies are detected.
In another embodiment of this aspect and all other aspects described herein, the at least two antibodies are detected simultaneously.
In another embodiment of this aspect and all other aspects described herein, the display library comprises at least 2 peptides from Table 4. In other embodiments of this aspect and all other aspects described herein, the display library comprises at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 15, at least 20, at least 30, at least 40, at least 50, at least 60, at least 70, at least 80, at least 90, at least 100, at least 200, at least 300, at least 400, at least 500, at least 600, at least 700, at least 800, at least 900, at least 1000, at least 2000, at least 3000, at least 4000, at least 5000 peptides or more as selected in any desired combination from Table 4. In some embodiments, the display library comprises all of the peptides in Table 4.
In certain embodiments, the display library can comprise peptides from at least 1 family (e.g., human herpesvirus) or sub-family (e.g., human herpesvirus 5) of related viruses. In other embodiments, the display library can comprise peptides from at least 2 families, at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 11, at least 12, at least 13, at least 14, at least 15, at least 16, at least 17, at least 18, at least 19, at least 20, at least 25, at least 30, at least 35, at least 40, at least 45, or at least 50 peptides from at least 1 family (e.g., human herpesvirus) or sub-family (e.g., human herpesvirus 5) of viruses from Table 4, in any desired combination. In one embodiment, the display library comprises peptides from each of the viral families or subfamilies in Table 4.
Also provided herein, in another aspect, is a phage library displaying a plurality of viral peptides, wherein the plurality of viral peptides represent a set of peptides from viruses known to infect humans.
In one embodiment of this aspect and all other aspects described herein, the phage library comprises a plurality of viral peptides from at least 3 viruses known to infect humans.
In another embodiment of this aspect and all other aspects described herein, the phage library comprises a plurality of viral peptides from at least 10 viruses known to infect humans.
In another embodiment of this aspect and all other aspects described herein, the phage library comprises a plurality of viral peptides from at least 20 viruses known to infect humans.
In another embodiment of this aspect and all other aspects described herein, the phage library comprises at least 10 peptide sequences.
In another embodiment of this aspect and all other aspects described herein, the phage library comprises at least 20 peptide sequences.
In another embodiment of this aspect and all other aspects described herein, the plurality of peptides are each less than 100 amino acids long.
In another embodiment of this aspect and all other aspects described herein, the plurality of peptides are each less than 75 amino acids long.
In another embodiment of this aspect and all other aspects described herein, each peptide of the plurality of peptides comprises a common adapter region appended to the end of the nucleic acid sequence encoding the peptide.
In another embodiment of this aspect and all other aspects described herein, the plurality of peptides are immunodominant epitopes.
In another embodiment of this aspect and all other aspects described herein, the display library comprises at least 2 peptides from Table 4. In other embodiments of this aspect and all other aspects described herein, the display library comprises at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 15, at least 20, at least 30, at least 40, at least 50, at least 60, at least 70, at least 80, at least 90, at least 100, at least 200, at least 300, at least 400, at least 500, at least 600, at least 700, at least 800, at least 900, at least 1000, at least 2000, at least 3000, at least 4000, at least 5000 peptides or more as selected in any desired combination from Table 4. In some embodiments, the display library comprises all of the peptides in Table 4.
In certain embodiments, the display library can comprise peptides from at least 1 family (e.g., human herpesvirus) or sub-family (e.g., human herpesvirus 5) of related viruses. In other embodiments, the display library can comprise peptides from at least 2 families, at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 11, at least 12, at least 13, at least 14, at least 15, at least 16, at least 17, at least 18, at least 19, at least 20, at least 25, at least 30, at least 35, at least 40, at least 45, or at least 50 peptides from at least 1 family (e.g., human herpesvirus) or sub-family (e.g., human herpesvirus 5) of viruses from Table 4, in any desired combination. In one embodiment, the display library comprises peptides from each of the viral families or subfamilies in Table 4.
BRIEF DESCRIPTION OF FIGURES FIGS. 1A-1C show the fold enrichment of each peptide in each of two pull-downs with (FIG. 1A) the same donor serum or (FIG. 1B) the sera of two different donors (FIG. 1C) illustration of process (from Benjamin, et al. Nature Biotechnology 29: 535-541 (2011)).
FIG. 2 is a heatmap showing the distribution of responses to viruses across different patient samples. The percentage of peptides from a particular virus that were determined to be significantly enriched in that particular sample.
FIGS. 3A-3D Using a library of peptides encoded by the human genome, the Inventors identified an epitope in multiple sclerosis patients known to cross-react with a portion of the EBV BRRF2 protein (FIGS. 3A, 3B) inset, black squares indicates the patient, columns, has a response against the peptide, row, containing the epitope). Using the library of peptides encoded by human viruses, the Inventors also detected strong responses against this epitope, found in two peptides (BRRF2 A and BRRF2 B), in all three of samples from patients with multiple sclerosis who had previously been confirmed to have cross-reacting antibody responses (MS_2430_2, MS2430_1, and MS_5826_1). (FIG. 3C) ClustalW alignment is shown along with (FIG. 3D) MEME-generated seven-element motif.
FIGS. 4A-4E show a general VirScan analysis of the human virome. The virome peptide library consists of 93,904 56 amino acid peptides tiling, with 28 amino acid overlap, across the proteomes of all known human viruses. 200 nt DNA sequences encoding the peptides were printed on a releasable DNA microarray. The released DNA was amplified and cloned into a T7 phage display vector and packaged into virus particles displaying the encoded peptide on its surface. The library is mixed with a sample containing antibodies that bind to their cognate peptide antigen on the phage surface. The antibodies are immobilized and unbound phage are washed away. Finally, amplification of the bound DNA and high throughput sequencing of the insert DNA from bound phage reveals peptides targeted by sample antibodies. Abbreviations: aa, amino acid; Ab, antibody; IP: immunoprecipitation. (FIG. 4A) Antibody profile of randomly chosen group of donors to show typical assay results. Each row is a virus, each column is a sample. The label above each chart indicates whether the donors are over 10 years of age or at most 10 years of age. The intensity of each cell indicates the number of peptides from the virus that were significantly enriched by antibodies in the sample. (FIG. 4B) Overlap between enriched peptides detected by VirScan and human B cell epitopes from viruses in IEDB. The entire pink circle represents the 1,715 groups of non-redundant IEDB epitopes that are also present in the VirScan library (out of 1,877 clusters total). The overlap region represents the number of groups with an epitope that is also contained in an enriched peptide detected by VirScan. The purple only region represents the number of non-redundant enriched peptides detected by VirScan that do not contain an IEDB epitope. Data are shown for peptides enriched in at least one and at least two samples. (FIG. 4C) Overlap between enriched peptides detected by VirScan and human B cell epitopes in IEDB from common human viruses. The regions represent the same values as in (FIG. 4B) except only epitopes corresponding to the indicated virus are considered, and only peptides from that virus that were enriched in at least two samples were considered. (FIG. 4D) Distribution of number of viruses detected in each sample. The histogram depicts the frequency of samples binned by the number of virus species detected by VirScan. The mean and median of the distribution are both approximately 11 virus species. (FIG. 4E) Frequently observed virus exposures. The ‘%’ column indicates the percentage of samples that were positive for the virus by VirScan. Known HIV and HCV positive samples were excluded when performing this analysis.
FIGS. 5A-5E show a population stratification of the human virome immune response. The bar graphs depict the differences in exposure to viruses between donors who are (FIG. 5A) children less than ten years of age versus adults over ten years of age, (FIG. 5B) HIV positive versus HIV negative, (FIG. 5C) residing in Peru versus residing in the United States, (FIG. 5D) residing in South Africa versus residing in the United States, and (FIG. 5E) residing in Thailand versus residing in the United States. Asterisks indicate false discovery rate <0.05.
FIGS. 6A-6C show data indicating that the human anti-virome response recognizes a similar spectrum of peptides among infected individuals. In the heatmap charts, each row is a peptide tiling across the entire indicated protein and each column is a sample. The bar above each column, labeled at the top of the figure, marks the country of origin for that sample. The samples shown are a subset of individuals with antibodies to at least one peptide from the proteins indicated. The intensity of each cell corresponds to the −log10(p-value) measure of significance of enrichment for a peptide in a sample (greater values indicates stronger antibody response). Data are shown for (FIG. 6A) Human respiratory syncytial virus Attachment Glycoprotein G (G), (FIG. 6B) Human adenovirus C penton protein (L2), and (FIG. 6C) Epstein-Barr virus nuclear antigen 1 (EBNA1). Data shown are the mean of two replicates.
FIGS. 7A-7C Recognition of common epitopes within an immunogenic peptide from human adenovirus C penton protein (L2) across individuals. Each row is a sample. Each column denotes the first mutated position for the (FIG. 7A) single-, (FIG. 7B) double-, and (FIG. 7C) triple-alanine mutant peptide scanning through. The intensity of each cell indicates the enrichment of the mutant peptide relative to the wild-type. For double-mutants, the last position is blank. The same is true for the last two positions for triple-mutants. Data shown are the mean of two replicates.
FIG. 8 Reproducibility threshold. Scatterplot for median and median absolute deviation of replicate 2−log10(p-values) whose replicate 1−log10(p-value) falls within the window whose left edge is shown on the horizontal axis.
FIG. 9 Distribution of reproducibility threshold −log10(p-values). Histogram of the frequency of the reproducibility threshold −log10(p-values). The mean and median of the distribution are both approximately 2.3.
FIG. 10 Correlation between virus size and number of enriched peptides. Each dot on this log-log scatterplot is a virus. The horizontal axis corresponds to the size of the virus in number of peptides. The vertical axis corresponds to the average number of peptides enriched from the virus across all samples tested. The dashed line is a least-squares best-fit curve for the data.
FIGS. 11A-11B Amino acid composition of enriched peptides. (FIG. 11A) Bar graph of the fractional abundance of each amino acid in the entire virome peptide library or peptides enriched in at least 2 samples. (FIG. 11B) Bar graph of the fractional abundance of each amino acid in peptides enriched in at least 2 samples subtracted by the abundance in the entire library.
FIGS. 12A-12C Influenza A: hem agglutinin (UniProt ID: H8PET1, positions 1-56) Scanning mutagenesis identification of linear B cell epitopes in an immunogenic peptide from human viral proteins. Each row is a sample. Each column denotes the first mutated position for (FIG. 12A) single-, (FIG. 12B) double-, and (FIG. 12C) triple-alanine mutant peptides. The intensity of each cell indicates the enrichment of the mutant peptide relative to the wild-type. For double-mutants, the last position is blank. The same is true for the last two positions for triple-mutants. Data shown are the mean of two replicates.
FIGS. 13A-13C Respiratory syncytial virus: attachment G glycoprotein (UniProt ID: P03276, positions 337-392) Scanning mutagenesis identification of linear B cell epitopes in an immunogenic peptide from human viral proteins. Each row is a sample. Each column denotes the first mutated position for (FIG. 13A) single-, (FIG. 13B) double-, and (FIG. 13C) triple-alanine mutant peptides. The intensity of each cell indicates the enrichment of the mutant peptide relative to the wild-type. For double-mutants, the last position is blank. The same is true for the last two positions for triple-mutants. Data shown are the mean of two replicates.
FIGS. 14A-14C Enterovirus B: genome polyprotein (UniProt ID: Q6647 4, positions 561-616) Scanning mutagenesis identification of linear B cell epitopes in an immunogenic peptide from human viral proteins. Each row is a sample. Each column denotes the first mutated position for (FIG. 14A) single-, (FIG. 14B) double-, and (FIG. 14C) triple-alanine mutant peptides. The intensity of each cell indicates the enrichment of the mutant peptide relative to the wild-type. For double-mutants, the last position is blank. The same is true for the last two positions for triple-mutants. Data shown are the mean of two replicates.
FIGS. 15A-15C Enterovirus B: genome polyprotein (UniProt ID: Q6W9F9, positions 1429-1484) Scanning mutagenesis identification of linear B cell epitopes in an immunogenic peptide from human viral proteins. Each row is a sample. Each column denotes the first mutated position for (FIG. 15A) single-, (FIG. 15B) double-, and (FIG. 15C) triple-alanine mutant peptides. The intensity of each cell indicates the enrichment of the mutant peptide relative to the wild-type. For double-mutants, the last position is blank. The same is true for the last two positions for triple-mutants. Data shown are the mean of two replicates.
FIGS. 16A-16C Rhinovirus A: genome polyprotein (UniProt ID: Q8212 2, positions 561-616) Scanning mutagenesis identification of linear B cell epitopes in an immunogenic peptide from human viral proteins. Each row is a sample. Each column denotes the first mutated position for (FIG. 16A) single-, (FIG. 16B) double-, and (FIG. 16C) triple-alanine mutant peptides. The intensity of each cell indicates the enrichment of the mutant peptide relative to the wild-type. For double-mutants, the last position is blank. The same is true for the last two positions for triple-mutants. Data shown are the mean of two replicates.
FIGS. 17A-17C Epstein-Barr virus: nuclear antigen 1 (UniProt ID: Q1 HVF7, positions 393-448) Scanning mutagenesis identification of linear B cell epitopes in an immunogenic peptide from human viral proteins. Each row is a sample. Each column denotes the first mutated position for (FIG. 17A) single-, (FIG. 17B) double-, and (FIG. 17C) triple-alanine mutant peptides. The intensity of each cell indicates the enrichment of the mutant peptide relative to the wild-type. For double-mutants, the last position is blank. The same is true for the last two positions for triple-mutants. Data shown are the mean of two replicates.
FIGS. 18A-18C Adenovirus C: precapsid vertex protein (UniProt ID: P03279, positions 533-585) Scanning mutagenesis identification of linear B cell epitopes in an immunogenic peptide from human viral proteins. Each row is a sample. Each column denotes the first mutated position for (FIG. 18A) single-, (FIG. 18B) double-, and (FIG. 18C) triple-alanine mutant peptides. The intensity of each cell indicates the enrichment of the mutant peptide relative to the wild-type. For double-mutants, the last position is blank. The same is true for the last two positions for triple-mutants. Data shown are the mean of two replicates.
FIGS. 19A-19C Zero inflated generalized poisson (ZIGP) parameters regressed on input count (FIG. 19A, theta parameter; FIG. 19B, lambda parameter. FIG. 19C, pi parameter). Each scatter plot depicts the maximum likelihood estimates for the ZIGP parameters as a function of the input count (horizontal axis). Dashed lines are least-squares linear regressions for θ and λ, and least-squares exponential regression for π.
FIG. 20 Proteome-wide detection of antibodies to Chlamydia trachomatis. Each box represents the number of peptides from a given protein (listed on the x-axis) enriched by the serum of a given donor (listed on the y-axis).
FIG. 21 The detection of antibodies to Pneumococcal histidine triad D. Each row represents a 56 amino acid peptide tiling across the protein while each column is a serum donor. The values in the heatmap show the −log 10 of the pvalue of enrichment of a given peptide by the donor serum.
FIG. 22 The detection of antibodies to Triticum aestivum (Wheat) glutenin. Each row represents a 56 amino acid peptide tiling across the protein while each column is a serum donor. The values in the heatmap show the −log 10 of the pvalue of enrichment of a given peptide by the donor serum.
FIG. 23 The detection of antibodies to Bos taurus (Bovine) Kappa-casein. Each row represents a 56 amino acid peptide tiling across the protein while each column is a serum donor. The values in the heatmap show the −log 10 of the pvalue of enrichment of a given peptide by the donor serum.
FIGS. 24A-24F Longitudinal profiling of anti-viral antibodies. The panels show the number of enriched peptides from human herpesvirus 1 (FIG. 24A), human herpesvirus 5 (FIG. 24B), human adenovirus C (FIG. 24C), human respiratory syncytial virus (FIG. 24D), rubella virus (FIG. 24E), or measles virus (FIG. 24F) (y-axis) over time, with each line representing a single child profiled serially. The antibodies present at day 0 are maternal antibodies. The spike in recognition of Rubella and Measles corresponds to the age of Measles and Rubella vaccination in the patient cohort.
DETAILED DESCRIPTION The inventors have previously deployed programmable microarrays to synthesize oligonucleotides encoding wide sets of peptides, such as the complete human peptidome, coupled with high throughput sequencing to analyze the results after selection. Larman, H. Benjamin, et al. “Autoantigen discovery with a synthetic human peptidome.” Nature Biotechnology 29: 535-541 (2011). Described herein is a specific implementation of that approach wherein synthetic representations of a complete set of viral peptides can be generated, such as a set of viral peptides derived from viruses known to infect humans.
One aspect of the present technology is that unlike existing phage display techniques which rely on cDNA, programmable microarrays enable construction of a starting library that is uniformly distributed. The synthetic programmable microarray approach eliminates skewed initial distributions in cDNA libraries resulting from incorrect reading frame or differential gene expression obstacles, which ultimately hamper accurate detection of peptide enrichment. Further, when coupled with high throughput sequencing for selection, the programmable microarray approach compares favorably to traditional Sanger sequencing or microarray hybridization techniques, as high throughput phage immunoprecipitation sequencing (PhIP-Seq) allows sensitive detection for a larger number of library members and with a wider dynamic range.
A key aspect of the present invention is extending the programmable microarray technique to include peptides from the protein sequences of viruses, including those that infect humans. Viruses play an important role in the pathogenesis of various human diseases and antiviral antibody responses can be very strong, essentially providing a persistent, but subtle antibody host signature for detection. Upon viral or other pathogenic exposure, host generated antibodies can neutralize viral particles and stop infection by interfering with virion binding to receptors, blocking uptake into cells, preventing uncoating of the genomes in endosomes, or causing aggregation of virus particles. In some instances, enveloped viruses are lysed when antiviral antibodies and serum complement disrupt membranes. In other instances, non-neutralizing antibodies that bind specifically to virus particles, but do not neutralize infectivity may actually enhance infectivity due to antibodies that interact with receptors on macrophages, resulting in virus-antibody complex being brought into the cell by endocytosis. Viral replication then proceeds, as the antibody does not block infectivity, and this pathway may allow entry into cells which normally do not bear specific virus receptors. Moreover, in some situations, host generated antibodies recognizing viral peptides can cross-react with human self-antigens, contributing to the establishment and progression of autoimmune disease. Each of these mechanisms plays a vital role in accounting for the potentiality of disease and/or dysfunction caused by viral exposure.
While the disclosure specifically recites phage display libraries, it is specifically contemplated herein that other display libraries can be used with the methods and assays described herein including, but not limited to, a yeast display library, a bacterial display library, a retroviral display library, a ribosome display library or an mRNA display library. It is within the skills of one of ordinary skill in the art to apply the methods and assays exemplified herein using a phage display library to the use of a different type of display library.
Definitions As used herein, the term “display library” refers to a library comprising a plurality of peptides derived from a plurality of pathogens that are displayed on the surface of a virus or cell e.g., bacteriophage, yeast, or bacteria. Methods for using such phage, yeast or bacterial display libraries are well known to those of skill in the art.
As used herein, the term “common disease” refers to a subset of subjects having the same or substantially similar diseases, that is, the subjects have the same disease “in common.”
As used herein, the term “antibody-peptide complex” refers to a complex formed when an antibody recognizes an epitope on a peptide and binds to the epitope under low or normal stringent conditions. It will be appreciated that an antibody-peptide complex can dissociate under high stringent conditions, such as low or high pH, or high temperatures.
As used herein, the term “to the pathogen from which it is derived” refers to a step of correlating or mapping at least one peptide in an antibody-peptide complex to a sequence in the known sequences of the viruses, thereby identifying the pathogen that comprises the peptide sequence.
As used herein, the term “enriched” indicates that peptides from a given pathogen are represented at a higher proportion in a population of subjects having a common disease or exposed to a pathogen as compared to the general population or a population lacking the common disease or pathogen exposure. In some embodiments, the peptides from a given pathogen in the population of subjects having a common disease are enriched by at least 10% as compared to the general population. In other embodiments, the peptides for a given pathogen are enriched by at least 20%, at least 30%, at least 40%, at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, at least 95%, at least 99%, at least 1-fold, at least 2-fold, at least 5-fold, at least 10-fold, at least 25-fold, at least 50-fold, at least 100-fold, at least 1000-fold, or more, compared to the general population.
As used herein the term “oligonucleotide primers” refers to nucleic acid sequences that are 5 to 100 nucleotides in length, preferably from 17 to 45 nucleotides, although primers of different length are of use. Primers for synthesizing cDNAs are preferably 10-45 nucleotides, while primers for amplification are preferably about 17-25 nucleotides. Primers useful in the methods described herein are also designed to have a particular melting temperature (Tm) by the method of melting temperature estimation. Commercial programs, including OLIGO™, Primer Design and programs available on the internet, including PRIMER3 and OLIGO CALCULATOR can be used to calculate a Tm of a polynucleotide sequence useful according to the methods and assays described herein. Preferably, the Tm of an amplification primer useful according to the invention, as calculated for example by OLIGO CALCULATOR, is preferably between about 45 and 65° C. In other embodiments, the Tm of the amplification primer is between about 50 and 60° C.
As used herein, the term “sample” refers to a biological material which is isolated from its natural environment and contains at least one antibody. A sample according to the methods described herein, may consist of purified or isolated antibody, or it may comprise a biological sample such as a tissue sample, a biological fluid sample, or a cell sample comprising an antibody. A biological fluid includes, but is not limited to, blood, plasma, sputum, urine, cerebrospinal fluid, lavages, and leukophoresis samples, for example.
As used herein the term “adapter sequence” refers to a nucleic acid sequence appended to a nucleic acid sequence encoding a phage-displayed peptide. In one embodiment, the identical adaptor sequence is appended to the end of each phage-displayed peptide in the phage display library; that is, the adaptor sequence is a common sequence on each nucleic acid of the plurality of nucleic acids encoding a peptide in the phage display library. In one embodiment, the adaptor sequence is of sufficient length to permit annealing of a common PCR primer. For example, adaptor sequences useful with the methods described herein are preferably heterologous or artificial nucleotide sequences of at least 15, and preferably 20 to 30 nucleotides in length. An adaptor sequence as described herein can be, but is not necessarily random.
As used herein, the term “comprising” means that other elements can also be present in addition to the defined elements presented. The use of “comprising” indicates inclusion rather than limitation.
The term “consisting of” refers to compositions, methods, and respective components thereof as described herein, which are exclusive of any element not recited in that description of the embodiment.
As used herein the term “consisting essentially of” refers to those elements required for a given embodiment. The term permits the presence of elements that do not materially affect the basic and novel or functional characteristic(s) of that embodiment of the invention.
Pathogens Provided herein are phage display libraries that comprise a plurality of peptides derived from one or more pathogens.
As used herein the term “pathogen” refers to an organism, including a microorganism, which causes disease in another organism (e.g., animals and plants) by directly infecting the other organism, or by producing agents that causes disease in another organism (e.g., bacteria that produce pathogenic toxins and the like). As used herein, pathogens include, but are not limited to bacteria, protozoa, fungi, nematodes, viroids and viruses, or any combination thereof, wherein each pathogen is capable, either by itself or in concert with another pathogen, of eliciting disease in vertebrates including but not limited to mammals, and including but not limited to humans. As used herein, the term “pathogen” also encompasses microorganisms which may not ordinarily be pathogenic in a non-immunocompromised host. Specific nonlimiting examples of viral pathogens include Herpes simplex virus (HSV)1, HSV2, Epstein Barr virus (EBV), cytomegalovirus (CMV), human Herpes virus (HHV) 6, HHV7, HHV8, Varicella zoster virus (VZV), hepatitis C, hepatitis B, adenovirus, Eastern Equine Encephalitis Virus (EEEV), West Nile virus (WNE), JC virus (JCV) and BK virus (BKV).
As used herein, the term “microorganism” includes prokaryotic and eukaryotic microbial species from the Domains of Archaea, Bacteria and Eucarya, the latter including yeast and filamentous fungi, protozoa, algae, or higher Protista. The terms “microbial cells” and “microbes” are used interchangeably with the term microorganism.
“Bacteria”, or “Eubacteria”, refers to a domain of prokaryotic organisms. Bacteria include at least 11 distinct groups as follows: (1) Gram-positive (gram+) bacteria, of which there are two major subdivisions: (i) high G+C group (Actinomycetes, Mycobacteria, Micrococcus, others) (ii) low G+C group (Bacillus, Clostridia, Lactobacillus, Staphylococci, Streptococci, Mycoplasmas); (2) Proteobacteria, e.g., Purple photosynthetic+non-photosynthetic Gram-negative bacteria (includes most “common” Gram-negative bacteria); (3) Cyanobacteria, e.g., oxygenic phototrophs; (4) Spirochetes and related species; (5) Planctomyces; (6) Bacteroides, Flavobacteria; (7) Chlamydia; (8) Green sulfur bacteria; (9) Green non-sulfur bacteria (also anaerobic phototrophs); (10) Radioresistant micrococci and relatives; (11) Thermotoga and Thermosipho thermophiles.
“Gram-negative bacteria” include cocci, nonenteric rods, and enteric rods. The genera of Gram-negative bacteria include, for example, Neisseria, Spirillum, Pasteurella, Brucella, Yersinia, Francisella, Haemophilus, Bordetella, Escherichia, Salmonella, Shigella, Klebsiella, Proteus, Vibrio, Pseudomonas, Bacteroides, Acetobacter, Aerobacter, Agrobacterium, Azotobacter, Spirilla, Serratia, Vibrio, Rhizobium, Chlamydia, Rickettsia, Treponema, and Fusobacterium.
“Gram-positive bacteria” include cocci, nonsporulating rods, and sporulating rods. The genera of Gram-positive bacteria include, for example, Actinomyces, Bacillus, Clostridium, Corynebacterium, Erysipelothrix, Lacrobacillus, Listeria, Mycobacterium, Myxococcus, Nocardia, Staphylococcus, Streptococcus, and Streptomyces.
The methods described herein can be used to generate a phage display library comprising peptides from pathogens including, but not limited to pathogens from any of the following genera of viruses: Adenoviridae, Alfamovirus, Allexivirus, Allolevirus, Alphacryptovirus, Alphaherpesvirinae, Alphanodavirus, Alpharetrovirus, Alphavins, Aphthovints, Apscaviroid, Aquabirnavirus, Aquareovirus, Arenaviridae, Arenavirus, Arteriviridae, Arterivirus, Ascoviridae, Ascovirus, Asfarviridae, Asfivirus, Astroviridae, Astrovirus, Aureusvirus, Avenavirus, Aviadenovirus, Avibirnavirus, Avihepadnavirus, Avipoxvirus, Avsunviroid, Avsunviroidae, Baculoviridae, Badnavirus, Barnaviridae, Barnavirus, Bdellomicrovirus, Begomovirus, Benyvirus, Betacryptovirus, Betaherpesvirinae, Betanodavirus, Betaretrovins, Betatetravirus, Birnaviridae, Bornaviridae, Bornavirus, Bracovirus, Brevidensovirus, Bromoviridae, Bromovirus, Bunyavindae, Bunyavirus, Bymovirus, “c2-like viruses,” Caliciviridae, Capillovirus, Capripoxvirus, Cardiovirus, Carlavirus, Carmovirus, “Cassava vein mosaic-like viruses,” Caulimoviridae, Caulimovirus, Chlamydiamicrovirus, Chloriridovirus, Chlorovirus, Chordopoxyirinae, Chrysovinus, Circoviridae, Circovirus, Closteroviridae, Closterovirus, Cocadviroid, Coleviroid, Coltivirus, Comoviridae, Comovirus, Coronaviridae, Coronavirus, Corticoviridae, Corticovirus, “Cricket paralysis-like viruses,” Crinivirus, Cucumovirus, Curtovirus, Cypovirus, Cystoviridae, Cystovirus, Cytomegalovirus, Cytorhabdovirus, Deltarelrovirus, Deltavirus, Densovirina, Densovirinae, Densovirus, Dependovirus, Dianthovirus, “Ebola-like viruses,” Enamovirus, Enterovirus, Entomobirnavirus, Entomopoxytrinae, Entomopoxvirus A, Entomopoxvirus B, Entomopoxvirus C, Ephemerovirus, Epsilonretrovirus, Errantivirus, Erythrovirus, Fabavirus, Fijivirus, Filoviridae, Flaviviridae, Flavivirus, Foveavirus, Furovirus, Fuselloviridae, Fusellovirus, Gammaherpesvirinae, Gammaretrovirus, Geminiviridae, Giardiavirus, Granulovirus, Haniavirus, Hemivirus, Hepacivirus, Hepadnaviridae, “Hepatitis E-lilke viruses,” Hepatovirus, Herpesviridae, Hordeivirus, Hostuviroid, Hipoviridae, Hypovirus, Ichnovirus, “Ictalurid herpes-like viruses,” Idaeovirus, Ilarvirus, “Infectious laryngotracheitis-like viruses,” Influenzavirus A, Influenzavins B, Influenzavirus C, Inoviridae, Inovirus, Ipomovirus, Iridoviridae, Iridovirus, Iteravirus, “L5-like viruses,” lagovirus, “-like viruses,” Leishmaniavirus, Lentivirus, Leporipoxvirus, Leviviridae, Levivirus, Lipothrixviridae, Lipothrixvirus, Luteoviridae, Luteovirus, Lymphocryptovirus, Lymphocystivirus, Lyssavirus, Machlomovirus, Macluravirus, Marafivirus, “Marburg-like viruses,” “Marek's disease-like viruses,” Mastadenovirus, Mastrevirus, Metapneumovirus, Metaviridae, Metavirus, Microviridae, Microvirus, Mitovirus, Molluscipoxvirus, Morbillivirus, “Mu-like viruses,” Muromegalovirus, Myoviridae, Nairovirus, Nanovirus, Narnaviridae, Narnavirus, Necrovirus, Nepovirus, Nodaviridae, “Norwalk-like viruses,” Novirhabdovirus, Nucleopolyhedrovirus, Nucleorhabdovirus, Oleavirus, Omegatetravirus, Ophiovirus, Orbivirus, Orthohepadnavirus, Orthomyxoviridae, Orthopoxvirus, Orthoreovirus, Orzavirus, Ourmiavirus, “P1-like viruses,” “P2-like viruses,” “P22-like viruses,” Panicovirus, Papillomaviridae, Papillomavirus, Paramyxoviridae, Paramyxovirinae, Parapoxvirus, Parechovirus, Partitiviridae, Partitivirus, Parvoviridae, Parvovirinae, Parvovirus, Pecluvirus, Pelamoviroid, Pestivirus, “Petunia vein clearing-like viruses,” Phaeovirus, “−29-like viruses,” “-H-like viruses,” Phlebovirus, Phycodnaviridae, Phvytoreovirus, Picornoviridae, Plasmaviridae, Plasmavirus, Plectrovirus, Pneumovirinae, Pneumovirus, Podovindae, Polerovirus, Polvdnaviridae, Polyomaviridae, Polvomavirus, Pomovirus, Pospiviroid, Pospiviroidae, Potexvinus, Potyviridae, Potyvirus, Poxviridae, Prasinovirus, Prions, Prymnesiovirus, Pseudoviridae, Pseudovins, “M1-like viruses”, Ranavirus, Reoviridae, Respirovirus, Retroviridae, Rhabdoviridae, Rhadinovirus, Rhinovirus, Rhizidiovirus, “Rice tungro bacilliform-like viruses,” Roseolovirus, Rotavirus, Rubivirus, Rubulavirus, Rudiviridae, Rudivirus, Rymovirus, “Sapporo-like viruses,” Satellites, Sequiviridae, Sequivirus, Simplexvirus, Siphoviridae, Sobermovirus, “Soybean chlorotic mottle-like viruses,” Spiromicrovirus, “SP01-like viruses,” Spumavirus, Suipoxvirus, “Sulfolobus SNDV-like viruses,” “T1-like viruses,” “T4-like viruses,” “T5-like viruses,” “T7-like viruses,” Tectiviridae, Tectivirus, Tenuivirus, Tetraviridae, Thogotovirus, Tobamovirus, Tobravirus, Togaviridae, Tombusviridae, Tombusvirus, Torovirus, Tospovirus, Totiviridae, Totivirus, Trichovirus, Tritimovirus, Tymovirus, Umbravirus, Varicellovirus, Varicosavirus, Vesiculovirus, Vesivirus, Viroids, Vitivirus, Wakavirus, and Yatapoxvirus.
The methods described herein can be used to generate a phage display library comprising peptides derived from pathogens including, but not limited to, pathogens from any of the following genera of the domain of Bacteria (or Eubacteria); Abiotrophia, Acetitomaculum, Acetivibrio, Acetoanaerobium, Acetobacter, Acetobacterium, Acetofilamentum, Acetogenium, Acetohalobium, Acetomicrobium, Acetonema, Acetothermus, Acholeplasma, Achromatium, Achromobacter, Acidaminobacter, Acidaminococcus, Acidimicrobium, Acidiphilium, Acidisphaera, Acidithiobacillus, Acidobacterium, Acidocella, Acidomonas, Acidothermus, Acidovorax, Acinetobacter, Acrocarpospora, Actinoalloterchus, Actinobacillus, Actinobaculum, Actinobispora, Actinocorallia, Actinokineospora, Actinomadura, Actinomyces, Actinoplanes, Actinopolymorpha, Actinopolyspora, Actinopycnidium, Acninosporangium, Actinosynnenma, Aegyptianella, Aequorivita, Aerococcus, Aeromicrobium, Aeromonas, Afipia, Agitococcus, Agreia, Agrobacterium, Agrococcus, Agromonas, Agromyces, Ahrensia, Albibacter, Albidovulum, Alcaligenes, Alcalilimnicola, Alcanivorax, Algonphagus, Alicychphilus, Alicyclobacillus, Alishewanella, Alistipes, Alkalibacterium, Alkalilimnicola, Alkaliphilus, Alkalispirillum, Alkanindiges, Allisonella, Allochromatium, Allofirstis, Alloiococcus, Allomonas, Allorhizobium, Alterococcus, Alteromonas, Alysiella, Amaricoccus, Aminobacter, Aminobacterium, Aminomonas, Ammonifex, Ammoniphilus, Amoebobacter, Amorphosphorangium, Amphibacillus, Ampullanella, Amycolata, Amvcolatopsis, Anaeroarcus, Anaerobacter, Anaerobaculum, Anaerobiospirillum, Anaerobranca, Anaerococcus, Anaerofilum, Anaeroglobus, Anaerolinea, Anaeromusa, Anaeromyxobacter, Anaerophaga, Anaeroplasma, Anaerorhabdus, Anaerosinus, Anaerostipes, Anaerovibrio, Anaerovorax, Anaplasma, Ancalochloris, Ancalomicrobium, Ancylobacter, Aneurinibacillus, Angiococcus, Angulomicrobium, Anoxybacillus, Anoxynatronum, Antarctobacter, Aquabacter, Aquabacterium, Aquamicrobium, Aquaspirillum, Aquifex, Arachnia, Arcanobacterium, Archangium, Arcobacter, Arenibacter, Arhodomonas, Arsenophonus, Arthrobacter, Asaia, Asanoa, Asteroleplasma, Asticcacaulis, Atopobacter, Atopobium, Aurantimonas, Aureobacterium, Azoarcus, Azomonas, Azomonotrichon, Azonexus, Azorhizobium, Azorhizophilus, Azospira, Azospirillum, Azotobacter, Azovibrio, Bacillus, Bacterionema, Bacteriovorax, Bacteroides, Bactoderma, Balnearium, Balneatrix, Bartonella, Bdellovibrio, Beggiatoa, Beijerinckia, Beneckea, Bergeyella, Beutenbergia, Bifidobacterium, Bilophila, Blastobacter, Blastochloris, Blastococcus, Blastomonas, Blattabacterium, Bogoriella, Bordetella, Borrelia, Bosea, Brachybacterium, Brachymonas, Brachyspira, Brackiella, Bradyrhizobium, Branhamella, Brenneria, Brevibacillus, Brevibacterium, Brevinema, Brevundimonas, Brochothrix, Brucella, Brumimicrobium, Buchnera, Budvicia, Bulleidia, Burkholderia, Buttiauxella, Butyrivibrio, Caedibacter, Caenibacterium, Calderobacterium, Caldicellulosiruptor, Caldilinea, Caldimonas, Caldithrix, Caloramator, Caloranaerobacter, Calymmatobacterium, Caminibacter, Caminicella, Campylobacter, Capnocytophaga, Capsularis, Carbophilus, Carboxydibrachium, Carboxydobrachium, Carboxydocella, Carboxvdothermus, Cardiobacterium, Carnimonas, Carnobacterium, Caryophanon, Caseobacter, Catellatospora, Catenibacterium, Catenococcus, Catenuloplanes, Catonella, Caulobacter, Cedecea, Cellulomonas, Cellulophaga, Cellulosimicrobhium, Cellvibrio, Centipeda, Cetobacterium, Chainia, Chelatobacter, Chelatococcus, Chitinophaga, Chlamydia, Chlamydophila, Chlorobaculum, Chlorobium, Chloroflexus, Chloroherpeton, Chloronema, Chondromyces, Chromatium, Chromobacterium, Chromohalobacter, Chryseobacterium, Chryseomonas, Chrsiogenes, Citricoccus, Citrobacter, Clavibacter, Clevelandina, Clostridium, Cobetia, Coenonia, Collinsella, Colwellia, Comamonas, Conexibacter, Conglomeromonas, Coprobacillus, Coprococcus, Coprothermobacter, Coriobacterium, Corynebacterium, Couchioplanes, Cowdria, Coxiella, Craurococcus, Crenothrix Crinalium (not validly published), Cristispira, Croceibacter, Crocinitomix, Crossiella, Cryobacterium, Cryomorpha, Cryptobacterium, Cryptosporangium, Cupriavidus, Curtobacterium, Cyclobacterium, Cycloclasticus, Cvstobacter, Cytophaga, Dactylosporangium, Dechloromonas, Dechlorosoma, Deferribacter, Defluvibacter, Dehalobacter, Dehalospirillum, Deinobacter, Deinococcus, Deleya, Delfia, Demetria, Dendrosporobacter, Denitrobacterium, Dentrovibrio, Dermabacter, Dermacoccus, Dermatophilus, Derxia, Desemzia, Desulfacinum, Desulfitobacterium, Desulfobacca, Desulfobacter, Desulfobacterium, Desulfobacula, Desulfobulbus, Desulfocapsa, Desulfocella, Desulfococcus, Desulfofaba, Desulforigus, Desulfofustis, Desulfohalobium, Desulfomicrobium, Desulfomonas, Desulfomonile, Desulfomusa, Desulfonatronovibrio, Desulfonatronum, Desulfonauticus, Desulfonema, Desulfonispora, Desulforegula, Desulforhabdus, Desulforhopalus, Desulfosarcina, Desulfospira, Desulfosporosinus, Desulfotalea, Desulfotignum, Desulfotomaculum, Desulfovibrio, Desulfovirga, Desulfurella, Desulfurobacterium, Desulfuromonas, Desulfiromusa, Dethiosulfovibrio, Devosia, Dialister, Diaphorobacter, Dichelobacter, Dichotomicrobium, Dictyoglomus, Dietzia, Diplocalyx, Dolosicoccus, Dolosigranulum, Dorea, Duganella, Dyadobacter, Dysgonomonas, Extothiorhodospira, Edwardsiella, Eggerthella, Ehrlichia, Eikenella, Elytrosporangium, Empedobacter, Enhydrobacter, Enhygromyxa, Ensifer, Enterobacter, Enterococcus, Enterovibrio, Entomoplasma, Eperythrozoon, Eremococcus, Erwinia, Erysipelothrix, Erythrobacter, Erythromicrobium, Erythromonas, Escherichia, Eubacterium, Ewingella, Excellospora, Exiguobacterium, Facklamia, Faecalibacterium, Faenia, Falcivibrio, Ferribacterium, Ferrimonas, Fervidobacterium, Fibrobacter, Filibacter, Filijbctor, Filobacillus, Filomicrobium, Finegoldia, Flammeovirga, Flavimonas, Flavobacterium, Flectobacillus, Flexibacter, Flexistipes, Flexithrix, Fluoribacter, Formivibrio, Francisella, Frankia, Frateuria, Friedmanniella, Frigoribacterium, Fulvimarina, Fulvimonas, Fundibacter, Fusibacter, Fusobacterium, Gallibacterium, Gallicola, Gallionella, Garciella, Gardnerella, Gelidibacter, Gelria, Gemella, Gemmata, Gemmatimonas, Gemmiger, Gemmobacter, Geobacillus, Geobacter, Geodermatophilus, Georgenia, Geothrix, Geotoga, Geovibrio, Glaciecola, Globicatella, Gluconacetobacter, Gluconoacetobacter, Gluconobacter, Glycomyces, Gordonia, Gordonia, Gracilibacillus, Grahamella, Granulicatella, Grimontia, Haemobartonella, Haemophilus, Hafnia, Hahella, Halanaerobacter, Halanaerobium, Haliangium, Haliscomenobacter, Hallella, Haloanaerobacter, Haloanaerobium, Halobacillus, Halobacteroides, Halocella, Halochromatium, Haloincola, Halomicrobium, Halomonas, Halonarronum, Halorhodospira, Halospirulina, Halothermothrix, Halothiohacillus, Halovibno, Helcococcus, Heliobacillus, Helicobacter, Heliobacterium, Heliophilum, Heliorestis, Heliothrix, Herbaspirillum, Herbidospora, Herpetostphon, Hippea, Hirschia, Histophilus, Holdemania, Hollandina, Holophaga, Holospora, Hongia, Hydrogenobacter, Hydrogenobaculum, Hydrogenophaga, Hydrogenophilus, Hydlrogenothermus, Hydrogenovibrio, Hymenobacter, Hyphomicrobium, Hyphomonas, Ideonella, Idiomarina, Ignavigranum, Ilyobacter, Inquilinus, Intrasporangium, Iodobacter, Isobaculum, Isochromatium, Isosphaera, Janibacter, Jannaschra, Janthinobacterium, Jeotgalibacillus, Jeotgalicoccus, Johnsonella, Jonesia, Kerstersia, Ketogulonicigenium, Ketogulonigenium, Kibdelosporangium, Kineococcus, Kineosphaera, Kineosporia, Kingella, Kitasatoa, Kitasatospora, Kitasatosporia, Klebsiella, Kluyvera, Knoellia, Kocuria, Koserella, Kozakia, Kribbella, Kurthia, Kutznena, Kytococcus, Labrys, Lachnobacterium, Lachnospira, Lactobacillus, Lactococcus, Lactosphaera, Lamprobacter, Lamprocystis, Lampropedia, Laribacter, Lautropia, Lawsonia, Lechevalieria, Leclercia, Legionella, Leifsonia, Leisingera, Leminorella, Lentibacillus, Lentzea, Leptonema, Leptospira, Leptospirillum, Leptothrix, Leptotrichia, Leucobacter, Leuconostoc, Leucothrix, Levinea, Lewinella, Limnobacter, Limnothrix, Listeria, Listonella, Lonepinella, Longispora, Lucibacterium, Lutermonas, Luteococcus, Lysobacter, Lyticum, Macrococcus, Macromonas, Magnetospirillum, Malonomonas, Mannheimia, Maricaulis, Marichromatium, Marinibacillus, Marinilabilia, Marinilactibacillus, Marinithermus, Marinitoga, Marinobacter, Marinobacterium, Marinococcus, Marinomonas, Marinospirillum, Marmoricola, Massilia, Megamonas, Megasphaera, Merothermus, Melissococcus, Mehttangium, Meniscus, Mesonia, Mesophilobacter, Mesoplasma, Mesorhizobium, Methylarcula, Methylobacillus, Methylobacter, Methylobacterium, Methylocaldum, Methylocapsa, Methylocella, Methylococcus, Methylocystis, Methylomicrobium, Methylomonas, Methylophaga, Methylophilus, Methylopila, Methylorhabdus, Methylosarcina, Methylosinus, Methylosphaera, Methylovorus, Micavibrio, Microbacterium, Microbispora, Microbulbifer, Micrococcus, Microcyclus, Microcystis, Microellobosporia, Microlunatus, Micromonas, Micromonospora, Micropolyspora, Micropruina, Microscilla, Microsphaera, Microtetraspora, Microvirga, Microvirgula, Mitsuokella, Mobiluncus, Modestobacter, Moellerella, Mogibacterium, Moorella, Moraxella, Morganella, Moritella, Morococcus, Muricauda, Muricoccus, Mycetocola, Mycobacterium, Mycoplana, Mycoplasma, Myroides, Mvxococcus, Nannocystis, Natroniella, Natronincola, Natronoincola, Nautilia, Neisseria, Neochlamydia, Neorickettsia, Neptunomonas, Nesterenkonia, Nevskia, Nitrobacter, Nitrococcus, Nitrosococcus, Nitrosolobus, Nitrosomonas, Nitrosospira, Nitrospina, Nitrospira, Nocardia, Nocardioides, Nocardiopsis, Nonomuraea, Nonomuria, Novosphingobium, Obesumbacterium, Oceanicaulis, Oceanimonas, Oceanisphaera, Oceanithermus, Oceanobacillus, Oceanobacter, Oceanomonas, Oceanospirillum, Ochrobactrum, Octadecabacter, Oenococcus, Oerskovia, Okibacterium, Oleiphilus, Oleispira, Oligella, Oligotropha, Olsenella, Opitutus, Orenia, Oribaculum, Orientia, Ornithinicoccus, Ornithinimicrobium, Ornithobacterium, Oscillochloris, Oscillospira, Oxalicibacterium, Oxalobacter, Oxalophagus, Oxobacter, Paenibacillus, Pandoraea, Pannonibacter, Pantoea, Papillibacter, Parachlamydia, Paracoccus, Paracraurococcus, Paralactobacillus, Paraliobacillus, Parascardovia, Parvularcula, Pasteurella, Pasteuria, Paucimonas, Pectinatus, Pectobacterium, Pediococcus, Pedobacter, Pedomicrobium, Pelczaria, Pelistega, Pelobacter, Pelodictyon, Pelospora, Pelotomaculum, Peptococcus, Peptoniphilus, Peptostreptococcus, Persephonella, Persicobacter, Petrotoga, Pfennigia, Phaeospirillum, Phascolarctobacterium, Phentlobacterium, Phocoenobacter, Photobacterium, Photorhabdus, Phyllobacterium, Pigmentiphaga, Pilimelia, Pillotina, Pimelobacter, Pirella, Pirellula, Piscirickettsia, Planctomyces, Planktothricoides, Planktothrix, Planobispora, Planococcus, Planomicrobium, Planomonospora, Planopolyspora, Planotetraspora, Plantibacter, Pleisomonas, Plesiocystis, Plesiomonas, Polaribacter, Polaromonas, Polyangium, Polynucleobacter, Porphyrobacter, Porphyromonas, Pragia, Prauserella, Prevotella, Prochlorococcus, Prochloron, Prochlorothrix, Prolinoborus, Promicromonospora, Propionibacter, Propionibacterium, Propionicimonas, Propioniferax, Propionigenium, Propionimicrohium, Propionispira, Propionispora, Propionivibrio, Prosthecobacter, Prosthecochloris, Prosthecomicrobium, Proteus, Protomonas, Providencia, Pseudaminobacter, Pseudoalteromonas, Pseudoamycolata, Pseudobutyrivibrio, Pseudocaedibacter, Pseudomonas, Pseudonocardia, Pseudoramibacter, Pseudorhodobacter, Pseudospirillum, Pseudoxanthomonas, Psychrobacter, Psychroflexus, Psychromonas, Psychroserpens, Quadricoccus, Quinella, Rahnella, Ralstonia, Ramlibacter, Raoultella, Rarobacter, Rathayibacter, Reichenbachia, Renibacterium, Rhabdochromatium, Rheinheimera, Rhizobacter, Rhizobium, Rhizomonas, Rhodanobacter, Rhodobaca, Rhodobacter, Rhodobium, Rhodoblastus, Rhodocista, Rhodococcus, Rhodocyclus, Rhodoferax, Rhodoglobus, Rhodomicrobium, Rhodopila, Rhodoplanes, Rhodopseudomonas, Rhodospira, Rhodospirillum, Rhodothalassium, Rhodothermus, Rhodovibrio, Rhodovulum, Rickettsia, Rickettsiella, Riemerella, Rikenella, Rochalimaea, Roseateles, Roseburia, Roseibium, Roseiflexus, Roseinatronobacter, Roseivivax, Roseobacter, Roseococcus, Roseomonas, Roseospira, Roseospirillum, Roseovarius, Rothia, Rubrimonas, Rubritepida, Rubrivivax, Rubrobacter, Ruegeria, Rugamonas, Ruminobacter, Ruminococcus, Runella, Saccharobacter, Saccharococcus, Saccharomonospora, Saccharopolyspora, Saccharospirillum, Saccharothrix, Sagittula, Salana, Salegentibacter, Salibacillus, Salinibacter, Salinibacterium, Salinicoccus, Salinisphaera, Salinivibrio, Salmonella, Samsonia, Sandaracinobacter, Sanguibacter, Saprospira, Sarcina, Sarcobium, Scardovia, Schineria, Schlegelella, Schwartzia, Sebaldella, Sedimentibacter, Selenihalanaerobacter, Selenomonas, Seliberia, Serpens, Serpula, Serpulina, Serratia, Shewanella, Shigella, Shuttleworthia, Silicibacter, Simkania, Simonsiella, Sinorhizobium, Skermanella, Skermania, Slackia, Smithella, Sneathia, Socalis, Soehngenia, Solirubrobacter, Solobacterium, Sphaerobacter, Sphaerotilus, Sphingobacterium, Sphingobium, Sphingomonas, Sphingopyxis, Spirilliplanes, Spirillospora, Spirillum, Spirochaeta, Spiroplasma, Spirosoma, Sporanaerobacter, Sporichtha, Sporobacter, Sporobacterium, Sporocytophaga, Sporohalobacter, Sporolactobacillus, Sporomusa, Sporosarcina, Sporotomaculum, Staleya, Staphylococcus, Stappia, Starkeya, Stella, Stenotrophomonas, Sterolibacterium, Stibiobacter, Stigmatella, Stomatococcus, Streptacidiphilus, Streptimonospora, Streptoalloteichus, Streptobacillus, Streptococcus, Streptomonospora, Streptomyces; S. abikoensis, S. erumpens, S. erythraeus, S. michiganensis, S. microflavus, S. zaomyceticus, Streptosporangium, Streptoverticillium, Subtercola, Succiniclasticum, Succinimonas, Succinispira, Succinivibrio, Sulfitobacter, Sulfobacillus, Sulfurihydrogenibium, Sulfurimonas, Sulfirospirillum, Sutterella, Suttonella, Symbiobacterium, Symbiotes, Svnergistes, Syntrophobacter, Syntrophobotulus, Syntrophococcus, Syntrophomonas, Syntrophosphora, Syntrophothermus, Syntrophus, Tannerella, Tatlockia, Tatumella, Taylorella, Tectibacter, Teichococcus, Telhuria, Tenacibaculum, Tepidibacter, Tepidimonas, Tepidiphilus, Teraakiella, Teredinibacter, Terrabacter, Terracoccus, Tessaracoccus, Tetragenococcus, Tetrasphaera, Thalassomonas, Thalassospira, Thauera, Thermacetogenium, Thermaerobacter, Thermanaeromonas, Thermanaerovibrio, Thermicanus, Thermithiobactllus, Thermoactinomyces, Thermoanaerobacter, Thermoanaerobacterium, Thermoanaerobium, Thermobacillus, Thermobacteroides, Thermobifida, Thermobispora, Thermobrachium, Thermochromatium, Thermocrinis, Thermocrispum, Thermodesulfbbacterium, Thermodesulforhabdus, Thermodesulfovibrio, Thermohalobacter, Thermohydrogenium, Thermoleophilum, Thermomicrobium, Thermomonas, Thermomonospora, Thermonema, Thermosipho, Thermosyntropha, Thermoterrabacterium, Thermothrix, Thermotoga, Thermovenabulum, Thermovibrio, Thermus, Thialkalicoccus, Thialkalimicrobium, Thialkalivibrio, Thioalkalicoccus, Thioalkalimicrobium, Thioalkalispira, Thioalkalivibrio, Thiobaca, Thiobacillus, Thiobacterium, Thiocapsa, Thiococcus, Thiocystis, Thiodictyon, Thioflavicoccus, Thiohalocapsa, Thiolamprovum, Thiomargarita, Thiomicrospira, Thiomonas, Thiopedia, Thioploca, Thiorhodococcus, Thiorhodospira, Thiorhodovibrio, Thiosphaera, Thiospira, Thiospirillum, Thiothrix, Thiovulum, Tindallia, Tissierella, Tistrella, Tolumonas, Toxothrix, Trabulsiella, Treponema, Trichlorobacter, Trichococcus, Tropheryma, Tsukamurella, Turicella, Turicibacter, Tychonema, Ureaplasma, Ureibacillus, Vagococcus, Vampirovibrio, Varibaculum, Variovorax, Veillonella, Verrucomicrobium, Verrucosispora, Vibrio, Victivallis, Virgibacillus, Virgisporangium, Virgosporangium, Vitellibacter, Vitreoscilla, Vogesella, Volcaniella, Vulcanithermus, Waddlia, Weeksella, Weissella, Wigglesworthia, Williamsia, Wolbachia, Wolinella, Xanthobacter, Xanthomonas, Xenophilus, Xenorhabdus, Xylanimonas, Xylella, Xvylophilus, Yersinia, Yokenella, Zavarzinia, Zobellia, Zoogloea, Zooshikella, Zymobacter, Zymomonas, and Zymophilus.
Production of a Phage Display Library General methods for producing a phage display library are known to those of skill in the art and/or are described in e.g., Larman et al. (2011) Nature Biotechnology 29(6); 535-541, which is incorporated herein by reference in its entirety.
Contemplated herein are phage display libraries that comprise a plurality of peptides derived from a plurality of pathogens, such as bacteria, fungi, or viruses. In one embodiment, it is contemplated herein that the plurality of peptides will represent a substantially complete set of peptides from a group of viruses, bacteria, or fungi (e.g., all pathogenic viruses, bacteria or fungi). In one embodiment, the phage display library comprises a substantially complete set of peptides from viruses known to infect humans (or a subgroup thereof). Similarly, phage display libraries comprising a substantially complete set of peptides from pathogenic bacteria (or a subgroup thereof) or pathogenic fungi (or a subgroup thereof) are also contemplated herein. As used herein, the term “subgroup” refers to a related grouping of viruses, bacteria or fungi that would benefit from simultaneous testing. For example, one of skill in the art can generate a phage display library comprising a substantially complete set of peptides from a genus of pathogens (e.g., a subgroup of virus, such as the Herpes genus). Such a library would permit one of skill in the art to distinguish between highly related pathogens in an antibody sample.
In some embodiments, the phage display library comprises less than 10,000 peptide sequences. In other embodiments, the phage display library comprises less than 9000, less than 8000, less than 7000, less than 6000, less than 5000, less than 4000, less than 3000, less than 2000, less than 1000, less than 750, less than 500, less than 250, less than 100, less than 50 or less than 25 peptide sequences. In other embodiments, the phage display library comprises at least 100, at least 200, at least 500, at least 1000, at least 5000, at least 10,000 peptide sequences or more. It will be appreciated by one of ordinary skill in the art that as the length of the individual peptide sequences increase, the total number of peptide sequences in the library can decrease without loss of any pathogen sequences (and vice versa).
In some embodiments, the phage display library comprises peptides derived from at least 10 protein sequences (e.g., viral protein sequences), at least 20 protein sequences, at least 30 protein sequences, at least 40 protein sequences, at least 50 protein sequences, at least 60 protein sequences, at least 70 protein sequences, at least 80 protein sequences, at least 90 protein sequences, at least 100 protein sequences, at least 200 protein sequences, at least 300 protein sequences, at least 400 protein sequences, at least 500 protein sequences, at least 600 protein sequences, at least 700 protein sequences, at least 800 protein sequences, at least 900 protein sequences, at least 1000 protein sequences, at least 2000 protein sequences, at least 3000 protein sequences, at least 4000 protein sequences, at least 5000 protein sequences, at least 6000 protein sequences, at least 6500 protein sequences, at least 7000 protein sequences, at least 7500 protein sequences, at least 8000 protein sequences, at least 8500 protein sequences, at least 9000 protein sequences, at least 10,000 protein sequences or more.
In some embodiments, the phage display library comprises a plurality of proteins sequence that have less than 90% shared identity; in other embodiments the plurality of protein sequences have less than 85% shared identity, less than 80% shared identity, less than 75% shared identity, less than 70% shared identity, less than 65% shared identity, less than 60% shared identity, less than 55% shared identity, less than 50% shared identity or even less.
In some embodiments, the phage display library comprises protein sequences from at least 3 unique pathogens or at least 5 unique pathogens (e.g., 5 unique viruses, 5 unique bacteria, or 5 unique fungi); in other embodiments the library comprises protein sequences from at least 10, at least 20, at least 50, at least 75, at least 100, at least 200, at least 300, at least 400, at least 500, at least 600, at least 700, at least 800, at least 900, at least 1000 unique pathogens up to and including protein sequences from all viruses, bacteria, or fungi known to cause disease in a human or other mammal.
In some embodiments, the protein sequences of the phage display library are at least 10 amino acids long; in other embodiments the protein sequences are at least 20, at least 30, at least 40, at least 50, at least 60, at least 70, at least 80, at least 90, at least 100, at least 150, at least 200, at least 250, at least 300, at least 350, at least 400, at least 450 amino acids or more in length.
In some embodiments, each peptide of the phage library will overlap at least one other peptide by at least 5 amino acids. In other embodiments, each peptide of the phage library will overlap at least one other peptide by at least 10, at least 15, at least 20, at least 21, at least 22, at least 23, at least 24, at least 25, at least 26, at least 27, at least 28, at least 29, at least 30, at least 32, at least 35, at least 40 amino acids or more.
In some embodiments, the display library comprises at least 2 peptides from Table 4. In other embodiments, the display library comprises at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 15, at least 20, at least 30, at least 40, at least 50, at least 60, at least 70, at least 80, at least 90, at least 100, at least 200, at least 300, at least 400, at least 500, at least 600, at least 700, at least 800, at least 900, at least 1000, at least 2000, at least 3000, at least 4000, at least 5000 peptides or more as selected in any desired combination from Table 4. In some embodiments, the display library comprises all of the peptides in Table 4.
In certain embodiments, the display library can comprise peptides from at least 1 family (e.g., human herpesvirus) or sub-family (e.g., human herpesvirus 5) of related viruses. In other embodiments, the display library can comprise peptides from at least 2 families, at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 11, at least 12, at least 13, at least 14, at least 15, at least 16, at least 17, at least 18, at least 19, at least 20, at least 25, at least 30, at least 35, at least 40, at least 45, or at least 50 peptides from at least 1 family (e.g., human herpesvirus) or sub-family (e.g., human herpesvirus 5) of viruses from Table 4, in any desired combination. In one embodiment, the display library comprises peptides from each of the viral families or subfamilies in Table 4.
Reaction Samples As used herein, the term “reaction sample” refers to a sample that, at a minimum, comprises a phage display library, for example, the phage display library described herein. The reaction sample can also comprise additional buffers, salts, osmotic agents, etc. to facilitate the formation of complexes between the peptides in the phage display library when the reaction sample is contacted with a biological sample comprising an antibody. A “biological sample” as that term is used herein refers to a fluid or tissue sample derived from a subject that comprises or is suspected of comprising at least one antibody.
A biological sample can be obtained from any organ or tissue in the individual to be tested, provided that the biological sample comprises, or is suspected of comprising, an antibody. Typically the biological sample will comprise a blood sample, however other biological samples are contemplated herein, for example, cerebrospinal fluid.
In some embodiments, a biological sample is treated to remove cells or other biological particulates. Methods for removing cells from a blood or other biological sample are well known in the art and can include e.g., centrifugation, ultrafiltration, immune selection, or sedimentation etc. Antibodies can be detected from a biological sample or a sample that has been treated as described above or as known to those of skill in the art. Some non-limiting examples of biological samples include a blood sample, a urine sample, a semen sample, a lymphatic fluid sample, a cerebrospinal fluid sample, a plasma sample, a serum sample, a pus sample, an amniotic fluid sample, a bodily fluid sample, a stool sample, a biopsy sample, a needle aspiration biopsy sample, a swab sample, a mouthwash sample, a cancer sample, a tumor sample, a tissue sample, a cell sample, a synovial fluid sample, or a combination of such samples. For the methods described herein, it is preferred that a biological sample is from whole blood, plasma, cerebral spinal fluid, serum, and/or urine. In one embodiment, the biological sample is cerebrospinal fluid.
In some embodiments, samples can be obtained from an individual with a disease or pathological condition. In one embodiment, the disease or pathological condition is one that is suspected of having a common viral, bacterial or fungal origin. Some exemplary disease or pathological conditions include, but not limited to: a blood disorder, blood lipid disease, autoimmune disease, bone or joint disorder, a cardiovascular disorder, respiratory disease, endocrine disorder, immune disorder, infectious disease, muscle wasting and whole body wasting disorder, neurological disorders including neurodegenerative and/or neuropsychiatric diseases, skin disorder, kidney disease, scleroderma, stroke, hereditary hemorrhage telangiectasia, diabetes (e.g., Type I or Type II diabetes), disorders associated with diabetes (e.g., PVD), hypertension, Gaucher's disease, Kawasaki disease, Bell's palsy, Meniere's disease, juvenile idiopathic arthritis, chronic fatigue syndrome, Gulf War illness, Myasthenia Gravis, IgG4 disease, cystic fibrosis, sickle cell anemia, liver disease, pancreatic disease, eye, ear, nose and/or throat disease, diseases affecting the reproductive organs, gastrointestinal diseases (including diseases of the colon, diseases of the spleen, appendix, gall bladder, and others) and the like. For further discussion of human diseases, see Mendelian Inheritance in Man: A Catalog of Human Genes and Genetic Disorders by Victor A. McKusick (12th Edition (3 volume set) June 1998, Johns Hopkins University Press, ISBN: 0801857422), the entirety of which is incorporated herein. Preferably, samples from a normal demographically matched individual and/or from a non-disease sample from a patient having the disease are used in the analysis to provide controls. The samples can comprise a plurality of cells from individuals sharing a trait. For example, the trait shared can be gender, age, pathology, predisposition to a pathology, exposure to an infectious disease (e.g., HIV), kinship, death from the same disease, treatment with the same drug, exposure to chemotherapy, exposure to radiotherapy, exposure to hormone therapy, exposure to surgery, exposure to the same environmental condition (e.g., such as carcinogens, pollutants, asbestos, TCE, perchlorate, benzene, chloroform, nicotine and the like), the same genetic alteration or group of alterations, expression of the same gene or sets of genes (e.g., samples can be from individuals sharing a common haplotype, such as a particular set of HLA alleles), and the like.
Removal of Unbound Phage In some embodiments, the methods and assays described herein comprise a step of contacting modified bacteriophage or the phage display library as described herein with a biological sample that comprises, or is suspected of comprising, at least one antibody. Any antiviral antibodies present in the biological sample will bind to bacteriophage(s) that display the cognate antigen.
In certain embodiments, it is desirable to separate the bacteriophage(s) bound to an antibody in the biological sample from any free bacteriophage(s) that are not bound to an antibody in the sample. In one embodiment, antibodies from the reaction sample are immobilized on a solid support to permit one to separate out the unbound phage. Antibody immobilization can be achieved using methods routine to those of ordinary skill in the art. Essentially any method that permits one to specifically immobilize IgM, IgA, or IgG subclasses (e.g., IgG4) can be used to immobilize antibodies from the sample, including antibodies that are complexed to one or more bacteriophage. In some embodiments, Protein A, Protein G or a combination thereof is/are used to immobilize the antibody to permit removal of unbound phage. Such methods are known to those of ordinary skill in the art and as such are not described in detail herein.
In some embodiments, the peptide or protein used to immobilize antibodies from the reaction mixture can be attached to a solid support, such as, for example, magnetic beads (e.g., micron-sized magnetic beads), Sepharose beads, agarose beads, a nitrocellulose membrane, a nylon membrane, a column chromatography matrix, a high performance liquid chromatography (HPLC) matrix or a fast performance liquid chromatography (FPLC) matrix for purification. For example, the reaction mixture comprising bacteriophage and antibodies can be contacted with magnetic beads coated with Protein A and/or Protein G. The Protein A and G will bind to antibodies in the mixture and immobilize them on the beads. This process also immobilizes any phage particles bound by the antibodies. In one embodiment, a magnet can be used to separate the immobilized phage from unbound phage.
As used herein, the term “Magnetic bead” means any solid support that is attracted by a magnetic field; such solid supports include, without limitation, DYNABEADS™, BIOMAG™ Streptavidin, MPG7 Streptavidin, Streptavidin MAGNESPHERE™, Streptavidin Magnetic Particles, AFFINITIP™, any of the MAGA™ line of magnetizable particles, BIOMAG™ Superparamagnetic Particles, or any other magnetic bead to which a molecule (e.g., an oligonucleotide primer) may be attached or immobilized.
Peptide Detection Following a step to remove any unbound phage, the peptides in the bound phage/antibody complexes can be identified using e.g., PCR. Although not necessary, the bound phage/antibody complexes can first be released from the solid support using appropriate conditions e.g., temperature, pH, etc. In some embodiments, the sample is subjected to conditions that will permit lysis of the phage (e.g., heat denaturation). In one embodiment, the nucleic acids from the lysed phage is subjected to an amplification reaction, such as a PCR reaction. In one embodiment, the nucleic acids encoding a phage-displayed peptide comprise a common adapter sequence for PCR amplification. In such embodiments, a PCR primer is designed to bind to the common adapter sequence for amplification of the DNA corresponding to a phage-displayed peptide.
In some embodiments, a detectable label is used in the amplification reaction to permit detection of different amplification products. As used herein, “label” or “detectable label” refers to any atom or molecule which can be used to provide a detectable (preferably quantifiable) signal, and which can be operatively linked to a polynucleotide, such as a PCR primer. Labels may provide signals detectable by fluorescence, radioactivity, colorimetry, gravimetry, X-ray diffraction or absorption, magnetism, enzymatic activity, mass spectrometry, binding affinity, hybridization radiofrequency, nanocrystals and the like. A primer of the present invention may be labeled so that the amplification reaction product may be “detected” by “detecting” the detectable label. “Qualitative or quantitative” detection refers to visual or automated assessments based upon the magnitude (strength) or number of signals generated by the label. A labeled polynucleotide (e.g., an oligonucleotide primer) according to the methods of the invention can be labeled at the 5′ end, the 3′ end, or both ends, or internally. The label can be “direct”, e.g., a dye, or “indirect”, e.g., biotin, digoxin, alkaline phosphatase (AP), horse radish peroxidase (HRP). For detection of “indirect labels” it is necessary to add additional components such as labeled antibodies, or enzyme substrates to visualize the captured, released, labeled polynucleotide fragment. In a preferred embodiment, an oligonucleotide primer is labeled with a fluorescent label. Suitable fluorescent labels include fluorochromes such as rhodamine and derivatives (such as Texas Red), fluorescein and derivatives (such as 5-bromomethyl fluorescein), Lucifer Yellow, IAEDANS, 7-Me.sub.2N-coumarin-4-acetate, 7-OH-4-CH3-coumarin-3-acetate, 7-NH.sub.2-4-CH3-coumarin-3-acetate (AMCA), monobromobimane, pyrene trisulfonates, such as Cascade Blue, and monobromorimethyl-ammoniobimane (see for example, DeLuca, Immunofluorescence Analysis, in Antibody As a Tool, Marchalonis, et al., eds., John Wiley & Sons, Ltd., (1982), which is incorporated herein by reference).
The methods described herein can benefit from the use of labels including, e.g., fluorescent labels. In one aspect, the fluorescent label can be a label or dye that intercalates into or otherwise associates with amplified (usually double-stranded) nucleic acid molecules to give a signal. One stain useful in such embodiments is SYBR Green (e.g., SYBR Green I or II, commercially available from Molecular Probes Inc., Eugene, Oreg.). Others known to those of skill in the art can also be employed in the methods described herein. An advantage of this approach is reduced cost relative to the use of, for example, labeled nucleotides.
As used herein, the term “amplified product” refers to polynucleotides which are copies of a portion of a particular polynucleotide sequence and/or its complementary sequence, which correspond in nucleotide sequence to the template polynucleotide sequence and its complementary sequence. An “amplified product,” can be DNA or RNA, and it may be double-stranded or single-stranded.
Exemplary Methods for Peptide Detection In an exemplary embodiment, the phage are lysed by heat denaturation and PCR is used to amplify the DNA region corresponding to the displayed peptide sequence. One of the PCR primers contains a common adaptor sequence which can be amplified in a second PCR reaction by another set of primers to prepare the DNA for ILLUMINA™ high throughput sequence. Unique barcoded oligonucleotides in the second PCR reaction are used to amplify different samples and pool them together in one sequencing run to e.g., reduce cost and/or permit simultaneous detection of multiple phage-displayed peptides.
High-Throughput Systems In certain embodiments, the detection of a phage-displayed peptide comprises high throughput detection of a plurality of peptides simultaneously, or near simultaneously. In some embodiments, the high-throughput systems use methods similar to DNA sequencing techniques.
A number of DNA sequencing techniques are known in the art, including fluorescence-based sequencing methodologies (See, e.g., Birren et al., Genome Analysis: Analyzing DNA, 1, Cold Spring Harbor, N.Y.). In some embodiments, automated sequencing techniques understood in the art are utilized. In some embodiments, the high-throughput systems described herein use methods that provide parallel sequencing of partitioned amplicons (e.g., WO2006084132). In some embodiments, DNA sequencing is achieved by parallel oligonucleotide extension (See, e.g., U.S. Pat. No. 5,750,341, and U.S. Pat. No. 6,306,597). Additional examples of sequencing techniques include the Church polony technology (Mitra et al., 2003, Analytical Biochemistry 320, 55-65; Shendure et al., 2005 Science 309, 1728-1732; U.S. Pat. No. 6,432,360, U.S. Pat. No. 6,485,944, U.S. Pat. No. 6,511,803), the 454 picotiter pyrosequencing technology (Margulies et al., 2005 Nature 437, 376-380; US 20050130173), the Solexa single base addition technology (Bennett et al., 2005, Pharmacogenomics, 6, 373-382; U.S. Pat. No. 6,787,308; U.S. Pat. No. 6,833,246), the Lynx massively parallel signature sequencing technology (Brenner et al. (2000). Nat. Biotechnol. 18:630-634; U.S. Pat. No. 5,695,934; U.S. Pat. No. 5,714,330), and the Adessi PCR colony technology (Adessi et al. (2000). Nucleic Acid Res. 28, E87; WO 00018957).
Next-generation sequencing (NGS) methods share the common feature of massively parallel, high-throughput strategies, with the goal of lower costs in comparison to older sequencing methods (see, e.g., Voelkerding et al., Clinical Chem., 55: 641-658, 2009; MacLean et al., Nature Rev. Microbiol., 7:287-296). NGS methods can be broadly divided into those that typically use template amplification and those that do not. Amplification-requiring methods include pyrosequencing commercialized by Roche as the 454 technology platforms (e.g., GS 20 and GS FLX), the Solexa platform commercialized by ILLUMINA™, and the Supported Oligonucleotide Ligation and Detection™ (SOLiD) platform commercialized by APPLIED BIOSYSTEMS™. Non-amplification approaches, also known as single-molecule sequencing, are exemplified by the HELISCOPE™ platform commercialized by HELICOS BIOSYSTEMS™, and emerging platforms commercialized by VISIGEN™, OXFORD NANOPORE TECHNOLOGIES LTD., and PACIFIC BIOSCIENCES™, respectively.
In pyrosequencing (Voelkerding et al, Clinical Chem., 55: 641-658, 2009; MacLean et al., Nature Rev. Microbial., 7:287-296; U.S. Pat. No. 6,210,891; U.S. Pat. No. 6,258,568), template DNA is fragmented, end-repaired, ligated to adaptors, and clonally amplified in-situ by capturing single template molecules with beads bearing oligonucleotides complementary to the adaptors. Each bead bearing a single template type is compartmentalized into a water-in-oil microvesicle, and the template is clonally amplified using a technique referred to as emulsion PCR. The emulsion is disrupted after amplification and beads are deposited into individual wells of a picotitre plate functioning as a flow cell during the sequencing reactions. Ordered, iterative introduction of each of the four dNTP reagents occurs in the flow cell in the presence of sequencing enzymes and luminescent reporter such as luciferase. In the event that an appropriate dNTP is added to the 3′ end of the sequencing primer, the resulting production of ATP causes a burst of luminescence within the well, which is recorded using a CCD camera. It is possible to achieve read lengths greater than or equal to 400 bases, and 106 sequence reads can be achieved, resulting in up to 500 million base pairs (Mb) of sequence.
In the SOLEXA/ILLUMINA platform (Voelkerding et al., Clinical Chem., 55. 641-658, 2009; MacLean et al., Nature Rev. Microbial., 7:287-296; U.S. Pat. No. 6,833,246; U.S. Pat. No. 7,115,400; U.S. Pat. No. 6,969,488), sequencing data are produced in the form of shorter-length reads. In this method, single-stranded fragmented DNA is end-repaired to generate 5′-phosphorylated blunt ends, followed by Klenow-mediated addition of a single A base to the 3′ end of the fragments. A-addition facilitates addition of T-overhang adaptor oligonucleotides, which are subsequently used to capture the template-adaptor molecules on the surface of a flow cell that is studded with oligonucleotide anchors. The anchor is used as a PCR primer, but because of the length of the template and its proximity to other nearby anchor oligonucleotides, extension by PCR results in the “arching over” of the molecule to hybridize with an adjacent anchor oligonucleotide to form a bridge structure on the surface of the flow cell. These loops of DNA are denatured and cleaved. Forward strands are then sequenced with reversible dye terminators. The sequence of incorporated nucleotides is determined by detection of post-incorporation fluorescence, with each fluor and block removed prior to the next cycle of dNTP addition. Sequence read length ranges from 36 nucleotides to over 50 nucleotides, with overall output exceeding 1 billion nucleotide pairs per analytical run.
Sequencing nucleic acid molecules using SOLID™ technology (Voelkerding et al., Clinical Chem., 55: 641-658, 2009; MacLean et al., Nature Rev. Microbial., 7:287-296; U.S. Pat. No. 5,912,148; U.S. Pat. No. 6,130,073) also involves fragmentation of the template, ligation to oligonucleotide adaptors, attachment to beads, and clonal amplification by emulsion PCR. Following this, beads bearing template are immobilized on a derivatized surface of a glass flow-cell, and a primer complementary to the adaptor oligonucleotide is annealed. However, rather than utilizing this primer for 3′ extension, it is instead used to provide a 5′ phosphate group for ligation to interrogation probes containing two probe-specific bases followed by 6 degenerate bases and one of four fluorescent labels. In the SOLID™ system, interrogation probes have 16 possible combinations of the two bases at the 3′ end of each probe, and one of four fluors at the 5′ end. Fluor color, and thus identity of each probe, corresponds to specified color-space coding schemes. Multiple rounds (usually 7) of probe annealing, ligation, and fluor detection are followed by denaturation, and then a second round of sequencing using a primer that is offset by one base relative to the initial primer. In this manner, the template sequence can be computationally re-constructed, and template bases are interrogated twice, resulting in increased accuracy. Sequence read length averages 35 nucleotides, and overall output exceeds 4 billion bases per sequencing run.
In certain embodiments, nanopore sequencing is employed (see, e.g., Astier et al., J. Am. Chem. Soc. 2006 Feb. 8; 128(5)1705-10). The theory behind nanopore sequencing has to do with what occurs when a nanopore is immersed in a conducting fluid and a potential (voltage) is applied across it. Under these conditions a slight electric current due to conduction of ions through the nanopore can be observed, and the amount of current is exceedingly sensitive to the size of the nanopore. As each base of a nucleic acid passes through the nanopore, this causes a change in the magnitude of the current through the nanopore that is distinct for each of the four bases, thereby allowing the sequence of the DNA molecule to be determined.
In certain embodiments, HELISCOPE™ by HELICOS BIOSCIENCES™ is employed (Voelkerding et al., Clinical Chem., 55. 641-658, 2009; MacLean et al., Nature Rev. Microbial, 7:287-296; U.S. Pat. No. 7,169,560; U.S. Pat. No. 7,282,337; U.S. Pat. No. 7,482,120; U.S. Pat. No. 7,501,245; U.S. Pat. No. 6,818,395; U.S. Pat. No. 6,911,345; U.S. Pat. No. 7,501,245). Template DNA is fragmented and polyadenylated at the 3′ end, with the final adenosine bearing a fluorescent label. Denatured polyadenylated template fragments are ligated to poly(dT) oligonucleotides on the surface of a flow cell. Initial physical locations of captured template molecules are recorded by a CCD camera, and then label is cleaved and washed away. Sequencing is achieved by addition of polymerase and serial addition of fluorescently-labeled dNTP reagents. Incorporation events result in fluor signal corresponding to the dNTP, and signal is captured by a CCD camera before each round of dNTP addition. Sequence read length ranges from 25-50 nucleotides, with overall output exceeding 1 billion nucleotide pairs per analytical run.
The Ion Torrent technology is a method of DNA sequencing based on the detection of hydrogen ions that are released during the polymerization of DNA (see, e.g., Science 327(5970); 1190 (2010); U.S. Pat. Appl. Pub. Nos. 20090026082, 20090127589, 20100301398, 20100197507, 20100188073, and 20100137143). A microwell contains a template DNA strand to be sequenced. Beneath the layer of microwells is a hypersensitive ISFET ion sensor. All layers are contained within a CMOS semiconductor chip, similar to that used in the electronics industry. When a dNTP is incorporated into the growing complementary strand a hydrogen ion is released, which triggers a hypersensitive ion sensor. If homopolymer repeats are present in the template sequence, multiple dNTP molecules will be incorporated in a single cycle. This leads to a corresponding number of released hydrogens and a proportionally higher electronic signal. This technology differs from other sequencing technologies in that no modified nucleotides or optics are used. The per base accuracy of the Ion Torrent sequencer is .about.99.6% for 50 base reads, with ˜100 Mb generated per run. The read-length is 100 base pairs. The accuracy for homopolymer repeats of 5 repeats in length is ˜98%.
Another exemplary nucleic acid sequencing approach that CAN be adapted for use with the methods described herein was developed by STRATOS GENOMICS, Inc, and involves the use of XPANDOMERS™. This sequencing process typically includes providing a daughter strand produced by a template-directed synthesis. The daughter strand generally includes a plurality of subunits coupled in a sequence corresponding to a contiguous nucleotide sequence of all or a portion of a target nucleic acid in which the individual subunits comprise a tether, at least one probe or nucleobase residue, and at least one selectively cleavable bond. The selectively cleavable bond(s) is/are cleaved to yield an XPANDOMER™ of a length longer than the plurality of the subunits of the daughter strand. The XPANDOMER™ typically includes the tethers and reporter elements for parsing genetic information in a sequence corresponding to the contiguous nucleotide sequence of all or a portion of the target nucleic acid. Reporter elements of the XPANDOMER™ are then detected. Additional details relating to XPANDOMER™-based approaches are described in, for example, U.S. Pat. Pub No. 20090035777, entitled “HIGH THROUGHPUT NUCLEIC ACID SEQUENCING BY EXPANSION,” filed Jun. 19, 2008, which is incorporated herein in its entirety.
Other emerging single molecule sequencing methods include real-time sequencing by synthesis using a VISIGEN™ platform (Voelkerding et al., Clinical Chem., 55: 641-58, 2009; U.S. Pat. No. 7,329,492; U.S. patent application Ser. No. 11/671,956; U.S. patent application Ser. No. 11/781,166) in which immobilized, primed DNA template is subjected to strand extension using a fluorescently-modified polymerase and florescent acceptor molecules, resulting in detectable fluorescence resonance energy transfer (FRET) upon nucleotide addition.
Another real-time single molecule sequencing system developed by PACIFIC BIOSCIENCES™ (Voelkerding et al., Clinical Chem., 55. 641-658, 2009; MacLean et al., Nature Rev. Microbiol., 7:287-296; U.S. Pat. No. 7,170,050; U.S. Pat. No. 7,302,146; U.S. Pat. No. 7,313,308; U.S. Pat. No. 7,476,503) utilizes reaction wells 50-100 nm in diameter and encompassing a reaction volume of approximately 20 zeptoliters (10−21 L). Sequencing reactions are performed using immobilized template, modified phi29 DNA polymerase, and high local concentrations of fluorescently labeled dNTPs. High local concentrations and continuous reaction conditions allow incorporation events to be captured in real time by fluor signal detection using laser excitation, an optical waveguide, and a CCD camera.
In certain embodiments, the single molecule real time (SMRT) DNA sequencing methods using zero-mode waveguides (ZMWs) developed by Pacific Biosciences, or similar methods, are employed. With this technology, DNA sequencing is performed on SMRT chips, each containing thousands of zero-mode waveguides (ZMWs). A ZMW is a hole, tens of nanometers in diameter, fabricated in a 100 nm metal film deposited on a silicon dioxide substrate. Each ZMW becomes a nanophotonic visualization chamber providing a detection volume of just 20 zeptoliters (10−21 L). At this volume, the activity of a single molecule can be detected amongst a background of thousands of labeled nucleotides. The ZMW provides a window for watching DNA polymerase as it performs sequencing by synthesis. Within each chamber, a single DNA polymerase molecule is attached to the bottom surface such that it permanently resides within the detection volume. Phospholinked nucleotides, each type labeled with a different colored fluorophore, are then introduced into the reaction solution at high concentrations which promote enzyme speed, accuracy, and processivity. Due to the small size of the ZMW, even at these high, biologically relevant concentrations, the detection volume is occupied by nucleotides only a small fraction of the time. In addition, visits to the detection volume are fast, lasting only a few microseconds, due to the very small distance that diffusion has to carry the nucleotides. The result is a very low background.
Processes and systems for such real time sequencing that can be adapted for use with the methods described herein include, for example, U.S. Pat. No. 7,405,281, U.S. Pat. No. 7,315,019, U.S. Pat. No. 7,313,308, U.S. Pat. No. 7,302,146, U.S. Pat. No. 7,170,050, U.S. Pat. Pub. Nos. 20080212960, 20080206764, 20080199932, 20080176769, 20080176316, 20080176241, 20080165346, 20080160531, 20080157005, 20080153100, 20080153095, 20080152281, 20080152280, 20080145278, 20080128627, 20080108082, 20080095488, 20080080059, 20080050747, 20080032301, 20080030628, 20080009007, 20070238679, 20070231804, 20070206187, 20070196846, 20070188750, 20070161017, 20070141598, 20070134128, 20070128133, 20070077564, 20070072196, 20070036511, and Korlach et al. (2008) PNAS 105(4); 1176-81, all of which are herein incorporated by reference in their entireties.
Subsequently, in some embodiments, the data produced comprises sequence data from multiple barcoded DNAs. Using the known association between the barcode and the source of the DNA, the data can be deconvoluted to assign sequences to the source subjects, samples, organisms, etc. The sequences are mapped, in some embodiments, to a reference DNA sequence (e.g., a chromosome) and genotypes are assigned to the source subjects, samples, organisms, etc., e.g., by modeling, e.g., by a Hidden Markov Model.
Some embodiments provide a processor, data storage, data transfer, and software comprising instructions to assign genotypes. Some embodiments of the technology provided herein further comprise functionalities for collecting, storing, and/or analyzing data. For example, some embodiments comprise the use of a processor, a memory, and/or a database for, e.g., storing and executing instructions, analyzing data, performing calculations using the data, transforming the data, and storing the data. In some embodiments, the processor is configured to calculate a function of data derived from the sequences and/or genotypes determined. In some embodiments, the processor performs instructions in software configured for medical or clinical results reporting and in some embodiments the processor performs instructions in software to support non-clinical results reporting.
In some embodiments, the detection of a phage-displayed peptide comprises PCR with barcoded oligonucleotides. As used herein, the term “barcode” refers to a unique oligonucleotide sequence that allows a corresponding nucleic acid base and/or nucleic acid sequence to be identified. In certain aspects, the nucleic acid base and/or nucleic acid sequence is located at a specific position on a larger polynucleotide sequence (e.g., a polynucleotide covalently attached to a bead). In certain embodiments, barcodes can each have a length within a range of from 4 to 36 nucleotides, or from 6 to 30 nucleotides, or from 8 to 20 nucleotides. In certain aspects, the melting temperatures of barcodes within a set are within 10° C. of one another, within 5° C. of one another, or within 2° C. of one another. In other aspects, barcodes are members of a minimally cross-hybridizing set. That is, the nucleotide sequence of each member of such a set is sufficiently different from that of every other member of the set that no member can form a stable duplex with the complement of any other member under stringent hybridization conditions. In one aspect, the nucleotide sequence of each member of a minimally cross-hybridizing set differs from those of every other member by at least two nucleotides. Barcode technologies are known in the art and are described in e.g., Winzeler et al. (1999) Science 285:901; Brenner (2000) Genome Biol. 1:1 Kumar et al. (2001) Nature Rev. 2:302; Giaever et al. (2004) Proc. Natl. Acad. Sci. USA 101:793; Eason et al. (2004) Proc. Natl. Acad. Sci. USA 101:11046; and Brenner (2004) Genome Biol. 5:240.
Contemplated Applications of the Phage Display Library The described technology allows for detection of such past (e.g., resolved or unresolved infections) or ongoing infection by detecting host antibody response to a pathogen such as a virus, bacteria, or fungi. Using the described systems and methods, wherein a comprehensive peptide phage library can capture virtually all host generated antibodies, the simultaneous detection of the complete antiviral antibody responses as an indicator of virus infection against virtually all known viruses capable of infecting humans. Uniquely, because antibody response persist for long periods of time, this approach further allows for detection of prior exposure, where an infection has been contained. These responses can therefore be used as an indicator not only a person person's past ongoing infections, but resolved ones as well.
In addition to the aforementioned diagnostic uses, this technology further provides a mechanism to identify viral correlates or causes of disease. Many diseases suspected have a viral cause, but without positive identification of a responsible pathogen. Examples include Kawasaki Disease, Bell's Palsy, Meniere's Disease, Type I Diabetes and Juvenile Idiopathic Arthritis. In each of these diseases and/or dysfunctional conditions, viral correlates of onset or severity have been suggested, but a pathogenic origin cannot be identified due to the lack of system-wide screening techniques for viral exposure, and researchers must rely on piecemeal detection schemes in order to narrow down possible disease-causing agents. In contrast, the described systems and methods provide not only a systematic approach to compare antiviral responses in patient and control sera to identify viral correlates of disease, but across virtually all viruses known to infect humans, allowing for a much improved route for identifying responsible pathogens.
In addition, the detection of antiviral antibody responses in subjects further allows identification of critical antigen peptide epitopes. The high-throughput nature of the described technology also allows rapid and wide-scale detection of such signatures across various subjects, thereby providing means for mapping of antiviral antibody epitopes across populations, which is not possible with existing technology. In addition to aiding antibody design for therapy, this information further allows identification of potential cross-reactivity with human antigens, a key source of autoimmune disease generation.
Importantly, a critical aspect of establishing programmable microarrays to include viral peptides is generation of an appropriate oligonucleotide sequence set for library generation. Importantly, wide-scale, parallel detection of viral antigens is particularly challenging, given their highly adaptive evolutionary nature and comparatively small antigenic signature compared to a library of human peptides, as one example. As unique library members may provide only short differences in antigenic sequence, the Inventors have improved algorithms for designing oligonucleotide sequences from parental protein sequences using randomized codons to minimize redundancy, and in order to increase the ability to align short reads to unique members of the library.
Importantly, the programmable microarray approach described herein, further including the antibody-focused adaptions, algorithms to design oligonucleotide sequences with reduced redundancy, and/or short read alignments, all lend themselves for wide extension of the programmable microarray technology to detection of other pathogens (e.g., bacteria or fungi), as well as adaption into other display systems (e.g., ribosome display, arrayed peptide, or yeast display). In this regard, the combination of advantages described herein provide a wide-ranging, systematic approach for using host antibody response as a means to identify past and present pathogen exposure.
The proteomic technology described herein applies a phage library that can uniformly express peptide libraries, such as synthetic representations of a complete set of viral peptides known to infect humans. Using this approach, the Inventors demonstrate viral peptides enriched by donor serum are highly reproducible and sera from different donors, on the other hand, recognize distinct profiles of peptides presumably commensurate with their previous unique histories of viral exposure. Moreover, using this approach, the Inventors identified a known epitope in the EBV BRRF2 protein that is cross-reactive with autoimmune antigens in patients with multiple sclerosis. The described systems and methods can therefore be applied to determine common antiviral antibody responses in people immunized against viruses in order to improve vaccine design.
All references cited herein are incorporated by reference in their entirety as though fully set forth. Unless defined otherwise, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Singleton et al., Dictionary of Microbiology and Molecular Biology 4th ed., J. Wiley & Sons (New York, N.Y. 2012); March, Advanced Organic Chemistry Reactions, Mechanisms and Structure 5th ed., J. Wiley & Sons (New York, N.Y. 2001); and Sambrook and Russel, Molecular Cloning: A Laboratory Manual 4th ed., Cold Spring Harbor Laboratory Press (Cold Spring Harbor, NY 2012); provide one skilled in the art with a general guide to many of the terms used in the present application.
One skilled in the art will recognize many methods and materials similar or equivalent to those described herein, which could be used in the practice of the present invention. Indeed, the present invention is in no way limited to the methods and materials described. For purposes of the present invention, the following terms are defined below.
As used in the description herein and throughout the claims that follow, the meaning of “a,” “an,” and “the” includes plural reference unless the context clearly dictates otherwise. Also, as used in the description herein, the meaning of “in” includes “in” and “on” unless the context clearly dictates otherwise.
The present invention may be as defined in any one of the following numbered paragraphs.
1. A method for detecting an antibody against a pathogen in a subject, the method comprising:
(a) contacting a reaction sample comprising a display library with a biological sample comprising antibodies, wherein the display library comprises a plurality of peptides derived from a plurality of pathogens, and
(b) detecting a peptide bound to at least one antibody, thereby detecting an antibody capable of binding the peptide.
2. The method of paragraph 1, wherein the plurality of pathogens is a plurality of viruses, bacteria or fungi.
3. The method of paragraph 1 or 2, wherein the display library is a phage display library.
4. The method of paragraph 1, 2, or 3, wherein the antibodies in the reaction sample are immobilized.
5. The method of any one of the preceding paragraphs, wherein the antibodies are immobilized to a solid support adapted for binding IgM, IgA, or IgG subclasses.
6. The method of any one of the preceding paragraphs, wherein the antibodies are immobilized by contacting the display library and antibodies from the biological sample with Protein A and/or Protein G.
7. The method of any one of the preceding paragraphs, wherein the Protein A and/or Protein G are immobilized to a solid support.
8. The method of any one of the preceding paragraphs, comprising removing unbound antibody and peptides of the display library.
9. The method of any one of the preceding paragraphs, wherein the plurality of peptides are each less than 100, 200, or 300 amino acids long.
10. The method of any one of the preceding paragraphs, wherein the plurality of peptides are each less than 75 amino acids long.
11. The method of any one of the preceding paragraphs, wherein each peptide of the plurality of peptides comprises a common adapter region appended to the end of the nucleic acid sequence encoding the peptide.
12. The method of any one of the preceding paragraphs, wherein the detection of the antibody comprises a step of lysing the phage and amplifying the DNA.
13. The method of any one of the preceding paragraphs, wherein at least two antibodies are detected.
14. The method of any one of the preceding paragraphs, wherein the at least two antibodies are detected simultaneously.
15. The method of any one of the preceding paragraphs, wherein antibodies from the biological samples are immobilized.
16. A method for identifying a pathogen associated with a disease, the method comprising
(a) obtaining a biological sample from a plurality of subjects having a common disease, wherein the common disease is suspected of having a pathogenic component,
(b) separately contacting each sample of a plurality of reaction samples with each biological sample under conditions that allow formation of at least one antibody-peptide complex, wherein the reaction samples each comprise a display library comprising a plurality of peptides derived from a plurality of pathogens,
(c) isolating the at least one antibody-peptide complex formed in each reaction sample from unbound phage,
(d) correlating at least one peptide in the at least one antibody-peptide complex in each reaction sample to the pathogen from which it is derived, and
(e) identifying a pathogen that is significantly enriched in the plurality of subjects with disease compared to subjects without the disease.
17. The method of paragraph 16, wherein the plurality of pathogens is a plurality of viruses, bacteria or fungi.
18. The method of paragraph 16 or 17, wherein the display library is a phage display library.
19. The method of paragraph 16, 17, or 18, wherein the antibodies in the reaction sample are immobilized.
20. The method of any one of paragraphs 16-19, wherein the antibodies are immobilized to a solid support adapted for binding IgM, IgA, or IgG subclasses.
21. The method of any one of paragraphs 16-20, wherein the antibodies are immobilized by contacting the display library and antibodies from the biological sample with Protein A and/or Protein G.
22. The method of any one of paragraphs 16-21, wherein the Protein A and/or Protein G are immobilized to a solid support.
23. The method of any one of paragraphs 16-22, wherein the plurality of peptides are each less than 100 amino acids long.
24. The method of any one of paragraphs 16-23, wherein the plurality of peptides are each less than 75 amino acids long.
25. The method of any one of paragraphs 16-24, wherein each peptide of the plurality of peptides comprises a common adapter region appended to the end of the nucleic acid sequence encoding the peptide.
26. The method of any one of paragraphs 16-25, wherein the detection of the at least one peptide in the at least one antibody-peptide complex comprises a step of lysing the phage and amplifying the DNA.
27. The method of any one of paragraphs 16-26, wherein at least two peptides are detected.
28. The method of any one of paragraphs 16-27, wherein the at least two peptides are detected simultaneously.
29. The method of any one of paragraphs 16-28, wherein the common disease comprises disease selected from the group consisting of: Kawasaki Disease, Bell's Palsy, Meniere's Disease, Type I diabetes, juvenile idiopathic arthritis, Chronic Fatigue Syndrome, Gulf War Illness, Myasthenia Gravis, and IgG4 disease.
30. The method of any one of the preceding paragraphs, further comprising identifying the epitope to which the antibody binds.
31. The method of any one of the preceding paragraphs, further comprising determining whether the antibody cross-reacts with an autoimmune antigen in the subject.
32. A method for improving vaccine design, the method comprising:
(a) obtaining a biological sample from a plurality of subjects exposed to a pathogen,
(b) separately contacting each sample of a plurality of reaction samples with each biological sample under conditions that allow formation of at least one antibody-peptide complex, wherein the reaction samples each comprise a display library comprising a plurality of peptides derived from a plurality of pathogens,
(c) isolating the at least one antibody-peptide complex formed in each reaction sample from unbound phage,
(d) correlating at least one peptide in the at least one antibody-peptide complex in each reaction sample to the pathogen from which it is derived, and
(e) identifying an antigenic peptide that is significantly enriched in the plurality of subjects exposed to the pathogen as compared to subjects that have not been exposed to the pathogen for use in designing an improved vaccine.
33. The method of paragraph 32, wherein the plurality of pathogens is a plurality of viruses, bacteria or fungi.
34. The method of paragraph 32 or 33, wherein the display library is a phage display library.
35. The method of paragraph 32, 33 or 34, wherein the antibodies in the reaction sample are immobilized.
36. The method of any one of paragraphs 32-35, wherein the antibodies are immobilized to a solid support adapted for binding IgM, IgA, or IgG subclasses.
37. The method of any one of paragraphs 32-36, wherein the antibodies are immobilized by contacting the display library and antibodies from the biological sample with Protein A and/or Protein G.
38. The method of any one of paragraphs 32-37, wherein the Protein A and/or Protein G are immobilized to a solid support.
39. The method of any one of paragraphs 32-38, wherein the plurality of peptides are each less than 100, 200, or 300 amino acids long.
40. The method of any one of paragraphs 32-39, wherein the plurality of peptides are each less than 75 amino acids long.
41. The method of any one of paragraphs 32-40, wherein each peptide of the plurality of peptides comprises a common adapter region appended to the end of the nucleic acid sequence encoding the peptide.
42. The method of any one of paragraphs 32-41, wherein the detection of the antigenic peptide comprises a step of lysing the phage and amplifying the DNA.
43. The method of any one of paragraphs 32-42, wherein at least two peptides are detected.
44. The method of any one of paragraphs 32-43, wherein the at least two peptides are detected simultaneously.
45. A phage library displaying a plurality of viral peptides, wherein the plurality of viral peptides represent a set of peptides from viruses known to infect humans.
46. The phage library of paragraph 45, wherein the phage library comprises a plurality of viral peptides from at least 3 viruses known to infect humans.
47. The phage library of paragraph 45 or 46, wherein the phage library comprises a plurality of viral peptides from at least 10 viruses known to infect humans.
48. The phage library of paragraph 45, 46, or 47 wherein the phage library comprises a plurality of viral peptides from at least 20 viruses known to infect humans.
49. The phage library of any one of claims 45-48, wherein the phage library comprises at least 10 peptide sequences.
50. The phage library of any one of claims 45-49, wherein the phage library comprises at least 20 peptide sequences.
51. The phage library of any one of claims 45-50, wherein the plurality of peptides are each less than 100, 200 or 300 amino acids long.
52. The phage library of any one of claims 45-51, wherein the plurality of peptides are each less than 75 amino acids long.
53. The phage library of any one of claims 45-52, wherein each peptide of the plurality of peptides comprises a common adapter region appended to the end of the nucleic acid sequence encoding the peptide.
54. The phage library of any one of claims 45-53, wherein the plurality of peptides are immunodominant epitopes.
EXAMPLES Example 1: Peptide Sequence Library Generation The general process is illustrated in FIG. 1C. Peptide sequences are back-translated into DNA sequences with randomized codon usage to minimize sequence redundancy in order to facilitate unique identification using short DNA reads. The DNA sequences were also edited using synonymous mutations to remove rare codons and restriction sites used for downstream cloning. Finally, a common “adapter” region was appended to the ends of each DNA sequence to allow PCR amplification of the library. The final set of defined DNA sequences were synthesized as oligonucleotides on a programmable DNA microarray, PCR amplified, and cloned into a commercially available T7-Select 10-3b display system using standard molecular biology techniques. The T7-Select 10-3b system produces peptides encoded by DNA as fusions to the exterior coat proteins of T7 bacteriophage particles. Each bacteriophage particle contains DNA encoding a peptide fused to the C-terminus of the T7 gene 10 protein. The exterior of the bacteriophage particle is surrounded by 415 copies of the gene 10 protein; on average, 5-15 of these copies will contain the C-terminal peptide fusion.
Example 2: Immobilization Steps One can mix this set of modified bacteriophage with a sample containing antibodies. Any antiviral antibodies in the sample will bind to bacteriophage that display the cognate antigen. After a period of mixing, one adds in micron-sized magnetic beads coated with Protein A and Protein G. Protein A and G will bind to antibodies in the mixture and immobilize them on the beads. This process also immobilizes any phage particles bound by the antibodies. After another period of mixing, one can use a magnet to separate the immobilized phage from unbound phage.
Example 3: Phage Lysis and Signal Reading Then, phage are lysed by heat denaturation and PCR is applied to amplify the DNA region corresponding to the displayed peptide sequence. This PCR primer contains a common adapter sequence which can be amplified in a second PCR reaction by another set of primers to prepare the DNA for Illumina high throughput sequencing. Unique barcoded oligonucleotides in the second PCR reaction amplify different samples and pool them together in one sequencing run for cost reduction.
To distinguish various signal reads, a set of custom Python scripts are applied to count the frequency of each peptide in each barcoded sample, and custom statistical analysis is applied to identify which peptides are significantly enriched by the selection. One can then determine which peptide epitopes are being recognized by antibodies in those samples.
Example 4: Detection of Viral Antibodies As a preliminary test, the Inventors performed a pull-down using a commercial HA antibody, which recognizes an epitope of influenza hemagglutinin. Results are shown in FIGS. 1A and 1B. Importantly, using the described systems and methods, the Inventors were able to confirm 10 to 100-fold enrichment of at least two out of eight peptides in the library that contain the HA epitope. In a pilot study of donor antibody repertoires, the Inventors discovered that the viral peptides enriched by donor serum are highly reproducible. Sera from different donors, on the other hand, recognize distinct profiles of peptides presumably commensurate with their previous unique histories of viral exposure.
A pattern of strong enrichment of peptide epitopes from a single virus indicates the sample donor is or was infected with that virus. In the described study, the Inventors observed that the vast majority of donors have strong responses against common viruses such as Rhinovirus (common cold), while fewer patients have strong responses against rarer viruses such as Human erythrovirus V9 or Simian adenovirus (FIG. 2).
Example 5: Detection of Cross-Reactive Antigens Related to Autoimmunity As positive confirmation of the described systems and methods, the Inventors identified a known epitope in the EBV BRRF2 protein that is cross-reactive with autoimmune antigens in patients with multiple sclerosis (FIG. 3). This technology can be used to identify other such epitopes in diseases with suspected viral etiology. Particular peptide epitope responses can be important in providing protective immunity against reinfection. The described systems and methods can therefore be applied to determine common antiviral antibody responses in people immunized against viruses in order to improve vaccine design.
Example 6: VirScan Summary:
The human virome plays important roles in host health and immunity. However, current methods for detecting viral infections and antiviral responses have limited throughput and coverage. Described herein is the inventors' “VirScan”, a high-throughput method to comprehensively analyze viral infection and antibody response using immunoprecipitation and massively parallel DNA sequencing of a bacteriophage library displaying peptides from all known human virus species. The inventors assayed over 106 million antibody-viral peptide interactions in 569 humans across four different continents, nearly doubling the number of previously established viral epitopes. In this cohort the inventors detected immune responses in sera to an average of 10 species of viruses per person and a total of 87 species in at least two individuals. It was determined that although rates of specific virus exposure are heterogeneous across populations, human antibody responses target strikingly conserved epitope cohorts for each virus, indicating that these broadly immunogenic epitopes elicit highly similar antibodies across individuals. The results described herein indicate that VirScan is a powerful approach for studying interactions between the virome and the immune system.
Background:
Emerging evidence indicates that the collection of viruses found to infect humans (the “human virome”) can have profound effects on human health (1). In addition to directly causing acute or chronic illness, each virus leaves an indelible footprint in the host. Viral infection permanently alters the immune system and can also alter host immunity in more subtle ways (2). For example, latent herpesvirus infection has been shown to confer symbiotic protection against bacterial infection in mice through prolonged production of interferon-γ and systemic activation of macrophages (3). This interplay between virome and host immunity has also been implicated in the pathogenesis of complex diseases such as type 1 diabetes, inflammatory bowel disease, and asthma (4). Despite this growing appreciation for the importance of interactions between the virome and host, a comprehensive method to systematically characterize these interactions has yet to be developed (5).
The advent of high-throughput DNA sequencing has ushered in a new era of unbiased viral nucleic acid detection (6). However, nucleic acid tests fail in cases where viruses have already been cleared after causing or initiating tissue damage and can miss viruses of low abundance or viruses not normally present in the sampled fluid or surface. In contrast, humoral responses to infection typically arise within two weeks of initial exposure and can persist over years or decades (7). Tests detecting antiviral antibodies in peripheral blood can therefore identify ongoing and cleared infections. However, current serological methods are predominantly limited to testing one virus at a time and are therefore only employed to address specific clinical hypotheses. Scaling serological analyses to encompass the complete human virome poses significant technical challenges, but would be of great value for better understanding host-virus interactions, and would overcome many of the limitations associated with current clinical technologies.
Described herein is VirScan, a novel technology that leverages recent advances in programmable DNA microarray technology to create a synthetic representation of the human virome (FIG. 1C). Immunoprecipitation and massively parallel DNA sequencing were used to comprehensively analyze the binding of an individual's antibodies to peptides in this synthetic human virome. VirScan is thus able to characterize the full spectrum of viral peptide epitopes targeted by an individual's B cell response. By testing a large number of individuals that are known to have viral infections detected by classical methods, it was confirmed that this platform identifies antiviral responses with very high sensitivity and specificity. Characterization of 569 serum samples revealed known and novel differences in viral exposure between populations of differing age, HIV status, and geographic location. Finally, the inventors employed VirScan to identify the specific B cell epitope determinants targeted and found remarkable similarity in epitope recognition across individuals and populations. These findings establish VirScan as a powerful new approach for studying interactions between the human virome and the immune system in health and disease.
Results The VirScan Platform VirScan utilizes the Phage Immunoprecipitation sequencing (PhIP-seq) technology as previously described (8). Briefly, the inventors used a programmable DNA microarray to synthesize 93,904 200-mer oligonucleotides, encoding 56-residue peptide tiles, with 28 residue overlaps, that together span the reference protein sequences (collapsed to 90% identity) of all viruses annotated to have human tropism in the UniProt database (9). This library includes peptides from 206 species of virus and over 1,000 different strains. The library was cloned into a T7 bacteriophage display vector for screening.
To perform a screen, one of skill in the art will incubate the library with a serum sample containing antibodies, recover the antibodies using a mixture of protein A and G coated magnetic beads, and remove unbound phage particles by washing. Finally, one will perform PCR and massively parallel DNA sequencing on the phage inserts to quantify enrichment of each library member due to antibody binding. Each sample is screened in duplicate to ensure reproducibility. VirScan requires only 2 μg of immunoglobulin (<1 μL of serum) per sample and can be automated on a 96-well liquid handling robot (10). PCR product from 96 immunoprecipitations can be individually barcoded and pooled for sequencing, reducing the cost for a comprehensive viral Ab screen to approximately $25 per sample.
Following sequencing, the inventors tally the read count for each peptide before (“input”) and after (“output”) immunoprecipitation. The inventors then fit a zero-inflated generalized Poisson model to the distribution of output read counts for each input read count and regress the parameters as a function of input read count (FIG. 8). Using this model, a −log10(p-value) for the significance of each peptide's enrichment is calculated. Finally, a peptide is determined to be “significantly enriched” if its −log10(p-value) is greater than the reproducibility threshold of 2.3 in both replicates (FIG. 9).
VirScan is Highly Sensitive and Specific FIG. 4a shows the antibody profiles of a set of human viruses in sera from a typical group of individuals in a heat map format that illustrates the number of enriched peptides from each virus. The inventors frequently detected antibodies to multiple peptides from common human viruses, such as Epstein-Barr virus (EBV), Cytomegalovirus (CMV), and rhinovirus. As expected, more peptides were observed to be enriched from viruses with larger proteomes, such as EBV and CMV, likely because there are more epitopes available for recognition. The inventors noticed fewer enriched peptides in samples from individuals less than ten years of age compared to their geographically matched controls, in line with an accumulation of viral infections throughout adolescence and adulthood. However, there were occasional samples from young donors with very strong responses to viruses that cause childhood illness, such as Parvovirus B19 and Herpesvirus 6B, which cause the “fifth disease” and “sixth disease” of the classical infectious childhood rashes, respectively (11). These observations are examined in greater detail in FIG. 5.
A computational method was developed to identify the set of viruses to which an individual has been exposed, based on the number of enriched peptides identified per virus. Briefly, the inventors set a threshold number of significant non-overlapping peptide enrichments for each virus. The inventors empirically determined that a threshold of three non-overlapping enriched peptides gave the best performance for detecting Herpes simplex virus 1 compared to a commercial serologic test, described below (Table 1).
TABLE 1
Virscan is highly sensitive and specific. Sensitivity is the percentage
of samples positive for the virus as determined by VirScan out of
all n known positives. Specificity is the percentage of samples negative
for the virus by VirScan out of all n known negatives.
Sensitivity Specificity
Virus (n) (n)
Hepatitis C virus 93% (26) 97%* (31)
Human immunodeficiency virus 1 93% (61) 97%** (31)
Herpes simplex virus 1 97% (38) 100% (6)
Herpes simplex virus 2 90% (20) 100% (24)
*The one false negative was from an individual whose HCV-negative status was self-reported, but had antibodies to as many HCV peptides as 23% of the true HCV positive individuals and is likely to be HCV positive now or in the past. It is possible that this individuals was exposed to HCV but cleared the infection. If true, the observed specificity for HCV is 100%.
**The one false positive was from an individual whose HIV-negative status was self-reported, but had antibodies to as many HIV peptides as 68% of the true HIV positive individuals and was very likely to be HIV positive. If true, the observed specificity for HIV is 100%.
For other viruses, the inventors adjusted the threshold to account for the size of the viral proteome (FIG. 10). Next, the number of enriched peptides from each virus was tallied. Antibodies generated against a specific virus can cross-react with similar peptides from a related virus. This would lead to false positives because an antibody targeted to an epitope from one virus to which a donor was exposed would also enrich a homologous peptide from a related virus to which the donor may not have been exposed. In order to address this issue, the inventors adopted a maximum parsimony approach to infer the fewest number of virus exposures that could elicit the observed spectrum of antiviral peptide antibodies. For groups of enriched peptides that share a 7 amino acid subsequence and may be recognized by a single specific antibody, the inventors only count it as one epitope for the virus which has the greatest number of other enriched peptides. If this adjusted peptide count is greater than the threshold for that virus, the sample is considered positive for the virus.
Using this analytical framework, the inventors measured the performance of VirScan using serum samples from patients known to be infected or not infected with human immunodeficiency virus (HIV) and Hepatitis C virus (HCV), based on commercial Elisa and WB assays. For both viruses, VirScan achieves very high sensitivities and specificities of ˜95% or higher (Table 1). The viral genotype was also known for the HCV samples. Despite the very high sequence similarity among HCV genotypes (12), which poses a problem for all antibody-based detection methods, VirScan correctly reported the HCV genotype in 72% of the samples. The inventors also compared VirScan to a commercially available serology test that is type specific for the highly related Herpes simplex viruses 1 and 2 (HSV1 and HSV2). Again, despite sequence similarity between these viruses, VirScan is extremely specific and sensitive (Table 1). These results demonstrate that VirScan performs well in distinguishing between closely related viruses. The data also demonstrate that VirScan can detect antibodies to viruses that range in size from small (HIV and HCV) to very large (HSV1 and HSV2) with high sensitivity and specificity.
Population-Level Analysis of Viral Exposures After ascertaining the high accuracy of VirScan for a panel of viruses, the inventors undertook a large-scale screening of samples that lacked any annotation of exposure history. Using our multiplex approach, 106 million antibody-peptide interactions were assayed using samples from 569 human donors in duplicate. Antibody responses were detected to an average of 10 species of virus per sample (FIG. 4D). Each person is likely exposed to multiple distinct strains of some viral species. These results are the first such estimate. Antibody responses to 65 of the 206 species of virus in the library were detected in at least 5 individuals, and 87 species in at least 2 individuals (Table 2).
TABLE 2
Prevalence of all viruses detected in donors residing
in the United States. Known HIV-positive and HCV-positive
samples were excluded from this analysis.
Virus %
Epstein-Barr virus 88.1
Rhinovirus B 75.2
Human adenovirus C 74.6
Rhinovirus A 73.9
Human respiratory syncytial virus 68.0
Influenza A virus 58.4
Human herpesvirus 6B 57.1
Herpes simplex virus 1 54.1
Cytomegalovirus 49.8
Influenza B virus 42.2
Enterovirus C 37.3
Varicella zoster virus 24.4
Human adenovirus F 22.1
Human adenovirus B 17.5
Herpes simplex virus 2 16.5
Enterovirus A 16.5
Enterovirus B 11.9
Norwalk virus 11.6
Mamastrovirus 1 11.2
Human herpesvirus 7 10.2
Human parainfluenza virus 3 9.6
Human adenovirus D 8.6
Cowpox virus 7.6
Human adenovirus A 6.9
Human metapneumovirus 6.3
Human coronavirus HKU1 5.6
Influenza C virus 4.6
Hepatitis B virus 4.6
Human parvovirus B19 4.3
Human herpesvirus 6A 4.0
Aichivirus A 4.0
Alphapapillomavirus 9 3.6
Rubella virus 3.3
Hepatitis E virus 2.6
Human herpesvirus 8 2.3
Betapapillomavirus 1 2.3
Rotavirus A 2.0
Human parainfluenza virus 4 2.0
Torque teno virus 1.7
Measles virus 1.7
Human coronavirus NL63 1.7
Hepatitis C virus 1.7
Eastern equine encephalitis virus 1.7
Tanapox virus 1.3
Rotavirus C 1.3
Betapapillomavirus 2 1.3
Alphapapillomavirus 7 1.3
Alphapapillomavirus 11 1.3
Alphapapillomavirus 10 1.3
Venezuelan equine encephalitis virus 1.0
SARS-related coronavirus 1.0
Ross River virus 1.0
Human parainfluenza virus 1 1.0
Human adenovirus E 1.0
Betacoronavirus 1 1.0
Yaba monkey tumor virus 0.7
Variola virus 0.7
Torque teno mini virus 1 0.7
Rotavirus B 0.7
Lagos bat virus 0.7
Human coronavirus 229E 0.7
Hepatitis A virus 0.7
Dugbe virus 0.7
Dengue virus 0.7
Chikungunya virus 0.7
Bat coronavirus 1B 0.7
Alphapapillomavirus 1 0.7
Yellow fever virus 0.3
Vesicular stomatitis Indiana virus 0.3
Vaccinia virus 0.3
Uukuniemi virus 0.3
Torque teno midi virus 1 0.3
Orf virus 0.3
Monkeypox virus 0.3
Molluscum contagiosum virus 0.3
Marburg marburgvirus 0.3
Macacine herpesvirus 1 0.3
KI polyomavirus 0.3
JC polyomavirus 0.3
Isfahan virus 0.3
Human parainfluenza virus 2 0.3
Human immunodeficiency virus 2 0.3
Getah virus 0.3
Enterovirus D 0.3
Cercopithecine herpesvirus 2 0.3
Bunyamwera virus 0.3
Banna virus 0.3
Australian bat lyssavirus 0.3
Alphapapillomavirus 3 0.3
Alphapapillomavirus 2 0.3
Alphacoronavirus 1 0.3
The most frequently detected viruses are generally those known to commonly infect humans (FIG. 4E). The inventors occasionally detected what appear to be false positives that may be due to antibodies that cross react with non-viral peptides. For example, over 43% of the samples positive for Cowpox virus were right at the threshold of detection and had antibodies against a peptide from the C4L gene that shares an eight amino acid sequence (‘SESDSDSD’) with the Clumping Factor B protein from Staphylococcus aureus, which humans are known to generate antibodies against (13). This will become less of an issue as the inventors test more examples of sera from patients with known infections to determine the set of likely immunogenic peptides for a given virus. The inventors frequently detected antibodies to rhinovirus and respiratory syncytial virus, which are normally found only in the respiratory tract, indicating that VirScan using blood samples is still able to detect viruses that do not cause viremia. Antibodies to influenza, which is normally cleared, and poliovirus were also detected, which in modern times most people generate antibodies through vaccination. Since the original antigen is no longer present, the inventors are likely detecting antibodies secreted by long-lived memory B cells (14).
The frequency at which influenza (58.4%) and poliovirus (37.3%) was detected is lower than expected given that the majority of the population has been exposed to or vaccinated against these viruses. This may be due to reduced sensitivity because of a gradual narrowing and decrease of the long-lived B cell response in the absence of persistent antigen. The frequency of detecting varicella zoster virus (chicken pox) antibodies is also lower than expected (24.4%), even though the frequency of detecting other latent herpesviruses, such as Epstein-Barr virus (88.1%) and cytomegalovirus (49.8%), is similar to the prevalence reported in epidemiological studies (15-17). Without wishing to be bound by theory, this may reflect differences in how frequently these viruses shed antigens that stimulate B cell responses or a more limited humoral response that relies on epitopes that cannot be detected in a 56 residue peptide. It might be possible to increase the sensitivity of detection of these viral antibodies by stimulating memory B cells in vitro to probe the history of infection more deeply.
To assess differences in viral exposure between populations, the inventors split the samples into different groups based on age. HIV status, and geography. Results were first compared from children under the age often to adults within the United States (HIV-positive individuals were excluded from this analysis) (FIG. 5A). Fewer children were positive for most viruses, including Epstein-Barr virus. HSV1, HSV2, and influenza virus, which is consistent with our preliminary observations comparing the number of enriched peptides (FIG. 4A). Even though children may generate lower antibody titers in general, the data are in line with these younger donors probably have not yet been exposed to many of these viruses, for example HSV2 which is sexually transmitted (18).
When comparing results from HIV positive to HIV negative samples, the inventors found more of the HIV positive samples to also be seropositive for additional viruses, including HSV2, CMV, and Kaposi's sarcoma-associated herpesvirus (KSHV) (false discovery rate q<0.05, FIG. 5B). These results are consistent with prior studies indicating higher risk of these co-infections in HIV positive patients (19-21). Without wishing to be bound by theory, the patients with HIV may engage in activities that put them at higher risk for exposure to these viruses. Alternatively, these viruses may increase the risk of HIV infection.
Finally, the inventors compared the evidence of viral exposure between samples taken from adult HIV-negative donors residing in countries from four different continents (the United States. Peru, Thailand, and South Africa). In general, donors outside the United States had higher frequencies of seropositivity (FIGS. 5C-5E). For example, cytomegalovirus antibodies were found in significantly higher frequencies in samples from Peru, Thailand, and South Africa. Other viruses, such as Kaposi's sarcoma-associated herpesvirus and HSV1 were detected more frequently in donors from Peru and South Africa, but not Thailand. The observed seroprevalence of different adenovirus species varies across populations. Adenovirus C seropositivity was found at similar frequencies in all regions, but Adenovirus D seropositivity was generally higher outside the United States, while Adenovirus B seropositivity was higher in Peru and South Africa, but lower in Thailand. Without wishing to be bound by theory, the higher rates of virus exposure outside the United States could be due to differences in population density, cultural practices, sanitation, or genetic susceptibility. Interestingly, Influenza B seropositivity was more common in the United States compared to other countries, especially Thailand. The incidence of Influenza B is much lower than Influenza A but the standard flu vaccination contains both Influenza A and B strains, so the elevated frequency of individuals with seroreactivity may be due to higher rates of flu vaccination in the United States. Other viruses, such as Rhinovirus and Epstein-Barr virus, were detected at very similar frequencies in all the geographic regions.
Analysis of Viral Epitope Determinants After analyzing responses on the whole virus level, the inventors focused their attention on the specific peptides targeted by these antibodies. They detected antibodies to a total of 3,041 unique peptides in at least 2 samples, and 5,314 in at least 1 sample. Because of the presence of many related peptides in the library and the Immune Epitope Database (IEDB), for the following analysis the inventors consider a peptide “unique” only if it does not contain a continuous 7-residue subsequence (the estimated size of a linear B cell epitope) in common with any other peptide in the database. Analyzed as such, the VirScan database nearly doubles the 1,715 unique human B cell epitopes from human viruses in the IEDB (22). The epitopes identified in our unbiased analysis demonstrate a significant overlap with those contained in the IEDB (p<10−30, FIG. 4B). The amount of overlap is even greater for epitopes from viruses that commonly cause infection (FIG. 4D). It may have been possible to detect even more immunogenic peptides in common with the IEDB if more samples from individuals infected with rare viruses were tested. The inventors next analyzed the amino acid composition of recurrently enriched peptides. Enriched peptides tend to have more proline and charged amino acids and fewer hydrophobic amino acids, which is consistent with a previous analysis of B cell epitopes in the IEDB (FIGS. 11A-11B) (23). This trend likely reflects enrichment for amino acids that are surface exposed or can form stronger interactions with antibodies.
B Cell Responses Target Highly Similar Viral Epitopes Across Individuals The inventors compared the profile of peptides recognized by the antibody response in different individuals and found that for a given protein, each sample generally only had strong responses against one to three immunodominant peptides (FIG. 6). Surprisingly, it was found that the vast majority of seropositive samples for a given virus recognized the same immunodominant peptides, indicating that the antiviral B cell response is highly stereotyped across individuals. For example, in glycoprotein G from respiratory syncytial virus, there is only a single immunodominant peptide comprising positions 141-196 that is targeted by all samples with detectable antibodies to the protein, regardless of the country of origin (FIG. 6A).
For other antigens, the inventors observed inter-population serological differences. For example, two overlapping peptides from position 309-364 and 337-392 of the penton base protein from Adenovirus C frequently elicited antibody responses (FIG. 6B). However, donors from the United States and South Africa had much stronger responses to peptide 309-364 (p<10−6) relative to donors from Thailand and Peru. The inventors observed that for the EBNA1 protein from Epstein Barr virus, donors from all four countries frequently had strong responses to peptide 393-448 and occasionally to peptide 589-644. However, donors from Thailand and Peru had much stronger responses to peptide 57-112 (p<10−6) (FIG. 6C). These differences may reflect variation in the strains endemic in each region. In addition, polymorphism of MHC class II alleles, immunoglobulin genes and other modifiers that shape immune responses in each population likely play a role in defining the relative immunodominance of antigenic peptides.
To determine whether the humoral responses that target an immunodominant peptide are actually targeting precisely the same epitope, the inventors constructed single-, double-, and triple-alanine scanning mutagenesis libraries for 8 commonly recognized peptides. These were introduced into the same T7 bacteriophage display vector and subjected to the same immunoprecipitation and sequencing protocol using samples from the United States. Mutants that disrupt the epitope diminish antibody binding affinity and thus peptide enrichment. It was found that for all 8 peptides tested, there was a single, largely contiguous subsequence in which mutations disrupted binding for the majority of samples. As expected, the triple-mutants abolished antibody binding to a greater extent, and the enrichment patterns were similar among single-, double- and triple-mutants of the same peptide (FIG. 7, FIGS. 12-18). For 4 of the 8 peptides, a 9 to 15 amino acid region was critical for antibody recognition in >90% of samples (FIG. 7, FIGS. 12-14). One other peptide had a region of similar size that was critical in about half of the samples (FIG. 15). In another peptide, a single region was important for antibody recognition in the majority of the samples, but the extents of the critical region varied slightly for different samples and occasionally there are donors that recognize a completely separate epitope (FIG. 16). The remaining two peptides contained a single triple mutant that abolished binding in the majority of samples, but the critical region also extended further to different extents depending on the sample (FIGS. 17-18). Surprisingly, in one of these peptides, in addition to the main region surrounding positions 13-14 that is critical for binding, a single G36A mutation disrupted binding in almost half of the samples whereas none of the double- or triple-alanine mutants that also included the adjacent positions (L35, G37) affected binding (FIG. 18). It is possible that G36 plays a role in helping the peptide adopt an antigenic conformation and multiple-mutants containing the adjacent Leu or Gly residues rescue this ability. The inventors occasionally saw other examples of mutations that resulted in patterns of disrupted binding with no simple explanation, illustrating the complexity of antibody-antigen interaction.
Described herein is “VirScan”, a technology for identifying viral exposure and B cell epitopes across the entire known human virome in a single, multiplex reaction using less than a drop of blood. VirScan uses DNA microarray synthesis and bacteriophage display to create a uniform, synthetic representation of peptide epitopes comprising the human virome. Immunoprecipitation and high-throughput DNA sequencing reveals the peptides recognized by antibodies in the sample. VirScan is easily automated in 96-well format to enable high throughput sample processing. Barcoding of samples during PCR enables pooled analysis which can dramatically reduce the per-sample cost. The VirScan approach has several advantages for studying the effect of viruses on the host immune system. By detecting antibody responses, it can identify infectious agents that have been cleared after an effective host response. Current serological methods of antiviral antibody detection typically employ the selection of a single optimized antigen in order to achieve high accuracy. In contrast, VirScan's unique approach does not require such optimization in order to obtain similar performance. VirScan achieves high sensitivity by assaying each virus's complete proteome to detect any antibodies directed to epitopes that can be captured in a 56-residue fragment and high specificity by computationally eliminating cross-reactive antibodies. This unbiased approach identifies exposure to less well-studied viruses for which optimal serological antigens are not known and can be rapidly extended to include new viruses as they are discovered (24).
While sensitive and selective, VirScan also has a few limitations. First, it cannot detect epitopes that require post-translational modifications. Secondly, it cannot detect epitopes that involve discontinuous sequences on protein fragments greater than 56 residues. In principle, the latter can be overcome by using longer peptides or by using alternative protein display technologies such as Parallel Analysis of Translated ORFs (PLATO) (25). Third, VirScan is likely to be less specific compared with certain nucleic acid tests that discern highly related virus strains. However, VirScan demonstrates excellent serological discrimination among similar virus species, such as HSV1 and HSV2 and can even distinguish the genotype of HCV 72% of the time. The inventors envision VirScan will become an important tool for first-pass unbiased serologic screening applications. Individual viruses or viral proteins uncovered in this way can subsequently be analyzed in further detail using more focused assays, as demonstrated for a panel of immunodominant epitopes.
The inventors have demonstrated that VirScan is a sensitive and specific assay for detecting exposure to viruses across the human virome. Because it can be performed in high-throughput and requires minimal sample and cost, VirScan enables rapid and cost-effective screening of large numbers of samples to identify population-level differences in virus exposure across the human virome. In this work, the inventors analyzed over 106 million antibody-viral peptide interactions, in the first comprehensive study of pan-virus serology in a large, diverse population. In doing so we 87 different viral species were detected in 2 or more individuals. This is likely to be an underestimate of the history of viral infection as temporally distant infections may have significantly lower levels of circulating antibodies that are more difficult to detect. In addition, within a species an individual can be infected by multiple distinct strains of that viral species. The inventors identified known and novel differences in virus exposure between groups differing in age, HIV status, and geographic location across four different continents. The results described herein are largely consistent with previous studies, validating the effectiveness of VirScan. For example, cytomegalovirus antibodies were found in significantly higher frequencies in Peru, Thailand, and South Africa whereas Kaposi's sarcoma-associated herpesvirus and HSV1 antibodies were detected more frequently in Peru and South Africa, but not Thailand (15, 26-30). The inventors also uncovered previously undocumented serological differences, such as an increased rate of antibodies against Adenovirus B and respiratory syncytial virus in HIV positive individuals compared to HIV negative individuals. These differences can provide insight into how HIV co-infection alters the balance between host immunity and resident viruses, as well as help to identify pathogens that can increase susceptibility to HIV and other heterologous infections. HIV infection can reduce the immune system's ability to control reactivation of normally dormant resident viruses or to prevent opportunistic infections from taking hold and triggering a strong adaptive immune response. Beyond the epidemiological applications demonstrated here. VirScan can also be applied to identify viral exposures that correlate with disease or other phenotypes in virome-wide association studies.
These result identify a large number of novel B cell epitopes, cumulatively nearly doubling the number of all previously identified viral epitopes. Knowledge of these epitopes and the extent of their recognition can have important implications beyond the identification of potential neutralizing antibody targets or improving B cell epitope prediction algorithms. For example, these epitopes can be used to improve vaccine design by piggybacking on existing immune responses. Fusing a previously detected and globally recognized B cell epitope to an antigen can increase a vaccine's efficacy among a broad population by improving antigen presentation and aiding affinity maturation. B cells recognizing the epitope can act as antigen presenting cells to re-present epitopes on MHC class I and II (31). Antibodies secreted by these B cells can also participate in immune complexes with the antigen, which are critical for follicular dendritic cells to prime class switching and affinity maturation of B cells recognizing other epitopes on the same antigen (32). The inventors have utilized these data to identify globally immunodominant and commonly recognized “public” epitopes that can be used for this purpose. For most species of viruses, a single peptide is recognized in over 70% to 97% of samples positive for that species (Table 3).
TABLE 3
Certain peptides are commonly targeted by the antibody response. The inventors
determined the peptide from each species of virus that was most frequently targeted in donors
that were exposed to that virus. In each row, the frequency is the percentage of samples
positive for the species of virus that had antibodies targeting the peptide sequence shown. The
parent protein of the peptide is also listed.
Species Protein Peptide %
Rhinovirus B Genome QTDALTEGLSDELEEVIVEKTKQTLASVSSGPKHTQSVPALTANETG 97.2%
polyprotein ATLPTRPSD
Human Envelope TASGEEVAVLSHHDSLESRRLREEEDDDDDEDFEDA 92.7%
herpesvirus 5 glycoprotein
M
Enterovirus B Genome IEQKQLLQGDVEEAVNRAVARVADTLPTGPRNSESIPALTAAETGHT 94.1%
polyprotein SQVVPGDTM
Human Envelope RRHTQKAPKRIRLPHIREDDQPSSHQPLFY 88.9%
herpesvirus 1 glycoprotein
D
Human Epstein- SPPRRPPPGRRPFFHPVAEADYFEYHQEGGPDGEPDMPPGAIEQGPA 86.3%
herpesvirus 4 Barr nuclear DDPGEGPST
antigen 1
Human Attachment NKPSTKPRPKNPPKKPKDDYHFEVFNFVPCSICGNNQLCKSICKTIPS 84.9%
respiratory glycoprotein NKPKKKPT
syncytial virus
Human Pre- MTQGRRGNVYWVRDSVSGLRVPVRTRPPRN 80.1%
adenovirus C histone-like
nucleoprotein
Enterovirus C Genome QGALTLSLPKQQDSLPDTKASGPAHSKEVPALTAVETGATNPLAPSD 85.4%
polyprotein TVQTRHVVQ
Human Envelope PDPAVAPTSAASRKPDPAVAPTSAASRKPDPAVAPTSAATRKPDPA 76.9%
herpesvirus 3 glycoprotein C VAPTSAASRK
Norwalk virus Non- LSSMAITFKRALGARPKQPPPREILQRPPRPPTPELVKKIPPPPPNGE 84.6%
structural DELVVSYS
polyprotein
Human Envelope ERYLKDQQLLGIWGCSGKLICTTAVPWNASWSNKSLEQIWNNMTW 75.8%
immunodeficiency glycoprotein MEWDREINNYT
virus 1 gp160
Influenza A Hemagglutinin LGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGRICDSPHRILDGK 47.9%
virus NCTLIDAL
The inventors identified a set of two peptides that together are recognized by >95% of all screened samples and a set of five peptides that together are recognized in >99% of screened samples. They also found that the B cell response to viral epitopes is highly similar between individuals across many viral proteins. Without wishing to be bound by theory, one possible model for this striking similarity is that these regions possess properties favorable for antigenicity, such as accessibility. Another model is that the same or highly similar B cell receptor sequences that recognize these epitopes are commonly generated. Identical T cell receptor sequences (“public” clonotypes) have been found in multiple individuals and are thought to be the result of biases during the recombination process that favor certain amino acid sequences (33). V(D)J recombination of the immunoglobulin heavy and light chain loci is also heavily biased (34). Highly similar or even identical complementarity determining region 3 (CDR3) sequences have been observed in dengue virus specific antibodies from different individuals (35). Without wishing to be bound by theory, slight differences in the antibody CDR3 sequence may subtly alter antibody-antigen interaction, leading to the slight variations observed in the extent of critical epitope regions. It is possible that, rather than being an exception for dengue specific antibodies, this represents a general phenomenon: inherent biases in V(D)J recombination generate the same or similar antibodies in multiple individuals that recognize highly similar epitopes.
In conclusion, VirScan is a powerful new technology that enables human virome-wide exploration—at the epitope level—of immune responses in large numbers of individuals. The inventors have demonstrated its effectiveness for determining viral exposure and characterizing viral B cell epitopes in high throughput and at high resolution. These studies have revealed intriguing general properties of the human immune system, both at the individual and population scale. VirScan is an important tool in uncovering the effect of host-virome interactions on human health and disease and can easily be expanded to include other human pathogens such as bacteria, fungi and protozoa.
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- 32. Y. Aydar, S. Sukumar, A. K. Szakal, J. G. Tew, The influence of immune complex-bearing follicular dendritic cells on the IgM response, Ig class switching, and production of high affinity IgG. J. Immunol. 174, 5358-66 (2005).
- 33. M. F. Quigley et al., Convergent recombination shapes the clonotypic landscape of the naive T-cell repertoire. Proc. Natl. Acad. Sci. U.S.A. 107, 19414-19419 (2010).
- 34. K. J. L. Jackson, M. J. Kidd, Y. Wang, A. M. Collins, The shape of the lymphocyte receptor repertoire: lessons from the B cell receptor. Front. Immunol. 4, 263 (2013).
- 35. P. Parameswaran et al., Convergent antibody signatures in human dengue. Cell Host Microbe. 13, 691-700 (2013).
- 36. M. Meyer, M. Kircher, Illumina sequencing library preparation for highly multiplexed target capture and sequencing. Cold Spring Harb. Protoc. 5 (2010), doi:10.1101/pdb.prot5448.
- 37. B. Langmead, C. Trapnell, M. Pop, S. L. Salzberg, Ultrafast and memory-efficient alignment of short DNA sequences to the human genome. Genome Biol, 1-10 (2009).
Example 7: Exemplary Materials and Methods Patient Samples:
Specimens originating from human donors were collected after informed written consent was obtained and under a protocol approved by the local governing human research protection committee. Secondary use of all samples for the purposes of this work was exempted by the Brigham and Women's Hospital Institutional Review Board (Protocol #: 2013P001337). Samples included donors residing in Thailand (n=48), donors residing in Peru (n=48), donors residing in South Africa (n=48), and the remaining donors residing in the Unites States including HIV+ donors (n=61) and HCV+ donors (n=26). All serum and plasma samples were stored in aliquots at −80° C. until use.
Design and Cloning of Viral Peptide and Scanning Mutagenesis Library Sequences:
For the virome peptide library, the inventors first downloaded all protein sequences in the UniProt database from viruses with human host and collapsed on 90% sequence identity. The clustering algorithm UniProt represents each group of protein sequences sharing at least 90% sequence similarity with a single representative sequence. Then, the inventors created 56 aa peptide sequences tiling through all the proteins with 28 aa overlap. The inventors reverse translated these peptide sequences into DNA codons optimized for expression in E. coli, making synonymous mutations when necessary to avoid restriction sites used in subsequent cloning steps (EcoRI and XhoI). Finally, the inventors added the adapter sequence “aGGAATTCCGCTGCGT” to the 5′ end and “CAGGgaagagctcgaa” to the 3′ end to form the 200 nt oligonucleotide sequences.
For the scanning mutagenesis library, the inventors first took the sequences of the peptides to be mutagenized. For each peptide, they made all single-, double-, and triple-mutants sequences scanning through the whole peptide. Non-alanine amino acids were mutated to alanine and alanines were mutated to glycine. The inventors reverse translated these peptide sequences into DNA codons, making synonymous mutations when necessary to avoid restriction sites used in subsequent cloning steps (EcoRI and XhoI). The inventors also made synonymous mutations to ensure that the 50 nt at the 5′ end of peptide sequence is unique to allow unambiguous mapping of the sequencing results. Finally, the inventors added the adapter sequence “aGGAATTCCGCTGCGT” to the 5′ end and “CAGGgaagagctcgaa” to the 3′ end to form the 200 nt oligonucleotide sequences.
The 200 nt oligonucleotide sequences were synthesized on a releasable DNA microarray. DNA was PCR amplified using the primers T7-PFA (aatgatacggcggGAATCCGCTGCGT) and T7-PRA (caagcagaagACTCGAGCTCTICCCTG), the product was digested with EcoRI and XhoI, and the fragment was cloned into the EcoRI/SalI site of the T7FNS2 vector (8). The resulting library was packaged into T7 bacteriophage using the T7 Select Packaging Kit (EMD Millipore) and amplified using the manufacturer suggested protocol.
Phage Immunoprecipitation and Sequencing:
The inventors performed phage immunoprecipitation and sequencing using a slightly modified version of previously published PhIP-Seq protocols (8, 10). First, the inventors blocked each well of a 96 deep-well plate with 1 mL of 3% BSA in TBST overnight on a rotator at 4° C. To each pre-blocked well, the inventors added sera or plasma containing approximately 2 μg of IgG (quantified using a Human IgG ELISA Quantitation Set (Bethyl Laboratories)) and 1 mL of the bacteriophage library diluted to approximately 2×105 fold representation (2×1010 pfu for a library of 105 clones) in phage extraction buffer (20 mM Tris-HCl, pH 8.0, 100 mM NaCl, 6 mM MgSO4). Two technical replicates were performed for each sample. The antibodies were permitted to bind the phage overnight on a rotator at 4° C. The next day, 20 μL each of magnetic Protein A and Protein G Dynabeads (INVITROGEN) was added to each well and immunoprecipitation was allowed to occur for 4 h on a rotator at 4° C. Using a 96-well magnetic stand, the beads were washed three times with 400 μL of PhIP-Seq wash buffer (50 mM Tris-HCl, pH 7.5, 150 mM NaCl, 0.1% NP-40). After the final wash, the beads were resuspended in 40 μL of water and the phage lysed at 95° C. for 10 min. We also lysed phage from the library before immunoprecipitation (“input”) and after immunoprecipitation with beads alone.
The inventors prepared the DNA for multiplexed ILLUMINA™ sequencing using a slightly modified version of a previously published protocol (36). Two rounds of PCR amplification were performed on the lysed phage material using hot start Q5 polymerase according to the manufacturer suggested protocol (NEB). The first round of PCR used the primers IS7_HsORF5_2 (ACACTCITICCCTACACGACTCCAGTCAGGTGTGATGCTC) and IS8_HsORF3_2 (GTGACTGGAGTICAGACGTGTGCTCTTCCGATCCGAGCTATCGTCGTCATCC). The second round of PCR used 1 μL of the first round product and the primers IS4_HsORF5_2 (AATGATACGGCGACCACCGAGATCTACACTCTITCCCTACACGACTCCAGT) and a different unique indexing primer for each sample to be multiplexed for sequencing (CAAGCAGAAGACGGCATACGAGATxxxxxxxGTGACTGGAGTTCAGACGTGT, where “xxxxxxx” denotes a unique 7 nt indexing sequence). After the second round of PCR, the inventors determined the DNA concentration of each sample by qPCR and pooled equimolar amounts of all samples for gel extraction. Following gel extraction, the pooled DNA was sequenced by the Harvard Medical School Biopolymers Facility using a 50 bp read cycle on an Illumina HiSeq 2000 or 2500. The inventors pooled up to 192 samples for sequencing on each lane and generally obtained approximately 100-200 million reads per lane (500,000 to 1,000,000 reads per sample).
Informatics and Statistical Analysis:
The inventors performed the initial informatics and statistical analysis using a slightly modified version of the previously published technique (8, 10). They first mapped the sequencing reads to the original library sequences using Bowtie and counted the frequency of each clone in the “input” and each sample “output” (37). Since the majority of clones are not enriched the inventors use the observed distribution of output counts as a null distribution. It was found that a zero-inflated generalized poisson distribution fits the output counts well. The inventors used this null distribution to calculate a p-value for the likelihood of enrichment for each clone. The probability mass function for the zero-inflated generalized poisson distribution is
The inventors used maximum likelihood estimation to regress the parameters π, θ, and λ to fit the distribution of counts after immunoprecipitation for all clones present at a particular frequency count in the input. This procedure was repeated for all of the observed input counts and it was found that θ and λ are well fit by linear regression and π by an exponential regression as a function of input count (FIG. 19). Finally, for each clone the inventors used its input count and the regression results to determine the null distribution based on the zero-inflated generalized poisson model, which were used to calculate the −log10(p-value) of obtaining the observed count.
To call hits, the inventors determined the threshold for reproducibility between technical replicates based on a previously published method (10). Briefly, the inventors made scatter plots of the log 10 of the −log 10 (p-values) and used a sliding window of width 0.005 from 0 to 2 across the axis of one replicate. For all the clones that fell within each window, the inventors calculated the median and median absolute deviation of the log 10 of the −log 10 (p-values) in the other replicate and plotted it against the window location (FIG. 8). The inventors called the threshold for reproducibility the first window in which the median was greater than the median absolute deviation. It was found that the distribution of the threshold −log 10 (p-value) was centered around a mean of approximately 2.3 (FIG. 9). So the inventors called a peptide a “hit” if the −log 10 (p-value) was at least 2.3 in both replicates. The inventors eliminated the 593 hits that came up in at least three of the twenty-two immunoprecipitations with beads alone (negative control for non-specific binding). The inventors also filtered out any peptides that were not enriched in at least two of the samples.
To call virus exposures, the inventors grouped peptides according to the virus the peptide is derived from. All peptides were grouped from individual viral strains for which there were complete proteomes. The sample was counted as positive for a species if it was positive for any strain from that species. For viral strains which had partial proteomes, the inventors grouped them with other strains from the same species to form a complete set and bioinformatically eliminated homologous peptides. A threshold number of hits per virus was set based on the size of the virus. It was found that there is approximately a power-law relationship between size of the virus and the average number of hits per sample (FIG. 10). In comparing results from VirScan to samples with known infection, it was empirically determined that a threshold of 3 hits for herpes simplex virus 1 worked the best. This value and the slope of the best fit line was used to scale the threshold for other viruses. The inventors also set a minimum threshold of at least 2 hits in order to avoid false positives from single spurious hits.
To bioinformatically remove cross-reactive antibodies, the inventors first sorted the viruses by total number of hits in descending order. The inventors then iterated through each virus in this order. For each virus, the inventors iterated through each peptide hit. If the hit shared a subsequence of at least 7 aa with any hit previously observed in any of the viruses from that sample, that hit was considered to be from a cross-reactive antibody and would be ignored for that virus. Otherwise, the hit is considered to be specific and the score for that virus is incremented by one. In this way, the inventors summed only the peptide hits that do not share any linear epitopes. The inventors compared the final score for each virus to the threshold for that virus to determine whether the sample is positive for exposure to that virus
To identify differences between populations, Fisher's exact test was first used to calculate a p-value for the significance of association of virus exposure with one population versus another. Then, the inventors constructed a null-distribution of Fisher's exact p-values by randomly permuting the sample labels 1000 times and re-calculating the Fisher's exact p-value for each virus. Using this null-distribution, the false discovery rate was calculated by dividing the number of permutation p-values more extreme than the one observed by the total number of permutations.
IEDB Epitope Overlap Analysis:
The inventors downloaded data for all continuous human B cell epitopes from IEDB and filtered out all non-viral epitopes (22). To avoid redundancy in these 4.549 viral epitopes, the inventors grouped together epitopes that share a 7 aa subsequence, yielding 1,877 non-redundant epitope groups. Of these groups, 1,715 contain a member epitope that is also a subsequence of a peptide in the VirScan library. This represents the total number of epitopes that could be detected by VirScan. To determine the number of epitopes detected, the inventors tallied the number of epitope groups with at least one member that is contained in a peptide that was enriched in one or two samples. Finally, to determine the number of non-redundant new epitopes detected, the inventors grouped non-IEDB epitopes containing peptides that share a 7 residues subsequence and counted the number of these non-redundant peptide groups.
Scanning Mutagenesis Data Analysis:
First, the inventors estimated the fractional abundance of each peptide by dividing the number of reads for that peptide by the total number of reads for the sample. Then, the inventors divided the fractional abundance of each peptide after immunoprecipitation by the fractional abundance before immunoprecipitation to get the enrichment. To calculate relative enrichment, the inventors divided enrichment of the mutated peptide by enrichment of the wild-type peptide. Since most of the single-mutant peptides had wild-type levels of enrichment, the inventors averaged enrichment of the wild-type peptide enrichment with enrichment of single-mutant peptides in the middle two quartiles to get a better estimate of the wild-type peptide enrichment.
Provided herein in Table 4 are exemplary peptides from a plurality of viruses and viral families that can bind antibodies generated by a subject in response to the virus. That is, the peptides described in Table 4 act as epitopes for antibodies present in a biological sample, permitting the detection and/or identification of antibodies generated against a particular virus or plurality of viruses.
The exemplary peptides in Table 4 represent high confidence peptides containing epitopes that were found. There are ˜5000 peptides, representing approximately 2000 epitopes with many variants of related peptides for viruses in a given family.
The peptides in Table 4 can be used to generate a variety of display library compositions for use with the methods as described herein. For example, a display library can comprise at least 2 peptides from Table 4, in any desired combination. In other embodiments, the display library can comprise at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 15, at least 20, at least 30, at least 40, at least 50, at least 60, at least 70, at least 80, at least 90, at least 100, at least 200, at least 300, at least 400, at least 500, at least 600, at least 700, at least 800, at least 900, at least 1000, at least 2000, at least 3000, at least 4000, at least 5000 peptides or more as selected from Table 4, in any desired combination. In some embodiments, the display library comprises all of the peptides in Table 4.
In certain embodiments, the display library can comprise peptides from at least 1 family (e.g., human herpesvirus) or sub-family (e.g., human herpesvirus 5) of related viruses. For example, the display library can be a “human herpesvirus” display library that would yield information regarding the virus or plurality of viruses a subject has been exposed to that are within the herpesvirus family. Such embodiments are particularly useful for determining the sub-type of a particular herpesvirus that a subject has been exposed to.
In another example, the display library can comprise peptides from e.g., a single sub-type of virus, such as the human herpesvirus serotype 5. This approach is particularly useful when a high sensitivity test is required since multiple epitopes for a given subtype of virus can be reflected in a relatively small sample.
Alternatively, a single peptide can be derived from each family of viruses from e.g., Table 4. This type of display library can be useful as a crude screen to determine the family of viruses to which the subject has been exposed.
In other embodiments, the display library can comprise peptides from at least 2 families, at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 11, at least 12, at least 13, at least 14, at least 15, at least 16, at least 17, at least 18, at least 19, at least 20, at least 25, at least 30, at least 35, at least 40, at least 45, or at least 50 peptides from at least 1 family (e.g., human herpesvirus) or sub-family (e.g., human herpesvirus 5) of viruses from Table 4 (e.g., at least 2, at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 11, at least 12, at least 13, at least 14, at least 15, at least 16, at least 17, at least 18, at least 19, at least 20, at least 25, at least 30, at least 35, at least 40, at least 45, or at least 50 viral families or subtypes), in any desired combination. In one embodiment, the display library comprises peptides from each of the viral families or subfamilies in Table 4.
In one embodiment, the display library comprises all of the peptides listed in Table 4. This embodiment provides an assay of high sensitivity since it is representative of a variety of epitopes from each virus and also efficiency as it can be a high throughput means to detect the subject's exposure to a very large number of viruses in a variety of families.
Example 8: Application of the Platform to Non-Viral Antigens The platform has been expanded to the detection of antibodies against a variety of non-viral pathogens and antigens of interest. Specifically, a library was generated that tiles across the complete proteomes of 6 bacterial species in 56 amino acid fragments with 28 amino acid overlap. Immunoprecipitation of this library with patient serum provides genome-wide mapping of anti-bacterial antibodies. FIG. 20 shows the Chlamydia trachomatis proteins enriched by antibodies from 12 human donors. This experiment revealed known and novel antigenic proteins and demonstrated that this platform can be applied to detect anti-bacterial antibodies on a genome-wide scale.
The technology is further applied to characterize the antibody response against 571 protein antigens of interest in parallel, including common allergens, antigens from bacteria, and antigens from other pathogens. It was possible to detect and map the antibody responses to these various classes of antigens as shown for Pneumococcal histidine triad protein D (FIG. 21), Triticum aestivum (Wheat) glutenin (FIG. 22), and Bos taurus (Bovine) Kappa-casein (FIG. 23). These results demonstrate that our technology can be used to profile a broad range of non-viral antibody responses simultaneously.
Example 9: Detection of Vaccine-Induced Antibodies and the Measurement of Antibody Levels Over Time The VirScan platform was used to longitudinally profile the anti-viral antibodies in a cohort of children from the time of birth to around the age of three. The inventors were able to measure the persistence of maternal antibodies, time the first exposure to various viruses, and detect vaccine-induced antibodies to Measles and Rubella (FIG. 24).
The various methods and techniques described above provide a number of ways to carry out the invention. Of course, it is to be understood that not necessarily all objectives or advantages described may be achieved in accordance with any particular embodiment described herein. Thus, for example, those skilled in the art will recognize that the methods can be performed in a manner that achieves or optimizes one advantage or group of advantages as taught herein without necessarily achieving other objectives or advantages as may be taught or suggested herein. A variety of advantageous and disadvantageous alternatives are mentioned herein. It is to be understood that some preferred embodiments specifically include one, another, or several advantageous features, while others specifically exclude one, another, or several disadvantageous features, while still others specifically mitigate a present disadvantageous feature by inclusion of one, another, or several advantageous features.
Furthermore, the skilled artisan will recognize the applicability of various features from different embodiments. Similarly, the various elements, features and steps discussed above, as well as other known equivalents for each such element, feature or step, can be mixed and matched by one of ordinary skill in this art to perform methods in accordance with principles described herein. Among the various elements, features, and steps some will be specifically included and others specifically excluded in diverse embodiments.
Although the invention has been disclosed in the context of certain embodiments and examples, it will be understood by those skilled in the art that the embodiments of the invention extend beyond the specifically disclosed embodiments to other alternative embodiments and/or uses and modifications and equivalents thereof.
Many variations and alternative elements have been disclosed in embodiments of the present invention. Still further variations and alternate elements will be apparent to one of skill in the art. Among these variations, without limitation, are systems and methods incorporating a display system for identifying antibody generation, compositions arising from the described systems and methods, and the particular use of the products created through the teachings of the invention. Various embodiments of the invention can specifically include or exclude any of these variations or elements.
In some embodiments, the numbers expressing quantities of ingredients, properties such as concentration, reaction conditions, and so forth, used to describe and claim certain embodiments of the invention are to be understood as being modified in some instances by the term “about.” Accordingly, in some embodiments, the numerical parameters set forth in the written description and attached claims are approximations that can vary depending upon the desired properties sought to be obtained by a particular embodiment. In some embodiments, the numerical parameters should be construed in light of the number of reported significant digits and by applying ordinary rounding techniques. Notwithstanding that the numerical ranges and parameters setting forth the broad scope of some embodiments of the invention are approximations, the numerical values set forth in the specific examples are reported as precisely as practicable. The numerical values presented in some embodiments of the invention may contain certain errors necessarily resulting from the standard deviation found in their respective testing measurements.
In some embodiments, the terms “a” and “an” and “the” and similar references used in the context of describing a particular embodiment of the invention (especially in the context of certain of the following claims) can be construed to cover both the singular and the plural. The recitation of ranges of values herein is merely intended to serve as a shorthand method of referring individually to each separate value falling within the range. Unless otherwise indicated herein, each individual value is incorporated into the specification as if it were individually recited herein. All methods described herein can be performed in any suitable order unless otherwise indicated herein or otherwise clearly contradicted by context. The use of any and all examples, or exemplary language (e.g. “such as”) provided with respect to certain embodiments herein is intended merely to better illuminate the invention and does not pose a limitation on the scope of the invention otherwise claimed. No language in the specification should be construed as indicating any non-claimed element essential to the practice of the invention.
Groupings of alternative elements or embodiments of the invention disclosed herein are not to be construed as limitations. Each group member can be referred to and claimed individually or in any combination with other members of the group or other elements found herein. One or more members of a group can be included in, or deleted from, a group for reasons of convenience and/or patentability. When any such inclusion or deletion occurs, the specification is herein deemed to contain the group as modified thus fulfilling the written description of all Markush groups used in the appended claims.
Preferred embodiments of this invention are described herein, including the best mode known to the inventors for carrying out the invention. Variations on those preferred embodiments will become apparent to those of ordinary skill in the art upon reading the foregoing description. It is contemplated that skilled artisans can employ such variations as appropriate, and the invention can be practiced otherwise than specifically described herein. Accordingly, many embodiments of this invention include all modifications and equivalents of the subject matter recited in the claims appended hereto as permitted by applicable law. Moreover, any combination of the above-described elements in all possible variations thereof is encompassed by the invention unless otherwise indicated herein or otherwise clearly contradicted by context.
Furthermore, numerous references have been made to patents and printed publications throughout this specification. Each of the above cited references and printed publications are herein individually incorporated by reference in their entirety.
In closing, it is to be understood that the embodiments of the invention disclosed herein are illustrative of the principles of the present invention. Other modifications that can be employed can be within the scope of the invention. Thus, by way of example, but not of limitation, alternative configurations of the present invention can be utilized in accordance with the teachings herein. Accordingly, embodiments of the present invention are not limited to that precisely as shown and described.
TABLE 4
Exemplary High Confidence Peptides Containing Epitopes for Viruses
virus number fraction
peptide_substring species positive positive positive
52925 SRPRRPPPGRRPFFHPVAEADYFEYHQEGGPDGEPDMPPGAIEQGPADDPGEGPS Human herpesvirus 4 514 443 0.861867704
52701 SSSSGSPPRRPPPGRRPFFHPVGDADYFEYLQEGGPDGEPDVPPGAIEQGPTDDP Human herpesvirus 4 514 435 0.846303502
20957 SPPRRPPPGRRPFFHPVGEADYFEYHQEGGPDGEPDVPPGAIEQGPADDPGEGPS Human herpesvirus 4 514 427 0.8307393
33029 TSGATAAASAAAAVDTGSGGGGQPHDTAPRGARKK Human herpesvirus 4 514 391 0.760700389
59986 SPIHEPESHNSPEAPILFPDDWYPPSIDPADLDESWDYIFETTESPSSDEDYVEG Human herpesvirus 4 514 368 0.715953307
32103 NVSPIHEPESHNSPEAPILFPDDWYPPSIDPADLDESWDYIFETTESPSSDEDYV Human herpesvirus 4 514 306 0.595330739
21029 YEEFNLETTKLIAAEEGRACGETNEGLEYDEDSENDELLFLPNKKP Human herpesvirus 4 514 279 0.542801556
55869 QPAPQAPYQGYQEQPPPQAPYQGYQEQPAPQAPYQGYQEPPAHGLQSSSYPGYAG Human herpesvirus 4 514 257 0.5
47679 DSTTPRTRYNATTYLPPSTSSKLRPRWTFTSPPVTTAQATVPVPPTSQPRFSNLSM Human herpesvirus 4 514 246 0.478595222
20864 MKKAWLSRAQQADAGGASGSEDPPDYGDQGNVTQVGSEPISPEIGPFELSAASED Human herpesvirus 4 514 235 0.457198444
55868 QEQPAPQAPYQGYQEQPAPQAPYQGYQEQPAPQAPYQGYQEQPPPQAPYQGYQEQ Human herpesvirus 4 514 231 0.449416342
55867 DVAAPPAPRAPYQGYQEQPAPQAPYQGYQEQPAPQAPYQGYQEQPAPQAPYQGYQ Human herpesvirus 4 514 228 0.443579767
20923 LDLSLHPDVAAQPAPQAPYQGYQEPPAPQAPYQGYQEPPPPQAPYQGYQEPPAHG Human herpesvirus 4 514 225 0.437743191
56035 ESHNSPEAPILFPDDWYPPSIDPADLDESWDYIFETTESPSSDEDYVEGPSKRPR Human herpesvirus 4 514 221 0.429961089
55866 MSPTQPISHEEQPRYEDPDAPLDLSLHPDVAAPPAPRAPYQGYQEQPAPQAPYQGY Human herpesvirus 4 514 214 0.416342412
52013 PGGSGSGPRHRDGVRRPQKRPSCIGCKGAHGGTGAGCGAGAGGAGAGGAGAGGAG Human herpesvirus 4 514 205 0.398832685
33028 LASSAPSTAVAQSATPSVSSSISSLRAATSGATAAASAAAAVDTGSGGGGQPHDT Human herpesvirus 4 514 202 0.392596109
57548 PVGQADYFEYHQEGGPDGEPDMPPGAIEQGPADDPGEGPSTGPRGQGDGGRRKKGC Human herpesvirus 4 514 193 0.385214003
20860 GKHTTGHGARTSTEPTTDYGGDSTTPRPRYNATTYLPPSTSSKLRPRWTFTSPPVT Human herpesvirus 4 514 195 0.379377432
53212 EVVSGSPSGPRGDRSEVTGPARPGPPGIGPEGPLGQLLRRHRSPSPTRGGQEPRR Human herpesvirus 4 514 193 0.375486381
52932 PTCNIKVTVCSFDDGVDLPPWFPPMVEGAAAEGDDGDDGDEGGDGDEGEEGQ Human herpesvirus 4 514 184 0.357976654
52988 MKKAWLSRAQQADAGGASGSEDPPDYGDQGNVQQVGSDPISPAIGPFELSAASED Human herpesvirus 4 514 180 0.350194553
33027 AGAHAHLGGSSATPVQQAQAAASAGTGALASSAPSTAVAQSATPSVSSSISSLRA Human herpesvirus 4 514 178 0.346303502
53214 RRRVLVQQEEEVVSGSPSGPRGDRSEVPGPARPGPPGIGPEDPLGQLLRRHRSPS Human herpesvirus 4 514 178 0.346303502
56027 PTPLPPATLTVPPRPTRPTTLPPTPLLTVLQRPTELQPTPSPPRMHLPVLHVPDQS Human herpesvirus 4 514 177 0.344357977
16210 MKKAWLSRAQQADAGGASGSEDPPDYGDQGNVTQVESEPISPEIGPFELSAASEDI Human herpesvirus 4 514 174 0.338521401
14690 SGSGPRHRDGARRPPKRPSCIGC Human herpesvirus 4 514 166 0.322957198
20922 ESSHLSSMSPTQPISHEEQPRYEDPDAPLDLSLHPDVAAQPAPQAPYQGYQEPPA Human herpesvirus 4 514 162 0.315175097
60123 MMDPNSTSEDVKFTPDPYQVPFVQAFDQATRVYQDLGGPSQAPLPCVLWPVLPEPI Human herpesvirus 4 514 160 0.311284047
52073 MMDPNSTSEDVKFTPDPYQVPFVQAFDQATRVYQDLGGPSQAPLPCVLWPVLPEPI Human herpesvirus 4 514 157 0.305447471
52949 GSRESPSLPSSKKGADEFEAWLEAQDANFEDVQKEFSGLRVIGDEDEDGSEDGEF Human herpesvirus 4 514 157 0.305447471
59987 PADLDESWDYIFETTESPSSDEDYVEGPSKRPRPSIC Human herpesvirus 4 514 154 0.299610895
53219 EEEVVSGSPSGPRGDRSEVPGPARPGPPGIGPEGPLGQLLRRHRSPSPTRGGQEPR Human herpesvirus 4 514 153 0.29766537
60010 HEPESSDSEEPPFLFPSDWYPPTLEPAELDESWEGIFETTESHSSDEENVGGPSK Human herpesvirus 4 514 149 0.289883268
60009 ENSPTPGPSTAGPVCRVTPSATPDISPIHEPESSDSEEPPFLFPSDWYPPTLEPAE Human herpesvirus 4 514 149 0.289883268
32080 YFDIPLTEPINQGASAAHFLPQQPMEGPLVPEQWMFPGAALSQSVRPGVAQSQYF Human herpesvirus 4 514 147 0.235992218
21035 YHANRTLTQRMMLTVIPATTIAPTTLVSHTTSTSHRPHRRPVSKRPTHKPVTLGPF Human herpesvirus 4 514 146 0.284046693
52948 TGSSQAAPSSSSVAPVASLSGDLEEEEEGSRESPSLPSSKKGAEDFEAWLEAQDA Human herpesvirus 4 514 144 0.280155642
52097 HVPDQSMHPLTHQSTPNDPDSPEPRSPTVFYNIPPMPLPPSQLPPPAAPAQPPPGV Human herpesvirus 4 514 144 0.280155642
29912 MSAPRKVRLPSVKAVDMSMEDMAARLARLESENKALKQQVLRGGACASSTSVPSA Human herpesvirus 4 514 139 0.270428016
20924 QAPYQGYQEPPPQAPYQGYQEPPAHGLQSSSYPGYAGPTPRSQHPCYRHWAPW Human herpesvirus 4 514 138 0.26813249
56028 VLQRPTELQPTPSPPRMHLPVLHVPDQSMHPLTHQSTPNDPDSPEPRSPTVFYNIP Human herpesvirus 4 514 137 0.266336965
92702 EYLQEGGPDGEPDVPPGAIEQGPTDDPGEGPSTGPRGQGDGGRRKKGGWFGKHRG Human herpesvirus 4 514 132 0.256809339
32104 IDPADLDESWDYIFETTESPSSDEDYVEGPSKRPRPSIC Human herpesvirus 4 514 130 0.252918288
32076 PRSPSQMSVRDRLARLRAEAQVKQASVEVQPPQLTQVSPQQPMEGPLVPEQQMFP Human herpesvirus 4 514 129 0.250972763
52982 PRVRGGGRVSAAAITWVPKPNVEVWPVDPPPPVNFNKTAEQEYGDKEIKLPHWTP Human herpesvirus 4 514 126 0.24513618
20958 GGPDGEPDVPPGAIEQGPADDPGEGPSTGPRGQGDGGRRKKGGWFGKHRGQGGSN Human herpesvirus 4 514 122 0.237354086
32055 MDKDRPGPPALDDNMEEEVPSTSVVQEQVSAGDWENVLIELSDSSSEKEAEDAHL Human herpesvirus 4 514 122 0.237354086
60340 PPWFPPMVEGAAAEGDDGDDGDDGDEGGDGDEGEEGQ Human herpesvirus 4 514 120 0.233465035
52924 SRERARGRGRGRGEKRPRSPSSQSSSSGSPPRRPPPGRRPFFHPVAEADYFEYHQI Human herpesvirus 4 514 119 0.23151751
52822 TIPEAGAAGNSGPREDTNPQQPTTEGHHRGKKLVQASASGVAQSKEPTTPKAKSV Human herpesvirus 4 514 115 0.223735409
32095 PPRPTPPTPLPPATLTVPPRPTRPTTLPPTPLLTVLQRPTELQPTPSPPRMHLVL Human herpesvirus 4 514 115 0.223735409
60194 LPQQPMEGPLVPERWMFQGATLSQSVRPGVAQSQYFDLPLTQPINHGAPAAHFLH Human herpesvirus 4 514 113 0.219844358
53222 VPGPARPGPPGIGPEGPLGQLLRRHRSPSPTRGGQEPRRVRRRVLVQQEEEVVSG Human herpesvirus 4 514 110 0.214007782
53013 TMQPPPRAPTPMPPPQGPPTAMQRPQGAPTPMPPPQGPPTAMQRPRGAPTPMPPPQ Human herpesvirus 4 514 109 0.212062257
16207 PSTSSKLRPRWTFTSPPVTTAQATVPVPPTSQPRFSNLSMLVLQWASLAVLTLLL Human herpesvirus 4 514 108 0.210116732
56034 PTPGPSNAAPVCRNSHTATPNVSPIHEPESHNSPEAPILFPDDWYPPSIDPADLD Human herpesvirus 4 514 103 0.200389105
52975 PQGQLTAYHVSAAPTGSWFPAPQPAPENAYQAYAAPQLFPVSDITQNQQTNQAGG Human herpesvirus 4 514 102 0.19844358
20889 PTPMSPPEVPPVPRQRPRGAPTPTPPPQVPPVPRQRPRGAPTPTPPPQVLPTPMQL Human heipesvirus 4 514 97 0.188715953
60125 PQGQLTAYHVSAAPTGSWFPAPQPAPENAYQAYAAPQLFPVSDITQNQQTNQAGGI Human heipesvirus 4 514 95 0.184824903
20881 PWQPLPGPQVTAVLLHEESMQGVQVHGSMLDLLEKDDEVMEQRVMATLLPPVPQQ Human herpesvirus 4 514 93 0.180933852
53210 MGDRSEVPGPARPGPPGIGPEGPLGQLLRRHRSPSPTRGGQEPRRVRRRVLVQQEE Human herpesvirus 4 514 92 0.178988327
55870 APQAPYQGYQEPPAHGLQSSSYPGYAGPWTPRSQHPYRHPWAPWSQDPVHGHTQ Human herpesvirus 4 514 91 0 177042802
32082 LPLTQPINHGAPAAHFLHQPPMEGPWVPEQWMFQGAPPSQGTDVVQHQLDALGYT Human herpesvirus 4 514 91 0.177042802
52817 RTSTEPTTDYGDDSTTPRPRYNATTYLPPSTSSKLRPRWTFTSPPVTTAQATVPVP Human herpesvirus 4 514 91 0.177042802
16206 SDAGPPSTRPRVMAPPSTGPRVMATPSTGPRDMAPPSTGPRDMAPPSTGPRDMAPP Human herpesvirus 4 514 89 0.173151751
60223 PYQPTPTGPATMLLRQWAPATMQTPPRAPTPMSPPEVPPVPQRPRGAPTFTPPPQ Human herpesvirus 4 514 89 0.173151751
20888 PLPGPQVTTVLLHEESMQGVQVHGSMLDLLEKDDEVMEQRVMATLLPPVPQQPRA Human herpesvirus 4 514 88 0.171203226
16227 PLPGPQVTTVLLHEESMQGVQGHGSMLDLLEKDDEVMEQRVMATLLPPVPQQPRA Human herpesvirus 4 514 87 0.1692607
32101 RKPGGPWRPEPNTSSPSMPELSPVLGLHQGQGAGDSPTPGPSNAAPVCRNSHTAT Human herpesvirus 4 514 86 0.167315175
55858 PERPGPSEQSSVTVEPAHTPVEMPMVILHQPPPVPKPVPKPTPPPSRRRRGACV Human herpesvirus 4 514 83 0.161473599
29914 VPPPEPLTARQREVMTIQATGRLASQAMKKIEDKVRKSVDGVTTRNEMENILQNL Human herpesvirus 4 514 81 0.157587549
20886 ETAAPRQWPMPLRPIPMRPLRMQPIPFNHPVGPTPHQTPQVEITPYKPTWAQIGH Human herpesvirus 4 514 80 0.155642023
32075 IAMQGPGETSGIRRARERWRPAPWTPNPPRSPSQMSVRDRLARLRAEAQVKQASVI Human herpesvirus 4 514 79 0.153696498
32085 DEDESGEGSDTSEPCEALDLSIHGPRCPQAPEWPVQEEGGQDATEVLDLSIHGRP Human herpesvirus 4 514 79 0.153696498
60193 PPVPATQPQYFDIPLTEPINQGASAAHFLPQQPMEGPLVPERWMFQGTLSQSVR Human herpesvirus 4 514 77 0.149805447
53216 TRGGQEPRRVRRRVLVQQEEEVVSGSPSGPRGDRSEVPGPARPGPPGIGPEGPLGC Human herpesvirus 4 514 77 0.149805447
52989 QGNVQQVGSDPISPAIGPFELSAASEDDPQSGPVEENLDAAAREEEEPDEQEHNG Human herpesvirus 4 514 76 0.147859922
57549 QGPADDPGEGPSTGPRGQGDGGRRKKGGWFGKHRGQGGSNQKFRNIADGLTRLLA Human herpesvirus 4 514 75 0.145914397
60169 MDKDRPGLPAPDDNIEEVPSTSGVQERASEGDWENVLIEISDSSSEEEAEDAHLE Human herpesvirus 4 514 74 0.143968872
32086 QAPEWPVQEEGGQDATEVLDLSIHGRPRPRTPEWPVQGEGGQNVTGPETRRVVVSA Human herpesvirus 4 514 73 0.142023346
20945 PGGSGSGPRHRDGVRRPQKRPSCIGCKGTHGGTGAGAGAGGAGAGGAGAGGGAGA Human herpesvirus 4 514 71 0.138132296
12301 GEGPSTGPRGQGDGGRRKKGGWFGKHRGQGGSNPKFENIADSLRALLARSHVERT Human herpesvirus 4 514 71 0.138132296
60196 PPMEGPWVPEQWMFQGAPPSQGTDVVQHQLDDLGYPLHDLNHPGVPVSPAVNQYHI Human herpesvirus 4 514 67 0.130380195
60189 RPAPWTPNPPRSPSQMSVRDRLARLRAEAQARQASVEVQPTQLTQVSPQQPMERP Human herpesvirus 4 514 66 0.128404669
60195 GVAQSQYFDLPLTQPINHGAPAAHFLHQPPMEGPWVPEQWMFQGAPPSQGTDVVQ Human herpesvirus 4 514 64 0.124513619
53023 SEEEDEDPTPAHTIPARPSSVVITPTSASFVIPRKKWDLQDKTVTLHRSPLCRDE Human herpesvirus 4 514 62 0.120622568
52974 ATRVYQDLGGPSQAPLPCVLWPVLPEPLPQGQLTAYHVSAAPTGSWFPAPQPAPE Human herpesvirus 4 514 62 0.120622568
20861 RYNATTYPPSTSSKLRPRWTFTSPPVTTAQATVPVPPTSQPRFSNLSMLVLQWAS Human herpesvirus 4 514 60 0.116731518
20911 IDPNMEPVQQRPVMFVSRVPAKKPRKLPWPTPKTHPVKRTNVKTSDRSDKAEAQST Human herpesvirus 4 514 60 0.116731518
53012 YQPQMGHIPYQPRPTGHSTMLRPQWAPTTMQPPPRAPTPMPPPQGPPTAMQRPAQA Human herpesvirus 4 514 60 0.116731518
32094 VPPLRPTAPTILSPLSQPRLTPPQPLMMPRPTPPTPLPPATLTVPPRPTRPTTLP Human herpesvirus 4 514 60 0.116731518
53225 SPTRGGQEPRRVRRVLVQQEEEVVSGSPSGPRGDRSEVPGPARPGPPGIGPEGPL Human herpesvirus 4 514 59 0 114785992
53224 PSGPRGDRSEVPGPARPGPPGIGPEGPLGQLLRRHRSPSTRGGQEPRRVRRRVL Human herpesvirus 4 514 59 0.114785992
20956 SRERARGRGRGRGEKRPRSPSSQSSSSGSPPRRPPPGRRPFFHPVGEADYFEYHQ Human herpesvirus 4 514 59 0.114785992
53014 PTPMPPPQGPPTAMQRPRGAPTPMRRRQGPPTAMQLSPRALTGQKGPAKHILRQLL Human herpesvirus 4 514 59 0.114785992
60243 MESFEGQGDSRQSPDNERGDNVQTTGEHDQDPGPGPPSSGASERLVPEESYSRDQ Human herpesvirus 4 514 58 0.112840467
16235 MSPPEVPPVPRQRPRGAPTPTPPPQVLPTPMQLALRAPAGQQGPTKQILRQLLTGG Human herpesvirus 4 514 58 0.112840467
60192 PQYFDLPLTQPISQGAPAAPLRASMGPVPPVPATQPQYFDIPLTEPINQGASAAH Human herpesvirus 4 514 57 0.110894942
50571 MDKDRPGLPAPDDNIEEVPSTSGVQERASEGDWENVLIEISDSSSEEEAEDAHLD Human herpesvirus 4 514 57 0.110894942
56029 MHPLTHQSTPNDPDSPEPRSPTVFYNIPPMPLPPSQLPPPAAPAQPPPGVINDQQL Human herpesvirus 4 514 56 0.108949416
55221 RVRRRVLVQQEEEVVSGSPSGPRGDRSEVPGPARPGPPGIGPEGPLGQLLRRHRS Human herpesvirus 4 514 55 0.107003891
55856 IDPNMEPVQQRPVMFVSRVPAKKPRKLPWPTPKTHPVKRTNVKTSDRSDKAEAQST Human herpesvirus 4 514 55 0.107003891
20865 QGNVTQVGSEPISPEIGPFELSAASEDDPQSGPVEENLDAAAREEEEPHEQHNG Human herpesvirus 4 514 55 0.107003891
21028 MGALWSLCRRRVNSIGDVDGGIINLYNDYEEFNLETTKLIAAEEGRCGETNEGL Human herpesvirus 4 514 54 0.105058366
52926 GGPDGEPDMPPGAIEQGPQDDPGEGPSTGPRGGDGGRRKKGGWYGKHRGEGGSS Human herpesvirus 4 514 53 0.10311284
32074 MPVEPVPVPTVALERPVYPKKPVRPAPPKIAMQGPGETSGIRRARERWRPAPWTPNP Human herpesvirus 4 514 53 0.10311284
20858 QASGPGNSSTSTKPGEVNVTKGTPPQNATSPQAPSGQKTAVPTVTSTGGKANSTT Human herpesvirus 4 514 53 0.10311284
60198 SQAAFGLPIDEDESGERSDTSEPYEALDLSIHGRPCPQAPEWPVQGEGGQDATEVI Human herpesvirus 4 514 52 0.101167315
56026 TAPTILSPLSQPRLTPPQPLMMPPRPTPPTPLPPATLTVPPRPTRPTTLPPTPLLT Human herpesvirus 4 514 52 0.101167315
29916 LRIQVSMLGAKGQPSPGGTRPRESNDPNATRRARSRSRGREAKKVQISI Human herpesvirus 4 514 51 0.09922179
32079 QPISQGAPVAPLRASMGPVPPVPATQPQYFDIPLTEPINQGASAAHFLPQQPMEG Human herpesvirus 4 514 51 0.09922179
30076 RQMSQQPVQMLYPGIDELAQQHASGEGPGINPISKTELQAIMLALHEQNQEKRAA Human herpesvirus 4 514 51 0.09922179
60191 EPEQQMFPGSPFSQVADVARESGVPAMQPQYFDLPLTQPISQGAPAAPLRASMGP Human herpesvirus 4 514 51 0.05922179
60216 IDPNMEPVQQRPVMFVSRVPVRKPRTLPWPTPKTHPVKRTIVKTSYRSDEAEEAQS Human herpesvirus 4 514 51 0.09922179
60199 LSIHGRPCPQAPEWPVQGEGGQDATEVLDLSIHGRPRPRTPEWPVQGESGQNVTD Human herpesvirus 4 514 48 0.093385214
20913 PERPGPSEQSSVTVEPAHTPVEMPMVILHQPPPVPKPTPPPSRRRRGGACV Human herpesvirus 4 514 48 0.093385214
55902 PGTTSQASGPGNSSTSTKPGEVNVTKGTPPKNATSPQAPSGQKTAVPTVTSTGGKA Human herpesvirus 4 514 47 0.091439689
52703 EGPSTGPRGQGDGGRRKKGGWFGKHRGQGGSNF Human herpesvirus 4 514 47 0.091439689
60188 RPVCPAPPEIAMQGPGEPSGIKRTRERWRPAPWTPNPPRSPSQMSVRDRLARLFAE Human herpesvirus 4 514 47 0.091439689
20880 APTVVLQRPPTQQEPGPVGPLSVQARLEPWQPLPGPQVTAVLLHEESMQGVQVHGS Human herpesvirus 4 514 47 0.091439689
60197 QLDDLGPLHDLNHPGVPVSPAVNQYHFSQAAFGLPIDEDESGERSDTSEPYEALI Human herpesvirus 4 514 47 0.091439689
32084 HGLNHPGVPVSPAVNQYHLSQAAFGLPIDDESGEGSDTSEPEALDLSIHGRPC Human herpesvirus 4 514 46 0.080494163
16204 TSTKPGEVNVTKGTPPKNATSPQAPSGQKTAVPTVTSTGGKANSTTGGKHTTGHGA Human herpesvirus 4 514 44 0.085603113
60202 MESFEGEGDSIQSPDNARGDDVQNTGEHIQDPGPSTGGASEGLVQNEPDSRDQ Human herpesvirus 4 514 44 0.085603113
20964 PTCNIRVTVCSFDDGVDLPPWFPPMVEGAAAEGDDGDDGDEGGDGDEGEEGQE Human herpesvirus 4 514 44 0.085605113
60005 MTLSPEPLPPPAAPAHPLPGVIYDQQALPPTPGPPWWPPVRDPTPTTQTPPTNTKQ Human herpesvirus 4 514 43 0.083657588
20959 GPRGQGDGGRRKKGGWFGKHRGQGGSNPKFENIAEGLRALLARSHVERTTDEGTW Human herpesvirus 4 514 43 0.083657588
29933 PPAPAPVRGRASAPPRPPAPVQQSTKDKGPHRPTRPVLRGPARPRPPPPSSPNTYN Human herpesvirus 4 514 43 0.083657588
47676 PRPGTTSQASGPGNSSTSTKPGEVNVTKGTPPKNATSPQAPSGQKTAVPTVTSTGG Human herpesvirus 4 514 42 0.081712062
60011 LDESWEGIFETTESHSSDEENVGGPSKRPRTSTC Human herpesvirus 4 514 41 0.079766537
32056 VSAGDWENVLIELSDSSSEKEAEDAHLEPAQKGTKRKRVDHDAGGSAPARPMLPP Human herpesvirus 4 514 41 0.079766537
16232 APRQWPMPLRPIPMRPLRMQPIPFNHPVGPTPHQTPQEITPYKPTWAQIGHIPYQ Human herpesvirus 4 514 40 0.077821012
60334 ADDPGEGPSTGPRGQGDGGRRKKGGWFGKHRGQGGSNPKFENIAEGLRTLLARSH Human herpesvirus 4 514 39 0.075875486
52950 FEDVQREFSGLRVIGDEDEDGSEDGEFSDLDLDLDLDHEGDEGGGAVGGGRSLHSL Human herpesvirus 4 514 38 0.073929961
55842 MESFEGQGDSRQSPDNERGDNVQTTGEHDQDPGPGPPSSGASERLVPEESYSRDQ Human herpesvirus 4 514 37 0.071984436
21036 HTTSTSHRPHRRPVSKRPTHKPVTLGPFPIDPWRPKTTWVHWALLLITCAVVAPVL Human herpesvirus 4 514 37 0.071984436
21026 PVSETVELELESEPRPRPSRTPSPGRNRRRSSTSSSSTSTRRQRPVSTQALVSS Human herpesvirus 4 514 36 0.070038911
20885 APSCAQTPWPVVQPSQTPDDPTKQSRPPETAPRQWPMPLRPIPMRPLRMQPIPFN Human herpesvirus 4 514 35 0.068001385
53215 GPARPGPPGIGPEGPLGQLLRRHRSPSPTRGGQEPRRVRRRVLVQQEEEVVGSPS Human herpesvirus 4 514 34 0.06614786
30010 RPSLVTNCTAPLKTSVKGPNWSGAAGGMKRKQCRVDRLTDRSFPAYLEEVMYV Human herpesvirus 4 514 34 0.06614786
52823 RGKKLVQASASGVASKEPTTPKAKSVSAHLKSIFCEELLNKRV Human herpesvirus 4 514 34 0.06614786
55901 PTGGENITQVTPASTSTHHVSTSSPAPRPGTTSQASGPGNSSTSTKPGEVNVTKGT Human herpesvirus 4 514 34 0.06614786
20866 PQSGPVEENLDAAAREEEEPHEQEHNGGDDPLDVHTRQPRFVDVNPTQAPVIQLV Human herpesvirus 4 514 33 0.064202335
33026 YEEYVQRTFGVPRRQRAIDKRQRASVAGAGAHAHLGGSSATPVQQAQAAASAGTG Human herpesvirus 4 514 33 0.064202335
32078 APFSQVADVVRAPGVPAMQPQYFDLPLIQPISQGAPVAPLRAMGPVPPVPATQP Human herpesvirus 4 514 33 0.064202335
55920 SAAPASAAPASAAPASAAPASAAQASVAPASAPASAAPASAAPDSAAPASSPPI Human herpesvirus 4 514 33 0.064202335
60124 ATRVYQDLGGPSQAPLPCVLWPVLPEPLPQGQLTAYHVSAAPTGSWFPAPQPAPEN Human herpesvirus 4 514 33 0.064202335
56030 PMPLPPSQLPPPAAPAQPPPGVINDQQLHHLPSGPPWWPPICDPPQPSKTQGQSRG Human herpesvirus 4 514 33 0.064202335
47675 AHPTGGENITQVTPASTSTHHVSTSSPAPRPGTTSQASGPGNSSTSTKPGEVNVTK Human herpesvirus 4 514 32 0.062256809
21027 RRSSTSSSSSTSTRRQRPVSTQALVSSVLPMTTDSEEEIFI Human herpesvirus 4 514 32 0.062256809
32073 PAGPIVRPWEPSLTQAAGQAFAPVRHQHMPVEPVPVPTVALERPVYPKPVRPAPPK Human herpesvirus 4 514 31 0.060311284
53010 ETEAPRQWPMPLRPIPLHPLRMQPISFNPAVRPTPHQPPQVEPTFYQSTWVKPPQQ Human herpesvirus 4 514 31 0.060311284
20857 NITQVTPASISTHHVSTSSPAPRPGTTSQASGPNSSTSTKPGEVNVTKGTPPQNA Human herpesvirus 4 514 30 0.058365759
52990 PQSGPVEENLDAAAREEEEPDEQEHNGGDDPLEVHTRQPRFVDVNPTQAPVIQLV Human herpesvirus 4 514 30 0.058365750
53024 SFVIPRKKWDLQDKTVTLHRSPLCRDEDEKEETGNSSYTRGHKRRRGEVHGCTDE Human herpesvirus 4 514 30 0.058365759
60339 IKDLVMPKPAPTCNIKATVCSFDDGVDLPPWFPPMVEGAAAEGDDGDDGDDGDED Human herpesvirus 4 514 29 0.056420233
16211 QGNVTQVESEPISPEIGPFELSAASEDDPQSGPVEENLDAAAREEEEPHEQEHNG Human herpesvirus 4 514 29 0.056420233
16226 APTVVLQRPPTQQEPGPAGPLSVLEPWQPLPGPQVTTVLLHEESMQGVQVHGSML Human herpesvirus 4 514 28 0.054474708
32102 QGQGAGDSPTPGPSNAAPVCRNSHTATPNVSPIHEPESHNSPEAPILFPDDWYPPS Human herpesvirus 4 514 28 0.054474708
16203 ISTHHVSTSSPAPRPGTTSQASGPGNSSTSTKPGEVNVTKGTPPKNATSPQAPSGC Human herpesvirus 4 514 27 0.052529183
52983 PPPPVNFNKTAEQEYGDKEIKLPHWTPTLHTFQVPKNYTKANCTYCTREYTFSYK Human herpesvirus 4 514 27 0.052529183
16231 CAQTPWPVVQPSQTPDDPTKQSRPPETAAPRQWPMPLRPIPMRPLRMQPIPFNHPV Human herpesvirus 4 514 27 0.052529183
29956 PVGHPAAPRAPGPEPRTRLPATPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPA Human herpesvirus 4 514 26 0.050583658
20912 WPTPKTHPVKRTNVKTSKSRSDKAEAQSTPERPGPSEQSSVTVEPAHPTPVEMPVP Human herpesvirus 4 514 26 0.050583658
29764 SPPPPPRTPTWESPARPETPSPAIPSHSSNTALERPLAVQLARKRTSSEARQKQK Human herpesvirus 4 514 26 0.050583658
60170 SEGDWENVLIEISDSSSEEEAEDAHLEPSQRGKKRKRVDDDAGGSAPAQHVPPPQ Human herpesvirus 4 514 25 0.048638132
29763 EPEDKSPRVQPLGTGLQQRPRHTVSPSPSPPPPPRPTWESPARPETPSPAIPSHS Human herpesvirus 4 514 25 0.048638132
60224 GPRDMAPPSTGPRDMAPPSTGPRDMAPPSTGPRDMAPTVVHMFTRERLLTQSTGPA Human herpesvirus 4 514 25 0.048638132
55928 PAPSPPPTQQQPPQSAAPAPSPLLPQQQPPPSAAPAPSPLLPQQQPPPSAARAPS Human herpesvirus 4 514 25 0.048638132
29960 PGPEPRTRLQPATPRRSGAADPADPVGHPAAPRAPGPERPTRLQPATPRRSGAAD Human herpesvirus 4 514 24 0.046692607
32081 LVPEQWMFPGAALSQSVRPGVAQSQYFDLPLTQPINHGAPAAHFLHPPMEGPWVI Human herpesvirus 4 514 24 0.046692607
29971 PEPRTRLQPATPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPAD Human herpesvirus 4 514 24 0.046692607
20897 MESFEGQGDSRQSPDNEWGDNVQTTGEHDQDPGPGPPSSASERLVPEESYSRDQ Human herpesvirus 4 514 23 0.044747082
29973 PVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPA Human herpesvirus 4 514 23 0.044747082
55857 WPTPKTHPVKRTNVKTSDRSDKAEAQSTPERPGPSEQSSVTVEPAHPTPVEMPVI Human herpesvirus 4 514 22 0.042801556
56025 DRGLILPQGPQTAPQAMLVQPHVPPLRPTAPTILSPLSQPRLTPPQPLMMPPRPTP Human herpesvirus 4 514 22 0.012801556
20891 ALRAPAGQQGPTKQILRQLLTGGVKKGRPSLKLQAALERQAAAGWQPSPGSGTSDI Human herpesvirus 4 514 22 0.012801S56
56003 PLLEKVAPGRPRDWLSPTSSPRDVTVTPGLAAPITLPGPRLMARPYFGAETASES Human herpesvirus 4 514 21 0.010856031
16237 VKKGRPSLKLQAALERQAAAGWQPSPGSGTSDKIVRAPIFYPPVLQPIQVMGQGG Human herpesvirus 4 514 21 0.010856031
57554 KDAIKDLVMPKPAPTCNIKATVCSFDDGVDLPPWFPPMVEGAAAEGDDGDDGDDG Human herpesvirus 4 514 21 0.040856031
20926 SQDPVHGHTQGPWDPRAPHLPPQWDGSAGHGQDQVSQFPHLQSETGPPRLQLSLV Human herpesvirus 4 514 21 0.040856031
32087 PRTPEWPVQGEGGQNVTGPETRRVVVSAVVHMCQDDEFPDLQDPPDEA Human herpesvirus 4 514 21 0.640856031
29959 TRLQPATPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGH Human herpesvirus 4 514 20 0.038910506
53188 PPSPQSPLLEKVAPGRPRDWLSPTSSPRDVTVTPGLAAPITLGPRLMARPYFGAE Human herpesvirus 4 514 20 0.038910506
20875 AAKPWLRAHPVAIPYDDPTNEEIDLAYARGQAMNIEAPRLPDDPIIVEDDDESE Human herpesvirus 4 514 20 0.038910506
21090 ATEAGTGTSTGVTSNVTTRSSSTTSATTRITNATTLAPTLSSKGTSNATKTTAEL Human herpesvirus 4 514 20 0.038910506
57555 VDLPPWFPPMVEGAAAEGDDGDDGDDGDEGGDGDEGEEGQ Human herpesvirus 4 514 20 0.038910506
30063 VKNLTELTTPTSSPPSSPSPPAPPAARCSTSAAVLRRRRRDAGNATTPVPPAAPGK Human herpesvirus 4 514 19 0.036964981
32093 BRQSRGDRGLILPQGPQTAPQARLVQPHVPPLRPTAPTILSPLSQPRLTPPQPLMM Human herpesvirus 4 514 19 0.036964981
20884 DQLLPAPGPDPLEIQPLTSPTTSQLSSSAPSCAQTPWPWQPSQTPDDPTKQSRPF Human herpesvirus 4 514 19 0.036964981
20914 LHQPPPVPKPVPVKPTPPPSRRRRGACVVYDDDVIEVIDVETTEDSSSVSQPNKPH Human herpesvirus 4 514 19 0.036964981
55919 PSRSFTSDSFPAARYSPAKTNSPPPSPASAAPASAAPASAAPASAAPASAAQASV Human herpesvirus 4 514 19 0.036964981
29978 PAAPRAPGPEPRTRLQPATPRRSCAADPADPVGHPAAPRAPGPEPRTRLQPATPRR Human herpesvirus 4 514 19 0.030964981
52977 APQPGDNSTVQPAAAVVFACPGANQGQQLADIGAPQPAPAAAPARRTRKPLGPESI Human herpesvirus 4 514 18 0.035019455
20908 TIGNFKPYYPWNAPPNENPYHARRGIKEHVIQNAFRKAQIQGLSMLATGGEPRGDA Human herpesvirus 4 514 18 0.035019455
53005 PWQPLSWPHETRVILHGPPTQGDQAHGSMLDLLEKDDQHMEQQVMATLLPPEPHQ Human herpesvirus 4 514 18 0.035019455
53016 TGGVKSGRPSLKFKAALERQAAAGLRPSPGSGTGAKIVQAPVFYPPVLQPIQVMW Human herpesvirus 4 514 18 0.035019455
29970 LQPATPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPA Human herpesvirus 4 514 18 0.035019455
16221 AAKPWLRAHPVAIPYDDPLTNEEIDLAYARGQAMNIEAPRLPDDPHVEDDDESE Human herpesvirus 4 514 18 0.035019455
41220 PQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGP Human herpesvirus 4 514 18 0.035019455
52980 LQHYREVASAKSSENDRLRLLLKQMCPSLDVDSIIPRTPDVLHEDLLN Human herpesvirus 4 514 18 0.035019455
29972 APRAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRS Human herpesvirus 4 514 17 0.03307393
29765 SNTALERPLAVQLARKRTSSEARQKQKHPKKVKQAFNPL Human herpesvirus 4 514 17 0.03307393
29961 PAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRR Human herpesvirus 4 514 17 0.03307393
53220 GIGPEGPLGQLLRRHRSPSPTRGGQEPRRVRRRVLVQQEEEVVSGSPSGPRGDRS Human herpesvirus 4 514 17 0.03307393
32067 RTEGEHVEGATGETREESEDTESDGDDEDLPCIVSRGGKVKRPPIFIRRLHRLL Human herpesvirus 4 514 16 0.031128405
29977 PGPEPRTRLQPATPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADF Human herpesvirus 4 514 16 0.031128405
20887 HPVGPTPHQTPQVEITPYKPTWAQIGHIPYQPTPTGPATMLLRQWAPATMQTPPRA Human herpesvirus 4 514 16 0.031128405
33024 MARRLPKPTLQGRLEADFPDSPLLPKFQELNQNNLPNDVFREAQRSYLVFLTSQR Human herpesvirus 4 514 16 0.031128405
16236 TPMQLALRAPAGQQGPTKQILRQLLTGGVKKGRPSLKLQAALERQAAAGWQPSPG Human herpesvirus 4 514 16 0.031128405
53143 QAWRLEAEGFKPATEEQLEAFLDTAPNKELKRQYEKKLRQLMETGRKEKEKLREQI Human herpesvirus 4 514 16 0.031128405
32072 TPLPPVSPGDQLPGVFSDGRVACAPVPAPAGPIVRPWEPSLTQAAGQAFAPVRPQ Human herpesvirus 4 514 15 0.029182879
53009 APSHAQTPWPVTHPSQTPGGPTTQSLAPETEAPRQWPMPLRPIPLHPLRMQPISFN Human herpesvirus 4 514 15 0.029182879
29976 TRLQPATPRRSGAADPADPVGHPAAPRAPGPRPRTRLQPATPRRSGAADPADPVGP Human herpesvirus 4 514 15 0.029182879
60240 RGDRSEGPGPTRPGPPGIGPEGPLGQLLRRHRSPSPTRGGQEPRRVRRRVTVQQEE Human herpesvirus 4 514 15 0.029182879
16212 PQSGPVEENLDAAAREEEEPHEQEHNGGDDPLDVHTRQPRFVDVNPTQAPVIQLV Human herpesvirus 4 514 15 0.029182879
29957 AADPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPRAPGPEPR Human herpesvirus 4 514 15 0.029182879
32098 VFYNIPPMPLPPSQLPPPAAPAQPPPGVINDQQLHHLPSGPPWWPPICDPPQPSKT Human herpesvirus 4 514 15 0.029182879
53022 AVSDTNTDCDMDPMEGSEEHSTDGEISSSEEEDEDPTPAHTIPARPSSVVITPTSA Human herpesvirus 4 514 15 0.029182879
16228 LLEKDDEVMEQRVMATLLPPVPQQPRAGRRGPCVFTGDLGIESDEPASTEPVHDQ Human herpesvirus 4 514 14 0.027237354
60181 TEGEHGEGATCETREESEDTESDCDDEELPRWSRDGTKHRRPPIFLRRLHRLLLN Human herpesvirus 4 514 14 0.027237354
60185 HPLHQQHSMAPCMVAQNPRAPLGDQLPGVPKDGRGACAPVPALAGPIVRPWESSLI Human herpesvirus 4 514 14 0.027237354
29965 PRTRLQPATPRRSGAADPADPVGHPAAPRAPGPGPRTRLQPATPRRSGAADPADP Human herpesvirus 4 514 14 0.027237354
32096 PTPLLTVLQRPTELQPTPSPPRMHLPVLHVPDQSMHPLTHQSTPNDPDSPEPRSPT Human herpesvirus 4 514 14 0.027237354
60222 SKPHRKPQDGFQRSGRRQKRAMPPPVSPSDAGPPSTRPRVMAPPSTGPRVMATPSI Human herpesvirus 4 514 14 0.027237354
53189 DVTVTPGLAAPITLPGPRLMARPYFGAETRASESPDRSPGTSPRPWPKDSLELLP Human herpesvirus 4 514 14 0.027237354
29913 LESENKALKQQVLRGGACASSTSVPSAPVPPPEPLTARQREYMITQATGRLASQA Human herpesvirus 4 514 14 0.027237354
53006 MLDLLEKDDQHMEQQVMATLLPPEPHQPRSGRRAPCVYTADLDIESDEPATSEPV Human herpesvirus 4 514 14 0.027237354
29954 PEPRTRLQPATPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPAD Human herpesvirus 4 514 14 0.027237354
20879 SVIKAIEEEHRKKKAARTEQPRATPESQAPTVVLQRPPTQQEPGPVGPLSVQARLE Human herpesvirus 4 514 14 0.027237354
60217 WPTPKTHPVKRTIVKTSYRSDEAEEAQSTPERPGPSKQPSEPVEPAHTTPAGRSTV Human herpesvirus 4 514 14 0.027237354
60229 DLSLHPDTATLPPTQDLYPGREDLQATQAPYPGYEEPRPPQAPFVGDYGFVQIPSA Human herpesvirus 4 514 14 0.027237354
53218 LLRRHRSPSPTRGGQEPRRVRRRVLVQQEEEVVSGSPSGPRGDRSEVPGPARPGP Human herpesvirus 4 514 14 0.027237354
21091 RITNATTLAPTLSSKGTSNATKTTAELPTVPDERQPSLSYGLPLWTLVFVGLTFL Human herpesvirus 4 514 14 0.027237354
52951 DLDLSDSDHEGDEGGGAVGGGRSLHSLYSLSV Human herpesvirus 4 514 13 0.025291829
60266 RGDRSEGPGPTRPGPPGIGPEVSGL Human herpesvirus 4 514 13 0.025291829
16230 LPAPGPDPLEIQPLTSPNTSQLSSSAPSCAQTPWPVVQPSQTPDDPTKQSRPPETA Human herpesvirus 4 514 13 0.025291829
29962 ADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPRAPGPEPRTRLC Human herpesvirus 4 514 13 0.025291829
29951 DPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPRAPGPEPRTR Human herpesvirus 4 514 13 0.025291829
29966 RAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAA Human herpesvirus 4 514 13 0.025291829
29955 APRAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRS Human herpesvirus 4 514 13 0.025291829
55849 NRVGADSIMLTATFGCQNAARTLNTFSATVWTPPHAGPREQERYAREAEVRFLRG Human herpesvirus 4 514 13 0.025291829
60122 PRVRGGGRVSAAAITWVPKPNVEVWPVDP Human herpesvirus 4 514 13 0.025291829
20779 VRGRGGWDLDNFSEAETEDEASYAPWRDKDSWSESAAPWKKELVRHPIRRHRTR Human herpesvirus 4 514 13 0.025291829
56036 SWDYIFETTESPSSDEDYVEGPSKRPRPSIQ Human herpesvirus 4 514 13 0.025291829
50572 SEGDWENVLIEISDSSSEEEAEDAHLDSSQRGKKRKRVDDDAGGSAPAQHVPPPQ Human herpesvirus 4 514 12 0.023346304
60127 APQPGDNSTVQPAAAVVFACPGANQGQQLADIGAPQPAAAAPARRTRKPLQPES Human herpesvirus 4 514 12 0.023346304
55905 TTPRTRYNATTYLPPSTSSELRPRWTFTSPPVTTAQATVPVPPTSQPRFSNLSMLV Human herpesvirus 4 514 12 0.023346304
53217 GPRGDRSEVPGPARPGPPGIGPEGPLGQLLRRHRSPSPTRGGQEPRRVRRRVLVQC Human herpesvirus 4 514 12 0.023346304
60228 ISHLSSMSPTQPISHEEQPRYEDPDTPLDLSLHPDTATLPPTQDLYPGREDLQATC Human herpesvirus 4 514 12 0.023346304
52815 APAGGYFTSPGGYYAGPAGGDPGAFLAMDAHTYHPHPHPPPAYFGLPGLFGPPPPV Human herpesvirus 4 514 12 0.023346304
60200 DLSIHGRPRPRTPEWPVQGESGQNVTDHEPRRVVVSAIVHMCQDDEFPDLQDPPDE Human herpesvirus 4 514 12 0.023346304
29968 DPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPRAPGPEPRTR Human herpesvirus 4 514 12 0.023340304
52927 GPRGQGDGGRRKKGGWYGHKRGEGGSSQKFENIAEGLRLLLARCHVERTTEDGNW Human herpesvirus 4 514 12 0.023346304
29953 LQPATPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPA Human herpesvirus 4 514 12 0.023346304
29975 TPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPRA Human herpesvirus 4 514 12 0.023346304
52704 NLGAHGGGTDSDPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNG Human herpesvirus 4 514 12 0.023346304
52887 DRFGRDHALFETQFTSARGALESLRRARETFESKQLISTYQRVVTATKTQFPKIN Human herpesvirus 4 514 11 0.021403778
29964 PATPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPAA Human herpesvirus 4 514 11 0.021403778
32088 MPTFYLALHGGQTYHLIVDTDSLGNPSLSVIPSNPYQEQLSDTPLIPLTIFVGEN Human herpesvirus 4 514 11 0.021403778
55871 WTPRSQHPCYRHPWAPWSQDPVHGHTQGPWDPRAPHLPPQWDGSAGHGQDQVSQF Human herpesvirus 4 514 11 0.021403778
21102 LRVRRVGKLVELLEKQSLQDQAKVAKVAPLKEFPASTISHPDSGALMIVDSAACE Human herpesvirus 4 514 11 0.021403778
29930 DEDEEIDLEEEYPSDEDPSEGSDSDPSWHPSDSDESDYSESDEDEATPGSQASRS Human herpesvirus 4 514 11 0.021400778
12298 GEGPSTGPRGQGDGGRRKKGGWFGKHRGHGGSNQKFENIAEGLRTLLARCHVERT Human herpesvirus 4 514 10 0.019455253
55872 PWDPRAPHLPPQWDGSAGHGQDQVSQFPHLQSETGPPRLQLSSVPLVSSSAPSWS Human herpesvirus 4 514 10 0.019455253
53213 GPEGPLGQLLRRHRSPSPTRGQEPRRVRRRVLVQQEEEVVGSPSGPRGDRSEV Human herpesvirus 4 514 10 0.019455253
20915 VYDDDVIEVIDVETTEDSSSVSQPNKPHRKHQDGFQRSGRRQKRAAPPTVSPSDT Human herpesvirus 4 514 10 0.019455253
60008 PRRPGPDTSSPSMPQLSPVVSLHQGQGPENSPTPGPSTAGPVCRVTPSATPDISP Human herpesvirus 4 514 10 0.019455253
30078 QRAAGPSVASRALQAARDRFPGLRRRRYHDPETAAALLGEAETE Human herpesvirus 4 514 10 0.019455253
52825 HENFYAEIDDFAPSVLTPTGSDSGAGEEDDDGLYQVPTHWPPLMAPTGLSGERVP Human herpesvirus 4 514 10 0.019455253
16234 PTPTGPATMLLRQWAPATMKIPPRAPTPMSPPEVPPVPRQRPRGAPTPTPPQVLP Human herpesvirus 4 514 10 0.019455253
20892 PSLKLQAALERQAAGWQPSPGSGTSDIVQAPIFYPPVLQPIQVMGQGGSPTAMA Human herpesvirus 4 514 10 0.019455253
52828 AQPPAPAHQKPTAPTPKRSRECGPSKTPDPFSWFRKTSCTEGGADSTSRSFMYQK Human herpesvirus 4 514 10 0.015455253
16233 GPTPHQTPQVEITPYKPTWAQIGHIPYQPTPTGPATMLLRQWAPATMKIPPRAPTP Human herpesvirus 4 514 10 0.019455253
20916 RKHQDGFQRSGRRQKRAAPPTVSPSDTGPPAVGPPAAGPPAAGPPAAGPPAAGPPA Human herpesvirus 4 514 10 0.019455253
11520 NLGAPGGGPDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQGPDNTDDNG Human herpesvirus 4 514 10 0.019455253
52816 DAHTYHPHPHPPPAYFGLPGLFGPPPVPPYYGSHLRADYVPAPSRSNKRKRDPEE Human herpesvirus 4 514 10 0.019455253
53003 SIIKVIEDEHRKKKTARTEQPRAKPDSPAPTVVLRRPPTQKVTGPAGSLSVQAQLE Human herpesvirus 4 514 10 0.019455253
53017 PGSGTGAKIVQAPVFYPPVLQPIQVMWQVGSSKAVAASTVTQAPTEYTGERRLGG Human herpesvirus 4 514 9 0.017509728
52832 EFSKLSKHAAQLKRLSGSVMNVLVLDDQDTRQAKAQRKESTRVPIVTHLTNHVP Human herpesvirus 4 514 9 0.017509728
53004 APTVVLRRPPTQKVTGPAGSLSVQAQLEPWQPLSWPHETRVILHGPPTQGHQAHG Human herpesvirus 4 514 9 0.017509728
29963 SGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADDPVGHPAAPRAPGP Human herpesvirus 4 514 9 0 017509728
16229 RRGPCVFTGDLGIESDEPASTEPVHDQLLPAPGPDPLEIQPLTSPNTSQLSSSAPS Human herpesvirus 4 514 9 0 017509728
29958 TPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPRA Human herpesvirus 4 514 9 0.017509728
52818 DEEGGGLFPGEDATLYRKDIAGLSKSVNELQHTLQALRRETLSYGHTGVGYCPQQ Human herpesvirus 4 514 9 0.017509728
53105 PSRSFTSDSFPAARYSPAKTNSPPSSPASAAPASAAPASAAPASAAPASAAPASA Human herpesvirus 4 514 9 0.017509728
20919 PSARPRIMAPPVVRMFMRERQLPQSTGRKPQFWEMRAGREITQMQQEPSSHLQSA Human herpesvirus 4 514 9 0.017503728
53187 SDRLQQLGGGETDQGEEGSTTAESESGPPSPQSPLLEKVAPGRPRDWLSPTSSP Human herpesvirus 4 514 9 0.017509728
2531 DPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPHTD Human herpesvirus 4 514 9 0.017509728
11534 NTDDNGPHDPLPQDPDNTDDNGPHDPNLPQDPDNTDDNGPQDPDNTDDNGPHDPLP Human herpesvirus 4 514 9 0 017509728
55861 RKHQDGFQRSGRRQKRAAPPTVSPSDTGPPAAGPPAAGPPAAGPHILTPPSARPR Human herpesvirus 4 514 9 0 017509728
16074 QDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDNGPH Human herpesvirus 4 514 9 0.017509728
29931 HPSDSDESDYSESDEDEATPGSQASRSSRVSPSTQQSSGLTPTPSFSRPRTRAPP Human herpesvirus 4 514 9 0 017509728
71468 FCSQNLGAPGGGPDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPHDPDN Human herpesvirus 4 514 8 0 015564202
20909 HVIQNARFKAQIQGLSMLATGGEPRGDATSETSSEDTGRQGSDVELESSDDELP Human herpesvirus 4 514 8 0.015564202
16079 LCSKNLGAPGGGPNNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDNGPHDPQPH Human herpesvirus 4 514 8 0.015564202
52705 NTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPHDPLPHNPSDFAGNDG Human herpesvirus 4 514 8 0.015564202
29952 RRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPRAP Human herpesvirus 4 514 8 0.015564202
52710 PQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPHDPLPHNPSDS Human herpesvirus 4 514 8 0.015564202
20740 PERGSGPADPPAAARLPPERQEPRLPQDLAAAQRCPAGPPPTRSGAAAQRTHRRP Human herpesvirus 4 514 8 0.015564202
53114 PPTQQQPPQSAAPAPSPLLPQQQPPPSQQRAPSPLPPQQQPLPSATPAPPHAQQL Human herpesvirus 4 514 8 0.015564202
20917 PPAVGPPAAGPPAAGPPAAGPPAAGPPAAGPPAAGPRILAPLSAGPPAAGPHIVT Human herpesvirus 4 514 7 0.013618677
55929 PPPSAAPAPSPLLPQQQPPPSAARAPSPLPPQQQPLPSATPAPPPAQQLPPSATTL Human herpesvirus 4 514 7 0.013618677
52820 PCYTHPGPYGFQPHQSYEVPRYVPHPPPPPTSHQAAQAQPPPPGTQAPEAHCVAES Human herpesvirus 4 514 7 0.013618677
60218 TPERPGPSKQPSEPVEPAHTTPAGRSTVILHEPPREPEAVSFKPPPPPSRRRRGAC Human herpesvirus 4 514 7 0.013618677
60219 ILHEPPREPEAVSFKPPPPPSRRRRGACVVYDDDIIEVIDVETTEEETTSMQRQPP Human herpesvirus 4 514 7 0.013618677
20882 MLDLLEKDDEVMEQRVMATLLPPVPQQPRAGRRGPCVFTGDLGIESDEPASTEPV Human herpesvirus 4 514 7 0.013618677
21111 PPVMSTQRRDPYVISGASGSYNETDFLGNFLNFIDKEDDGQRPDDEPRYTYWQLN Human herpesvirus 4 514 7 0.013618677
21112 NFLNFIDKEDDGQRPDDEPRYTYWQLNQNLLERLSRLGIDAEGKLEKEPHGPRDF Human herpesvirus 4 514 7 0.013618677
60190 AQARQASVEVQPTQLTQVSPQQPMERPLEPEQQMFPGSPFSQVADVARESGVPAM Human herpesvirus 4 514 7 0.013618677
60186 VPKDGRGACAPVPALAGPIVRPWESSLLQSPGRAFAPVSPQPMPVEPVPVPTVAL Human herpesvirus 4 514 7 0.013618677
52709 NTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDN Human herpesvirus 4 514 7 0.013618677
52708 NLGAPGGGPDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNG Human herpesvirus 4 514 7 0.013618677
20904 NRVGADSIMLTATFGCQNAARTLNTFSATVWTPPHAGPREQERYAREAEVRFLRG Human herpesvirus 4 514 7 0.013618677
52976 AYQAYAAPQLFPVSDITQNQQTNQAGGEAPQPGDNSTVQPAAAVVFACPGANQGQ Human herpesvirus 4 514 7 0.013618677
21150 PQDPDNTDDNGPQDPDNTDDNGPHDPLPQDPDNTDDNGPQDPDNTDDNGPHDPLPH Human herpesvirus 4 514 7 0.013618677
20943 MSDEGPGTGPGNGLGEKGDTSGPEGSGGSGPQRRGGDNHGRGRGRGRGRGGGRPGA Human herpesvirus 4 514 7 0.013618677
55860 VYDDDVLEVIDVETTEDSSSVSQPNKPFIRKHQDGFQRSGRRQKRAAPPTVSPSDT Human herpesvirus 4 514 7 0.013618677
52819 ELQHTQALRRETLSYGHTGVGYCPQQGPCYTHPGPYGFQPHQSYEVPRYVPHPP Human herpesvirus 4 514 7 0.013618677
20928 LVSSSAPSWSSPQPRAPIRPIPTRFPPPPMPLQDSMAVGCDSSGTACPSMPFASDY Human herpesvirus 4 514 6 0.011673152
30057 TTGQTVEMSPFYDGKNKETFHERADSFHVRTNYKIVDYDNRGTNPQGERRAFLDK Human herpesvirus 4 514 6 0.011673152
55903 PPKNATSPQAPSGQKTAVPTVTSTGGKANSTTGGKHTTGHGARTSTEPTTDYGGDS Human herpesvirus 4 514 6 0.011673152
55975 AQNSMDGMEELRLALATLDPKRVAGGKETVADWKRRLSRLEAIIQEAQEESQLQG Human herpesvirus 4 514 6 0.011673152
52833 QDTRQAKAQRKESTRVPIVTHLTNHVPVIKPACSLFLEGAPGVGKTTMLNHLKAV Human herpesvirus 4 514 6 0.011673152
52946 PPVCPIVSLTASGAKQNRGGMGSLHLAKPEETSPAVSPVCPIASPAASRSKQHCGV Human herpesvirus 4 514 6 0.011673152
38723 RSGPDPARRLVALLRREDGAPKDPPLGPFGHPRGPGPAKSEDEESERRDAPPPPLD Human herpesvirus 4 514 6 0.011673152
20929 PMPLQDSMAVGCDSSGTACPSMPFASDYSQGAFTPLDINATTPKRPRVEESSHGPA Human herpesvirus 4 514 6 0.011673152
53160 LEVEGMAQNSMDGMEELRLALATLDPKRVAGGKFTVADWKRRLSRLEAIIQEAQE Human herpesvirus 4 514 6 0.011673152
16223 IEAESPEEEPKSGMESLKNIPQTLPYNPTVYGRPAVFNRKSPAKSTKKCRAIVTD Human herpesvirus 4 514 6 0.011673152
20883 RAGRRGPCVTTGPLGIESPEPASTEPVHPQLLPAPGPPPLEIQPLTSPTTSQLSSS Human herpesvirus 4 514 6 0.011673152
20925 QSSSYPGYAGPWTPRSQHPCYRIIPWAPWSQDPVHGHTQGPWDPRAPHLPPQWPGSA Human herpesvirus 4 514 6 0.011673152
29974 AAPPAPPVGHPAAPRAPGPEPRTRLQPATPRRSGAAPPAPPVGHPAAPRAPGPEPR Human herpesvirus 4 514 6 0.011673152
20918 AGPPAAGPRILAPLSAGPPAAGPH1VTPPSARPRIMAPPVVRMFMRERQLPQSTGR Human herpesvirus 4 514 6 0.011673152
52978 LADIGAPQPAPAAAPARRTRKPLQPESLEECPSELPIKRYKNRVASRKCRAKFKH Human herpesvirus 4 514 6 0.011673152
47686 ANCGPAGLLRAHRLPQPKPPCLSRQRPSPPSQTSP Human herpesvirus 4 514 6 0.011673152
53108 LGHTPGVPAPSTPPRASGGAAPQTPKRKKGLGKPSPHKKPTSGRRLPLSSTTPTED Human herpesvirus 4 514 6 0.011673152
52901 EGPYLLTQPEAWNLKPVRKRKLGPGHPLVAPSLAANRGVESMLYVMTPPSENAGR Human herpesvirus 4 514 5 0.009727626
16063 LCSQNLGAPGGGPPNGPQPPPNTDPNGPQPPPNTPPNGPHPPLPQPPPNTPPNGP Human herpesvirus 4 514 5 0.009727626
41221 TPPNGPQPPPNTPPNGPQPPPNTDPNGPQPPPNTPPNGPQPPPNTPPNGPHPPLPH Human herpesvirus 4 514 5 0.009727626
53211 RRHRSPSPTRGGQEPRRVRRRVLVQQEEEWSGSPSGPRGDRSEVPGPARPGPPG Human herpesvirus 4 514 5 0.009727626
29950 MKRVARGPCLAPGSGLGAHPHPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPAT Human herpesvirus 4 514 5 0.009727626
32077 VQPPQLTQVSPQQPMEGPLVPEQQMFPGAPFSQVADVVRAPGVPAMQPQYFDLPL Human herpesvirus 4 514 5 0.009727626
60230 APYPGYEEPRPPQAPFVGDYGFVQIPSAQWEPHPSQGTYQGHIDPQLPAALDLGP Human herpesvirus 4 514 5 0.009727626
56002 LGGGETDQGEEGSTTAESEASGPPSPQSPLLEKVAPGRPRDWLSPTSSPRDVTVT Human herpesvirus 4 514 5 0.009727626
52914 AHGGTGAGGGAGAGGAGAGGAGAGGAGAGGAGAGGAGAGGAGAGGAGAGGAGAGG Human herpesvirus 4 514 5 0.009727626
60165 AQAPESRGQGHLRVPPRVPGQPEGPRQPGRPQRPVPRPFPGLQSPGCPPEGTLGVP Human herpesvirus 4 514 5 0.009727626
52965 PNRGQTPCPSNAEEPEQPWIAAVHQESDERPIFPHPSKPTFLPPVKRKKGLRDSR Human herpesvirus 4 514 5 0.009727626
55950 PSATPANHDNPEATPPLADTAALTIPVIEKYIANAGSIVGAAKNPTYIRLRDTIQ Human herpesvirus 4 514 5 0.009727626
53015 GPPTAMQLSPRALTGQKGPAKHILRQLLTGGVKSGRPSLKFKAALERQAAAGLRP Human herpesvirus 4 514 5 0.009727626
60183 RAGKGKERARETLAKAPRRTYGTPRPPVQKPRPEVPQSYETATSHGSAQVPEPPPT Human herpesvirus 4 514 5 0.009727626
55904 NSTTGGKHTTGHGARTSTEPTTDYGGDSTTPRTRYNATTYLPPSTSSELRPRWTFT Human herpesvirus 4 514 5 0.009727626
76977 HHDDSLPHPQQATDDSSNQSDSNSNEGRHLLLVSGAGDGPPLCSQNLGAPGGG Human herpesvirus 4 514 5 0.009727626
76978 HHDDSLPHPQQATDDSGHESDSNPNEGRHHLLVSGAGDGPPLCSQNLRAPGGG Human herpesvirus 4 514 5 0.009727626
52742 HDDSLPHPQQATDDSGHESPSNSNEGRHHLLVTGAGPGPPLCSQNLGAPGGGPDN Human herpesvirus 4 514 5 0.009727626
82170 PLMTDGGGGHSHDSGHDGIDPHLPTLLLGTSGSGGDDDDPHGPVQLSYYD Human herpesvirus 4 514 5 0.009727626
56007 QKKHTIQIPGLVPSQKPSYPPSAPYKPGQSTGGIAPTPSAASLTTFGLQPQPTQAS Human herpesvirus 4 514 5 0.009727626
20927 GHGQDQVSQFPHLQSETGPPRLQLSLVPLVSSSAPSWSSPQPRAPIRPIPTRFPP Human herpesvirus 4 514 4 0.007782101
71469 QDPPNTDDNGPQDPDNTDDNGPHPPDNTDDPGPHDPLPHNPTDSAGKPGGPPNLTE Human herpesvirus 4 514 4 0.007782101
60236 SWSSPQPRAPIRPIPTRFPPPPMPLQPSMAVGCPSSGTACPSMPFASPYSQGAFT Human herpesvirus 4 514 4 0.007782101
52751 MSGGLFYNPFLRPNKGLLKKPDKEYLRLIPKCFQTPGAAGVVDVRGPQPPLCFYQ Human herpesvirus 4 514 4 0.007782101
60201 EPRRVVVSAIVHMCQDDEFPDLQDPPDEA Human herpesvirus 4 514 4 0.007782101
71473 QGPDNTDDNGPQGPDNTDDNGPQGPDNTDPNGPQGPDNTPPNGPHPPLPHNPSDSA Human herpesvirus 4 514 4 0.007782101
47677 GTPPKNATSPQAPSGQKTAVPTVTSTGGKANSTTGGKHTTGHGARTSTEPTTPYGG Human herpesvirus 4 514 4 0.007782101
47678 KANSTTGGKHTTGHGARTSTEPTTPYGGPSTTPRTRYNATTYLPPSTSSKLRPRWT Human herpesvirus 4 514 4 0.007782101
55863 MAPPVVRMFMRERQLPQSTGRKPQCFWEMRASREITQMQQEPSSHLQSATQPTMPR Human herpesvirus 4 514 4 0.007782101
50563 VNKTTILLRPMKTTTVPLGLYARPPEGHGLMLWGSTSRPVTSHVGIIDPGYTGELR Human herpesvirus 4 514 4 0.007782101
11521 NTPPNGPQPPPNTPPNGPQGPPNTPPNGPQGPPNTPPNGPQGPPNTPPNGPQGPDN Human herpesvirus 4 514 4 0.007782101
29762 TSAGPLPLPLSVILFNHASEEAAASTASEPEPKSPRVQPLGTGLQQRPRHTVSPS Human herpesvirus 4 514 4 0.007782101
32069 MRAGKRTEQGKEVLEKARGSTYGTPRPPVPKPRPEVPQSDETATSHGSAQVPEPPT Human herpesvirus 4 514 4 0.007782101
20910 TSETSSDEDTGRQGSDVELESSDDELPYIDPNMEPVQQRPVMFVSRVPAKKPRKL Human herpesvirus 4 514 4 0.007782101
32070 VPKPRPEVPQSDETATSHGSAQVPEPPTIHLAAQGMAYPLHEQHGMAPCPVAQAP Human herpesvirus 4 514 4 0.007782101
53011 PAVRPTPHQPPQVEPTFYQSTWVKPPQQYQPQMGHIPYQPRPTGHSTMLRPQWAPT Human herpesvirus 4 514 4 0.007782101
56033 PEPNTSSPSMPELSPVLGLHQGQGAGDSPTPGPSKAAPVCRNSHTATPNVSPIHE Human herpesvirus 4 514 4 0.007782101
11511 NTDDNGPQDPDNTDDNGPQDPNNTDDNGPQGPDNTDDNGPHDPLPHNPSDSAGNDG Human herpesvirus 4 514 4 0.007782101
21133 STASQASAGLLLGGGGQGSGGRRKRRLATVLPGLEV Human herpesvirus 4 514 4 0.007782101
16083 LCSQNLGAPGGGPDNAPQDPDNTDDNGPQGPDNTDDNGPQGPDNTDDNGPQGPDNT Human herpesvirus 4 514 4 0.007782101
60258 PESRGQGHLRVPPRVPGQPEGPRQPGRPQRPVPRPFPGLQSPGCPPEGTLGVPSPP Human herpesvirus 4 514 4 0.007782101
32083 EQWMFQGAPPSQGTPVVQHQLPALGYTLHGLNHPGVPVSPAVNQYHLSQAAFGLP Human herpesvirus 4 514 4 0.007782101
52947 PEETSPAVSPVCPIASPAASRSKQHCGVTGSSQAAPSSSSVAPVASLSGDLEEEE Human herpesvirus 4 514 4 0.007782101
29969 RRSGAADPADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPRAP Human herpesvirus 4 514 4 0.007782101
29967 GHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPRAPGPEPRTRLQPAT Human herpesvirus 4 514 4 0.007782101
11517 NLGAHAGGPDNDPQDPDNTDDNGPQDPPNTDDHGPQGPDNTPDNGPHDPLPHTPSD Human herpesvirus 4 514 4 0.007782101
21132 EAARPFLEGVWGGPGAAQPNFISVAEPVSTASQASAGLLLGGGGQGSGGRRKRRL Human herpesvirus 4 514 3 0.005836576
52966 ERPIFPHPSKPTFLPPVKRKKGLRPSREGMFLPKPEAGSAISPVFEGREVCQPKR Human herpesvirus 4 514 3 0.005836576
11510 NLGAHAGGPDNDPQDPDNTDDNGPQDPNNTDDNGPQDPDNTDDNGPQDPNNTDDNG Human herpesvirus 4 514 3 0.005836576
55855 TSETSSPEPTGRQGSPVELESSPPELPYIPPNMEPVQQRPVMFVSRVPAKKPRKL Human herpesvirus 4 514 3 0.005836576
53109 KGLGKDSPHKKPTSGRRLPLSSTTPTEPPQLPRTHVPPHRPPSAARLPPPVIPIPH Human herpesvirus 4 514 3 0.005836576
60225 STGPRPMAPTVVHMFTRERLLTQSTGPAPRSFWEMRAGRPAPKIQQEPSSQQQPAT Human herpesvirus 4 514 3 0.005836576
53078 EDISRLTGAAWRLCSRPLLYDAETGRVQIPLATEEEEEAVVAVKEKSVSSSPRHY Human herpesvirus 4 514 3 0.005836576
2532 DNGPQDPDNTDDNGPQDPDNTDDNGPHDPLPHNPSDSAGNDGGPNLTEEVENKGG Human herpesvirus 4 514 3 0.005836576
52964 SDTEQSEREEARAEAPRLRAPKSRRTSRPNRGQTPCPSNAEEPEQPWIAAVHQES Human herpesvirus 4 514 3 0.005836576
20849 TPAGTTSGASPVTPSPSPWDNGTESKAPDMTSSTSPVTTPTPNATSPTPAVTTPTP Human herpesvirus 4 514 3 0.005836576
16059 LCSQNLGAPGGGPDNGPQDPDNTDDNAPQDPDNTDDNGPQDPDNTDDNGPHDPLPH Human herpesvirus 4 514 3 0.005836576
52744 PQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTADNGPHDPLPHNPSDS Human herpesvirus 4 514 3 0.005836576
32068 DLPCIVSRGGPKVKRPPIFIRRLHRLLLMRAGKRTEQGKEVLEKARGSTYGTPRP Human herpesvirus 4 514 3 0.005836576
29979 ADPVGHPAAPRAPGPEPRTRLQPATPRRSGAADPADPVGHPAAPELQGWVLRPKGT Human herpesvirus 4 514 3 0.005836576
16064 QDPDKTDDNGPHDPLPQDPDNTDDNGPQDPDNTDDNGPHDPLPHSPSDSAGNDGGP Human herpesvirus 4 514 3 0.005836576
52743 HLLVTGAGDGPPLCSQNLGAPGGGPDNGPQDPPNTDDNGPQDPDNTPDNGPQDPDN Human herpesvirus 4 514 3 0.005836576
29934 GPHRPTRPVLRGPAPRRPPPPSSPNTYNKHMMETTPPIKGNNNYNWPWL Human herpesvirus 4 514 3 0.005836576
16069 QDPDNTDDNGPQGPDNTDDNGPQGPDNTDDNGPQGPDNTDDNGPHDPLPHNPSDST Human herpesvirus 4 514 3 0.005836576
58812 SAGWPWGKSGRQRVG Human herpesvirus 4 514 3 0.005836576
16260 PQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPHDPLPHNPSDSAGNDGGPPNLT Human herpesvirus 4 514 3 0.005836576
71477 QGPPNTPPNGPQGPPNTPPNGPQGPPNTPPNGPQGPPNTPPNGPQGPPNTPPNGPH Human herpesvirus 4 514 3 0.005836576
50566 TPQMEEPKGPINHPQVPGDVGLDVSEPKDEALFPHQTVSVTLTVPPPSIPHHRPT Human herpesvirus 4 514 3 0.005836576
29929 SSSYTLGSQASQSIQEEPVSPTPESPYSPEPEEIPLEEEYPSPEPPSEGSPSPPS Human herpesvirus 4 514 3 0.005836576
11522 PQGPDNTDDNGPQGPDNTDDNGPQGPDNTDDNGPHDPLPHNPSDSAGNPGGPPQLTT Human herpesvirus 4 514 3 0.005836576
16073 LCSQNLGAPGGGPNNGPQDPPNTDPNGPQDPDNTDDNGPQDPDNTDPNGPQDPDNT Human herpesvirus 4 514 3 0.005836576
20848 PSSTHVPTNLTAPASTGPTVSTADVTSPTPAGTTSGASPVTPSPSPWDNGTESKAP Human herpesvirus 4 514 3 0.005836576
59988 ARLPPERQEPRLPQDLAAAQRCPAGPPPTRSGAAAQRTHRRF Human herpesvirus 4 514 3 0.005836576
55918 AGTPDAPSSPPVMLPFERRIIPYNLRPLPSRSFTSDSFPAARYSPAKTNSPPPSPA Human herpesvirus 4 514 3 0.005836576
60002 VALGHTLQPTPPPRPTLPQPRIPLIIPPRHTNQPATTPPTAPQRLTLGHQLSLPPH Human herpesvirus 4 514 3 0.005836576
29849 RIVPSPEKAGSTKSDLPAVAAGVEDQPRVPISAAVIKLGNHAVAVESLQKMYNDT Human herpesvirus 4 514 3 0.005836576
55873 HLQSETGPPRLQLSSVPLVSSSAPSWSSPQPRAPIRPIPTRFPPPPMPLQPSMAV Human herpesvirus 4 514 3 0.005836576
52888 ETFESKQLISTYQRVVTATKTQFPKINYKQLERVEELREQELEARPELRQALEPF Human herpesvirus 4 514 3 0.005836576
11538 NTPPNGPQPPPNTPPNGPQPPPNTPPNGPFTDPLPHNPCPSAGNPAGPPNLTEEAEN Human herpesvirus 4 514 3 0.005836576
16196 PNSTHVPTNLTAPASTGPTVSTADVTSPTPAGTTSGASPVTPSPSPRDNGTESKAP Human herpesvirus 4 514 3 0.005836576
20877 IEAESDEEEDKSGMESLKNIPQTLPYNPTVYGRPAVFDRKSDAKSTKKCRAIVTD Human herpesvirus 4 514 3 0.005836576
52788 LPEGQYHKLRLPVSAYEALAVARYGLVGSLWEVPAVNSALQCLAAAAPCKDVKIY Human herpesvirus 4 514 3 0.005836576
55923 TPKRKKGLGKDSPHKKPTSGRRLPLSSTTDTEDDQLPRPPVPPHRPPSAARLPPPV Human herpesvirus 4 514 3 0.005836576
20893 IVQAPIFYPPVLQPIQVMGQGGSPTAMAASAVTQAPTEYTRERRGVGPMPPTDIPP Human herpesvirus 4 514 3 0.005836576
53094 MSNGDWGQSQRTRGTGPVRGIRTMDVNAPGGGSGGSALRILGTASCNQAHCKFGR Human herpesvirus 4 514 3 0.005836576
50427 PPQFPSPRASGPLRPRPPETRASGPASPVTLLEPQPGHMCQTPWPLRPSGPPGPRP Human herpesvirus 4 514 3 0.005836576
16085 DDNGPQGPDNTDDNGPQGPDNTDDNGPHGPLPHNPSDSAGNEGGPPELTEEVENKG Human herpesvirus 4 514 3 0.005836576
55865 PSWVPSVCALSVMDAGKAQPIQSSHLSSMSPTQPISHEEQPRYEDPDAPLDLSLH Human herpesvirus 4 514 3 0.005836576
55957 RFLSYLQKLKNNNNDQLRQKEVQAWRLEAEGFKPATEEQLEAFLDTAPNKELKRQ Human herpesvirus 4 514 3 0.005836576
16084 QGPDNTDDNGPQGPDNTDDNGPQGPDNTDDNGPQGPDNTDDNGPQGPDNTDDNGPH Human herpesvirus 4 514 3 0.005836576
60235 SETGPPRLQLSSVPQVLYPQPLVSSSAPSWSSPQPRAPIRPIPTRFPPPPMPLQDS Human herpesvirus 4 514 3 0.005836576
60231 QWEPHPSQGTYQGHIDPQLPAALDLGPEQPRFPQDPYVYSGGQLSSCPGYAGPWPS Human herpesvirus 4 514 3 0.005836576
52829 PDPFSVVFRKTSCTEGGADSTSRSFMYQKGFEEGLAGLGLDDKSDCESEDESNFRR Human herpesvirus 4 514 3 0.005836576
29878 QRNGTLLRDPRTYLAGMTNVNGAPGLCHGQQATCEIIVTPVTADVAYFQKSNSPR Human herpesvirus 4 514 3 0.005836576
20890 VPPVPRQRPRGAPTPTPPPQVLPTPMQLALRAPAGQQGPTKQILRQLLTGGVKKGR Human herpesvirus 4 514 2 0.003891051
60221 LGQQPPPPVISTGSAMSSSHTDPSVTQPSKPHRKPQDGFQRSGRRQKRAMPPPVSP Human herpesvirus 4 514 2 0.003891051
11540 KGGHQGPPPMTDGGGGHSHDSGHDGGDPPLPTLL Human herpesvirus 4 514 2 0.003891051
11529 NLGAPGGGPNNGPQDPDNTDDNGPQDPDNTDDNSPQGPDNTDDNSPQGPDNTDDNG Human herpesvirus 4 514 2 0.003891051
29949 CALTLPGNIVVESSSLPTFERINKTFNGNIVASEGT Human herpesvirus 4 514 2 0.003891051
29991 MPDSLPHPQQATDDSSFFESDSNSNEGRHHLLVSGAGDGPPLCSQNLGAPGGGPDN Human herpesvirus 4 514 2 0.003891051
11533 NLGAPGGGPDNGPQDPDNTDDNGPQDPDNTDDNGPHDPLPQDPDNTDDNGPHDPNL Human herpesvirus 4 514 2 0.003891051
29993 PQDPDNTDDNGPQDPDNTDDNGNTDDNGPQDPDNTDDNGPHDPLPHNPSDSAGNDG Human herpesvirus 4 514 2 0.003891051
29992 HLLVSGAGDGPPLCSQNLGAPGGGPDNGPQDPDNTDDNGPQDPDNTDDKGNTDDN Human herpesvirus 4 514 2 0.003891051
20878 TVYGRPAVFDRKSDAKSTKKCRAIVTDFSVIKAIEEEHRKKKAARTEQPRATPES Human herpesvirus 4 514 2 0.003891051
71464 LCSQNLGAPEGGPDNAPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNT Human herpesvirus 4 514 2 0.003891051
11525 NLGAPGGGPNNGPQDPDNTDDNGPQPPDNTDDNSPQGPDNTDDNSPQGPDNTDDNS Human herpesvirus 4 514 2 0.003891051
30064 STSAAVLRRRRRDAGNATTPVPPAAPGKSLGTLNNPATVQIQFAYDSLRRQINRM Human herpesvirus 4 514 2 0.003891051
53093 HTYPPYLSAAAAASRVRPRTRRGATRRPPRPTAEDE Human herpesvirus 4 514 2 0.003891051
71474 DDNGPQGPDNTDDNGPHDPLPHNPSDSAGNEGGPPQLTEEVENKGGDRGSPSITD Human herpesvirus 4 514 2 0.003891051
71472 LCSQNLGAPGGGPDNGPQGPDNTDDNGPQGPDNTDDNGPQGPDNTDDNGPQGPDNT Human herpesvirus 4 514 2 0.003891051
60237 MAVGCDSSGTACPSMPFASDYSQGAFTPLDINAPTPKSPRVEESSHGPARCSQATS Human herpesvirus 4 514 2 0.003891051
16198 DMTSPTSAVTTPTPNATSPTPAVTTPTPNATSPTLGKTSPTSAVTTPTPKATSPTV Human herpesvirus 4 514 2 0.003891051
11514 NLGAPGGGPDNGPQDPDNTDDNGPQGPDNTDDNGPQGPDNTDDNGPHDPLPHNPSD Human herpesvirus 4 514 2 0.003891051
11516 SAGNDGGPPELTEEVENKGGDRGPPLKTDGGGAHSHDSGRGGGDPHLPTL Human herpesvirus 4 514 2 0.003891051
20895 SKRAKIEAYTEPEMPHGGASHSPVVILENVGQGQQQTLECGGTAKQERDMLGLGD Human herpesvirus 4 514 2 0.003891051
16075 DDNGPQDPDNTDDNGPQDPDNTDDNGPHDPQPHNPSDPAGNDGGPPTLTEEVENKQ Human herpesvirus 4 514 2 0.003891051
11518 NTDDHGPQGPDNTDDNGPHDPLPHTPSDSAGNDGGPPQLTEEVENKQGDQGPPPMT Human herpesvirus 4 514 2 0.003891051
41219 HLLVSGAGDGPPLCSQNLGAPGGGPDNGPQDPDNTDDNGPQDPDNTDPNGPQDPD Human herpesvirus 4 514 2 0.003891051
38722 ASLLPEVSVGHQELSPLRSRSQGGQTDVRSGPDPARRLVALLRREDGAPKDPPLG Human herpesvirus 4 514 2 0.003891051
16197 TPAGTTSGASPVTPSPSPRDNGTESKAPDMTSPTSAVTTPTPNATSPTPAVTTPTP Human herpesvirus 4 514 2 0.003891051
71465 QDPDNTDDNGPQDPDNTDDNGPQDPDNTPDKGPQGPDNTDDNGDKGPHDPLPHNPS Human herpesvirus 4 514 2 0.003891051
20894 ASAVTQAPTEYTRERRGVGPMPPTDLPPSKRAKLEAYTEPEMPHGGASHSPVVILE Human herpesvirus 4 514 2 0.003891051
16080 QDPDNTDDNGPQDPDNTDDNGPHDPQPHNPSDPAGNDGGPPTLTEEVENKQGDQDP Human herpesvirus 4 514 2 0.003891051
32057 PAQKGTKRKRVDHDAGGSAPARPMLPPQPDLPGREAILRRFPLDLRTLLQAIGAAA Human herpesvirus 4 514 2 0.003891051
52711 TDDNGPQDPDNTDDNGPHDPLPHNPSDSAGNDGGPPNLTEEVDNKGGDRGPPSMTD Human herpesvirus 4 514 2 0.003891051
52900 PCKRSFIRFLNSIARPTVEYVPDGRLPSEGDYLLTQDEAWNLKDVRKKKLGPGHD Human herpesvirus 4 514 2 0.003891051
21151 QDPDNTDDNGPQDPDNTDDNGPHDPLPHSPSDSAGNDGGPPQLTEEVENKGGDQG Human herpesvirus 4 514 2 0.003891051
2530 LVSGAGDGPPLCSQNLGAPGGGPDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTD Human herpesvirus 4 514 2 0.003891051
21163 VQNVGPVKVGHVVAGHNLHAEVSDELEEGVEHVQLRWELVDLNPLYVFAGAQRQQ Human herpesvirus 4 514 2 0.003891051
53161 VAGGKETVADWKKRLSRLEAIIQEAQEESQLQGTLQDLVTQARGHTDPRQLKIVV Human herpesvirus 4 514 2 0.003891051
52875 SEHPAFSMVESVKRVRVDEGANTRRTIRDILEIPVTVLSSLQLSPTKSILKKAPE Human herpesvirus 4 514 2 0.003891051
55958 AEGFKPATEEQLEAFLDTAPNKELKRQYEKKLRQLMETGRKEKEKLREQEDKERR Human herpesvirus 4 514 2 0.003891051
16241 VVILENVSRGQQQTLECGGTAKQERDMLGLGDIAVSSPSSSETSND Human herpesvirus 4 514 2 0.003891051
59991 DELQDQASGARPGGGNRVGAGRGRPGTPAPSRQSRRTGPAEQADHAHSNPTGGCS Human herpesvirus 4 514 2 0.003891051
16238 GTSDKIVRAPIFYPPVLQPIQVMGQGGSPTAMAASAVTQAPTEYTRERRGVGPMP Human herpesvirus 4 514 2 0.003891051
59995 HPHPERGSGPADPPAAARLPPERQEPRLPQ Human herpesvirus 4 514 2 0.003891051
55934 LESGSSAPTSPITLDTARSQYYQTTFDIETPEMDFVPLESNIARIAGHTYQEQAIV Human herpesvirus 4 514 2 0.003891051
60004 PPPHQSTPHCSSDSTGLPPPPTSYSIPSMTLSPEPLPPPAAPAHPLPGVIYDQQA Human herpesvirus 4 514 2 0.003891051
60456 MLLAFHRNLGASLGGIRLPQVASARASCPPQFPSPRASGPLRPRPPETRASGPAS Human herpesvirus 4 514 2 0.003891051
82166 HDDSLPHPQQATDDSSNQSDSNSNEGRHLLLVSGAGDGPPLCSQNLGAPGGGPNN Human herpesvirus 4 514 2 0.003891051
82167 LLLVSGAGDGPPLCSQNLGAPGGGPNNGPQDPDNTDDNGPQDPDNTDDNGPHDPL Human herpesvirus 4 514 2 0.003891051
53142 PGKLKKRFLSYLQKLKNNNNDQLRQKEVQAVVRLEAEGFKPATEEQLEAFLDTAPNT Human herpesvirus 4 514 2 0.003891051
53019 MSPTPIPPSKRVKKKAYPERKTPHGGPSHSSTVMWENVSQGQQQTLECGGTDKQER Human herpesvirus 4 514 2 0.003891051
60128 LADIGAPQPAPAAAPARRTRKPLQPESVRRGSKRVAANGGAQRGWQRTVGLKEGG Human herpesvirus 4 514 2 0.003891051
55895 TPAGTTSGASPVTPSPSPRDNGTESKAPDMTSPTPAVTTPTPNATSPTSAVTTPTP Human herpesvirus 4 514 2 0.003891051
20789 STYLNKITTVVHGPVVSKAIPRSTVKVTVPQEAFVDLDAWLSGGAGGGGGVCFVG Human herpesvirus 4 514 2 0.003891051
21148 HDDSLPHPQQATDDSGHESDSNSNEGRHHLLVSGAGDGPPLCSQNLGAPGGGPDN Human herpesvirus 4 514 2 0.003891051
60145 ESDERPIFPHPSKPTFLPPVKRKKGLRDSREGMFLPKPEAGSAISDVFEGREVCQ Human herpesvirus 4 514 2 0.003891051
52979 EECDSELDIKRYKNRVASRKCRAKFKHLLQHYREVASAKSSENDRLRLLLKQMCP Human herpesvirus 4 514 2 0.003891051
61186 MTDGGGGHSHDSGSGGVDPHLPTLLLGASGSGGDDDDPHGPVQLSYYD Human herpesvirus 4 514 2 0.003891051
71476 LCSQNLRAPGGGPDNGPQDPDNTDDNGPQGPDNTDDNGPQGPDNTDDNGPQGPDNT Human herpesvirus 4 514 2 0.003891051
50573 SQRGKKRKRVDDDAGGSAPAQHVPPPQLDHPGREAILYRFPLDLRRFIQAIGAAA Human herpesvirus 4 514 2 0.003891051
53192 STASGSQKKHTIQIPGLVPSQKPSYPPSAPYKPGQSTGGIAPTPSAASLTTFGLQ Human herpesvirus 4 514 2 0.003891051
53191 PAPQQPPSSPWASEQGPIVYTLSPNSTPSTASGSQKKHTIQIPGLVPSQKPSYPPS Human herpesvirus 4 514 2 0.003891051
53190 TRASESPDRSPGTSPRPWPKDSLELLPQPAPQQPPSSPWASEQGPIVYTLSPNST Human herpesvirus 4 514 2 0.003891051
16258 HDDSLPHPQQATDDSSHESDSNSNEGRHHLLVSGAGDGPPLCSQNLGAPGGGPDN Human herpesvirus 4 514 2 0.003891051
20753 MAHKVTSANEPNPLTGKRLSSCPLTRSGVTEVAQIAGRTPKMEDFVPWTVDNLKS Human herpesvirus 4 514 2 0.003891051
21113 NLLERLSRLGIDAEGKLEKEPHGPRDFVKMFKDVDAAVDAEVVQFMNSMAKNNIT Human herpesvirus 4 514 2 0.003891051
52961 CLLSTKSKAVETPILVSGADRMDEELMGNDGGASHTEARYSESGQFHAFTDELES Human herpesvirus 4 514 2 0.003891051
52963 PSPTMPIKPGAQSADCGDSSSSSSDSGNSDTEQSEREEARAEAPRLRAPKSRRTS Human herpesvirus 4 514 2 0.003891051
55853 TIGNFKPYYPWNAPPNENPYHARRGIKEHVIQNAFRKAQIQGLSMLATVGEPRGDA Human herpesvirus 4 514 2 0.003891051
56012 HTPVGALAPSPQKTQAQRPQDAAALPTPTIKAVGARPVPKATGALAAGARPRGQPT Human herpesvirus 4 514 2 0.003891051
56011 PAFDPGEAPSGLPIPQAPALGSGLAAPAHTPVGALAPSPQKTQAQRPQDAAALPT Human herpesvirus 4 514 2 0.003891051
56009 SQDPPYGHSIMQREKKQQGGREEAAEIRPSATRLPTAVGLRPRAPVVAAGAAASA Human herpesvirus 4 514 2 0.003891051
56006 PSSPWASEQGPIVYTLSPHSTPSTASGSQKKHTIQIPGLVPSQKPSYPPSAPYKP Human herpesvirus 4 514 2 0.003891051
52968 RPFHPPGSPWANRPLPASLAPTPTGPVHEPVGSLTPAPVPRPLDPAPAVTPEASH Human herpesvirus 4 514 2 0.003891051
32071 IHLAAQGMAYPLHEQHGMAPCPVAQAPPTPLPPVSPGDQLPGVFSDGRVACAPVPA Human herpesvirus 4 514 2 0.003891051
55997 YSESFEPEVISIFARQAVWLRELLTEARAAKPKEARPPTVAILANRKNIIWKCFTY Human herpesvirus 4 514 2 0.003891051
60144 TSRPNRGQTPCPSNAAEPEQPWIAAVHQESDERPIFPHPSKPITLPPVKRKKGLRD Human herpesvirus 4 514 2 0.003891051
52848 ALAEPVDIPAVSEGSMQVDASKVHPGVISGLNSPACMLSAPLEKQLFYYIGTMLP Human herpesvirus 4 514 2 0.003891051
11537 NLLAPGGGPDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNGPQDPDNTDDNG Human herpesvirus 4 514 2 0.003891051
20981 NSPSASLGARVSGHNESILNSFVSQYIPPSREMTKDLTELVVESELFNTFKLTPVV Human herpesvirus 4 514 2 0.003891051
47667 PSSTHVPTNLTAPASTGPTVSTAPVTSPTPAGTTSGASPVTPSPSPRPNGTESKAP Human herpesvirus 4 514 2 0.003891051
20961 AGVFVYGGSKTSLYNLRRGTALAIPQCRLTPLSRLPFGMAPGPGPQPGPLRESIV Human herpesvirus 4 514 2 0.003891051
20846 VSGLGTAPKTLIITRTATNATTTTHKVIFSKAPESTTTSPTLNTTGFAPPNTTTGL Human herpesvirus 4 514 2 0.003891051
20739 PAAPGAPGTPAAPGPGGGAAVPSGATPFTPERGSGPADPPAAARLPPERQEPRLPQD Human herpesvirus 4 514 2 0.003891051
60171 SQRGKKRKRVDDDAGGSAPAQHVPPPQLDHPGREAILYRFPLDLRRFIQAIGAAA Human herpesvirus 4 514 2 0.003891051
29888 CAQVLKNRLLRVELDGIMRDHLARAEEIRQPLDAVVAFSDGLESMQYRSPSTGGR Human herpesvirus 4 514 2 0.003891051
20741 LAAAQRCPAGPPPTRSGAAAQRTHRRPPGCPRSARNPGCPRTWR Human herpesvirus 4 514 2 0.003891051
47668 TPAGTTSGASPVTPSPSPRPNGTESKAPPMTSPTSAVTTPTPNATSPTPAVTTPTP Human herpesvirus 4 514 2 0.003891051
69946 TAPAGHRGPVEARVWPGTYAPKAAQQIQGPFQALQPHGVRHAIKHAIPSL Human herpesvirus 4 514 2 0.003891051
16060 QDPDNTTDDNGPQDPDNTDDNGPHDPLPHNPSDSAGNDGGPPNLTEEVENKGGPRG Human herpesvirus 4 514 2 0.003891051
16065 PPPNTPPNGPHPPLPHSPSPSAGNPGGPPQLTEEVQNKGGPQGPPLMTPGGGGHSH Human herpesvirus 4 514 2 0.003891051
60184 QKPRPEVPQSYETATSHGSAQVPEPPPTHPLHQQHSMAPCMVAQNPRAPLGPQLP Human herpesvirus 4 514 2 0.003891051
20727 AAARLPPERQEPRLPQPLAAAQRCPAGPPPTRSGAAAQRTHRRPPGCPRSARNPG Human herpesvirus 4 514 2 0.003891051
21089 GTTVTPVPTTSKASTINVTTKVTAQNITATEAGTGTSTGVTSNVTTRSSSTTSATT Human herpesvirus 4 514 2 0.003891051
16068 LCSQNLGAPGGGPDNGPQDPDNTDDNGPQDPDNTDDNGPQGPDNTDDNGPQGPDNT Human herpesvirus 4 514 2 0.003891051
53106 SAAPASAAPASAAPASAAPASAAPASAAPASAAPASAAPASAAPASSPPLFIPIP Human herpesvirus 4 514 2 0.003891051
47922 MTQGRRGNVYWVRDSVSGLRVPVRTRPPRN Human adenovirus C 418 332 0.794258373
21516 PPAFPNNGIESLVDKMSRWKTYAQEHRDVPGPRPPTRRQRHDRQRGLVWEDDPSAD Human adenovirus C 418 276 0.660287081
21455 GGNNSGSGAEENSNAAAAAMQPVEDMNDHAIRGDTFATRAEEKRAEAEAAAEAAA Human adenovirus C 418 240 0.574162679
21456 HAIRGDTFATRAEEKRAEAEAAAEAAAPAAQPEVEKPQKKPVIKPLTEDSKKRSY Human adenovirus C 418 199 0.476076555
21319 ELKCLHGSIMINKEHVIEMDVTSENGQRALKEQSSKAKIVKNRWGRNVVQISNTDA Human adenovirus C 418 185 0.442583732
21517 VPGPRPPTRRQRHDRQRGLVWEDDDSADDSSVLDLGGSGNPFAHLRPRLGRM Human adenovirus C 418 147 0.351674641
38668 MAPKKKLQLPPPPTDEEEYWDSQAEEVLDEEEEDMMEDWESLDEEASEVEEVSDE Human adenovirus C 418 110 0.263157895
12097 PSPSVAFPSPAPQKSATVPSIATTSAPQAPPALPVRRPNRRWDTTGTRAGKSKQP Human adenovirus C 418 105 0.251196172
21515 TRTTRPRLLGEEEYLNNSLLQPQREKNLPPAFPNNGIESLVDKMSRVVKTYAQEHRD Human adenovirus C 418 103 0.246411483
21444 MQRAAMYEEGPPPSYESVVSAAPVAAALGSPFDAPLDPPFVPPRYLRPTGGRNSI Human adenovirus C 418 84 0.200956938
21422 ATGVLGQHTPVTLDLPPPADTQQKPVLPGPSAVVVTRPSRASLRRAASGPRSMRPV Human adenovirus C 418 81 0.193779904
38669 DEEEEDMMEDWESLDEEASEVEEVSDETPSPSVAFPSPAPQKSATGSSMATTSAP Human adenovirus C 418 62 0.148325359
21420 VEEPPPAVETVSPEGRGEKRPRPDREETLVTQIDEPPSYEEALKQGLPTTRPIAPM Human adenovirus C 418 61 0.145933014
21333 LAPTVQLMVPKRQRLEDVLEKMTVEPGLEPEVRVRPIKQVAPGLGVQTVDVQIPTT Human adenovirus C 418 60 0.14354067
38670 PSPSVAFPSPAPQKSATGSSMATTSAPQAPPALPVRRPNRRWDTTGTRAAHTAPAA Human adenovirus C 418 58 0.13755981
21332 LKPVTLQQVLPTLAPSEEKRGLKRESGDLAPTVQLMVPKRQRLEDVLEKMTVEPG Human adenovirus C 418 52 0.12440194
12095 MAPKKKLQLPPPPPTDEEEYWDSQAEEVLDEEEETMEDWDSLDEEASEAEEVSDET Human adenovirus C 418 51 0.122009569
47921 RRLAAGIVTVPPRSRRRAAAAAAAAFSAMTQGRRGNVYWVRDSVSGLRVPVRTRP Human adenovirus C 418 48 0.114832536
21334 EPEVRVRPIFCQVAPGLGVQTVDVQIPTTSSTSIATATEGYIETQTSPVASAVADAAV Human adenovirus C 418 45 0.107655502
21335 SSTSIATATEGMETQTSPVASAVADAAVQAAAAAASKTSTEVQTDPWMFRVSAPR Human adenovirus C 418 38 0.090909091
21421 LVTQIDEPPSYEEALKQGLPTTRPIAPMATGVLGQHTPVTLDLPPPADTQQKPVLP Human adenovirus C 418 37 0.088516746
58370 MKRARPSEDTFNPVYPYDTETG Human adenovirus C 418 37 0.088516746
58367 PSRASLRRAASGPRSLRPVASGNWQSTLNSIVGLGVQSLKRRR Human adenovirus C 418 34 0.081339713
12096 LDEEEETMEDWDSLDEEASEAEEVSDETPSPSVAFPSPAPQKSATVPSIATTSAP Human adenovirus C 418 30 0.071770335
21468 FKPYSGTAYNALAPKGAPNSCEWEQTEDSGRAVAEDEEEEDEDEEEEEEEQNARD Human adenovirus C 418 26 0.062200957
21269 EPEPARPTRRPKLVPAILRRPTSPVSRECNSSTDSCDSGPSNTPPEIHPVVPLCP Human adenovirus C 418 25 0.059808612
21291 PSPTASGGATSAADAAADGDYEPPRRRARHYLDLEEGEGLARLGAPSPERHPRVQ Human adenovirus C 418 24 0.057416268
13024 MSKEIPTPYMWSYQPQMGLAAGAAQDYSTRINYMSAGPHMISRVNGIRAHRNRIL Human adenovirus C 418 20 0.04784689
21419 ASGISGVVDLANQAVQNKINSKLPPRPPVEEPPPAVETVSPEGRGEKRPRPDREET Human adenovirus C 418 20 0.04784689
21263 ADNLPPPSHFEPPTLHELYDLDVTAPEDPNEEAVSQIFPDSVMLAVQEGIDLLTF Human adenovirus C 418 19 0.045454545
38671 APPALPVRRPNRRWDTTGTRAAHTAPAAAAAAATAAATQKQRRPDSKTLTKPKKST Human adenovirus C 418 18 0.043062201
21336 QAAAAAASKTSTEVQTPPWMFRVSAPRRPRRSRKYGTASALLPFYALHPSIAPTP Human adenovirus C 418 18 0.043062201
12083 PNLVPEVIDLTCHEAGFPPSDDEDEEGPVSEPEPEPEPEPEPARPTRRPKLVPAID Human adenovirus C 418 17 0.040669856
21418 KAWNSSTGQMLRDKLKEQNFQQKVVDGLASGISGVVDLANQAVQNKINSKLDPRP Human adenovirus C 418 16 0.038277512
47917 SDQHPVRVRGHYRAPWGAHKRGRTGRTTVDDAIDAVVEEARNYTPTPPPVSTVDAA Human adenovirus C 418 16 0.038277512
21512 PPGFYTGGFEVPEGNDGFLWDDLDDSVFSPQPQTLLELQQREQAEAALRKESFRR Human adenovirus C 418 15 0.035885167
21518 MSKEIPTPYMWSYQPQMGLAAGAAQDYSTRINYMSAGPHMISRVNGIRAHRNRIL Human adenovirus C 418 14 0.033492823
22698 AEEINLEEEDDDNEDEVDEQAEQQKTHVFGQAPYSGINITKEGIQIGVEGQTPKYA Human adenovirus C 418 13 0.031100478
12080 ADNLPPPSHFEPPTLHELYDLDVTAPEDPNEEAVSQIFPESVMLAVQEGIDLFTF Human adenovirus C 418 13 0.031100478
21205 MERRNPSERGVPAGFSGHASVESGCETQESPATVVFRPPGDNTDGGAAAAAGGSQA Human adenovirus C 418 12 0.028708134
21454 GNIPALLDVDAYQASLKDDTEQGGDGAGGGNNSGSGAEENSNAAAAAMQPVEDMN Human adenovirus C 418 12 0.028708134
21426 TSHGMLALKMGSGLTLDKAGNLTSQNVTTVTQPLKKTKSNISLDTSAPLTITSGA Human adenovirus C 418 12 0.028708134
12098 APPALPVRRPNRRWDTTGTRAGKSKQPPPLAQEQQQRQGYRSWRGHKNAIVACLQ Human adenovirus C 418 11 0.026315789
21445 GSPFPAPLDPPFVTPRYLRPTGGRNSIRYSELAPLFDTTRVYLVDNKSTDVASLNY Human adenovirus C 418 11 0.026315789
21525 YFNPFSGPPGHYPDQFIPNFDAVKDSADGYD Human adenovirus C 418 10 0.023923445
21330 TPGERSTRTYKRVYDEVYGDEDLLEQANERLGEFAYGKRHKDMLALPLDEGNPTPS Human adenovirus C 418 10 0.023923445
12084 VSEPEPEPEPEPEPARPTRRPKLVPAILRRPTSPVSIECNSSTDSCDSGPSNTPPE Human adenovirus C 418 10 0.023923445
12082 PAPGSPEPPHLSRQPEQPEQRALGPVSMPNLVPEVIDLTCHEAGFPPSDDEDEEG Human adenovirus C 418 9 0.0215311
13019 ADNLPPPSFIFEPPTLFIELYDLDVTAPEDPNEEAVSQIFPESVMLAVQEGIDLFTF Human adenovirus C 418 9 0.0215311
12104 MKRARPSEDTFNPVYPYDTETGPPTVPFLTPPFVSPNGFQESPPGVLSLRLSEPLV Human adenovirus C 418 9 0.0215311
12092 MERRNPSERGVPAGFSGHAFVESGGETQESPTTWFRPPGNNTDGGAAAATAAAG Human adenovirus C 418 9 0.0215311
21519 TRINYMSAGPFFMISRVNGIRAFFRNRILLEQAAITTPRNNLNPRSWPAALVYQES Human adenovirus C 418 9 0.0215311
5222 EQEEPTQEMAEELEDEEEAEEEEEAEEEAEAPQADQKVKKTHVYAQAPLAGEKITA Human adenovirus C 418 9 0.0215311
61732 MKRARPSEDTFNPVYPYDTETGPPTVPFLTPPFVSPNGFQESPPGVLSLRLSEPLV Human adenovirus C 418 9 0.0215311
13025 TRINYMSAGPHMISRVKGIRAHRNRILLEQAAITTTPRNNLKPRSWPAALVYQES Human adenovirus C 418 9 0.0215311
16661 YMRTCGMFVYSPVSEPEPEPEPEPEPARPTRRPKMVPAILRRPTSPVSRECNSSTD Human adenovirus C 418 9 0.0215311
31253 TVSPPLKKTKSNINLEISAPLTVTSEALTVAAAAPLMVAGNTLTMQSQAPLTVHDS Human adenovirus C 418 9 0.0215311
5221 DRGPIFKPYSGTAYNALAPKGAPNSCEVVEQEEPTQEMAEELEDEEEAEEEEEAEE Human adenovirus C 418 8 0.019138756
50230 AYNALAPKGAPNSCEWEQNETAQVPAQELDEEENEANEAQAREQEQAKKTHVYAQ Human adenovirus C 418 8 0.019138756
21427 TVTQPLKKTKSNISLDTSAPLTITSGALTVATTAPLIVTSGALSVQSQAPLTVQDS Human adenovirus C 418 8 0.019138756
38638 TTFPVEAPPLEEEEVIIEQDPGFVSEDDEDRSVPTEDKKQDQDNAEANEEQVGRGD Human adenovirus C 418 8 0.019138756
31255 KLSIATQGPLTVSEGKLALQTSGPLTTTDSSTLTITASPPLTTATGSLGIDLKEP Human adenovirus C 418 8 0.019138756
21428 TVATTAPLIVTSGALSVQSQAPLTVQDSKLSIATKGPITVSDGKLAEQTSAPLSG Human adenovirus C 418 8 0.019138756
21526 MSANSFDGSIVSSYLTTRMPPWAGVRQNVMGSSIDGRPVLPANSTTLTYETVSGT Human adenovirus C 418 8 0.019138756
21311 EDSSQDALVPRTPSPRPSTSTADLAIASKKKKKRPSPKPERPPSPEVIVDSEEER Human adenovirus C 418 7 0.016746411
61734 TSHGMLALKMGSGLALDKAGNLTSQNITTVTEPLKKTKSNISLETSAPLTVTSG Human adenovirus C 418 7 0.016746411
61735 TVTEPLKKTKSNISLETSAPLTVTSGILTVATAAPLVVAGNSLTVQSQAPLTVQD Human adenovirus C 418 7 0.016746411
50214 AYNALAPKGAPNSCEWEQEEPTQEMAGELEDEEEAEEEEAEEEAEAPQAGQKVKK Human adenovirus C 418 7 0.016746411
21527 VMGSSIDGRPVLPANSTTLTYETVSGTPLETAASAAASAAAATARGIVTDFAFLS Human adenovirus C 418 7 0.016746411
12108 MATTSPLVISDNTLTMQSQAPLTVQDSKLSIATKEPLTVLDGKLALQTSAPLSAT Human adenovirus C 418 6 0.014354067
12109 LSIATKEPLTVLDGKLALQTSAPLSATGNNALTITTSPPLTTANGSLAVTMENPLY Human adenovirus C 418 6 0.014354067
21331 ERLGEFAYGKRHKDMLALPLDEGNPTPSLKPVTLQQVLPTLAPSEEKRGLKRESG Human adenovirus C 418 6 0.014354067
61736 TVATAAPLVVAGNSLTVQSQAPLTVQDSKLSIATKGPLTVSEGKLALQTSGPLSA Human adenovirus C 418 6 0.014354067
21313 DVALQMVGFSNPPVLIKHGKGGKRTVRRLNEDDPVARGMRTQEEKEESSEAESES Human adenovirus C 418 6 0.014354067
13021 PAPGSPEPPHLSRQPEQPEQRALGPVSMPNLVPEVIDLTCHEAGFPPSDDEDEEG Human adenovirus C 418 6 0.014354067
21265 PAPGSPEPPHLSRQPEQPEQRALGPVSMPNLVPEVIDLTCHEAGFPPSDDEDEEG Human adenovirus C 418 6 0.014354067
12119 SLDKQYWNFRNGDSTNGQPYTYAVGFMPNLKAYPKTQSKTAKSNIVSQVYLNGDKS Human adenovirus C 418 6 0.014354067
61737 KLSIATKGPLTVSEGKLALQTSGPLSATDNNTLTITTSPPITTTNGSLGVNMENP Human adenovirus C 418 6 0.014354067
16662 PTRRPKMVPAILRRPTSPVSRECNSSTDSCDSGPSNTPPE Human adenovirus C 418 6 0.014354067
21528 LETAASAAASAAAATARGIVTDFAFLSPLASSAASRSSARDDKLTALLAQLDSLT Human adenovirus C 418 6 0.014354067
21514 SSLSDLGAAAPRSDASSPFPSLIGSFTSTRTTRPRLLGEEEYLNNSLLQPQREKN Human adenovirus C 418 6 0.014354067
21429 KLSIATKGPITVSDGKLALQTSAPLSGSDSDTLTVTASPPLTTATGSLGINMEDP Human adenovirus C 418 6 0.014354067
31252 TSNGMLALKMGNGLSLDEAGNLTSQNVTTVSPPLKKTKSNINLEISAPLTVTSEA Human adenovirus C 418 6 0.014354067
31250 MKRARPSEDTFNPVYPYDTETGPPTVPFLTPPFVSPNGFQESPPGVLSLRLSEPLV Human adenovirus C 418 6 0.014354067
21558 TTSPPPWSEPDAEISRRKRSSSSWPKSPIKTTQETCRRFCARPPSTTPKLILSNS Human adenovirus C 418 6 0.014354067
21292 RHYLDLEEGEGLARLGAPSPERHPRVQLKRDTREAYVPRQNLFRDREGEEPEEMR Human adenovirus C 418 6 0.014354067
58312 SLHDLYDLDVTAPEDPNEEAVSQIFPESVMLAVQEGIDLFTFPPAPGSPEPPHLSR Human adenovirus C 418 5 0.011961722
12079 MRHIICHGGVITEEMAASLLDQLIEEVLADNLPPPSHFEPPTLHELYDLDVTAPED Human adenovirus C 418 5 0.011961722
22697 FKPYSGTAYNALAPKGAPNPCEWDEAATALEINLEEEDDDNEDEVDEQAEQQKTH Human adenovirus C 418 5 0.011961722
21314 LNEPDPVARGMRTQEEKEESSEAESESTVINPLSLPIVSAWEKGMEAARALMDKY Human adenovirus C 418 5 0.011961722
12576 PDVRIIENHGTEDELPNYCFPLGGIGVTDTYQAIKANGNGSGDNGDTTWTKDETFA Human adenovirus C 418 5 0.011961722
21453 SRLSNLLGIRKRQPFQEGFRITYDDLEGGNIPALLDVDAYQASLKDDTEQGGDGA Human adenovirus C 418 5 0.011961722
21520 EQAAITTTPRNNLNPRSWPAALVYQESPAPTTVVLPRDAQAEVQMTNSGAQLAGG Human adenovirus C 418 5 0.011961722
21262 MRHIICHGGVITEEMAASLLDQLIEEVLADNLPPPSHFEPPTLHELYPLDVTAPED Human adenovirus C 418 5 0.011961722
58313 VMLAVQEGIDLFTFPPAPGSPEPPHLSRQPEQPEQRALGPVSMPNLVPEVIDLTC Human adenovirus C 418 5 0.011961722
12258 AKPTKENGGQGILVKQPNGKLESQVEMQFFSTTEAAAVNGPNLTPKVVLYSEDVD Human adenovirus C 418 5 0.011961722
21473 NPFGGQSVLVPDEKGVPLPKVDLQFFSNTTSLNDRQGNATKPKVVLYSEDVNMET Human adenovirus C 418 5 0.011961722
58314 QPEQPEQRALGPVSMPNLVPEVIDLTCHEAGFPPSDDEDEEGEEFVLDYVEHPGH Human adenovirus C 418 5 0.011961722
21304 MRADREELDLPPPVGGVAVDVVKVEVPATGRTLVLAFVKTCAVLAAVHGLYILHE Human adenovirus C 418 4 0.009569378
21303 GADERWAPSRRALEAAGAGPGLAVAPARAGNVGQVEEYDEDDEYEPEDGE Human adenovirus C 418 4 0.009569378
21469 SGRAVAEDEEEEDEDEEEEEEEQNARDQATKKTHVYAQAPLSGETITKSGLQIGS Human adenovirus C 418 4 0.009569378
21423 GPSAVVVTRPSRASLRRAASGPRSMRPVASGNWQSTLNSIVGLGVQSLKRRRC Human adenovirus C 418 4 0.009569378
12087 MERRNPSERGVPAGFSGHAFVESGGETQESPTTWFRPPGNNTDGGAAAATAAAG Human adenovirus C 418 4 0.009569378
21264 PNEEAVSQIFPDSVMLAVQEGIDLLTFPPAPGSPEPPHLSRQPEQPEQRALGPVSM Human adenovirus C 418 4 0.009569378
21207 AAAGAEPMEPESRPGPSGMNVVQVAELYPELRRILTITEDGQGLKGVKRERGACEA Human adenovirus C 418 4 0.009569378
38672 AAAAATAAATQKQRRPPSKTLTKPKKSTAAAAAGGGALRLAPNEPVSTRELRNRI Human adenovirus C 418 4 0.009569378
21557 MPKQAWSTAASGTREASTPSRSSWPASPTTSPPPWSEPPAEISKKKRSSSSWPKS Human adenovirus C 418 4 0.009569378
50231 LDEEENEANEAQAREQEQAKKTHVVAQAPLSGIKITKEGLQIGTADATVAGAGKE Human adenovirus C 418 4 0.009569378
58372 ELPRMVVPEFKAVSTKHQYRNVSLPVAIISPARQKPFD Human adenovirus C 418 4 0.009569378
61733 LTPPFVSPNGFQESPPGVLSLRLSEPLVTSHGMLALKMGSGLALDKAGNLTSQN Human adenovirus C 418 4 0.009569378
21472 ADANAAGGRVLKKTTPMKPCYGSYARPTNPFGGQSVLVPDEKGVPLPKVDLQFFS Human adenovirus C 418 4 0.009569378
21462 LARPPAPTITTVSENVPALTDHGTLPLRNSIGGVQRVTITDARRRTCPYVYKALG Human adenovirus C 418 4 0.009569378
5429 LTEGTAYTNAVGFMPNLSAYPKSHGKTAKSNIVSQVYLNGDKTKPVTLTITLNGT Human adenovirus C 418 3 0.007177033
22963 KGKLRAKGHAAEGLDYDTMVKCYLADAQGEDRQRFSTSRTSLKRTLASAQPGAHP Human adenovirus C 418 3 0.007177033
21425 LTPPFVSPNGFQESPPGVLSLRVSEPLDTSHGMLALKMGSGLTLDKAGNLTSQNV Human adenovirus C 418 3 0.007177033
5405 LTNATAYTNAVGFMPNLKAYPKTQSRTAKSNIVSQVYLNGEKEKPMTLTITLNGTD Human adenovirus C 418 3 0.007177033
21271 KPVAVRVGGRRQAVECIEDLLNESGQPLDLSCKRPR Human adenovirus C 418 3 0.007177033
13026 EQAAITTTPRNNLNPRSWPAALVYQESPAPTTVVLPRDAQAEVQMTNSGAQLAGG Human adenovirus C 418 3 0.007177033
13018 MRHIICHGGVITEEMAASLLDQLIEEVLADNLPPPSHFEPPTLHELYDLDVTAPED Human adenovirus C 418 3 0.007177033
38675 RSCLYHKSEDQLRRTLEDAEALFSKYCALTLK Human adenovirus C 418 3 0.007177033
21498 MMQDATDPAVRAALQSQPSGLNSTDDWRQVMDRIMSLTARNPDAFRQQPQANRLS Human adenovirus C 418 3 0.007177033
22701 KKTTPMKPCYGSYAKPTNENGGQGILVKQQNGKLESQVEMQFFSTTEATAGNGDN Human adenovirus C 418 3 0.007177033
31261 LFTASNNSKKLEVNLSTAKGLMFDATAIAINAGDGLEFGSPNAPNTNPLKTKIGH Human adenovirus C 418 3 0.007177033
21208 PELRRILTITEDGQGLKGVKRERGACEATEEARNLAFSLMTRHRPECITFQQIKD Human adenovirus C 418 3 0.007177033
38658 QIIGTFELQGPSPDEKSAAPGLKLTPGLWTSAYLRKFVPEDYHAHEIRFYEDQSR Human adenovirus C 418 3 0.007177033
31256 DSSTLTITASPPLTTATGSLGIDLKEPIYTQNGKLGLKYGAPLHVTDDLNTLTVAT Human adenovirus C 418 3 0.007177033
12257 QWNETEINHAAGRVLKKTTPMKPCYGSYAKPTNENGGQGILVKQPNGKLESQVEM Human adenovirus C 418 3 0.007177033
16660 VEQPGHGCRSCHVHRRNTGDPDIMCSLCYMRTCGMFVYSPVSEPEPEPEPEPEPAR Human adenovirus C 418 3 0.007177033
12245 AEESKVEMQFFAPSGTAMNERNAVQPSIVLYSEDVKMETPDTHISYKPSKTDENS Human adenovirus C 418 2 0.004784689
21294 RKFHAGRELRHGLNRERLLREEDFEPDARTGISPARAHVAAADLVTAYEQTVNQE Human adenovirus C 418 2 0.004784689
21293 KRPTREAYVPRQNLFRDREGEEPEEMRDRKFHAGRELRHGLNRERLLREEDFEPDA Human adenovirus C 418 2 0.004784689
12081 PNEEAVSQIFPESVMLAVQEGIDLFTFPPAPGSPEPPHLSRQPEQPEQRALGPVSM Human adenovirus C 418 2 0.004784689
21424 MKRARPSEDTFNPVYPYDTETGPPTVPFLTPPFVSPNGFQESPPGVLSLRVSEPLD Human adenovirus C 418 2 0.004784689
5225 GESQWNEAEATASGGRVLKKTTPMKPCYGSYARPTNKNGGQGILVANNQGALESK Human adenovirus C 418 2 0.004784689
12103 MKIVGAEGQEHEEFDIPFRLWRKFAAKRLLKYQSWEEGKEVMLNKLDKDLLTDF Human adenovirus C 418 2 0.004784689
12110 NNALTITTSPPLTTANGSLAVTMENPLYNNNGKLGLKIGGPLQVATDSHALTLGT Human adenovirus C 418 2 0.004784689
12106 TSHGMLALKMGSGLSLDQAGNLTSNTITVSQPLKKTKSNITLETSAPLTVSSGAL Human adenovirus C 418 2 0.004784689
5232 NHGTEDELPNYCFPLGGIGVTDTYQGIKSNGNGNPQNWTKNDDFAARNEIGVGNN Human adenovirus C 418 2 0.004784689
21474 TTSLNDRQGNATKPKVVLYSEDVNMETPDTHLSYKPGKGDENSKAMLGQQSMPNR Human adenovirus C 418 2 0.004784689
22935 PLVTAARDLAANLGWDRWEQDPLTFYCITPEKMAIGRQFRTFRDHLQMLMARDLW Human adenovirus C 418 2 0.004784689
21351 IVSAVSLPHGSPPPTHNRDMTGGVFQLRPRENGRAVTETMRRRRGEMIERFVDRL Human adenovirus C 418 2 0.004784689
56504 NKPSTKPRPKNPPRKPKDDYHFEVFNFVPCSICGNNQLCKSICKTIPSNKPKKKPT Human respiratory 393 332 0.844783715
syncytial virus
2933 STTKQRQNKPQNKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIPNKKPGKKTTTK Human respiratory 393 325 0.82697201
syncytial virus
80422 AQPNKSTTKQRQNKPPSKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIPNKKPGK Human respiratory 393 322 0.819338422
syncytial virus
7050 HFEVFNFVPCSICGNNQLCKSICKTIPSNKPKKKPTIKPTNKPPTKTTNKRDSKT Human respiratory 393 303 0.770992366
syncytial virus
7055 ISTQTNKPSTKPRPKNPPKKPKDDYHFEVFNFVPCSICGNNQLCKSICKTIPSNKFP Human respiratory 393 295 0.750636132
syncytial virus
55727 TQNNKPSTKPRPKNPPKKPKDDYHFEVFNFVPCSICGNNQLCKSICKTIPNNKPKK Human respiratory 393 285 0.72519084
syncytial virus
51903 KSRSKNPPKKPKDDYHFEVFNFVPCSICGNNQLCKSICKTIPSNKPKKKPTIKPTN Human respiratory 393 283 0.720101781
syncytial virus
56480 NKPSTKPRPKNPPKKPKDDHHFEVFNFVPCSICGNNQLCKSICKTIPSNKPKKKPT Human respiratory 393 281 0.715012723
syncytial virus
63837 TTKQRQNKPPNKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIPSKKPGKKTTTKP Human respiratory 393 277 0.704834606
syncytial virus
7013 TTTTQIQPSKLTTKQRQNKPPNKPNPDFPFEVFNFVPCSICSNNPTCWAICKRIPS Human respiratory 393 274 0.697201018
syncytial virus
13122 KPSTKSRSKNPPKKPKDDYHFEVTNFVPCSICGNNQLCKSICKTIPSNKPKKKPT Human respiratory 393 270 0.687022901
syncytial virus
19832 LQPSKPTTKQRHNKPPNKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIPNKKPGK Human respiratory 393 264 0.671755725
syncytial virus
70446 NTTITQIQPSKPTTKQRQNKPPNKPNDDFHFEVFNFVPCSICSNNPTCWAICKRIP Human respiratory 393 261 0.664122137
syncytial virus
7049 RTTTPTQNNKPSTKPRPKNPPKKPKDDYHFEVFNFVPCSICGNNQLCKSICKTIPS Human respiratory 393 257 0.65394402
syncytial virus
56488 NKPSTKPPIPKIPPKKPKDDYIIPEVFNFVPCSICGNNQLCKSICKTIPSNKPKKKPT Human respiratory 393 255 0.648854962
syncytial virus
56411 NKPPNKPNNDFHFEVFNFVPCSICSNNPTCWAICKRrPNKKPGKKTTTKPTKKPT Human respiratory 393 252 0.641221374
syncytial virus
22260 TQPSKPTTKQRQKKPPSKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIPNKKPGK Human respiratory 393 241 0.613231552
syncytial virus
80439 IQPSKPTTKQRQNKPPNKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIPNKKPGK Human respiratory 393 241 0.613231552
syncytial virus
80431 AQPNKPTTKQRQNKPPSKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIPNKKPGK Human respiratory 393 238 0.605597964
syncytial virus
13114 SKPTTKQRQNKPQNKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIPNKKPGKKTT Human respiratory 393 234 0.595419847
syncytial virus
11478 EVFNFVPCSICGNNQLCKSICKTIPSNKPKKKPTIKPTNKPPTKTTNKRDPKTLAK Human respiratory 393 232 0.590330789
syncytial virus
7014 PFEVTNFVPCSICSNNPTCWAICKRIPSKKPGRKTPPKPTKKPTFKTPKKDLKPQT Human respiratory 393 224 0.569974555
syncytial virus
6979 NNDFHFEVFNFVPCSICSNNPTCWAICKRtPNKKPGKKTTTKPTKKPTIKTTKKDP Human respiratory 393 223 0.567430025
syncytial virus
51891 KPRPKIPPKKPKDDYPFFEVFNFVPCSICGNNQLCKSICKTIPSNKPKKKPTIKPTN Human respiratory 393 222 0.564885496
syncytial virus
19833 NFVPCSICSNNPTCWAICKRIPNKKPGKKTTTKPTKRPTTRTTKKDLKPQTTKPKG Human respiratory 393 218 0.554707379
syncytial virus
16673 ILPSKPTTKQRQNKPQNKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIPNKKPGK Human respiratory 393 214 0.544529262
syncytial virus
56496 NKPSTKPRPKNPPKKPKDDYHFEVFNFVPCSICGNNQLCKSICKTIPSNKPKKKPT Human respiratory 393 213 0.541984733
syncytial virus
56474 NKPSTKPRLKNPPKKDDYHFEVFNFVPCSICGNNQLCKSICKTIPSNKPKKKPTIK Human respiratory 393 207 0.526717557
syncytial virus
55509 TQTNKPSTKPRPKNPPKKPKDDYHFEVFNFVPCSICGNNQLCKSICKTIPSNKPKK Human respiratory 393 199 0.506361323
syncytial virus
7056 VFNFVPCSICGNNQLCKSICKTIPSNKPKKKPTIKPTNKPTTKTTNKKDPKTPAKT Human respiratory 393 196 0.498727735
syncytial virus
2503 TPSAESTPQSTTVKTKNTTTTQIQPSKPTTKQRQNKPPNKPNNDFHFEVFNFVPCS Human respiratory 393 195 0.496183206
syncytial virus
70426 NTTTTQIQPSKPTTKQRQNKPPNKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIP Human respiratory 393 194 0.493638677
syncytial virus
70427 FHFEVFNFVPCSICSNNPTCWAICKRIPNKKPGKKTTTKPTKKPTIKTTKKDLKPQ Human respiratory 393 193 0.491094148
syncytial virus
2511 TTKQRQNKPPNKPNNDLHFEVFNFVPCSICSNNPTCWAICKRIPNKKPGKKTTTKF Human respiratory 393 188 0.478371501
syncytial virus
6978 KIKNTTTTQIQPSKPTTKQRQNKPQNKPNNDFHFEVFNFVPCSICSNNPTCWAICK Human respiratory 393 186 0.473282443
syncytial virus
80452 TQTNKPSTKSRSKNPPKKPKDDYHFEVFNFVPCSICGNNQLCKSICKTIPSNKPKK Human respiratory 393 183 0.465648855
syncytial virus
70439 NTTTTQMQPSEPTTKQRQNKPQKKPNNPFHFEVFNFVPCSICSNNPTCWAICKRIP Human respiratory 393 180 0.458015267
syncytial virus
55510 NFVPCSICGNNQLCKSICKTIPSNKPKKKPTIKPTNKPTTKTTNKKDPKTPAKTLK Human respiratory 393 179 0.455470738
syncytial virus
80423 NFVPCSICSNNPTCWAICKRIPNKKPGKRTTTKPTKKPTLKTTKKDPKPQTTKSEE Human respiratory 393 179 0.455470738
syncytial virus
7041 PAQTNRPSTKPRPKNPPKKPKDDYHFEVFNFVPCSICGNNQLCKSICKTIPSNKPK Human respiratory 393 177 0.450381679
syncytial virus
63823 TTKQRQNKPPSKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIPNKKPGKRTTTKF Human respiratory 393 177 0.450381679
syncytial virus
70447 FHFEVFNFVPCSICSNNPTCWAICKRIPSKKPGKKTTTKPTKKPTIKTTKKDLKPQ Human respiratory 393 176 0.44783715
syncytial virus
80443 IQPSKPTTKQHQNKPPNKPNNHFHFEVFNFVPCSICSNNPTCWAICKRIPNKKPGK Human respiratory 393 169 0.430025445
syncytial virus
80453 NFVPCSICGNNQLCKSICKTIPSNKPKKKPTIKPTNKPTTKTTNKRDPKTPAKMPK Human respiratory 393 167 0.42436387
syncytial virus
2496 TPSAESTPQSTTVKTKNTTTTQIQPSKPTTKQRQNKPQNKPNNDFHFEVFNFVPCS Human respiratory 393 166 0.422391858
syncytial virus
39743 NFVPCSICSNNPTCWAICKRIPSKKPGKKTTTKPTKKPTIKTTKKDHKPQTTKPKE Human respiratory 393 165 0.419847328
syncytial virus
7042 FNFVPCSICGNNQLCKSICKTIPSNKPKKKPTIKPTNKPPTKTTNKRDSKTLAKTL Human respiratory 393 160 0.407124682
syncytial virus
2940 PTTKQRQNKPPNKPNDDFHFEVFNFVPCSICSNNPTCWAICKRIPSKKPGKKTTTK Human respiratory 393 157 0.399491094
syncytial virus
17600 TQTNKPSTKPRLKNPPKKPKDDYHFEVFNFVPCSICGNNQLCKSICKTIPSNKPKK Human respiratory 393 135 0.34351145
syncytial virus
6954 TSTPTQNNKPSTKPRPKNPPKKDDYHFEVFNFVPCSIC Human respiratory 393 133 0.338422392
syncytial virus
2939 TTPSVEPTPQSTTVKTKNTTTTQTQPSKPTTKQRQNKPPNKPNDDFHFEVTNFVPC Human respiratory 393 130 0.330788804
syncytial virus
51896 NTKSETHHTTAQTKGRTTTSTQTNKPSTKPRPKNPPKKPKDDYHFEVFNFVPCSIC Human respiratory 393 126 0.320610687
syncytial virus
16674 NFVPCSICSNNPTCWAICKRIPNKKPGKKTTTKPTKKPTLKTTKKDPKPQTTKPKE Human respiratory 393 125 0.318066158
syncytial virus
22243 QKNNRLLEITREFSVNAGVTTPVSTYMLTNSELLSLINDMPITKDQKKLMSNNVQ Human respiratory 393 124 0.315521628
syncytial virus
80432 NFVPCSICSNNPTCWAICKRIPNKKPGKRTTTKPTKKPTPKTTKKGPKPQTTKSKE Human respiratory 393 123 0.312977099
syncytial virus
13130 SKPTTKQRQNKPPSKPNDDFHFEVFNFVPCSICSNNPTCWAICKRIPNKKPRKKTT Human respiratory 393 116 0.295165394
syncytial virus
2497 TTKQRQNKPQNKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIPNKKPGKKTTTKP Human respiratory 393 106 0.269720102
syncytial virus
56497 PCSICGNNQLCKSICKTIPSNKPKKKPTVKPTNKPPTKITNKRDPKTLAKTLKKEE Human respiratory 393 106 0.269720102
syncytial virus
13123 CSICGNNQLCKSICKTIPSNKPKKKPTIKPTNKPTTKTTNKRDPKTSAKMSKKEI Human respiratory 393 104 0.264631043
syncytial virus
55726 TNSATISPNTKSETHHTTAQTKGRTTTPTQNNKPSTKPRPKNPPKKPKDDYHFEVF Human respiratory 393 97 0.246819338
syncytial virus
56473 ATTSPNTKSETHHTTAQTKGRTTTSTQTNKPSTKPRLKNPPKKDDYHFEVFNFVPC Human respiratory 393 95 0.24173028
syncytial virus
56479 ATTSPNTKSETHHTTAQTKGRTTTSTQTNKPSTKPRPKNPPKKPKDDHHFEVFNFV Human respiratory 393 94 0.239185751
syncytial virus
60891 FEAFKFVPCSICSNNPTCWAICKRIPNKKPGKKTTTKPTKKPTIKTTKKDLKPQTT Human respiratory 393 91 0.231552163
syncytial virus
70438 TTSQPITILASTTPSAELTPQSTTVKIKNTTTTQMQPSEPTTKQRQNKPQNKPNND Human respiratory 393 87 0.221374046
syncytial virus
13043 VSCYGKTKCTASNKNRGIIKTFSNGCDYVSNKGVDTVSVGNTLYYVNKQEGKSLY Human respiratory 393 83 0.211195929
syncytial virus
2932 TTPSAESTPQSTTVKTKNTTTAQIQPSKSTTKQRQNKPQNKPNNDFHFEVFNFVPC Human respiratory 393 76 0.193384224
syncytial virus
80451 TNSATISPNTKSETHHTTAQTKGRITTSTQTNKPSTKSRSKNPPKKPKDDYHFEV Human respiratory 393 75 0.190839695
syncytial virus
70431 NTTTTQMQPSKPTTKQRQNKPQNKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIP Human respiratory 393 72 0.183206107
syncytial virus
51915 LQPTTVKTKNTTTTQTQPSKPTTKQRQNKPPNKPNNDFHFEVFNFVPCSICSNNPT Human respiratory 393 69 0.175572519
syncytial virus
56976 NSTTISPNTKSEKHHTTAQTKGRTTTSTQTNKPSTKPRPKNPPKKPKDDYHFEVFN Human respiratory 393 64 0.162849873
syncytial virus
13045 KGEPIINFYDPLVFPSDEFDASISQVNEKINQSLAFIRKSDELLHNVNVGKSTTN Human respiratory 393 63 0.160305344
syncytial virus
11866 TILASTIPSAESTPQSTTVKIKNTTTTQIQPSKPTTKQRQKKPQNKPNNDFHIEVF Human respiratory 393 52 0.132315522
syncytial virus
2510 TPSVESTPQSTTVKTKNTTTTQIQPSKSTTKQRQNKPPNKPNNDLHFEVFNFVPCS Human respiratory 393 52 0.132315522
syncytial virus
11867 IQPSKPTTKQRQNKPQNKPNNDFHIEWNIVPCSICSNNP Human respiratory 393 51 0.129770992
syncytial virus
80430 TILDSTTPGVKSTLQSTTVGTKNTTTTQAQPNKPTTKQRQNKPPSKPNNDFHFEV Human respiratory 393 50 0.127226463
syncytial virus
7012 ISQTTAILAPTTPSVEPILQSTTVKAKNTTTTQIQPSKLTTKQRQNKPPNKPNDD Human respiratory 393 49 0.124681934
syncytial virus
56481 PCSICGNNQLCKSICKTIPSNKPKKKPTIKPTNKPTTKTTNKRDPKTPAKTTKKET Human respiratory 393 49 0.124681934
syncytial virus
56959 KNPPKKPKDDYHFEVFNFVPCSICGNNQLCKSICKTIPSNKPKKKPTIKPTNKPPT Human respiratory 393 48 0.122137405
syncytial virus
70430 TTSQPITILASTTPSAESTPQSTTVKIKNTTTTQMQPSKPTTKQRQNKPQNKPNND Human respiratory 393 43 0.109414758
syncytial virus
51916 KPPNKPNNDFHFFATNFVPCSICSNNPTCWAICKRIPNKKPGKKTTTKPTKKPTFK Human respiratory 393 41 0.1043257
syncytial virus
2504 TTKQRQNKPPNKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIPNKKPGKKTTTK Human respiratory 393 40 0.10175117
syncytial virus
39741 AILALTTPSVESILQSTTVKTKNTTITQIQPSKPTTKQRQNKPPNKPNNDFHFEV Human respiratory 393 38 0.096692112
syncytial virus
16322 SQTTAILAPTTPSVEPILQSTTVKTKNTTTTQIQPSKLTTKQRQNKPPNKPNDDFH Human respiratory 393 36 0.091603053
syncytial virus
13129 ASTTPGVKSTLQSTTVKTKNTTTTQTQPSKPTTKQRQNKPPSKPNDDFHFEVFNFV Human respiratory 393 36 0.091603053
syncytial virus
32429 KCTASNKNRGIIKTFSNGCDYVSNKGVDTVSVGNTLYYVNKLEGKNLYVKGEPII Human respiratory 393 34 0.086513995
syncytial virus
70411 TISQTTAILALTTPSVESILQSTTVKTKNTTTTQIQPSKPTTKQRQNKPPNKPNDD Human respiratory 393 34 0.086513995
syncytial virus
56503 ATISLNTKSETHHTTAQTKGRTTTPTQNNKPSTKPRPKNPPKKPKDDYHFEVFNFV Human respiratory 393 32 0.0814243936
syncytial virus
51902 NTKSETHHTTAQTKGRITTSTQTNKPSTKSRSKNPPKKPKDDYHFEVFNFVPCSIC Human respiratory 393 32 0.0814243936
syncytial virus
7016 SKPKEVPTTKPTEKPTINIPKPKIRTSLFTNSTTGNLEPPSQEETLHSTSSEGNTS Human respiratory 393 31 0.078880407
syncytial virus
70418 TTSQPTTTPALAFPSAESTLQSTIVKTKNITTTQIQPSKPTTKQRQNKPPNKPNND Human respiratory 393 30 0.076335878
syncytial virus
56490 IKPTNKPTTKTTNKRDSKTSAKALRKETTTDPTKEPTLKTTERDTSTSRSTVLDTT Human respiratory 393 30 0.076335878
syncytial virus
731 NTTTTQMQPSKPTTKQRQNKPQNKPNNDFH Human respiratory 393 30 0.076335878
syncytial virus
16672 TILASTTPSAESTPQSTTVKIKNTTTTTQILPSKPTTKQRQNKPQNKPNNDFHFEV Human respiratory 393 30 0.076335878
syncytial virus
51897 KPRPKNPPKKPKDDYHFEVTNFVPCSICGNNQLCKSICKTIPSNKPKKKPTIKPTN Human respiratory 393 29 0.073791349
syncytial virus
70440 FHFEVTNPVPCSICSNNPTCWAICKRIPNKKPGKKTTTKPTKKPTIKTTKKPPKPQ Human respiratory 393 28 0.071246819
syncytial virus
55728 NFVPCSICGNNQLCKSICKTIPNNKPKKKPTTKPTNKPFIKTTNKRDPKTPAKTLK Human respiratory 393 28 0.071246819
syncytial virus
6386 TPSVESTLQSTTVKTKNTTTTQTQPSKPTTKQRQNKPPNKPNNDFHFEVFNFVPCS Human respiratory 393 26 0.066157761
syncytial virus
63822 TPGVKSTLQSTTVGTKNTTTTQAQPNKPTTKQRQNKPPSKPNNDFHFEVFNFVPCS Human respiratory 393 26 0.066157761
syncytial virus
56487 ATISPNIKSETHHTTAQTKGRTTTPTQTNKPSTKPHPKIPPKKPKDDYHFEVFNFV Human respiratory 393 26 0.066157761
syncytial virus
7048 TPPIHTNSATISPKTKSETHHTTAQTKGRTTTPTQNNKPSTKPRPKNPPKKPKDDY Human respiratory 393 25 0.063613232
syncytial virus
13100 TKPTKKPTIKTTKKDLKPQTTKPKEAPTTKPTEKPTINITKPNIRTTLLTNSTTGN Human respiratory 393 25 0.063613232
syncytial virus
13097 ALTTPSVESLLQSTTVKTKNTTTTQIQPSKPATKQRQNKPPNKPNNDFHFEVFNFV Human respiratory 393 24 0.061068702
syncytial virus
51890 NTKSETHHTTAQTKGRTTTPTQTNKPSTKPRPKIPPKKPKDDYHFEVFNFVPCSIC Human respiratory 393 24 0.061068702
syncytial virus
6953 PPIHTNSATISPNTKSETHHTTAQTKGRTSTPTQNNKPSTKPRPKNPPKKDDYHFE Human respiratory 393 23 0.058524173
syncytial virus
13124 KPTNKPTTKTTNKRDPKTSAKMSKKEIITNPTKKPTLKTTERDISTSQSIVLDTIT Human respiratory 393 22 0.055979644
syncytial virus
13042 IFNPKYDCKIMTSKTDVSSSVITSLGAIVSCYGKTKCTASNKNRGIIKTFSNGCDY Human respiratory 393 22 0.055979644
syncytial virus
71550 KKDLKPQTTKPKEAPTTKPTEKPTINITKPNIRTTLLTHSTTGNLEHTSQVETLHS Human respiratory 393 21 0.053435115
syncytial virus
2489 TPSVVPILQSTTVKTKNTTTTQIQPSKLTTKQRQNKPPNKPNDDFHFEVFNFVPCS Human respiratory 393 21 0.053435115
syncytial virus
56957 RDPKTPAKTVKKESTTNPTKKPTLKTTERDTSTPQSTALDTTTSKHTIQQQSLHST Human respiratory 393 21 0.053435115
syncytial virus
60888 NKPPIKTTNKRDPKTLAKTLTKETTTNPTKKPTPKTTERDTSTPQSTVLDTATSGH Human respiratory 393 21 0.053435115
syncytial virus
16675 KTTTKPTKKPTLKTTKKDPKPQTTKPKEVLTTKPTGKPTINTTKTNIRTTLLTSNT Human respiratory 393 20 0.050890585
syncytial virus
16613 STTVKTKNTTTTQIQPSKLTTKQRQNKPQNKPNNDFHFEVFNFVPCSICSNNPTYW Human respiratory 393 20 0.050890585
syncytial virus
60884 TNKPPTKTTNKRDPKTLAKTLKKETTTNPTKKPTPKTTERDTSIPQSTVLDTTTSK Human respiratory 393 20 0.050890585
syncytial virus
22261 NFVPCSICSNNPTCWAICKRIPNKKPGKKTTTKPTKKPTLKTTKKDPKPQTTKSKE Human respiratory 393 20 0.050890585
syncytial virus
60887 YVATINSAILCKTIPSNKPKKKPTIKPTNKPPIKTTNKRDPKTLAKTLTKETTTNP Human respiratory 393 19 0.048346056
syncytial virus
32746 TSNSTIINPTNETDDTVGNKPNYQRKPLVSFKEDPTPSDNPFSKLYKETIETFDNN Human respiratory 393 19 0.048346056
syncytial virus
63829 TPSIESTLLSTTVKTKNTTTTQIQPSKPTTKQRHNKPPNKPNNDFHFEVFNFVPCS Human respiratory 393 19 0.048346056
syncytial virus
11684 ERDTNTPQSTLLDTTTSKHAERDTSTPQSTVLDTTTSKHTIRQQSLYSTTPENTPN Human respiratory 393 18 0.045801527
syncytial virus
56974 QNNKPSTKLRPKNPPKKPKDDYHFEVFNFVPCSIC Human respiratory 393 17 0.043256997
syncytial virus
63839 TKKPTIKTTKKDLKPQTTKPKEAPTTKPTEKPTINITKPNIRTTPLTSSTTGNLEH Human respiratory 393 17 0.043256997
syncytial virus
4552 KRIPNKKPGKKTTTKPTKKPTIKTTKEDLKPQTTTPKEIPTISPTEKSTINTIKTN Human respiratory 393 17 0.043256997
syncytial virus
71547 KRDPKTPAKTLEKETTTNPTKKPTPKTTERGTSTSQSTVLDTTISKHTIQQQSLYS Human respiratory 393 17 0.043256997
syncytial virus
56505 PCSICGNNQLCKSICKTIPSNKPKKKPTIKPTNKPPTKTTNKRDPKTLAKTLKKET Human respiratory 393 16 0.040712468
syncytial virus
2492 TKKQTIKTTKKDLKPQTTKPKEAPTTKPTEKPTINITKPNIRTTLLTNSTTGNLEH Human respiratory 393 16 0.040712468
syncytial virus
70418 TTKPMEAPTTKPTEKPTINITKPNIRTTLLTNSTTGNLEHTSQEETLHSTSSEGNT Human respiratory 393 16 0.040712468
syncytial virus
56628 AIVSCYGKTKCTASNKNRGIIKTFSNGCDYVSNKGVDTVSVGNTLYYVNKQEGKS Human respiratory 393 16 0.040712468
syncytial virus
56506 IKPTNKPPTKTTNKRDPKTLAKTLKKETTINPTKKPTPKTTERDTSTPQSTVLDTT Human respiratory 393 15 0.038167939
syncytial virus
56482 IKPTNKPTTKTTNKRDPKTPAKTTKKETTTNPTKKPTLKTTERDTSTSQSTVLDTT Human respiratory 393 15 0.038167939
syncytial virus
11869 AILASTTPSVESIPQSTTAKTKNTTTTQIQPSKPTTKQRQNKPPNKPNDDFHFEVF Human respiratory 393 15 0.038167939
syncytial virus
56973 NSATISPKTKSKTHHTTAQTKSRTTTPTQNNKPSTKLRPKNPPKKPKDDYHFEVFN Human respiratory 393 14 0.03562341
syncytial virus
7008 YPAHYAATIQLSGPCAKEYQAKNREGKPPPSPQKNQPMRTPKKISNLTTQNQREA Human respiratory 393 14 0.03562341
syncytial virus
70445 TISQTTAILALTTPSVESILQSTTVKTKNTTITQIQPSKPTTKQRQNKPPNKPNDD Human respiratory 393 14 0.03562341
syncytial virus
54604 KQDLKPQTTKIREVLTTKPTEKQTINTTKTNIRTTLLTSNTTGNPEHTSQKETLHS Human respiratory 393 14 0.03562341
syncytial virus
16614 QKKPNNDFHFEVFNFVPCSICSNNPTYWAICKRIPNKKPGKKTTTKPTKNPTIKTT Human respiratory 393 13 0.03307888
syncytial virus
2942 PTKKPTIKTTKKDLKPQTTKPKEAPTTKPTDKPTINITKPNIRTTLLTNSTTGNPE Human respiratory 393 13 0.03307888
syncytial virus
80282 KCTASNKDRGIIKTFSNGCDYVSNKGVDTVSVGNTLYYVNKQEGKSLYVKGEPII Human respiratory 393 13 0.03307888
syncytial virus
13121 TMSPNTGSETHHATAQTRGRITTSTQTNKPSTKSRSKNPPKKPKDDYHFEVFNFV Human respiratory 393 13 0.03307888
syncytial virus
7032 QTQPRKPTTKQRQNKPPNKPNNDFPFEGFNFVPCGICSNNPTRGAICKRIPTKKPG Human respiratory 393 13 0.03307888
syncytial virus
80454 KPTIKPTNKPTTKTTNKRDPKTPAKMPKKEIITNPTKKPTLKTTERDTSTSQSTV Human respiratory 393 13 0.03307888
syncytial virus
22250 KCTASNKNRGIIKTFSNGCDYVSNKGMDTVSVGNTLYYVNKQEGKSLYVKGEPII Human respiratory 393 13 0.03307888
syncytial virus
12275 LASITPSAESTPQSTTVKIKNTTTTQIQPSKPTTKQRQNKPQNKPNNDFHFEV Human respiratory 393 13 0.03307888
syncytial virus
6966 CKSICKTIPSNKPKKKPTTKPTNKPPTKTTNKRDPKTLAKTPKKETTINPTKKPTP Human respiratory 393 13 0.03307888
syncytial virus
56489 PCSICGNNQLCKSICKTIPSNKPKKKPTIKPTNKPTTKTTNKRDSKTSAKALRKET Human respiratory 393 13 0.03307888
syncytial virus
56804 KKDLKPQTTRPKEASTTKPTEKPTINTTKPNIRTTLLTNSTTGNLEHTSQEETLHS Human respiratory 393 12 0.030534351
syncytial virus
730 TTSQPITILASTTPSAESTPQSTTVKIKNTTTTQMQPSKPTTKQRQNKPQNKPNND Human respiratory 393 12 0.030534351
syncytial virus
16984 PQSTVLDTSTSKFITERDTSTSQSIVLDTTTSKHTIQQQSLHSITPGNTPNSTQTPT Human respiratory 393 12 0.030534351
syncytial virus
56498 VKPTNKPPTKITNKRDPKTLAKTLKKEETTTNPTKKPTPKTTERDTSTSQSAVLDT Human respiratory 393 12 0.030534351
syncytial virus
63840 TEKPTFNITKPNLRTTPLTSSTTGNLEHTSQVETLHSTSSEGNPSSSQVYTTSEY Human respiratory 393 12 0.030534351
syncytial virus
7035 EGLTTKPTEKPTINTTKPNIKTTLLTSNTTGNLGRTSQKETLYSTTSEGNPSPSQV Human respiratory 393 12 0.030534351
syncytial virus
11685 STVLDTTTSKHTIRQQSLYSTTPENTPNSTQTPTASEPSTSNSN Human respiratory 393 11 0.027989822
syncytial virus
39744 KTTTKPTKKPTIKTTKKDHKPQTTKPKEAPSTKPTEKPTINITKPNIRTTLLTNST Human respiratory 393 11 0.027989822
syncytial virus
80421 TILDPTTPGVKLTLQSTTVRIKNTTTTQAQPNKSTTKQRQNKPPSKPNNDFHFEVF Human respiratory 393 11 0.027989822
syncytial virus
32422 QMNSRLLEITREFSVNAGVTTPLSTYMLTNSELLSLINDMPITNDQKKLMSSNVQ Human respiratory 393 11 0.027989822
syncytial virus
13105 ALATPSAESTSQSTTVKTKNTTTTQIQPSKSTTKQRQNKPPNKPNNDFHFEVFNFV Human respiratory 393 11 0.027989822
syncytial virus
13113 VSTTPSAESTPQSTTVKIKNTTTTQIQPSKPTTKQRQKKPQNKPNNDFHFEVFNFV Human respiratory 393 11 0.027989822
syncytial virus
56627 IGIFNPKYDCKIMTSKTDVSSSVITSLGAIVSCYGKTKCTASNKNRGIIKTFSNG Human respiratory 393 11 0.027989822
syncytial virus
55511 KPTIKPTNKPTTKTTNKKDPKTPAKTLKKETTTNPTKKLTLKTTERDTSTLQSTVL Human respiratory 393 11 0.027989822
syncytial virus
17601 NFVPCSICGNNQLCKSICKTIPSNKPKKKPTIKPTNKPTTKTTNKRDPKTPAKTTK Human respiratory 393 11 0.027989822
syncytial virus
61299 KRDPKILAKTLKKENTTNPTKKPTPKTTERDTSTSQSIVIDTTTSKHTIQQQSLHS Human respiratory 393 11 0.027989822
syncytial virus
70434 TTKPKEVLTTKPTEKPTINTTKTNIKTTLLTSNTTGNPEHTSQKETLHSTTSEGNP Human respiratory 393 10 0.025445293
syncytial virus
13098 SKPATKQRQNKPPNKPNNDFHFEVFNFVPCSICSNNPTCWAICKRIPSKKPGKKTT Human respiratory 393 10 0.025445293
syncytial virus
22249 CKIMTSKTDVSSSVITSLGAIVSCYGKTKCTASNKNRGIKTFSNGCDYVSNKGMD Human respiratory 393 10 0.025445293
syncytial virus
51904 GKNQLCKSICKTIPSNKPKKKPTIKPTNKPIIKTTNKKDPKTPTKMPKKETTTNPT Human respiratory 393 10 0.025445293
syncytial virus
16021 KDPKPQTTKPKEVLTIKPTDKPTHKTKTNIKTTLLTTNTTENPEYTSQKETLHST Human respiratory 393 10 0.025445293
syncytial virus
6964 KKPTPKTTERDTSTPQSTVLDTTTSKHTERDTSTSQSIVLDTTTSKHTIQQQSLYS Human respiratory 393 10 0.025445293
syncytial virus
11481 TVLDTTTSKHTERDTSTPPSIVLDTTTSKHTIQQQSPHSTTPENTPNSTQTPTASE Human respiratory 393 9 0.022900763
syncytial virus
16985 TTSKHTIQQQSLHSITPGNTPNSTQTPTASEPSTSNST Human respiratory 393 9 0.022900763
syncytial virus
13092 HCPTRKPTTKITKKDLRPQTTEPREVPTTKPTERSTINTTKTNIRTTLLTNNTTGN Human respiratory 393 9 0.022900763
syncytial virus
76425 SICGNNQLCKSICKTIPSNKPKKKPTIKPTNKPTTKTTNKRGSKTSAKALRKETTT Human respiratory 393 9 0.022900763
syncytial virus
2513 TKKPTIKTTKKDLKPQTTTPKEVTTTSPTEKSTINTTKTNIRTTLLTTNTTGNPEH Human respiratory 393 9 0.022900763
syncytial virus
2499 TKKPTIKTTKKDPKPQTTKPREVLTTKPTEKITINTTKTNIRTTLLTSNTTENQEH Human respiratory 393 9 0.022900763
syncytial virus
71543 KRDPKTPAKMLNKETTTNPTKNLTLKTTERDTSTSQSTVLDTSTSKHIILQQSLHS Human respiratory 393 9 0.022900763
syncytial virus
4561 KRYPKTPAKTLKKETTTNPTKKPTLKTTERDTSTSQSTVLDTTTSKHTILQQSLHS Human respiratory 393 9 0.022900763
syncytial virus
51900 KKPTPKTTESDTSTSQPTVLDTTTLKHTIQQQSLHSTTPENTPNSTQTPTASEPST Human respiratory 393 9 0.022900763
syncytial virus
10953 KIVPKTPAKTPEKEATTNPTKKPTLKITEKDTSTSQSTMLDTTTPKHTIQQQSLHS Human respiratory 393 9 0.022900763
syncytial virus
56476 PTNKPTTKTTNKRDPKTPAKTTKKETTTNPTKNQPSRPQKETPAPHNPLHSTQPH Human respiratory 393 9 0.022900763
syncytial virus
60892 KPGKKTTTKPTKKPTINTTKKDLKPQTTKPKEVLTTKPTEKPTINTTRTNIGTTLL Human respiratory 393 8 0.020356234
syncytial virus
7053 QSTVLDTTPSKHTKGHPALQSIVLDTTTSKHTIQQQSLHSTTPENTPNSTQTPTAS Human respiratory 393 8 0.020356234
syncytial virus
4558 KRSQTSNHKTKGSTYHQAHRKPTINITKPNTRTTLLTNSTTGNLEHTSQEETLHST Human respiratory 393 8 0.020356234
syncytial virus
63832 TKKPTTRTTKKDLKPQTTKPKETLTTKPTEKSTINTTKTNIRTTMLINNTTGNPEN Human respiratory 393 8 0.020356234
syncytial virus
55508 TNSTTISPNTKSKKHHTTAQTKGRTTTSTQTNKPSTKPRPKNPPKKPKDDYHFEVF Human respiratory 393 8 0.020356234
syncytial virus
13101 TKPTEKPTINITKPNIRTTLLTNSTTGNLEHTSQEETFHSTSSEGNTSPSQVYTTS Human respiratory 393 8 0.020356234
syncytial virus
32747 VSFKEDPTPSDNPFSKLYKETIETFDNNEEESSYSYEEINDQTNDNITARLDRID Human respiratory 393 8 0.020356234
syncytial virus
7039 QTTKPKEVLTTKPTEKPTINTTKTNIKTTLLTSNTTGNSEHTSQKETLYSTSSEGN Human respiratory 393 8 0.020356234
syncytial virus
51892 GNNQLCKSICKTIPSNKPKKKPTIKPTNKPTTKTTNKRDSKTSAKALRKETTTDPT Human respiratory 393 8 0.020356234
syncytial virus
7159 KKDLKPQTTKPKEAPTTKLTEKPTINISKLNIRTTLLTNSTTGNLEHTSQEETLHS Human respiratory 393 7 0.017811705
syncytial virus
3492 KRDPKTPAKPLKKETTTNPTKKPTPKTTERDTSTSQSTVLDATTSKHTIQQQSLHS Human respiratory 393 7 0.017811705
syncytial virus
7011 FVVNTPVKRKPSIQPPPKAIQALHKSIQHPSTYNNLHLHPT Human respiratory 393 7 0.017811705
syncytial virus
71544 ERDTSTSQSTVLDTSTSKHIILQQSLHSTTPENTPNFTQTPTASEPSTSNSTQKT Human respiratory 393 7 0.017811705
syncytial virus
56495 ATISSNTKSETHHTTAQTKGRTTTPTQNNKPSTKPRTKNPPKKPKDDYHFEVFNFV Human respiratory 393 7 0.017811705
syncytial virus
80455 KEIITNPTKKPTLKTTERDTSTSQSTVIDTITPKYTIQQQSLHSTTSENTPSSTQ Human respiratory 393 7 0.017811705
syncytial virus
70428 NKKPGKKTTTKPTKKPTIKTTKKDLKPQTTKPKEVLTTKPTEKPT Human respiratory 393 7 0.017811705
syncytial virus
6963 KPPTKTTNKRDPKTLAKTPKKETTINPTKKPTPKTTERDTSTPQSTVLDTTTSKHT Human respiratory 393 7 0.017811705
syncytial virus
12534 QQTSELHCSPPTSQKIKNTQVKRKPSTQPPPKAIQAPHKSTQFTPSTYHNLYLHPT Human respiratory 393 7 0.017811705
syncytial virus
51898 GNKQLCKSICKTIPSNKPKKKPTIKPTNKPTTKTTHKRDPKTPAKTTKKETTTNPT Human respiratory 393 7 0.017811705
syncytial virus
56795 AICKRIPSKKPGKNSPTKPTKKPTIKITKNDLKPQTTKPKEAPTTKPTEKPTINTT Human respiratory 393 7 0.017811705
syncytial virus
39745 APSTKPTEKPTINITKPNIRTTLLTNSTTGNLEHTSQEETLHSTSSEGNTSPSQVY Human respiratory 393 7 0.017811705
syncytial virus
4555 KKDLKPQTTKPKEVLTTKPTEKPTINTTKTNIRTTLLTSSTTGKPEQTSQKETLYS Human respiratory 393 7 0.017811705
syncytial virus
11482 KHTIQQQSPHSTTPENTPNSTQTPTASEPSTSNSTQKLQSYA Human respiratory 393 7 0.017811705
syncytial virus
56958 RDTSTPQSTALDTTTSKHTIQQQSLHSTTPENTPNSTQIPTVSEPSTLNGTQKT Human respiratory 393 7 0.017811705
syncytial virus
56792 KKDPKPQTTKPKEVLTPKPTEKPTINTTKTNIRTTLLTSNITENQEHTSQKETLHS Human respiratory 393 7 0.017811705
syncytial virus
6960 KKPTPKTTERDTRTPQSTVLDTTTLKHTERDTSTSQSIALDTTTSKHTIQQQSLYS Human respiratory 393 6 0.015267176
syncytial virus
10958 KRDPKTLAKTPRRETTLDLTGEPAPKTTERDTSTPQSTVLDTATSKHTERDTSTSQ Human respiratory 393 6 0.015267176
syncytial virus
13116 TKPTKKPTIKTTKKDPKPQTTKPKEVLTTKPTEKPTINTTKTNIRTTLLTSNTTGN Human respiratory 393 6 0.015267176
syncytial virus
7029 KPTNFPTIKTTKKDPKPRTTKPREVLTTKPTEKPTTNTTKTNIKTTLLTSNTTGNP Human respiratory 393 6 0.015267176
syncytial virus
60883 YMWQQSTLQILCKTIPSNKPKKKPTIKPTNKPPTKTTNKRDPKTLAKTLKKETTTN Human respiratory 393 6 0.015267176
syncytial virus
80424 RTTIKPIKKPTLKTTKKDPKPQTTKSEEVPTTKLTEEPTINTTKTNIITTPLTSNT Human respiratory 393 6 0.015267176
syncytial virus
56500 TTSKHTIQQQFLHSTTPEDTPSSTQTPTASEPSTSNSTQKL Human respiratory 393 6 0.015267176
syncytial virus
7043 KKPTDCPTNKPPTKTTNKRDSKTLAKTLKKETTINPTKKPTPKTTERDTSTSQSTV Human respiratory 393 6 0.015267176
syncytial virus
7025 GTKKDLKPQTIKPKGAPTTKPTEKPTINISKTNITTTLLTNNTTGNLEHTSQEETL Human respiratory 393 6 0.015267176
syncytial virus
7009 PPSPQKNQPMRTPKKISNLTTQNQREALPPSPQKSQPSTSPNQIRELHCSPTVPQE Human respiratory 393 6 0.015267176
syncytial virus
13093 TKPTERSTINTTKTKIRTTLLTNNTTGNPEHTSQKETLHSTSSEGNPSPSQVHTTS Human respiratory 393 6 0.015267176
syncytial virus
7044 KKETTINPTKKPTPKTTERDTSTSQSTVLDTTTSKHTERDTSTSQSIVLDTTTSKH Human respiratory 393 6 0.015267176
syncytial virus
70421 NKKPGKKTTTKPTKKPTINTTKKDPKPQTTKPKEVLTTKPTEKPTINTTRTNIGTT Human respiratory 393 6 0.015267176
syncytial virus
12532 SAIASGIAAPQVLHLEGEVKKFANPLLLQNKWVSLSNGVRV Human respiratory 393 6 0.015267176
syncytial virus
56960 LCKSICKTIPSNKPKKKPTIKPTNKPPTKTTNKRDPKTLAKTLKKETTTYPTKKPT Human respiratory 393 6 0.015267176
syncytial virus
6961 ERDTSTSQSIALDTTTSKHTIQQQSLYSTTPENTPNSTQTPTASEPSTSKFH Human respiratory 393 5 0.012722646
syncytial virus
13131 PCSICSNNPTCWAICKRIPNKKPRKKTTTKPTKKSTFKITKKDPKPQTTKSKEVPT Human respiratory 393 5 0.012722646
syncytial virus
7058 LKKETTTNPTKKLTLKTTERDTSTLQSTVLDTTTSKHTTPQQSLHSTTPEKTPNFT Human respiratory 393 5 0.012722646
syncytial virus
7045 LDTTTSKHTERDTSTSQSIVLDTTTSKHTIQQQSLHSTTPENTPNSTQTPTASEPS Human respiratory 393 5 0.012722646
syncytial virus
6977 PSGTTSQSTTILASTTPSAESTPQSTTVKIKNTTTTQIQPSKPTTKQRQNKPQNKP Human respiratory 393 5 0.012722646
syncytial virus
7010 PPSPQKSQPSTSPNQIRELHCSPTVPQEFWNTPVKRKPSIQPPPKAIQALHKSIQH Human respiratory 393 5 0.012722646
syncytial virus
32745 TSPKDPKKKDSIISVNSIDIEVTKESPITSNSTIINPTNETDDTVGNKPNYQRKP Human respiratory 393 5 0.012722646
syncytial virus
13108 TKPTKKPTIKTTKIDLKPQTTKPKEVLTTKPTEKPTIKTTRTNIGTTLLTTNTTGN Human respiratory 393 5 0.012722646
syncytial virus
51905 KPIIKTTNKKDPKTPTKMPKKETTTNPTRKPTLKTTERPTSTSQSTELDTTTSKHT Human respiratory 393 5 0.012722646
syncytial virus
56791 AICKRIPNKKPGKKTTTKPTKKPTIKTTKKDPKPQTTKPKEVLTPKPTEKPTINTT Human respiratory 393 5 0.012722646
syncytial virus
17603 KETTTNPTKKPTLTTTERDTSTSQSTVLDTTTLEHTIQQQSLHSTTPENTPNSTQT Human respiratory 393 5 0.012722646
syncytial virus
56803 AICKRIPSKKPGKETTTKPTRKPTIKTTKKDLKPQTTRPKEASTTKPTEKPTINTT Human respiratory 393 5 0.012722646
syncytial virus
56796 KNDLKPQTTKPKEAPTTKPTEKPTINTTKPNIRTTLLTNSTTGNLEYTSQEETLHS Human respiratory 393 5 0.012722646
syncytial virus
56499 TTTKPTKKPTPKTTERPTSTSQSAVLDTTTSKHTIQQQFLHSTTPEDTPSSTQTPT Human respiratory 393 5 0.012722646
syncytial virus
13126 PKYTIQQQSLHSTTSENTPSSTQTPTASEPSTSNPT Human respiratory 393 5 0.012722646
syncytial virus
19831 TILASTTPSIESTLLSTTVKTKNTTTIQLQPSKPITKQRHNKPPNKPNNDFHFEV Human respiratory 393 4 0.010178117
syncytial virus
51893 KPTTKTTNKRDSKTSAKALRKETTTDPTKEPTLKTTERDTSTSRSTVLDTTTSDHT Human respiratory 393 4 0.010178117
syncytial virus
16612 SFFNLSGTISQTTAILAPTTPSVEPILQSTTVKTKNTTTTQIQPSKLTTKQRQNKP Human respiratory 393 4 0.010178117
syncytial virus
16323 TTTQIQPSKLTTKQRQNKPPNKPNDDFHFEVFNFVPCSICSNNPTCWAICKRIPSK Human respiratory 393 4 0.010178117
syncytial virus
10957 FIVIDTTTSKHTIRQQSLYSTTLENTPNSTQTPTASEPFTSNSNQKL Human respiratory 393 4 0.010178117
syncytial virus
10956 ERDTSTPQSTVLDTTASKHTERDTSTSQFIVIDTTTSKHTLRQQSLYSTTLENTPN Human respiratory 393 4 0.010178117
syncytial virus
32751 RLRNEESEKMAKDTSDEVSLNPTSEKLNNLLEGNDSDNDLSLED Human respiratory 393 4 0.010178117
syncytial virus
17602 KPTIKPTKKPTTKTTNKRDPKTPAKTTKKETTTNPTKKPTLTTTERDTSTSQSTVL Human respiratory 393 4 0.010178117
syncytial virus
80445 VLTTKPTEKPTINTTKTNIRTTLLTTNTTGNPEYTSQKETLHSTSPEGNPSPSQVY Human respiratory 393 4 0.010178117
syncytial virus
71548 ERGTSTSQSTVLDTTISKHTIQQQSLYSTTPENTPNSTQTPAAEPAASEPSTSNSTQNC Human respiratory 393 4 0.010178117
syncytial virus
16290 Human respiratory 393 4 0.010178117
syncytial virus
51899 KPTTKTTHKRDPKTPAKTTKKETTTNPTKKPTPKTTESDTSTSQPTVLDTTTLKHT Human respiratory 393 4 0.010178117
syncytial virus
7052 AKTLKKETTINPTKKPTPKTTERDTSPSQSTVLDTTPSKHTKGHPALQSIVLDTTT Human respiratory 393 4 0.010178117
syncytial virus
70442 TTKPKEVLTTKPTEKPTINTTKTNIKTTLVTFNTTENPGTHKSKGNPFTQPPSKA Human respiratory 393 4 0.010178117
syncytial virus
22244 TNSELLSLINDMPITNDQKKLMSNNVQIVRQQSYSIMSIIKEEVLAYVVQLPLYG Human respiratory 393 4 0.010178117
syncytial virus
80444 KTTTKPTKKPTIKTTKKDLKPQTTKPKEVLTTKPTEKPTINTTKTNIRTTLLTTNT Human respiratory 393 4 0.010178117
syncytial virus
39734 KTTTKPTKKPTIKTTKKDLKPQTTKPKEVNTTKPTEKPTINTTRTNIRTTLLTTNT Human respiratory 393 4 0.010178117
syncytial virus
5346 ERDTSTPQSTVLDTTTSKHTERDTSTSQSTVLNTTTSKHTIQQQSLYSTTPDNTPN Human respiratory 393 4 0.010178117
syncytial virus
56808 KKDFKPQTTKPKEAPTTKPTEKPTINTTKPNIRTTLLTNSTTGNPEHTSQKETPHS Human respiratory 393 4 0.010178117
syncytial virus
17599 TNSATTSPNTKSETHHTTAQTKGRTTTSTQTNKPSTKPRLKNPPKKPKDDYHFEV Human respiratory 393 4 0.010178117
syncytial virus
70028 AICKRIPNKKPGERTTTKPTKKPTLKTTKKDLKPQTTKSKEAPTTKPTEEPTINTT Human respiratory 393 4 0.010178117
syncytial virus
22262 KTTTKPTKKPTLKTTKKDPKPQTTKSKEVPTTKPTEEPTINTTKTNIITTLLTSNT Human respiratory 393 3 0.007633588
syncytial virus
80425 VPTTKLTEEPTINTTKTNHTTPLTSNTARNPELTSQMETFHSTSSEGNPSPSQVS Human respiratory 393 3 0.007633588
syncytial virus
7007 YKPFTNLYDIRVPITTSISIQHNRPVVIKKRIFKKP Human respiratory 393 3 0.007633588
syncytial virus
32744 MEKFAPEFHGEDANNRATKFLESIKGKFTSPKDPKKKDSIISVNSIDIEVTKESP Human respiratory 393 3 0.007633588
syncytial virus
7166 KANIKTTLFTSNTTGNPEHTSQKETLHSTTSEGNPSPSQVYTTSEYLSQSLSPSNT Human respiratory 393 3 0.007633588
syncytial virus
55731 LDTTTSKHTERDTSTPQSTVLDTTTSKHTIQQQSLHSTTPENTPNSTQTPTASEPP Human respiratory 393 3 0.007633588
syncytial virus
17678 ESIDANIKSLIPILCYPITKKGIKTSLSKLKSVVNGDILSYSIAGRNEVFSNKLI Human respiratory 393 3 0.007633588
syncytial virus
11872 TTPASTTPSTKSTPQSTTVKIKNTTTTQMQPSKPTTKQHQNKPQNKPNNDFHFEVF Human respiratory 393 3 0.007633588
syncytial virus
2512 ICSNNPTCWAICKRIPNKKPGKKTTTKPTKKPTIKTTKKDLKPQTTTPKEVPTTSP Human respiratory 393 3 0.007633588
syncytial virus
56494 TTYLTQVSPERVSPSKQPTTTPPIHTNSATISSNTKSETHHTTAQTKGRTTTPTQN Human respiratory 393 3 0.007633588
syncytial virus
70441 NKKPGKKTTTKPTKKPTIKTTKKDPKPQTTKPKEVLTTKPTEKPTINTTKTNIKTT Human respiratory 393 3 0.007633588
syncytial virus
7030 KPTEKPTINTTKTNNKTTLLTSNTTGNPEHTSQKETLYSTTSEGNPSPSQVYTTSE Human respiratory 393 3 0.007633588
syncytial virus
19836 TGNPENTSQKETLHSTSSEGNPSPPHVYTTSEYPSQPPSPFNTTA Human respiratory 393 3 0.007633588
syncytial virus
7036 TTGNLGRTSQKETLYSTTSEGNPSPSQVYTTSEYLSQSLSPSNTTKW Human respiratory 393 3 0.007633588
syncytial virus
17649 TTSTIASGIIIEKYNVNSLTRGERGPTKPWVGSSTQEKKTMPVYNRQVLTKKQRD Human respiratory 393 3 0.007633588
syncytial virus
16325 KPGRKTTTKPTKKQTIKTTKKDLKPQTTKP Human respiratory 393 3 0.007633588
syncytial virus
4550 TKTNIRTTLLTTNTTGNPEHTSQKETLHSTSSEGNPSPSQVYTTSEYLSQPPSTSN Human respiratory 393 3 0.007633588
syncytial virus
3494 KRDPKTPAKALKKETTTNPTKKPTSKTTERDTSTPQSTVLDTTTSGHTIQQQSLHS Human respiratory 393 3 0.007633588
syncytial virus
16615 AICKRIPNKKPGKKTTTKPTKNPTIKTTKKDPKPQTTKPKEVHTTKPTEKPTINTT Human respiratory 393 3 0.007633588
syncytial virus
22253 FIRKSDELLHNVNAGKSTTNIMITTIIIVIIVILLSLIAVGLLLYCKARSTPVTL Human respiratory 393 3 0.007633588
syncytial virus
55512 KETTTNPTKKLTLKTTERDTSTLQSTVLNTTTSKHTTLQQSLHSTTPENTPNFTQT Human respiratory 393 3 0.007633588
syncytial virus
12508 TTSKHTIQQQSLYSTTPVNKPNSTQTPTASEPSTSNSTQKLQ Human respiratory 393 3 0.007633588
syncytial virus
7165 KKEPKPQTIKPKEVLTTKLTEKPTINTTKANIKTTLFTSNTTGNPEHTSQKETLHS Human respiratory 393 3 0.007633588
syncytial virus
10959 ERDTSTPQSTVLDTATSKHTERDTSTSQSIALDTTTSKVTIQQQSLYSTTLENTPN Human respiratory 393 3 0.007633588
syncytial virus
76426 PTNKPTTKTTNKRGSKTSAKALRKETTTDPTKEPTFKTTERDTSTSRSNVLDTTTS Human respiratory 393 3 0.007633588
syncytial virus
17650 PWVGSSTQEKKTMPVYNRQVLTKKQRDQIDLLAKLDWVYASIDNKDEFMEELSTG Human respiratory 393 2 0.005089059
syncytial virus
5347 STVLNTTTSKHTIQQQSLYSTTPDNTPNSTQTPTASKPSTSNSTQKLQSYAQL Human respiratory 393 2 0.005089059
syncytial virus
22252 FYDPLVFPSDEFDASISQVNEKINQSLAFIRKSDELLHNVNAGKSTTNIMITTI Human respiratory 393 2 0.005089059
syncytial virus
13120 TVLTQWPERVNSSKQPTTTSPIHTSSATMSPNTGSETHHATAQTRGRITTSTQTN Human respiratory 393 2 0.005089059
syncytial virus
55729 KPTTKPTNKPPTKTTNKRDPKTPAKTLKKETTINPTTKKPTPKTTERDTSTPQSTV Human respiratory 393 2 0.005089059
syncytial virus
71546 EGDTSTSQSTVTDTTASEHTVQQQSLHSTTPENTPNSTQTPTASEPSTSNSTQK Human respiratory 393 2 0.005089059
syncytial virus
7162 KKDPKPQATKPKGVTTTKPTEGPTINTTKTNIKTALLTSNTTENPEHTSQKETLHS Human respiratory 393 2 0.005089059
syncytial virus
5338 KKDPKPQTTKPKEVHTTKPTEKPTINTTKTNIKTTLEISNTTGNPENTSQKETLHS Human respiratory 393 2 0.005089059
syncytial virus
16616 KKDPKPQTTKPKEVHTTKPTEKPTINTTKTNIKTTLLTSNTIGNPEKTSQKETLHS Human respiratory 393 2 0.005089059
syncytial virus
7057 KKKPTIKPTNKPTTKITNKKDPKTPAKTLKKETTTNPTKKLTLKTTERDTSTLQST Human respiratory 393 2 0.005089059
syncytial virus
4562 ERDTSTSQSTVLDTTTSKHTILQQSLIISTTPENTPNFTQIPTASEPSTSNSTQEA Human respiratory 393 2 0.005089059
syncytial virus
7054 SKHTIQQQSLHSTTPENTPNSTQTPTASEPSTSLPPE Human respiratory 393 2 0.005089059
syncytial virus
6962 GTITLQSLIAKQYQSNKPKKKPTTKPTNKPPTKTTNKRDPKTLAKTPKKETTINPT Human respiratory 393 2 0.005089059
syncytial virus
22259 TILASTTPGVKSTLQSTTVKTKNTTTTQTQPSKPTTKQRQNKPPSKPNNDFHFEV Human respiratory 393 2 0.005089059
syncytial virus
56956 CKTIPSNKPRKKPTMKPTNKPTTKTTNKRDPKTPAKTVKKESTTNPTKKPTLKTTE Human respiratory 393 2 0.005089059
syncytial virus
16293 KKDPKPQTKKPKEVLNHQATEKPTLDPTKPNFRTTLLTSNNKGNPEHSSQEETLH Human respiratory 393 2 0.005089059
syncytial virus
10955 KRDPKTPAKPPKKETTINPTKKPTPKITERDTSTPQSTVLDTTASKHTERDTSTSQ Human respiratory 393 2 0.005089059
syncytial virus
7003 YNIRVPITTSISIQHNRPVVIKKRIIKKP Human respiratory 393 2 0.005089059
syncytial virus
1985 TLTTKPTEKSTINATKTNIRTTMPINNTTGNPENTSQKETLHSTSSEGNPSPPHVY Human respiratory 393 2 0.005089059
syncytial virus
70029 KKDLKPQTTKSKEAPTTKPTEEPTINTTKTNITTTPFTSNTTRNPELTSQMGTFHS Human respiratory 393 2 0.005089059
syncytial virus
13046 KINQSLAFIRKSDELLHNVNVGKSTTNIMITTIIIVIIVILLLLIAVGLFLYCKA Human respiratory 393 2 0.005089059
syncytial virus
6958 WHHQLCESNCKTRPSNKPKKKPTIKPTNKPLTKTTNKRDPKTLAKTPKKETTINPT Human respiratory 393 2 0.005089059
syncytial virus
32432 FIRRSDELLHNVNTGKSTTNIMITTIIIVHVVLLSLIAIGLLLYCKAKNTPVTL Human respiratory 393 2 0.005089059
syncytial virus
63838 ICSNNPTCWAICKRIPSKKPGKKTTTKPTKKPTIKTTKKDLKPQTTKPKEAPTTKP Human respiratory 393 2 0.005089059
syncytial virus
54613 KKDLKPQTTKPKEILTTKPTEKPTINTSKTNIRTTLLTTNTTGNSEHTGQKETLHS Human respiratory 393 2 0.005089059
syncytial virus
75281 TKPKEVLTTKPTDKPTINTTKTNTRTTLLTSNTTGNPEHTSQKETLHSTTSEGNPS Human respiratory 393 2 0.005089059
syncytial virus
17610 PNNNSGDENSVLTTIIKDDILSAVESNQSYTKSDKNHSVNQNITIKTTLLKKLMCS Human respiratory 393 2 0.005089059
syncytial virus
13125 TNPTKKPTLKTTERDISTSQSIVLDTITPKYTIQQQSLHSTTSENTPSSTQTPTAS Human respiratory 393 2 0.005089059
syncytial virus
54607 KKDLKPQTTKPKEILTTKPTEKPTINTTKTNIRTTLLTSNTTGNSEYTSQKETIHS Human respiratory 393 2 0.005089059
syncytial virus
11479 PKKKPTIKPTNKPPTKTTNKRDPKTLAKTPKKETTINPTKKPTPKTTERDTSTPQS Human respiratory 393 2 0.005089059
syncytial virus
56629 DYVSNKGVDTVSVGNTLYYVNKQEGKSLYVKGEPIINFYDPLVFPSDEFDASISQ Human respiratory 393 2 0.005089059
syncytial virus
6113 KRPKKTSQSTEKRNHHQPNKKTNLQDHRKRHQHPTIHCARHDHIGTHNPTAIPPLN Human respiratory 393 2 0.005089059
syncytial virus
3502 RKPTIKPTNKPPTKTTKKRDPKTLGKTPKKETTINPTKKPTPKTTERDTSNPQSIV Human respiratory 393 2 0.005089059
syncytial virus
6119 KRPKNTSQNAEKRNHHQPKKKTNPQDHRKRHQHLTIHCARHKHIKTHNPTAIPPLN Human respiratory 393 2 0.005089059
syncytial virus
4659 KKDLKPQTTKPKEVLTTKPTEKPTINTTKPNIKTTLLTSSTTGNPEHTSQEETLYS Human respiratory 393 2 0.005089059
syncytial virus
17598 KNITTYLTQVPPERVSSSKQPTTTSPIHTNSATTSPNTKSETHHTTAQTKGRTTTS Human respiratory 393 2 0.005089059
syncytial virus
13091 PCSICSNNPTCWAICKRIPNKKPGKKTTTKPTRKPTTKITKKDLRPQTTEPREVPT Human respiratory 393 2 0.005089059
syncytial virus
4982 KKETTIKPTKKPTPKTTERDTSTSQSTVLDTTTLKHQNTQSNSNPSTQPPPKTHPT Human respiratory 393 2 0.005089059
syncytial virus
51906 RKPTLKTTERDTSTSQSTELDTTTSKHTTQQQSLHSTTSENTPNFTQIPTASEPST Human respiratory 393 2 0.005089059
syncytial virus
11480 TPKKETTINPTKKPTPKTTERDTSTPQSTVLDTTTSKHTERDTSTPPSIVLDTTTS Human respiratory 393 2 0.005089059
syncytial virus
16291 Human respiratory 393 2 0.005089059
syncytial virus
13089 ASTTPSVESTLLSTTIKTKNTTTTQIQPSKPTTKQRQNKPPNKPNNDFHFEVFNFV Human respiratory 393 2 0.005089059
syncytial virus
7028 CSICSNSLTCWALCKRIPNRRPGKKTTTKPTNFPTIKTTKKDPKPRTTKPREVLTT Human respiratory 393 2 0.005089059
syncytial virus
17595 MSKHKNQRTARTLEKTWDTLNHLIVISSCLYRLNLKSIAQIALSVLAMHSTSL Human respiratory 393 2 0.005089059
syncytial virus
2931 YLTQNPQLGISFSNLSETTSQPTTILASTTPSAESTPQSTTVKTKNTTTAQIQPSK Human respiratory 393 2 0.005089059
syncytial virus
68477 QTDALTEGLSDELEEVIVEKTKQTLASVSSGPKHTQSVPALTANETGATLPTRPS Rhinovirus B 376 367 0.97606383
21675 QTVALTEGLGDELEEVIVEKTKQTVASISSGPKHTQKVPILTANETGATMPVLPS Rhinovirus B 376 362 0962765957
856 QTEALMEGFEGELEEVVIDKMKQVTASSQSGPKYTQKVPALSANETGATLPTNPS Rhinovirus B 376 341 0.906914894
16554 TGQVHLLSFISACPDFKLRLMKDTQTISQTDALTEGLGDELEEVIVEKTKQTLASV Rhinovirus B 376 329 0.875
68478 SSGPKHTQSVPALTANETGATLPTRPSDNVETRTTYMHFNGSETDVESFLGRAAC Rhinovirus B 376 273 0.7260683
857 QSGPKYTQKVPALSANETGATLPTNPSDNVETRTTYMHFTGSETSLENFLGRSAC Rhinovirus B 376 240 0.638297872
68486 Rhinovirus B 376 179 0.47606383
16564 RAKHVEAWIPRAPRALPYETIGRTNYPKKSEIVPVIKKRSTITTYGLGSRYGGVF Rhinovirus B 376 169 0.449468085
21676 SSGPKHTQKVPHTANFTGATMPVLPSDSIETRTTYMHFNGSETDVECFLGRAAC Rhinovirus B 376 160 0.425531915
16555 QTDALTEGLGDELEEVIVEKTKQTLASVSSGPKHTQSVPTLTANETGATMPTNPS Rhinovirus B 376 159 0.42287234
16586 FQGPVYKDLEIDVCNTPPPECINDLLKSVDSEEVREYCKKKKWIIPQVPTNIERAM Rhinovirus B 376 157 0.417553191
21674 TGQVYLLSFISACPDFKLRLMKDTQTISQTVALTEGLGDELEEVIVEKTKQTVAS Rhinovirus B 376 152 0.404255319
21716 QLKKQYFVEKQGQVIARHKVREFNINPVNTPTKSKLHPSYTYDVFPGDKEPAVLSD Rhinovirus B 376 117 0.311170213
68476 SGQVYLLSFISACPDFKLRLMKDTQTISQTDALTEGLSDELEEVIVEKTKQTLAS Rhinovirus B 376 112 0.29787234
843 PEHQLASHTQGNVSVTCYKYTHPGEQGIDLDSVAETGGASHDPVYSMNGTLIGNLL Rhinovirus B 376 105 0.279255319
16536 VINYYKDAASSSSAGQSFSMDPSKFTEPVKDLMLKGAPALNSPNVEACGYSDRVQ Rhinovirus B 376 95 0.25659574
68458 VINYYKDAASSSSAGQSFSMDPSKFTEPVKDLMLKGAPALNSPNVEACGYSDRVQ Rhinovirus B 376 90 0.239361702
16597 INTPTKSKLHPSVFYNVFPGSKEPAVLSDNDPRLEVKLSDSLFSKYKGNIEMKPT Rhinovirus B 376 85 0.22606383
68464 PEHQLASHEGGTVSVKYKYTHPGDRGIDLDTVEVAGGPTSDAIYNMDGTLLGNLL Rhinovirus B 376 81 0.215425532
21656 VINYYKDAASTSSAGQSLSMDPSKFTEPVKDLMLKGAPALNSPNVEACGYSDRVQ Rhinovirus B 376 81 0.215425532
16542 PEHQIASHKGGNVSVKYKYTHPGESGIDLSTQIDEPGPVKDPVYSMNGTLLGKLL Rhinovirus B 376 79 0.210106383
21717 NTPTKSKLHPSVFYDVFPGDKEPAVLSDNDPRLEVKLTESLFSKYKGNVNTEPTEN Rhinovirus B 376 63 0.167553191
898 ELGLKPINTPTKTKLFIPSVFYEIFPGSKEPAALNDSDPRLEVNLRDSLFSKYKGNV Rhinovirus B 376 62 0.164893617
16596 AQLRKQYFIEKQGQIISRQKVRELNMASINTPTKSKLHPSVFYNVFPGSKFPAVL Rhinovirus B 376 54 0.143617021
16565 KSEIVPVIKKRSTITTYGLGSRYGGWTSNVKIMNYHLMTPEDHLNLITPYVNRD Rhinovirus B 376 54 0.143617021
837 VINYYDKAASSSSAGQSFSMDPSKFTEPVKDIMLKGAPALNSPNVEACGYSDRVQ Rhinovirus B 376 54 0.143617021
881 VYSLPPDPKHFDGYQQQEVVIMDDLNQNPDGQDVSMFCQMVSSVDFIPPMASLDNK Rhinovirus B 376 50 0.132978723
880 LIHGSPGSGKSLTTSIVGRAIAERFKSTVYSLPPDPKHFDGYQQQEVVIMDDLNQ Rhinovirus B 376 50 0.132978723
16570 TAGGSGYVCFADIRQLDCIAEEQGLNDYITNLGRAFGVGFTDQISAKVTELQPVA Rhinovirus B 376 41 0.109042553
21706 QGPVYKDLEIDVCNTPPPECINDLLKSVDSEEIREYCKKKKWIIPEIPTNIERAM Rhinovirus B 376 39 0.103723404
887 DSLEILFQGPVYKDLEIDVIINTPPPECISDLLKSVDSEELREYCKQKNWLIPEIPT Rhinovirus B 376 37 0.098404255
16601 DILNRETRDVEKMKFYLDKYGIDLPLVTVIKDELRSTPKVRLGKSRLIEASSLNDS Rhinovirus B 376 33 0.087765957
1655 MGAQVSTQKSGSHENQNILTNGSNQTFTVINYYKDAASSSSAGQSFSMDPSKFTE Rhinovirus B 376 32 0.085106383
16580 DPKHFDGYQQQEVVIMDDLNQNPPDGQDISMFCQMVSSVDFIPPMANLDNKGMLFTS Rhinovirus B 376 31 0.082446809
21685 NTEPVIKKRKGDIKSYGLGPRYGGIYTSKVKIMNYHLMTPEDHHNLIAPYPNRDLA Rhinovirus B 376 30 0.079787234
21699 SGKSLTTSIVGRAIAEHFNSAVYSLPPDPKHFDGYQQQEVVIMDDLNQNPDGQDLS Rhinovirus B 376 28 0.074468085
897 GRQGISAQLRKQYFVEKQGAIINKRNVKELGLKPINTPTKTKLHPSVFYEIFPGSK Rhinovirus B 376 28 0.074468085
21655 MGAQVSTQKSGSHENQNILTNGSNQTFTVINYYKDAASTSSAGQSLSMPPSKFTE Rhinovirus B 376 28 0.074468085
902 LGIKKRDILNRDTQDVTKMEHYLDKYGIDLPLVTYIKDEERSKDKVRLGKSRLIEA Rhinovirus B 376 28 0.074468085
16579 GSGKSLTTSIVGRALAEYFNSSVYSLPPDPKHFDGYQQQEVVIMDDLNQNPDGQD Rhinovirus B 376 23 0.061170213
2100 PKHFDGYQQQEVVIMPDLNQNPDGQDISMFCQMVSSVDFLPPMASLDNKGMLFTS Rhinovirus B 376 23 0.061170213
68457 MGAQVSTQKSGSHENQNILTNGSNQTFTVINYYKDAASSSSAGQSFSMDPSKFTE Rhinovirus B 376 21 0.055851064
16600 LYGVDGLEPIDITTSAGYPYVSLGIKKRDILNRETRDVEKMKFYLDKYGIDLPLVT Rhinovirus B 376 18 0.04787234
21684 RAKHVEAWIPRAPRALPYTSIGRTNYPKNTEPVIKKRKGDIKSYGLGPRYGGIYTS Rhinovirus B 376 18 0.04787234
21690 AGGSGYVCFADIRQLECIAEEQGLSDYITGLGRAFGVGFTDQISTKVTELQEVAK Rhinovirus B 376 17 0.045212766
16556 SSGPKHTQSVPTLTANETGATMPTNPSDNVETRTTYMHFNGSETPVESFLGRAACV Rhinovirus B 376 16 0.042553191
21720 YGVDGLEPIDITTSAGFPYVSLGIKKRDILNKETQDTEKMKFVLDKYGIDLPLVTY Rhinovirus B 376 14 0.07234043
1657 VDSEEVREYCKKKKWIIPQVPTNIERAMNQASMHNTILMFVSTLGIVYVIYKLFA Rhinovirus B 376 13 0.034574468
21707 DSEEIREYCKKKKWIIPEIPTNIERAMNQASMIINTILMFVSTLGIVYVIYKLFA Rhinovirus B 376 11 0.029255319
21657 VKDLMLKGAPALNSPNVEACGYSDRVQQITLGNSTITTQEAANAVVCYAEWPEYL Rhinovirus B 376 9 0.02393617
838 VKDIMLKGAPALNSPNVEACGYSDRVQQITLGNSTITTQEAANAWAYAEWPSYL Rhinovirus B 376 9 0.02393617
68459 Rhinovirus B 376 9 0.02393617
16610 EQFPFLVHPVMPMQDIYESIRWTKDPRNTQDHVRSLCMLAWHSGEKDYNDFTQRI Rhinovirus B 376 8 0.021276596
21683 LNHMGSMAFRIVNEHDEHKTLVKIRVYHRAKIIVEAWIPRAPRALPYTSIGRTNYPK Rhinovirus B 376 8 0.021276596
21721 ILNKETQDTEKMKFYLDKYGIDLPLVTYIKDELRSVDKVRLGKSRLIEASSLNDS Rhinovirus B 376 7 0.018617021
888 SDLLKSVDSEELREYCKQKNWLIPEIPTNIERAVNQASTIINTILMFVSTLGILY Rhinovirus B 376 7 0.018617021
21722 IKDELRSVDKVRLGKSRLIEASSLNDSVNMRMKLGNLYKAFHQNPGVLTGSAVGC Rhinovirus B 376 7 0.018617021
836 MGAQVSTQRSGSHENQNILTNGSTQHFTVINYYKDAASSSSAGQSFSMDPSKFTE Rhinovirus B 376 7 0.018617021
848 TTPGSGQFLTTDDRQSPSAMPNYEPTPLIHIPGEVHNLLEIIQVDTLIPMNNKGAT Rhinovirus B 376 6 0.015957447
900 EIDITENMQIAIDQYSGQLLSLDIPTDELSLKEALYGTDGLEPIDINTSAGYPYVS Rhinovirus B 376 5 0.013297872
847 VTVTIAPMYTEFSGIRSKAVVPQGLPTLTTPGSGQFLTTDDRQSPSAMPNYEPTP Rhinovirus B 376 5 0.013297872
21667 TLPGSGQFLTTDDRQSPSALPNYEPTPRIHIPGKVHNLLEIIQVDTLIPMNNTHTK Rhinovirus B 376 5 0.013297872
877 EKLDFCKRLKQLDILERQIATMHVSNPTQEKREQLFNNVLWLEQMSQKFAPLYAV Rhinovirus B 376 5 0.013297872
901 LSLKHALYGTDGLEPIDINTSAGYPVVSLGIKKRDILNRDTQDVTKMRHYLDKYG Rhinovirus B 376 4 0.010638298
16602 YIKDELRSTDKVRLGKSRLIHASSLNDSVNMRMKLGNLYKAFIIQNPGHTGSAVG Rhinovirus B 376 4 0.010638298
68468 VTVTIAPMCTEFTGIRSRSIVPQGLPTTTLPGSGQFLTTDDRQSPSALPSYEPTPR Rhinovirus B 376 4 0.010638298
899 EPAALNDSDPRLEVNLRDSLFSKYKGNVEIDITHNMQIAIDQYSGQLLSLDIPTD Rhinovirus B 376 4 0.010638298
68469 TLPGSGQFLTFDDRQSPSALPSYEPTPRIHIPGKVRNLLEIIQVGTLIPMNNTGTN Rhinovirus B 376 4 0.010638298
910 KKYGLTITPPDKSEKFVKTTWENVTFLKRYFRPDPQYPFLIHPVMPMQDIHESIRW Rhinovirus B 376 4 0.010638298
903 DLPLVTYIKDELRSKDKVRLGKSRLIEASSLNDSVNMRVKLGNLYKAFHTNPGVT Rhinovirus B 376 4 0.010638298
21686 NVKIMNYHLMTPEDHHNLIAPYPNRDLAIVSTGGHGAETIPHCNCTSGVYYSTYYR Rhinovirus B 376 4 0.010638298
21719 MLVAVDHYAGQLLSLDIPTSELTLKEALYGVDGLEPIDITTSAGFPYVSLGIKKR Rhinovirus B 376 3 0.010638298
16566 SNVKIMNYHLMTPEDHLNLITPYVNRDLAWFTGAHGAETIPHCSCTSGVYYSRYY Rhinovirus B 376 3 0.010638298
909 KLKVIAYGDDLIVSYPFELQPEILALAGKKYGLTITPPDKSEKFVKTTWENVTFL Rhinovirus B 376 3 0.010638298
68482 ASQPEASSYSSNLTVQAMYVPPGAPNPKEWDDYTWQSASNPSVFFKVGETSRFSVI Rhinovirus B 376 2 0.005319149
68479 NVETRTTYMHFNGSETDVTESFLGKAACVHVTEIKNKNAAGLDNFIRKEGLFNDVVK Rhinovirus B 376 2 0.005319149
16608 YGDDLIVSYPYELDPEVLATLGKKYGLTITPPDKTEKFSKITWDNLTFLKRYFRS Rhinovirus B 376 2 0.005319149
68485 LNHYIGSVIAFRVVNEHDVHTTIVKIRVYIIRAKHVEAWIPRAPRALPYVSIGRTNYP Rhinovirus B 376 2 0.005319149
21698 KNKMVNYMQFKSKQRIEPVCVLIHGTPGSGKSLTTSIVGRAIAEHFNSAVYSLPPD Rhinovirus B 376 2 0.005319149
21718 NDPRLEVKLTESLFSKYKGNVNTEPTENMLVAVDHYAGQLLSLDIPTSELTLKEA Rhinovirus B 376 2 0.005319149
870 PSRFQSGVMKGVGPAEPGDCGGILRCVHGPIGLLTAGGSGYVCFADIRQLDFIAE Rhinovirus B 376 2 0.005319149
16599 NMLIAVDHYAGQLMSLDIPTEELTLKEALYGVDGLEPIDITTSAGYPYVSLGIKK Rhinovirus B 376 2 0.005319149
896 YEYPTRTGQCGGVLCSTGKIYGIHVGGNGRQGFSAQLRKQYFVEKQGAIINKRNVK Rhinovirus B 376 2 0.005319149
33882 TASGEEVAVLSHHDSLESRRLREEEDDDDDEDFEDA Human herpesvirus 5 365 340 0.931506849
25305 QTPVNGNSPWAPTAPLPGDMNPANWPRERAWALKNPHLAYNPFRMPTTSTASQNTV Human herpesvirus 5 365 316 0.865753425
25314 SPLSMLSSASPSPAKSAPPSPVKGRGSRVGVPSLKPTLGGKAVVGRPPSVPVSGSA Human herpesvirus 5 365 300 0.82917808
25319 PQKSGTGPQPGSAGMGGAKTPSDAVQNILQKIEKIKNTEE Human herpesvirus 5 365 277 0.75890411
25310 RIRKAKLSSPMTTTSTSQKPVLGKRVATPHASARAQTVTSTPVQGRLEKQVSGTPS Human herpesvirus 5 365 267 0.731506849
60291 SVKYQALATASGEEVAVLSHHDSLESRRLREEEDDDDDEDFEDA Human herpesvirus 5 365 264 0.723287671
60278 SHATSSAHNGSHTSRTTSAQTRSVSSQHVTSSEAVSHRANETIYNTTLKYGDVV Human herpesvirus 5 365 263 0.720547945
32211 KKKPSKHHHHQQSSIMQETDDLDEEPTSIYLSPPPVPPVQVVAKRLPRPDTPRTPR Human herpesvirus 5 365 261 0.715068493
9709 KTTHAYTNAAFTSSDATEPMGTTGSYTPPQDGSFPPPPR Human herpesvirus 5 365 260 0.712328767
25306 RAWALKNPHLAYNPFRMPTTSTASQNTVSTTPRRPSTPRAAVTQTASRDAADEVWA Human herpesvirus 5 365 244 0.668493151
25315 VGVPSLKPTLGGKAVVGRPPSVPVSGSAPGRLSGSSRAASTTPTYPAVTTVYPPSS Human herpesvirus 5 365 229 0.62739726
25297 LKAWEERQQNLQQRQQQPPPPARKPSASRRLFGSSADEDDDDDDDEKNIFTPIKK Human herpesvirus 5 365 225 0.616438356
25318 RRSTGTAAVGSPVKSTTGMKTVAFDLSSPQKSGTGPQPGSAGMGGAKTPSDAVQN Human herpesvirus 5 365 215 0.589041096
25316 PGRLSGSSRAASTTPTYPAVTTVYPPSSTAKSSVSNAPPVASPSILKPGASAALQ Human herpesvirus 5 365 212 0.580821918
25317 TAKSSVSNAPPVASPSILKPGASAALQSRRSTGTAAVGSPVKSTTGMKTVAFDLS Human herpesvirus 5 365 209 0.57260274
65289 TSAQTRSVSSQHVTSSEAVSHRANETIYNTTLKYGDVVGVNTTKYPYRVCSMAQGT Human herpesvirus 5 365 206 0.564383562
32214 RGTSATHSHHSSHTTSAAHSRSGSVSQRVTSSQTVSHGVNETIYNTTLKYGDVVGV Human herpesvirus 5 365 201 0.550684932
56317 SGSVSHHVTSSQTVSHDVNETIYNTTLKYGDVVGVNTTKYPYRVCSMAQGTDLIR Human herpesvirus 5 365 199 0.545205479
18603 TVSHGVNETIYNTTLKYGDVVGVNTTKYPYRVCSMAQGTDLIRFERNI Human herpesvirus 5 365 187 0.512328767
56779 GTSATHSHHSSHTTSAAIISRSGSVSSQRVTSSEAVSHRANETIYNTTLKYGDVVG Human herpesvirus 5 365 185 0.506849315
32244 LDGQTGTQDKGQKPNLLDRLRHRKNGYRHLKDSDEEEN Human herpesvirus 5 365 163 0.446575342
34792 DLMRHSPDVPREAVMSPTMVTIPPPQIPFVGSARELRGVKKKKPTAAALLSSA Human herpesvirus 5 365 155 0.424657534
25311 PHASARAQTVTSTPVQGRLEKQVSGTPSTVPATLLQPQPASSKTTSSRNVTSGAGT Human herpesvirus 5 365 136 0.37260274
25299 GTSGKGAASGGGVSSIFSGLLSSGSQKPTSGPLNIPQQQQRHAAFSLVSPQVTKA Human herpesvirus 5 365 132 0.361643836
32243 TNEQAYQMLLALVRLDAEQRAQQNGTDSLDGQTGTQDKGQKPNLLDRLRHRKNGY Human herpesvirus 5 365 128 0.350684932
32242 SYEESVYNSGRKGPGPPSSDASTAAPPYTNEQAYQMLLALVRLDAEQRAQQNGTD Human herpesvirus 5 365 125 0.342465753
59729 THNGSHTSRTTSAQTRSVSSQHVTSSEAVSHRANETIYNTTLKSGDVVGVNTTKY Human herpesvirus 5 365 121 0.331506849
25309 LGHTTPSSDYNNDVISPPSQTPEQSTPSRIRKAKLSSPMTTTSTSQKPVLGKRVAT Human herpesvirus 5 365 121 0.331506849
8283 YTNAAFTSSDATLPMGTTGLYTPPQDGSFPPPPR Human herpesvirus 5 365 117 0.320547945
11376 PLTIESHLSDNEEDPIRYYVSVYDELTASEMEEPSNSTSWQIPKLMKVATQPVSL Human herpesvirus 5 365 116 0.317808219
9607 VRKVCSCCGNSSESESKATHAYTNAAFTSSDATLPMGTTGSYTPPQDGSFPPPP Human herpesvirus 5 365 111 0.304109589
67524 VTQTASRDAADEVWALRDQTAESPVEDSEEEDDSSDTGSVVSLGHTTPSSDYNND Human herpesvirus 5 365 110 0.301369863
25300 TSGPLNIPQQQQRHAAFSLVSPQVTKASPGRVRRDSAWDVRPLTETRGDLFSGDE Human herpesvirus 5 365 109 0.298630137
25302 SDSSDGYPPNRQDPRFTDTLVPITDTETSAKPPVTTAYKFEQPTLTFGAGVNVPA Human herpesvirus 5 365 108 0.295890411
32212 IYLSPPPVPPVQWAKRLPRPDTPRTPRQKKISQRPPTPGTKKPAASLP Human herpesvirus 5 365 108 0.295890411
9727 AYTNAAFTSSDATLPMGTTGSYTPPQDGSFPPPPR Human herpesvirus 5 365 107 0.293150685
25307 STTPRRPSTPRAAVTQTASRDAADEVWALRDQTAESPVEDSEEEDDDSSDTGSVV Human herpesvirus 5 365 105 0.287671233
52598 RRLFGSSADEDDDDDDDEKNIFTPIKKPGTSGKGAASGGGVSSIFSGLLSSGSQK Human herpesvirus 5 365 102 0.279452055
32210 THDGSKKNAVRSTFREDKAPKPSKQSKKKKKPSKHHHHQQSSIMQETDDLDEEDT Human herpesvirus 5 365 101 0.276712329
67523 PFRMPTTSTASQNTVSTTPRRPSTPRAAVTQTASRDAADEVWALRDQTAESPVEDS Human herpesvirus 5 365 101 0.276712329
2858 MLSGPRWISLSDGAPLDNGTLTAASTTGKS Human herpesvirus 5 365 96 0.263013699
11392 SFVNPNYGRGSPLTIESHLSDNEEDPIRYYVSVYDELTASEMEEPSNSTSWQIPK Human herpesvirus 5 365 93 0.254794521
25304 AGAAILTPTPVNPSTAPAPAPTPTFAGTQTPVNGNSPWAPTAPLPGPMNPANWPR Human herpesvirus 5 365 89 0.243835616
32245 MESSAKRKMDPDNPDHGPSSKVPRPETPVTKATTFLQTMLRKEVNSQLSLGDPLF Human herpesvirus 5 365 87 0.238356164
47997 DTSFVNPNYGRGSPLTIESHLSDNEEPPIRYYVSVYDELTASEMEEPSNSTSWQI Human herpesvirus 5 365 86 0.235616438
25303 SAKPPVTTAYKFEQPTLTFGAGVNVPAGAGAAILTPTPVNPSTAPAPAPTPTFAGT Human herpesvirus 5 365 81 0.221917808
2479 AQGDDDVWTSGSDSDEELVTTERKTPRVTGGGAMAGASTSAGRKRKSASSATACTS Human herpesvirus 5 365 78 0.21369863
11393 YYVSVYDELTASEMEEPSNSTSWQIPKLMKVATQPVSLRDPEYD Human herpesvirus 5 365 77 0.210958904
18602 LTVTYSSHTTSAAHSRSGSVSQRVTSSQTVSHGVNETIYNTTLKYGDVVGVNTTKY Human herpesvirus 5 365 76 0.208219178
32246 VTKATTFLQTMLRKEVNSQLSLGPPLFPELAEESLKTFEQVTEPCNENPEKPVLA Human herpesvirus 5 365 73 0.2
32209 NEERQQKLRLCGSGCGGNPSSSGSHREATHPGSKKNAVRSTFREPKAPKPSKQSK Human herpesvirus 5 365 71 0.194520548
25301 PGRVRRPSAWPVRPLTETRGPLFSGPEPSPSSPGYPPNRQPPRFTPTLVPITPTET Human herpesvirus 5 365 70 0.191780822
32215 VTSSQTVSHGVNETIYNTTLKYGPVVGVNTTKYPYRVCSMAQGTDLIRFERNIVCT Human herpesvirus 5 365 68 0.18630137
34683 EVDQCLAYRSLTRKKLEQHAAKKQNIYERIPYRPSRQKDNSPLIEPTGTDDEEDED Human herpesvirus 5 365 66 0.180821918
31903 AASEALPPHAFHLLLNTYGRPIRFLRENTTQCTYNSSLRNSTVVRENAISFNFFQ Human herpesvirus 5 365 61 0.167123288
9657 RKICSCCGNSSESESKTTHAYTNAAFTSSPATLPMGTTGSYTPPQDGSFPPPPR Human herpesvirus 5 365 59 0.161643836
27114 LRVFACCCVKQEIPYQPIPIELQKPIQRRAKHTKRTHYPRKNAPMESGEEEFL Human herpesvirus 5 365 58 0.15890411
34790 EEPEVTVMSPSPEPVQQQPPVEPVQQQPQGRGSHRRRYKESAPQETLPTNHEREIL Human herpesvirus 5 365 58 0.15890411
62011 VTKATTFLQTMLRKEVNSQLSLGDPLFPELAEESLKTFERVTEDCNENPEKDC Human herpesvirus 5 365 58 0.15890411
24444 GFMEPIYETATKAYAVGQFEQPTTTPPEDTDTTSTATEAAIQDLRNKS Human herpesvirus 5 365 58 0.15890411
34529 YVASRNGLFAVENFLTEEPFQRGPPFPKNYVGNSGKSRGGGGGGGSLSSLANAGG Human herpesvirus 5 365 56 0.145205479
27326 TLLLMLSGPRWISLSDGAPLPNGTLTAASTTGKS Human herpesvirus 5 365 56 0.145205479
63455 LSPRKKPRKTTRPFKVIIKPPWPAPIMLPLIKQEDIKPEPDFTIQYRNKIIDTAG Human herpesvirus 5 365 55 0.150684932
56316 SSSSTTGSRGTSTHNHHSSHTTSAARSQSGSVSHHVTSSQTVSHPVNETIYNTTL Human herpesvirus 5 365 55 0.150684932
35149 DSANGLLRPPRLMNRQKERRPPPSSENPGSPPLREAKRQKTTAQHEGHGGGGKNET Human herpesvirus 5 365 54 0.147945205
24740 TGGGAMAGASTSAGRKRKSASSATACTSGVMTRGRLKAESTVAPEEDTDEDSDNE Human herpesvirus 5 365 53 0.145205479
63853 KTPDPMIMFDEDDDDELSLPRNVMTHEEAESRLYDAITENLMHCVKLVTTDSPLAT Human herpesvirus 5 365 51 0.139726027
72042 VTKATTFLQTMLRKEVNSQLSLGDPLFPELAEESLKTFERVTEDCNENPEKDVLA Human herpesvirus 5 365 50 0.136986301
53454 SSAPLNKPTPTSVAVTNTPLPGASATPELSPRKKPRKTTRPFKVIIKPPVPPAPIM Human herpesvirus 5 365 50 0.136986301
9388 ATNVTSSTKVPTSTSSRKSVDNATSSGPTTGINMTTTHESSVHSVRNDEIMKVLA Human herpesvirus 5 365 48 0.131506849
36021 VTKATTFLQTMLRKEVNSQLSLGDPLFPBLAEESLKTFEQVTEDCNENPEKDVLA Human herpesvirus 5 365 48 0.131506849
72041 MESSAKRKMDPDNPDEGPSSKVPRPETPVTKATTFLQTNILRKEVNSQLSLGDPLF Human herpesvirus 5 365 47 0.128767123
65288 VCLGAAVSSSSTSHATSSAHNGSHTSRTTSAQTRSVSSQHVTSSEAVSHRANETT Human herpesvirus 5 365 47 0.128767123
34174 PADEEAEDSVFTSTRARSATEDLDRMEAGLSPYSVSSDAPSSFELVRETGGTGAA Human herpesvirus 5 365 45 0.123287671
36039 FMLPIYETAAKAYAVGQFEQPTETPPEDLDTLSLAIEAAIQDLRNKS Human herpesvirus 5 365 44 0.120547945
34273 KTPTCQFIPKKTPDPMIMFDEDDDDELSLPRNVMTHEEAESRLYDAITENLMHCVK Human herpesvirus 5 365 44 0.120547945
36020 MESSAKRKMDPDNPDEGPSSKVPRPETPVTKATTFLQTMLRKEVNSQLSLGDPLF Human herpesvirus 5 365 42 0.115068493
34104 LLSAALPSAASSSPTTTTVCTPTGELTSGGGETPTALLSGGAKVAERAQAGVVNA Human herpesvirus 5 365 42 0.115068493
25312 TVPATLLQPQPASSKTTSSRKVTSGAGTSSASSARQPSASASVLSPTEDDVVSPA Human herpesvirus 5 365 42 0.115068493
36025 PELSPRKKPRKTTRPFKVIIKPPVPPAPIMLPLIKQEDIKPEPPFTIQYRNKIDT Human herpesvirus 5 365 41 0.112328767
56859 LVRKICSCCGNSSESESKTTHAYTNAAFTSSDATLPMGTTGSYTPPQDGSFPPPPR Human herpesvirus 5 365 41 0.112328767
56864 RTPMPHSLLPTRRYPWALPGSYTPPQDGSFPPPPR Human herpesvirus 5 365 41 0.112328767
24738 EHPTFTSQYRIQGKLEYRHTWDRHDEGAAQGDDDVWTSGSDSDEELVTTERKTPRV Human herpesvirus 5 365 40 0.109589041
56780 VTSSEAVSHRANETIYNTTLKYGDVVGVNTTKYPYRVCSMAQGTDLIRFERNIVCT Human herpesvirus 5 365 38 0.104109589
34173 MSSRRRSSSRRSGEPSTVIYIPSSNEDTPADEEAEDSVFTSTRARSATEDLDRMEA Human herpesvirus 5 365 37 0.101369863
34099 EPAPSLHPSYPVPPPPSPAYYRRRDSPGGMDEPPSGWERYDGGHRGQSQKQHRHG Human herpesvirus 5 365 37 0.101369863
34789 PMMSLAHINTVSCPTVMRFDQRLLEEGDEEDEVTVMSPSPEPVQQQPPVEPVQQQP Human herpesvirus 5 365 34 0.093150685
57733 KGALNVPRGRPWIGKVPSLKWKLKEQELKIEILKQLQSDIYTKYPQITKNYTQFIT Human herpesvirus 5 365 33 0.090410959
25296 VGYYDEEEKRRERQKRVDDEVVQREKQQLKAWEERQQNLQQRQQQPPPPARKPSAS Human herpesvirus 5 365 33 0.090410959
9430 KGALNVPRGRPWIGKVPSLKWKLKEQQLKIEILKQLQSDIYTKYPQITKNYTQFIT Human herpesvirus 5 365 33 0.090410959
62010 MESSAKRKMDPDNPDEGPSSKVPRPETPVTKATTFLQTMLRKEVNSQLSLGDPLF Human herpesvirus 5 365 32 0.087671233
34534 GGGGGLDRNSGNYFNDAKEESDSEDSVTFEFVPNTKKQKC Human herpesvirus 5 365 31 0.084931507
32208 VSLRSYDNIPPTSSSDEGEDDDDGEDDDNEERQQKLRLCGSGCGGNDSSSGSHREA Human herpesvirus 5 365 31 0.084931507
15144 FGLTVNPRNDTDNHTTPLCPRYVGTQSEEDEDDDYTLSTITNNNMRKTSHRDISHG Human herpesvirus 5 365 30 0.082191781
36024 SVSSAPLNKPTPTSVAVTNTPLPGASATPELSPRKKPRKTTRPFKVIIKPPVPPAF Human herpesvirus 5 365 30 0.082191781
25295 WKGHKPFRFEAHGSLAPAAEAHAARSAAVGYYDEEEKRRERQKRVDDEVVQREKQ Human herpesvirus 5 365 30 0.082191781
34176 KPSEKKRSSSRRQPQIAAGAPRGSPATPKAGKSPKVSRPPSVPSLPENGAGGGGDD Human herpesvirus 5 365 30 0.082191781
6603 PALSSPETGGDSNNDAVAGGGAGGVTSPATRTTSPNALLPEWMDAVHVAVQAAVQA Human herpesvirus 5 365 28 0.076712329
63456 LPLIKQEDIKPEPDFTIQYRKKIIDTAGCIVISDSEEEQGEEVETRGATASSPST Human herpesvirus 5 365 27 0.073972603
11374 CSSSPYQRLETRDWDEEEEASAARERMKHDPENVIYFRKDGNLDTSFVNPNYGRG Human herpesvirus 5 365 26 0.071232877
11377 SEMEEPSNSTSWQIPKLMKVATQPVSLRDPEYD Human herpesvirus 5 365 25 0.068493151
57738 INCNVLVNSRGTRRSWPYTVLSYRGKEILKKQKEPILKRLMSTSSDGYRFLMYPS Human herpesvirus 5 365 25 0.068493151
34103 QQQQRYDELRDAIHELKRDLFAARQSSTLLSAALPSAASSSPTTTTVCTPTGELT Human herpesvirus 5 365 24 0.065753425
4393 INCNVLVNSKGTRRSWPYTVLSYRGKEILKKQKEDILKRLMSTSSDGYRFLMYPS Human herpesvirus 5 365 24 0.065753425
34698 TVTITSDETSHKVSTNTALISTPWLTNCSATTYTTYNRTNSSNACHTETTIIRFK Human herpesvirus 5 365 23 0.063013699
57657 PPAPTSEPKPKKGRAKPKPKSKPKDKLPCEPTVSSQPPSQPTAMPGGPPDAPPPAM Human herpesvirus 5 365 23 0.063013699
34105 GGGETPTALLSGGAKVAERAQAGVVNASCRLATASGSEAATAGPSTAGSSSCPAS Human herpesvirus 5 365 23 0.063013699
32241 NLFPYLVSADGTTVTSGNTKDTSLQAPPSYEESVYNSGRKGPGPPSSDASTAAPP Human herpesvirus 5 365 22 0.060273973
11375 HDPENVIYFRKDGNLDTSFVNPNYGRGSPLTIESHLSDNEEDPIRYYVSVYDELTA Human herpesvirus 5 365 22 0.060273973
36028 TGSGTPRVTSPTHPLSQMNHPPLPDPLGRPDEDSSSSSSSSCSSASDSESESEEM Human herpesvirus 5 365 22 0.060273973
59730 VSHRANETIYNTTLKSGDVVGVNTTKYPYRV Human herpesvirus 5 365 22 0.060273973
61828 REAIVRLEKTPTCQHPKKTPDPMLMFDEDDDDELSLPRNVMTHEEAESRLYDAIT Human herpesvirus 5 365 20 0.054794521
25293 SKPQSAHTFLGARSPSLEFPDDANLLSLGGGSAFSSVPKKHVPTQPLDGWSWIAS Human herpesvirus 5 365 20 0.054794521
9398 DQFFLKPPQGKTVCLGPEHHLSSWLKGQNSSLWHKVLVTKKGDEPQVQKRGEYPK Human herpesvirus 5 365 20 0.054794521
34102 AEHGRARKRLKSHVNSDGGSGGHAGSNQQQQQRYDELRDAIHELKRDLFAARQSS Human herpesvirus 5 365 20 0.054794521
8057 PRNNTDNYTIPVCPRYVETQSQEDEQDDDYTLSTTINNNLMRKTGHYDISHGTHTT Human herpesvirus 5 365 20 0.054794521
34960 NQRATAETKLAAGNKSQSVATSLDTNSKNYNQHAKRSVSFNFPSGTWKGGQKTAS Human herpesvirus 5 365 19 0.052054795
9399 NSSLWHKVLVTKKGDEPQVQKRGEYPKNRARIIV Human herpesvirus 5 365 19 0.052054795
34684 RIPYRPSRQKDNSPLIEPTGTDDEEDEDDNV Human herpesvirus 5 365 19 0.052054795
25313 SSASSARQPSASASVLSPTEDDVVSPATSPLSMLSSASPSPAKSAPPSPVKGRGS Human herpesvirus 5 365 19 0.052054795
34175 GLSPYSVSSDAPSSFELVRETGGTGAAKKPSEKKRSSSRRQPQIAAGAPRGSPAT Human herpesvirus 5 365 19 0.052054795
36022 ELAEESLKTFEQVTEDCNENPEKDVLAELGDILAQAVNHAGIDSSSTGPTLTTHS Human herpesvirus 5 365 19 0.052054795
8054 HHIYPNTHYKTLIHRRKILTSIIPICYSDRSSPTAYHDLCRSCNKTELRLYDLNTT Human herpesvirus 5 365 18 0.049315068
34791 QGRGSHRRRYKESAPQETLPTNHEREILDLMRHSPDVPREAVMSPTMVTIPPPQIP Human herpesvirus 5 365 17 0.046575342
24760 EEEEPPEPPLSSTPTPTPLSEAMFAGFEEASGPEPSPTQAGLSPALILTGQRRRS Human herpesvirus 5 365 17 0.046575342
32258 SPSVDDLRAIAEESDEEEAIVAYTLATAGVSSSPSLVSPPESPVPATIPLSSVIV Human herpesvirus 5 365 17 0.046575342
47991 ATNMTSSTNVPTSTSSRNTVESTTSSEPTTETNMTTARESSVHPARNPEIMKVLA Human herpesvirus 5 365 17 0.046575342
61810 LPTTATASAKVAPGATRRKHGPYEKEHAERPAPAGAVFVAEEGIVLIIPGVPEAAE Human herpesvirus 5 365 17 0.046575342
15012 KKTTSSIATTTPSLVTTGKVVSTAASSTIISQTNRSHTSNAITTPKTRFEYMTGY Human herpesvirus 5 365 17 0.046575342
9567 YVLQRYSPGKKENYYLTVLSGTATSSPIPDKCKTKEESDQHNSRTWDNVIKTVKN Human herpesvirus 5 365 17 0.046575342
34261 HHRRHRRRRSPPPAPRGPAHTRFQGPPSMPSTSYGSPVEPPRPPLAENLRH Human herpesvirus 5 365 16 0.043835616
25308 LRPQTAESPVEPSEEEPPPSSPTGSWSLGHTTPSSPYNNPVISPPSQTPEQSTPS Human herpesvirus 5 365 16 0.043835616
47994 PGRFRFADEEAVNLLDDTDDSGGSSPFGSGSRRGSQIPAGFCSSSPYQRLETRDW Human herpesvirus 5 365 16 0.043835616
63852 TPSCYHRFSSRREAIVRLEKTPTCQHPKKTPPPMIMFPEPPPPELSLPRNVMTHEE Human herpesvirus 5 365 16 0.043835616
11563 NGTHVNPVVICEEPKHEWPTSHKPTSHKPPTTTSTNHLYRYNNHSNTSHGRHTTWT Human herpesvirus 5 365 15 0.04109589
34873 HNLSILYEEESQSSVDIAVDEEEPELEDDDEYDELWFPLYFEAECNRNYTLHVN Human herpesvirus 5 365 15 0.04109589
63458 SGTPRVTSPTHPLSQMNHPPLPPPLGRPPEPSSSSSSSSCSSASPSESESEEMKCS Human herpesvirus 5 365 15 0.04109589
32261 VKSEPVSEIEEVAPEEEEPGAEEPTASGGKSTHPMVTRSKAD Human herpesvirus 5 365 15 0.04109589
11373 LLPPTGPSGGSSPFGSGSRRGFQIPAGFCSSSPYQRLETRPWPEEEEASAARERMV Human herpesvirus 5 365 14 0.038356164
57734 KIEILKQLQSPIYTKYPQITKNYTQFITTELKKFPLYYILAGPIRNESVTHLWFD Human herpesvirus 5 365 14 0.038356164
25292 ILKHAVENGDSADTLLELLIEDFDIYVDSFPQSAHTFLGARSPSLEFDDDANLLS Human herpesvirus 5 365 13 0.035616438
57739 LKKQKEDILKRLMSTSSDGYRFLMYPSQQKFHAIVISMDKFPQPYILAGPIRNDS Human herpesvirus 5 365 13 0.035616438
11711 YVSGLYNCTNCTECNDTEVTIRNCTSTNNTVCASKNYTSFSVPGVQHHKQRQNHTA Human herpesvirus 5 365 13 0.035616438
34100 GMDEPPSGWERYDGGHRGQSQKQHRHGGSGGHNKRRKETAAASSSSSDEDLSFPG Human herpesvirus 5 365 13 0.035616438
24437 MLPLIKQEPIKPEPDFTIQYRNKIIDTAGCIVISDSEEEQGEEVETRGATASSPST Human herpesvirus 5 365 13 0.035616438
27167 PISTSPRRKPPHPATSTASFIHPHASPRSDHTLFPVPSTPSATVHNPRNYAVQLHA Human herpesvirus 5 365 12 0.032876712
15145 EDEDDDYTLSTITNNNMRKTSFIRDISHGTRTIWALTLICIACILLFFVRRALNKRY Human herpesvirus 5 365 12 0.032876712
57748 NCKVMSKALYNRPWRGLVLSKIGKYKLDQLKLEILRQLETTISTKYNVSKQPVKN Human herpesvirus 5 365 12 0.032876712
63457 CIVISDSEEEQGEEVETRGATASSPSTGSGTPRVTSPTHPLSQMNHPPLPDPLGR Human herpesvirus 5 365 12 0.032876712
34355 RQTSNNTWAFSHHPADNTLLIEVGNNTRRHVDGISCQDHFRAQHQDCPAQTVHV Human herpesvirus 5 365 11 0.030136986
61790 SSHATEKKIPFVENAVLKERAFIETIKQHQEPQRRIPRPVDSYVMLHSNARITTS Human herpesvirus 5 365 11 0.030136986
36460 SGGGASVTSSHHGRGGFGGAASSSLLSCGHQSSGGASTGPRKKKSKRISELPNEK Human herpesvirus 5 365 11 0.030136986
24763 QHAALRPTSYLRSDMDGDVRTAADISSTLRSVPAPRPSPISTASTSSTPRSRPR Human herpesvirus 5 365 11 0.031036986
34326 QHGVIPGENSETERSVPLVAALLAEAGEESVTEPTEREPTEEEREPEEEENEART Human herpesvirus 5 365 11 0.031036986
8157 MAQRNGMSPRPPPLGRGRGAGGPSGVGSSPSSSCVPMGATSTAGTAASTAGTATP Human herpesvirus 5 365 10 0.02739726
59581 YNLGADPLRVCSPSVDDLRAIPEESDEEEAIVAYTLATAGVSSSDSLVSPPESPV Human herpesvirus 5 365 10 0.02739726
8148 FRLSPARTLGLPLTTVMTERQSQLPEKYIGFYQIRKPPWLMELPPPPSRQTKPDAA Human herpesvirus 5 365 10 0.02739726
27094 MEPEENKVVPNVERRGGEDAVAARMAAGHESDDDEWEDLGFDLEEDTVFDLKDVD Human herpesvirus 5 365 10 0.02739726
27095 HESDPDEVVEDLGFDLEEDTVFPLKDVDEWFEQRRLAEKERWHLGQRIVNAYRTEA Human herpesvirus 5 365 10 0.02739726
34961 NYNQHAKRSVSFNFPSGTWKGGQKTASNDTSTKIPHRLSQSHHNLSGV Human herpesvirus 5 365 10 0.02739726
47996 EEEEASAARERMKHPPENVIYFRKDGNLPTSFVNPNYGRGSPLTIESHLSPNEED Human herpesvirus 5 365 10 0.02739726
35146 NHGESSSGGGGCGAASTASAVCVSSLGGSGGTRPGPSAEEQQRRRQEQRHEERRK Human herpesvirus 5 365 10 0.02739726
8179 DLATVVMEAGGQMIHKKTKKPKGKEPESLMKGKHSRYTRPTEPPLTPQASLGRAL Human herpesvirus 5 365 10 0.02739726
25294 GGGSAFSSVPKKHVPTQPLDGWSWIASPWKGHKPFRFEAHGSLAPAAEAHAARSA Human herpesvirus 5 365 9 0.024657534
24759 PRSNVMRGAVSEFLPQSPGLPPTEEEEEEEEEDDEDPLSSTPTPTPLSEAMFAGF Human herpesvirus 5 365 9 0.024657534
24441 SGGGASVTSSHHGRGGFGGAASSSLLSCGHQSSGGASTGPRKKKSKRISELDNEK Human herpesvirus 5 365 9 0.024657534
34306 STLTANQNPSPPWSKLTYSKPHDAATFYCPFLYPSPPRSPLQFSGFQQVSTGPEC Human herpesvirus 5 365 9 0.024657534
31907 QQLKAQDSLGQQPTTVPPPIDLSIPHVWMPPQTTPHDWKGSHTTSGLHRPHFNQTC Human herpesvirus 5 365 9 0.024657534
56981 NTWFFKVLLRTKGGDGPHVEEKTASNGRPPWKLK Human herpesvirus 5 365 9 0.024657534
69876 WKQELLKQIGASQDYYKFFTIPTKQGLNAVVTMERFPDNYILAGPIQNDSITYMW Human herpesvirus 5 365 9 0.024657534
34256 MIEGASRQTGLTPKRFMELLDRAPLGQESEPEITEHRDLFADVFRRPVTDAASSSS Human herpesvirus 5 365 9 0.024657534
2737 EKQWQQDLQYRREFVKRQLAPKPKSNIVVSHTVSCVIDGGNMTSVWRFEGQFKPH Human herpesvirus 5 365 9 0.024657534
47995 SGSRRGSQIPAGFCSSSPYQRLETRPVVDEEEEASAARERMKHDPENVIYFRKDGN Human herpesvirus 5 365 9 0.024657534
34043 NCKVMSKALYNRPWRGLVLSKIGKYKLDQLKLEILRQLETTISTKYNVSKQPVRN Human herpesvirus 5 365 9 0.024657534
34018 AASEHHLAEPTVGAASHHHRPCVPARRPRYSKPPPTEGPPPHYPPPLPPSSRHAL Human herpesvirus 5 365 8 0.021917808
6856 QAPVKSISKKSRVSTTTPYSSYTSTIFNVSTNVTYSPIVPTRIPTSTIGYRPDEN Human herpesvirus 5 365 8 0.021917808
8127 MAQRNGMSPRPPPLGRGRGAGGPSGVGSSPSSSCVPMGATSTAGTAASTAGTATP Human herpesvirus 5 365 8 0.021917808
34474 SGNVDDALDSLTELKDTVDDVRATLVDSVSATCDLDLEVDDA Human herpesvirus 5 365 8 0.021917808
65656 MSNTAPGPTVANKRDEKHRHVVNVVLELPTEISEATHPVLATMLSKYTRMSSLFND Human herpesvirus 5 365 8 0.021917808
9380 ATNMTSSTNVPTSTSSRNTVESTTSSEPTTETNMTTARESSVHDARNDEIMKVLA Human herpesvirus 5 365 8 0.021917808
24439 GSGTPRVTSPTHPLSQMNHPPLPDPLGRPDEDSSSSSSSCSSASDSESESEEMKCS Human herpesvirus 5 365 8 0.021917808
60281 MSGNFTEKHFVNVGIVSQSYMDRLQVSGEQYHHDERGAYFEWNIGGHPVTHTVDMV Human herpesvirus 5 365 8 0.021917808
59611 ELRRESHSAPPTSRTLPDTILAVKRRSVAQRSHVRLDAKPGLNERDGFRQRLLLP Human herpesvirus 5 365 8 0.021917808
6013 KSARSQRAPFRPRIWHPTVLKKLKQLKLEILRQLEPIPYIKYPQINTTRVQSLTV Human herpesvirus 5 365 7 0.019178082
11391 EEASAARERMKHDPENVIYFRKDGNLDTSFVNPNYGRGSPLTIESHLSDNEEDPI Human herpesvirus 5 365 7 0.019178082
41430 KKEEEDEDDRNDDRERGILCVVSNEDSDVRPAFSLFPARPGCHILRSVIDQQLTRM Human herpesvirus 5 365 7 0.019178082
34532 GKKHDRGGGGGSGTRKMSSGGGGGDHDHGLSSKEKYEQHKITSYLTSKGGSGGGG Human herpesvirus 5 365 7 0.019178082
36031 SCGHQSSGGASTGPRKKKSKRISELDNEKVRNIMKDKNTPFCTPNVQTRRGRVKID Human herpesvirus 5 365 7 0.019178082
56068 VRKICSCCGNSSESESETTHAYTNAAFTSSDATLPMGTTGSYTPPQDGSFPPPPR Human herpesvirus 5 365 7 0.019178082
36027 AGCIVISDSEEEQGEEVETRGATASSPSTGSGTPRNTSPTHPLSQMNHPPLPDPL Human herpesvirus 5 365 7 0.019178082
12978 TASYNVSTNSTVFTMSMPLVTNCSIATNAYNLTNSSNACHTKTEIIRFKETNATG Human herpesvirus 5 365 7 0.019178082
8261 RLEDPLPPWLRKKKACALTRRSRHRLRRQHGVIDGENSETERSVDLVAALLAEAG Human herpesvirus 5 365 7 0.019178082
34098 PVVGYDQLAARHFADYVDPHYPGWGRRYEPAPSLIIPSYPVPPPPSPAYYRRRDSP Human herpesvirus 5 365 7 0.019178082
8188 RLEDPLPPVVLRKKKACALTRRSRHRLRRQHGVIDGENSETERSVDLVAALLAEAG Human herpesvirus 5 365 7 0.019178082
34721 HTDSVSAALELSHGAAAGPPEADENNDEGEEDDDELRHSDPAPLHESKKPRNARR Human herpesvirus 5 365 7 0.019178082
34272 VMFTCVMGKKGHRNHRFSGRREAIVRLEKTPTCQHPKICTPDPMIMFDEDDDDELS Human herpesvirus 5 365 7 0.019178082
8061 VCVNSTTVNISTNETTSKAITPTATTNTAKTTSSLVITTPSSVTISKAVSTAASST Human herpesvirus 5 365 7 0.019178082
34872 DYTPTFDDLENITTTRAPTRPPAQDLCSHNLSIILYEEESQSSVDIAVDEEEPEL Human herpesvirus 5 365 7 0.019178082
34530 NYVGNSGKSRGGGGGGGSLSSLANAGGLHDDGPGLDNDLMNEPMGLGGLGGGGGG Human herpesvirus 5 365 6 0.016438356
9556 HPSEQNQNFNLQIHPRNNTNGTHVDPWVCEEPKHEWDTSPHKPTNYEDNTATSSID Human herpesvirus 5 365 6 0.016438356
9438 KRKQAPVKEQFEKKIKKSQSSTTPYFSYTTSTAPNVTTNVTYGVTTTARRVPTST Human herpesvirus 5 365 6 0.016438356
34097 MYPGAVAAPPSASPAPLPLPSYPASYGAPVVGYDQLAARHFADYVDPHYPGWGRR Human herpesvirus 5 365 6 0.016438356
57694 YGNHKSGSETWLQIKMEGPRNATVVQRSNTR Human herpesvirus 5 365 6 0.016438356
34337 MCPRFLKRTVKLTRNKTKHNVTVTGNNMTTLPVWTPECKGWTYWTTLSVMWRNRRS Human herpesvirus 5 365 6 0.016438356
11281 Human herpesvirus 5 365 6 0.016438356
27306 TTEKEAWLQRGRRAKAMHARGHTLKQVPIPEPDQMGDDGPDPG Human herpesvirus 5 365 6 0.016438356
8062 AKTTSSLVITTPSSVTISKAVSTAASSTILSQTNRSHTSNVITTPKTRFEYNITG Human herpesvirus 5 365 6 0.016438356
63461 GHQSSGGASTGPRKKKSKRISELDNEKVRNIMKDKNT Human herpesvirus 5 365 6 0.016438356
2905 RLEDPLPPWLRKKKACALTRRSRHRLRRQHGVIDGENSETERSVDLVAALLAEAG Human herpesvirus 5 365 6 0.016438356
8155 PKQRHGSTDGKVSAPRQSEHHKRQTRPPRPPPPKFGDRTAAHLSQNMRDMYLDMCT Human herpesvirus 5 365 6 0.016438356
11390 SRRGFQIPAGFCSSSPYQRLETRDWDEEEEASAARERMKHDPENVIYFRKDGNLD Human herpesvirus 5 365 6 0.016438356
34788 GETVAAVSAFACPSVSDSLIPEETGVTRPMMSLAHINTVSCPTVMRFDQRLLEEGD Human herpesvirus 5 365 6 0.016438356
15136 TNTLAASSITTLNTSTNTTSYTASTLTALSSTHTNSPILSNNATLYTTSLDNTTTD Human herpesvirus 5 365 6 0.016438356
57656 VESPPVSAPTVFVPPPSEESHQPVIPPQPPAPTSEPKPKKGRAKDKPKSKPKDKL Human herpesvirus 5 365 6 0.016438356
57728 CKSAARVFRLPFPYGRVLSKNGRLAEIKWKQELLKQIGASQDYYKFFTIPTKQGL Human herpesvirus 5 365 6 0.016438356
2870 PRNNTNETHVNPWICEEPKMEWITLAATSDKPTSHKDDTTTSSTDHLYRYNNHSNT Human herpesvirus 5 365 6 0.016438356
9407 WHKVFIKKNSDNGPHIEDKSDTNRHPPWRL Human herpesvirus 5 365 6 0.016438356
8262 QHGVIDGENSETERSVDLVAALLAEAGEESVTEDTEREDTEEEREDEEEENEART Human herpesvirus 5 365 6 0.016438356
27020 KGKEDESLMKGKHSRYTRPTEPPLTPQASLGRALRRDDEDWKPSRLPGEDSWYDL Human herpesvirus 5 365 5 0.01369863
34325 RLEDPLPPWLRKNKACALTRRSRHRLRRQHGVIDGENSETERSVDLVAALLAEAG Human herpesvirus 5 365 5 0.01369863
9552 SKEPETLLEAAQGDNITITHNLTITSCYKTAWLRHFNISTHGKYTHPNIRNGKYY Human herpesvirus 5 365 5 0.01369863
35098 VNAGEDEAGGVGGSSGGGGGSGLLPAKRSR Human herpesvirus 5 365 5 0.01369863
35154 SPSSLLSLPRPSSAHSAGETVQESEAAATAAAAGLMMMRRMRRAPAEAAEAPPQS Human herpesvirus 5 365 5 0.01369863
8593 TLCPNGTYLTGLYNCTNCTQCNDTQITVRNCTSTNNTICASKNHTSFSSPGVQHHK Human herpesvirus 5 365 5 0.01369863
8082 VNNITYYNTVRVESLGNETRCMLLPRQYTLNATVEWYNKSEGDVPEEFMDYVILT Human herpesvirus 5 365 5 0.01369863
2867 KYTHPNIKSGKFSNHSLKILHSRVLCEVVQTHYLKHHYDLCFTCDQNLSLSLYGLN Human herpesvirus 5 365 5 0.01369863
57729 WKQELLKQIGASQDYYKFFTIPTKQGLNAVVTMERFPDNYILAGPIQNDSITYMW Human herpesvirus 5 365 5 0.01369863
9447 FKLEILKQLEKPIYTKYFNMTRQHIKNLTMNMTEFPRYYILAGPIQNNSVTYLWFD Human herpesvirus 5 365 5 0.01369863
5322 KKDNSWHRVLVKIKDSNGPHVEENAVTNKRPRWK Human herpesvirus 5 365 5 0.01369863
72045 DEEEEEGAQEEREDTVSVKSEPVSEIEEVAPEEEEDGAEEPTASGGKSTHPMVTRS Human herpesvirus 5 365 5 0.01369863
36026 IMLPLIKQEDIKPEPDFTIQYRNKIIDTAGCIVISDSEEEQGEEVETRGATASSPS Human herpesvirus 5 365 5 0.01369863
5318 SNSWYKVIIKNGDDNKPKVEKRTEIRKRFKWN Human herpesvirus 5 365 5 0.01369863
8594 RNCTSTNNTICASKNHTSFSSPGVQHHKQRQQNHTAHVTVKQRKSGRHTLAWLSL Human herpesvirus 5 365 4 0.010958904
69416 KTTRPFKFGFGLGE Human herpesvirus 5 365 4 0.010958904
2906 QHGVIDGENSETERSVDLVAALLAEAGEESVTEDTEREDTEEEREDEEEENEART Human herpesvirus 5 365 4 0.010958904
11365 SSAAVSVAPTAAEKVPAECPELTRRCLLGEWQGDKYESWLRPLVNVTGRDGPLS Human herpesvirus 5 365 4 0.010958904
8154 PSRPPQKHKPPDKPPRLCKTGPGPPPLPPKQRHGSTDGKVSAPRQSEHHKRQTRPP Human herpesvirus 5 365 4 0.010958904
80487 SSAAVSVAPTAAEKVPAECPELTRRCLLGEVFEGDKYESWLRPLVNVTGRPGPLS Human herpesvirus 5 365 4 0.010958904
34336 NATSSENTTTVMSTLTKYAESDYIFLQDMCPRFLICRTVKLTRNKTKHNVTVTGNNM Human herpesvirus 5 365 4 0.010958904
33859 YVCEEHLHSFTEKGDATACPCYRLHKPTFISLNSQVRKTANMFMPGAFMDEIIGGT Human herpesvirus 5 365 4 0.010958904
75580 SPSSSTRASTTVKATAVATSSTTTATSTSSTTSAKPGSTTHPPNVMRPHAHNPFY Human herpesvirus 5 365 4 0.010958904
41437 LTLYQPGMLRFNVTCPRTEAPAPPVAFRLRLRRETVRRPFFSPAPLPYFVPPRSGA Human herpesvirus 5 365 4 0.010958904
5321 KPQHYLLPPRGKPACLAPPHHLSKWLPGKKPNSWHRVLVKIKPSNGPHVEENAVT Human herpesvirus 5 365 4 0.010958904
59593 VEIVRKLPQSPWVRGAWIVSETFPTSPPKGVWSPPPSSMGGSDD Human herpesvirus 5 365 4 0.010958904
5334 NTWHKVLLKTKGGPGPHVEERAASNGRPPWKLKV Human herpesvirus 5 365 4 0.010958904
2922 PRTPTEPTTLPIVSVSELAPPPRWSDIEELLEKAVQSVMKDAESMQMT Human herpesvirus 5 365 4 0.010958904
76861 SRQLKAQDSLGEQPTTVPPPIDLSIPHVWMPPQTTPHGWTESHTTSGLHRPHFNQT Human herpesvirus 5 365 4 0.010958904
9674 PKGQQIWAQTAGQAAPHGPEPHSPGELRRESHSAPPTSHTLPETILAVKRRSVAQ Human herpesvirus 5 365 4 0.010958904
14945 PFYSEYAGYSENKSCHPRFTCLHPTKGLKLHNVTTNPSGIYTRNVYYCPIPCNISD Human herpesvirus 5 365 4 0.010958904
61943 VILHEQKKAFWRLFLQSQQSQHIPAPITVIQGDTVYLNASNNPCNYSSFWYHGN Human herpesvirus 5 365 4 0.010958904
9598 PAKQYTLNATVEWYNKSEGPIPKEFMNYAILNSVAVLTCGLQEAYILPMTRRITY Human herpesvirus 5 365 4 0.010958904
26998 MAQRNGMSPRPPPLGRGRGAGGPSGVGSSPPSSCVPMGAPSTAGTGASAAATTTP Human herpesvirus 5 365 4 0.010958904
61997 QNKRSTGITSPKDYNVTGLPKGFADSFTGNAEAQRAKDAAHSAWLLIVIIIIIVV Human herpesvirus 5 365 4 0.010958904
35068 YLQSSARHPSAGGTASQETLLKAIQFTNGLSAACEPVYNPARKVLKFQGAPLKDE Human herpesvirus 5 365 4 0.010958904
8238 LRCAWIQRCCPRFPAWQPEVIYRRPSRRSQSPPQSRTNSVSSYVLLSPASPGGFD Human herpesvirus 5 365 4 0.010958904
34680 ATNCLVKSENTHLTCKCSPNNTSSNTGNGSKCHAMCKCRITEPITMLGAYSAWGA Human herpesvirus 5 365 4 0.010958904
35155 TAAAAGLMVIMRRMRRAPAEAAEAPPQSEEENPSTTPVSNCRVPPNSQESAAPQPP Human herpesvirus 5 365 4 0.010958904
59946 TKSGGDLRTSSGTAAKRAAAPLSSVSSNRLTASSSAKRKRPGCLQHE Human herpesvirus 5 365 4 0.010958904
8050 TRSSILSNNASYTTSLDNTTTDITSSESSINVSTVYNTTYIPVTSLAINCTATIN Human herpesvirus 5 365 4 0.010958904
24438 GCIVISDSEEEQGEEVETRGATASSPSTGSGTPRVTSPTHPLSQMNHPPLPPPLGR Human herpesvirus 5 365 4 0.010958904
54251 KPKGTKCLNPNAQAVRRHINRLFFRLILDEEQRIYDVVSTNIEFGAWPVPTAYKA Human herpesvirus 5 365 4 0.010958904
24744 PAAQPKRRRHRQDALPGPCIASTPKKHRG Human herpesvirus 5 365 4 0.010958904
57658 CEPTVSSQPPSQPTAMPGGPPDAPPPAMPQMPPGVAEAVQAAVQTAVAAALQQQQ Human herpesvirus 5 365 4 0.010958904
57756 STQLRKPAKYVYSQYNHTAKTITFRPPSCGTVPSMTCLSEM Human herpesvirus 5 365 3 0.008219178
7201 ELERLANSSGVNSTRRTKRSTSGNTTTLSLESESVRNVLYAQLQFTYDTLRSYIN Human herpesvirus 5 365 3 0.008219178
27303 FRMPKFFPPPMCRVPYNECGVELPGGDSSDEDESGRPRRIANRIGDTPEIPCNSE Human herpesvirus 5 365 3 0.008219178
33795 PCAQYFNTEEIIAANKTLFKTIDEYLLRAKDCIRGDTDTQYVCVEGTEQLIENPCR Human herpesvirus 5 365 3 0.008219178
34503 EGLRDILGQRHAAEASRAEIAEALERVAERCDDRHGGSDDYVWLSRLLDLAPNYR Human herpesvirus 5 365 3 0.008219178
33890 QDEAHSFSLKLTERKTVDGWPVGLGLLDVLNANYPNLPSPPKLPPRWERGEE Human herpesvirus 5 365 3 0.008219178
33779 YRPAFLLMPAATAVSTSGTTSKESTSGVTPEDSIAAQRQAVGEMLTELVEDVATDA Human herpesvirus 5 365 3 0.008219178
34564 RCFEKQVGDAVDNENVTENHLAVVRAMVMGEDTVPYNKPRRHPQQKQKNNPYHVEV Human herpesvirus 5 365 3 0.008219178
5328 CTHNVLTRPIGGVFWIGRDPPKPPECDKPQHFLLTSQGKTVCLGPDHHITKWLDG Human herpesvirus 5 365 3 0.008219178
27032 RQSQRVMHPHAFGMRAVSQFLVTHPLGEPEAHGAFAPETPVGTRSPLRSYAI Human herpesvirus 5 365 3 0.008219178
2921 KPPRNPRLPRTVGLENLSKVGLSCPCPRPRTPTEPTTLPIVSVSELAPPPRWSDIE Human herpesvirus 5 365 3 0.008219178
57726 KFMSKCDKHEWFEVTFNSTRKYPMITRKGSTKPTFSSGK Human herpesvirus 5 365 3 0.008219178
34708 PCSTTVNYSTSTETATSTYSTTVISNKSTSESINCSTATAPATTVSTKPSKTTTQ Human herpesvirus 5 365 3 0.008219178
5320 PCTHKALHHPIGGLFWVGRDPPNPPECDKPQHYLLPPRGKPCLAPDHHLSKWLD Human herpesvirus 5 365 3 0.008219178
5289 ILKDKGTKCLNPNAQAVRRHINRLFFRLILDEEQRIYDVVSTINEFGAWPVPTAY Human herpesvirus 5 365 3 0.008219178
2882 TNIPLGIHAVWAGVVVSVALVALYMGSRRASRKPRYKKLPKYDPDEFWTK Human herpesvirus 5 365 3 0.008219178
32228 FETTGGLVVFWQGIKQKSLVELERLANRSSLNLTHNRTKRSTDGNNATHLSNMES Human herpesvirus 5 365 3 0.008219178
57655 TMIYDMVQYGHRRRPGHGDDPDRVICEIVESPPVSAPTVFVPPPSEESHQPVIPPQ Human herpesvirus 5 365 3 0.008219178
27141 QRRRARRLHAVSEGKLQEEKKRQSALVWNVEARPFPSTHQLIVLPPPVASAPPAV Human herpesvirus 5 365 3 0.008219178
34257 SEPEITEHRDLFADVFRRPVTDAASSSSASSSSSASPNSVSLPSARSSSTRTTT Human herpesvirus 5 365 3 0.008219178
2881 IPDKCKTKEESDQHRRGAWDDVITTVKNTNIPLGIHAVWAGVVVSVALVALYMGS Human herpesvirus 5 365 3 0.008219178
27066 YRDVIHTTLRRMTVPVRRYPKGARTMHVLFLNDTTPEGSYATAERILGCDVKLHT Human herpesvirus 5 365 3 0.008219178
72046 VAPEEEEEDGAEEPTASGGKSTHPMVTRSKAD Human herpesvirus 5 365 3 0.008219178
34605 ACVIKVSRKKREDALLKQMRSEYGNAPVFGSGV Human herpesvirus 5 365 3 0.008219178
34038 EDEDSDDASSQDLVRATDRHGDTVVYKTTAVPPSPPAPLAGVRSHRGELNLMTPS Human herpesvirus 5 365 3 0.008219178
5288 LLNTLPVGTELLKPIAASESCNRQEVLAILKDKGTKCLNPNAQAVRRHINRLFFR Human herpesvirus 5 365 3 0.008219178
59618 VFWQGIKQKSLLELERLANSSGVNSTRRTKRSTGNTTTLSLESESVRNVLYAQLQ Human herpesvirus 5 365 3 0.008219178
70552 SATTSKSSASVSTTKLTKLSSTTHPPNVMRRHANDDFYKAHCTSHMYELSLSSFA Human herpesvirus 5 365 3 0.008219178
32207 MGAELCKRICCEFGTTPGEPLKDALGRQVSLRSYDNIPPTSSSDEGEDDDDGEDDD Human herpesvirus 5 365 3 0.008219178
33831 MMEAAAAAAAAFRPEERPTPGWHDAALLMDDGTVREHAFRNGPLSQLIRRVLPPP Human herpesvirus 5 365 3 0.008219178
32257 SVMKRRIEEICMKVFAQYILGADPLRVCSPSVDDLRAIAEESDEEEAIVAYTLATA Human herpesvirus 5 365 3 0.008219178
61827 VYRLAEDVVMFTCVMGKKGHRNHRFSGRREAIVRLEKTPTCQHPKKTPDPMIMFD Human herpesvirus 5 365 3 0.008219178
27300 ALGTITRSQLESALDWFLRPTRGTDKVPNKSSAWGRTDLLPTGALQDKQNWAFPS Human herpesvirus 5 365 3 0.008219178
12965 SLNLTHKRTKRSTDGNNATHLSNMESVHNLVYAQLQFTYDT Human herpesvirus 5 365 3 0.008219178
80483 SSVAVSVAPTAAEKVPAECPELTRRCLLGEVFQGDKYESWLRPLVNVTGRNGPLS Human herpesvirus 5 365 3 0.008219178
69875 CKSAARVFRLPFPYGRVLSKNGRLAEIKWKQELLKQIGASQDYYKFFTIPTKQGL Human herpesvirus 5 365 3 0.008219178
80490 SSAAVSVAPTATEKVPAECPELTRRCLLGEVFQGDKYESWLRPLVNVTGRDGPLS Human herpesvirus 5 365 3 0.008219178
9703 DYYRVPHYWDACSRALPDQTRYKYVEQLVDLTLNYHYDASHGLDNFDVLKRINVT Human herpesvirus 5 365 3 0.008219178
33985 DHESLEAWEQGSDVEAPPLPEKSPCPEHVPEIRVEIPRYV Human herpesvirus 5 365 3 0.008219178
27222 EECYPQRFTTEGHQVIPLCASEPEPPPEPPTYPELPSRPPQKHKPPPKPPRLCKTG Human herpesvirus 5 365 3 0.008219178
27182 EQYHHDERGAYFEWNIGGHPVTHTVDMVDITLSTRWGDPKKYAACVPQVRMDYSS Human herpesvirus 5 365 3 0.008219178
35088 RLTTQNHAQFPHVLGASPRFSSPAEFALHVKGLKTAGVPAPMAATVARESLVRSV Human herpesvirus 5 365 3 0.008219178
4377 KSARSQRAPFRPRIWHPTVLKKLKQLKLEILRQLEPIPYIKYPQINTTRVQSLTV Human herpesvirus 5 365 3 0.008219178
34150 KPWVTNASHPTVRIQSLGNEIRCMLLPRQYTLNATVEWYNKSEGDVPEEFMDYVI Human herpesvirus 5 365 3 0.008219178
9431 KIEILKQLQSDIYTKYPQITKNYTQFITTELKKFPLYYILAGPIRNESVTHLWFD Human herpesvirus 5 365 3 0.008219178
35164 QVAGNGRRRGPSFLEDGLEIIDPSEEAAIAAASIAAFFD Human herpesvirus 5 365 3 0.008219178
35163 SSSSSRRSRRRNNRHEPEEPNDPELRLSQVAGNGRRRGPSFLEPGLEIIPPSEEA Human herpesvirus 5 365 3 0.008219178
24741 GVMTRGRLKAESTVAPEEPTPEPSPNEIHNPAVFTWPPWQAGILARNLVPMVATV Human herpesvirus 5 365 3 0.008219178
9568 PDKCKTKEESPQHNSRTWDNVIKTVKNTNIPLGIHAVWAGIVVSVALIALYMGSR Human herpesvirus 5 365 3 0.008219178
8121 PQGQQIWPQTAGQAAPHGDEPHSDGELRRESHSAPPTSRTLPDTILVVKRRSVAQ Human herpesvirus 5 365 3 0.008219178
34051 LKRKQAPVKEQFEKKAKKTQSTTTPYFSYTTSAALNVTTNVTYSITTAARRVSTST Human herpesvirus 5 365 3 0.008219178
9597 LWESWVANDTSHNTTRIELLKNETRCTLPAKQYTLNATVEWYNKSEGDIPKEFMN Human herpesvirus 5 365 3 0.008219178
11389 RFRFADEEAVNPLDDTDPSGGSSPFGSGSRRGFQIPAGFCSSSPYQRLETRDWDE Human herpesvirus 5 365 3 0.008219178
80479 SSVAVSVAPTAAEKVPAECPELTRRCLLGEVFQGPKYESWLRPLVNVTGRDGPLS Human herpesvirus 5 365 3 0.008219178
26999 SPPSSCVPMGAPSTAGTGASAAATTTPGHGVHRVEPRGPPGAPPSSGNNSNFWHG Human herpesvirus 5 365 3 0.008219178
34095 SHPLSAAVPAATAPPGATVAGASPAVSSLAWPHPGVYLPKPAFFSLLGASRSAVP Human herpesvirus 5 365 3 0.008219178
9384 ATNMTSSTTVPTSTSSKNNVESATSSGPTIGINMTTTHESSVHNARKDEIMKVLA Human herpesvirus 5 365 3 0.008219178
33646 ILLHEQKKAFYWRLFLQSQHVEAPITVTQGPTVYLDASNNPCNYSSFWYHGNCEL Human herpesvirus 5 365 3 0.008219178
32259 GVSSSDSLVSPPESPVPATIPLSSVIVAENSPQEESEQSPEEEEEGAQEEREPTV Human herpesvirus 5 365 3 0.008219178
8178 TKHPAICANVEPYLQPARRRAPAQALGLDLATVVMEAGGQMIHKKTKKPKGKEDES Human herpesvirus 5 365 3 0.008219178
78663 QDPVRRMLLPKEQMALKVTCNAFYGFTGVVNGMMPCLPIAASITRIGRPMLERTA Human herpesvirus 5 365 3 0.008219178
34704 PEKFYLLVTPKNHTEAINATFVCPRYNTPIENEPREKGSQHTNNTHHHKRNLYHSS Human herpesvirus 5 365 3 0.008219178
34096 LAWPHDGVYLPKDAFISLLGASRSAVPVMYPGAVAAPPSASPAPLPLPSYPASYG Human herpesvirus 5 365 3 0.008219178
34447 HRHRALAPMTWPAGTGVAAAAEAPRALREFLEAPWESAPQPPRLRMTPDTPHEES Human herpesvirus 5 365 3 0.008219178
59583 ATIPLSSVIVAENSPQEESEQSPEEEEEGAQEEREPTVSVKSE Human herpesvirus 5 365 3 0.008219178
59582 EAIVAYTLATAGVSSSPSLVSPPESPVPATIPLSSVIVAENSPQEESEQSPEEEE Human herpesvirus 5 365 3 0.008219178
11231 SSSVTRVPEKPFKGQELAGRITPPPVPFQRPVFKTLLPQQADAARKALSPEAPLL Human herpesvirus 5 365 3 0.008219178
35094 VREEIPASDDVLFFVPGCEALAASLMPKFAALQEQGVEDFSLENLRRVLDADAQR Human herpesvirus 5 365 3 0.008219178
35096 TDAAGGEVHPLSALFAPSGVGAASGVGGGGLLLGESVAGNSICFGVPGETGGGCF Human herpesvirus 5 365 3 0.008219178
35095 FAALQEQGVEDFSLENLRRVLDADAQRLTDAAGGEVHDLSALFAPSGVGAASGVG Human herpesvirus 5 365 3 0.008219178
8153 FTTEGHQVIPLCASEPEDDDEDPTYDELPSRPPQKHKPPDKPPRLCKTGPGPPPLP Human herpesvirus 5 365 3 0.008219178
4911 MKRMIRSHGRKTECQMTSAGERRGSAVGAPICGSGTRRGSGANERRDSDVGPIAH Human herpesvirus 5 365 2 0.005479452
5330 NSNSWYKVFITTNGNNGPQMKRAENNKRPKWK Human herpesvirus 5 365 2 0.005479452
34915 SVTVEQPSTSADGSNTTPSKNVTLSQGGSTTDGDEDYSGEYDVLITDGDGSEHQQ Human herpesvirus 5 365 2 0.005479452
34019 RYSKDDDTEGDPDHYPPPLPPSSRHALGGTGGHIIMGTAGFRGGHRASSSFKRRVA Human herpesvirus 5 365 2 0.005479452
34926 HENGIYYGTRSMRKLNKPTCPYGVDHQLFDDA Human herpesvirus 5 365 2 0.005479452
34591 SATTSKSSASVSTTKLTTVATTSATTTTTTTLSTTSTKLSSTTHDPNVMRRHANDD Human herpesvirus 5 365 2 0.005479452
61783 PTAAFSSQPRRARRLPVPAATRSVARPLSPQTPTPVGLLPAARASLSDLADVPAVA Human herpesvirus 5 365 2 0.005479452
61784 SPQTPTPVGLLPAARASLSDLADVPAVAAGLSQRGSSRPGGRSRLPGGLAFGLRSV Human herpesvirus 5 365 2 0.005479452
24442 Human herpesvirus 5 365 2 0.005479452
27223 DPTYDELPSRPPQKHKPPDKPPRLCKTGPGPPPLPPKQRHGSTDGKVSAPRQSEHH Human herpesvirus 5 365 2 0.005479452
8083 TLNATVEWYNKSEGDVPEEFMDYVILTPLAVLTCGLQEAYILDKGRRYMYLFSVS Human herpesvirus 5 365 2 0.005479452
8267 RCTYHGTDINVTSNATSMNCRLNCTCNHTQIYNGPCAGAESKLPLNVTFRQSRRQW Human herpesvirus 5 365 2 0.005479452
8247 MTSPRLSASENYDGNYELTETANTTRTNTSDWITLGTSASLLKSTETAVNLSNATT Human herpesvirus 5 365 2 0.005479452
9557 CEEPKHEWDTSPHKPTNYEDNTATSSIDHLYRYNNHSNTSHGRRTTWTLALICVA Human herpesvirus 5 365 2 0.005479452
34916 STTDGDEDYSGEYDVLITDGDGSEHQQPQKTDEHKENQAKENEKKI Human herpesvirus 5 365 2 0.005479452
6602 RPLNGAMYYGSGCHFPTVEMVDETRPAPPALSSPETGGDSNNDAVAGGGAGGVTS Human herpesvirus 5 365 2 0.005479452
8056 SGRYSRRCYKQYHHQGPHEDENFGLTVNPRNNTDNYTIPVCPRYVETQSQEDEQDD Human herpesvirus 5 365 2 0.005479452
15019 WAGIVVSVALIALYMGNRRRPRKPRYTRLPKYDPDESWTKT Human herpesvirus 5 365 2 0.005479452
34313 RRGAGSVPAGNRGKKTIITEYRITGTRALARCPTKPVTSMWNSSWTSR Human herpesvirus 5 365 2 0.005479452
9585 KWVGNDTSHNTTRIELLKNETRCTLPAKQYTLNVTVEWYNKSEGDIPKEFMSYAI Human herpesvirus 5 365 2 0.005479452
34565 MGEDTVPYNKPRRHPQQKQKNNPYHVEVPQELIDNFLEHSSPSRDRFVQLLFYMWA Human herpesvirus 5 365 2 0.005479452
33793 YDTEAATKAIYDHREADAQTFAATHNPWASQAGCLSDVLYNTRHRERLGYNSKFY Human herpesvirus 5 365 2 0.005479452
3552 KTITFRPPSCGTVPSMTCLSEMLNVSKRNDTGEQGCGNFTTFNPMFFNVPRWNTK Human herpesvirus 5 365 2 0.005479452
27304 SDEDESGRPRRIANRIGDTPETPCNSENEDDTTVEGTSGGPEAMDSQAPYPSEDS Human herpesvirus 5 365 2 0.005479452
57741 THMWFDFYSTQLRKPAKYVYSEYNHTAHKITLRPPPCGTVPSMNCLSEM Human herpesvirus 5 365 2 0.005479452
34740 DFRCAPPTKRRTSYTPQKPARLRAPNLCVISTSQHDTNRVTWFPEHVRGTDPRHV Human herpesvirus 5 365 2 0.005479452
8165 TLIEAARDADEWFRHGAGEWREYRCNRLGVGTPRATLLPQPALRQTLLRAEEAT Human herpesvirus 5 365 2 0.005479452
47998 IRYYVSVYDELTASEMEEPSNSTSWQIPKLMKVAMQPVSLRDPEYD Human herpesvirus 5 365 2 0.005479452
8156 RPPPPKFGDRTAAHLSQNMRDMYLDMCTSSGHRPRPPAPPRPKKCQTHAPHHVHH Human herpesvirus 5 365 2 0.005479452
27116 APTVRAQSTVVRSEPAPPSETRRDNNDTSYFSSTSFHSSVSPATSVDRQFRRTTY Human herpesvirus 5 365 2 0.005479452
34287 KTHRTIVVAPRRGFLRIPPDGQDVNHVKIVPTTSSSLAPPRDDERRPTPPLRPPLT Human herpesvirus 5 365 2 0.005479452
8149 IGFYQIRKPPWLMELPPPPSRQTKPDAATMPPPLSAQASVSYALRYDDESVVRPLST Human herpesvirus 5 365 2 0.005479452
11562 YSFRCYINGHPSEQNQNFNLQVHPRNNTNGTHVNPWICEEPKHEWDTSHKPTSHKD Human herpesvirus 5 365 2 0.005479452
41429 ESQTAPATSQEEETAASHELEKKKEKEEKKEEEDEDDRNDDRERGILCVVSNEDSD Human herpesvirus 5 365 2 0.005479452
11557 VNVTENVSTPLPICSSSNNTLNDTSNNHTCYHENNTISKEPEILLYAVQGDNITT Human herpesvirus 5 365 2 0.005479452
11384 MPVEMLRKLDQSDWVRGAWIVSETFPTSDPKGFWSDDDSSMGGSED Human herpesvirus 5 365 2 0.005479452
11553 GKCNNTTANTSMSTALTSLIPTTQLSSTLETTGMSTTTFTSSTNASTGFTTNSVKS Human herpesvirus 5 365 2 0.005479452
34190 YALYASTPALFDFLRVVRQQDAFICTDYVYCALRINACPDRPIIGDTGGSSSSQR Human herpesvirus 5 365 2 0.005479452
25602 SSDKASSRANGTISWMANVSAAYPTYLDGERAKGDLIFNQTEQNLLELEIALGYR Human herpesvirus 5 365 2 0.005479452
76765 TLCPNGTYVSGLYKCTNCTECNDTEVTIRNCTSTNNTVCASKNHTSLSVPGVQHHK Human herpesvirus 5 365 2 0.005479452
61822 HFHTMRDYQRPMVQYDDYWNAVMLYRGDVESLSAEVTKRGYASYTIDDPFDECPD Human herpesvirus 5 365 2 0.005479452
63857 FLWDIPSCDRCVRRRRFKVCDAGRRHIIPGAANGMPPLTPPHAYMN Human herpesvirus 5 365 2 0.005479452
34297 NVTVLAGQQLITQTNIPHTPQAVATFKFFHQDPNRVLDCIRPVVPRSTSYHETGVY Human herpesvirus 5 365 2 0.005479452
36023 LGDILAQAVNHAGIDSSSTGPTLTTHSCSVSSAPLNKPTPTSVAVTNTPLPGASAT Human herpesvirus 5 365 2 0.005479452
34541 KKAASTSLAVRNHVTVSSHSGSGPSLWRARMSAALTRTAGKRSSRTASPPPPPRH Human herpesvirus 5 365 2 0.005479452
27349 DYYYYREDEPRQHGEPNYVAPPARQFRFPPLNNVSSYQASCVVKDGVLDAVWRVQ Human herpesvirus 5 365 2 0.005479452
8112 SLSVELSAGHKKKEIPTEGGWGGEEGEDDVLATIRNTLSAPTSPAAATTHRLSFP Human herpesvirus 5 365 2 0.005479452
57754 LEILKQLEREPYTKYFNMTRQHVKNLTMNMTQFPQYYILAGPIRNDSITYLWFDFY Human herpesvirus 5 365 2 0.005479452
57753 CKWRPPGRYWLGTVLSTIGKQKLDKFKLEILKQLEREPYTKYFNMTRQHVKNLTM Human herpesvirus 5 365 2 0.005479452
34177 KAGKSPKVSRPPSVPSLPENGAGGGGDDNSSSGGSSSRTTSNSSRSTSPVAPGEP Human herpesvirus 5 365 2 0.005479452
33973 SKTNTSIIHFVQQDELVDNPAYFRRSNHRAFMIVILTQVVFVVFIINASFIWSWT Human herpesvirus 5 365 2 0.005479452
61833 VRRRRFKVCDVGRRHHPGAANGMPPLTPPHAYMNN Human herpesvirus 5 365 2 0.005479452
34700 TNTTGIEGSNVTIKGNSTWDCLSVAWIRHYNRSTHGHHLGHRKNAHTQSWYWLRI Human herpesvirus 5 365 2 0.005479452
34133 GWEGERHRVVHYIPGTSGLLPSCEEDERELCVPFISQSIADNNCSRRHRVDGARR Human herpesvirus 5 365 2 0.005479452
9465 STQLRKPAKYVYSQYNHTAKTITIRPPSCGTVPSMTCLSEMLNVSKRNDTGEQGC Human herpesvirus 5 365 2 0.005479452
14869 TPCPNGTYVSGLYNCTDCTQCNVTQVMIRNCTSTNNTVCAPKNHTYFSTPGVQHHK Human herpesvirus 5 365 2 0.005479452
8336 PKGQQIWTQTAGQAAPHGDEPHSDGELRRESHSAPPTSRTLPDTILAVKHRSVAQ Human herpesvirus 5 365 2 0.005479452
8296 FNLTVRPQVVQSTTTVVTPAVVTNSTASVSPIALNLTTNFTAFGYASYQRKKRVE Human herpesvirus 5 365 2 0.005479452
34178 NSSSGGSSSRTTSNSSRSTSPVAPGEPSAAEGDEFSFCDSDIEDFERECYRVSYA Human herpesvirus 5 365 2 0.005479452
61978 LRLNNVTSSPSGTYTEYVYECDLPCNTSDYPEYDILNYLDNCTTTINSTNYIITV Human herpesvirus 5 365 2 0.005479452
34859 SSVAVSVAPTAAEKVPAECPELTRRCLLGEVFQGDKYESWLRPLVNVTRRDGPLS Human herpesvirus 5 365 2 0.005479452
9437 LVNAMSRNLFRVPKYINGTKLKNTMRKLKRKQAPVKEQFEKKIKKSQSSTTPYFS Human herpesvirus 5 365 2 0.005479452
11199 KTLATASSSSPSAIAAASSSSAVPPSYSCGEGALPALGRYQQLVDEVEQELKALT Human herpesvirus 5 365 2 0.005479452
34478 LTTLSSVSTTTVLGHATFSACVRSDVMRDGEKEDAASDKENLRRPVVPSTSSRGS Human herpesvirus 5 365 2 0.005479452
56917 HSPGELRRESHSAPPTSRTLPDTILAVKRRSVAQRSHVRLPAKPGLNERPGFRRR Human herpesvirus 5 365 2 0.005479452
65655 LFTVAVQRVKQERDAHLRRYEERLRKNRARRRQSF Human herpesvirus 5 365 2 0.005479452
9409 VTSPINTTVTSTTSISTSNNVTSAVSTTVQTSISTSGSTFTSAATSVAATTQKEG Human herpesvirus 5 365 2 0.005479452
34378 PAVPSRGGRVSSGLSTFNPAGATRMELDSVFEEDDFGASLCKVSPPIQATRMLMG Human herpesvirus 5 365 2 0.005479452
34701 HYNRSTHGHHLGHRKNAHTQSWYWLRILTSHTVCHSQHERPSLYHDLCRSCNNTE Human herpesvirus 5 365 2 0.005479452
34476 PSRARRRQWMREAAQAAAQAAVQAAQAAAAQVAQAHVDENEVVDLMADEAGGGVT Human herpesvirus 5 365 2 0.005479452
12977 ESVSTDNATTISSFTTVTPNATSYNTTITASYNVSTNSTVFTMSMPLVTNCSIATN Human herpesvirus 5 365 2 0.005479452
34471 MTSVNKQLLKDVMRVDLERQQHQFLRRTYGPQHRLTTQQALTVMRVAAREQTRYS Human herpesvirus 5 365 2 0.005479452
14910 KWLDKRNDNRWYNVNVTRQPERGPGKITVTLVGLKE Human herpesvirus 5 365 2 0.005479452
56866 QQRERQRLDKSQAATAPSAAAGPPADRDVVDQRTETYAYETPRYVTRCLTRYTTPV Human herpesvirus 5 365 2 0.005479452
60285 YRPHGVGRLRGLRYHLHNLLFTDRSRLFSIRQSAIRLPPGRLLRTLRPHLPHRAV Human herpesvirus 5 365 2 0.005479452
27017 LHLHPRAALWAREPHGQLAFLLRPGRGEAEVLTLATKHPAICANVEPYLQPARRR Human herpesvirus 5 365 2 0.005479452
27019 DAQALGLPLATVVMEAGGQMIHKKTKKPKGKEPESLMKGKHSRYTRPTEPPLTPQA Human herpesvirus 5 365 2 0.005479452
27033 TAVTLVTATLAAASATFPTVRRSVSSSPAAKQPAPGTVAQSFPPGELALRPETGG Human herpesvirus 5 365 2 0.005479452
80475 SSAAVNVAPTAAEKVPAECPELTRRCLLGEVFQGPEYESWLRPLVNVTGRPGPLS Human herpesvirus 5 365 2 0.005479452
32260 ENSDQEESEQSDEEEEEGAQEEREDTVSVKSEPVSEIEEVAPEEEEDGAEEPTAS Human herpesvirus 5 365 2 0.005479452
2915 DVVEPLDLELGLMRVATHPPTPQVPRCTSLYIGEDGLPIDKPEFPPARFEIPDVST Human herpesvirus 5 365 2 0.005479452
61956 KYTRRDRYKGYEENYYVTVLYEGSTSSTPGTCPVKYRVKSSESTNTEGTVGSNLI Human herpesvirus 5 365 2 0.005479452
8339 FRANELRNQQFMTYGTENSLKNTSLTRPLGAAGGVRETIGEPQDRDVADSATQRV Human herpesvirus 5 365 2 0.005479452
37335 PPSEATAGRWPVDRFLRVPLQRAPDPRLRTIHPVTESALARKSRGLAGVTRQIHRA Human herpesvirus 5 365 2 0.005479452
34071 RCYADATSAAVVVTTTTSEKATLVEHAEGMASEMCPGTTIDVSAESSSVLCTDGE Human herpesvirus 5 365 2 0.005479452
15141 NWSTHGMHIYPNRRYQTPTYQHKILTSHPICHPDVSSPAAYHDLCRSCNKTELRIY Human herpesvirus 5 365 2 0.005479452
34151 QYTLNATVEWYNKSEGDVPEEFMDYVILTPLAVLTCGLQEAYILDKGRRYMYLFS Human herpesvirus 5 365 2 0.005479452
5313 DQYYLKPPKGKAVCLAPQHHLSIWLNGQNSSLWHRVLVTGKNGNGPHVTKKGDFP Human herpesvirus 5 365 2 0.005479452
37089 TLAVYGRDPEWVTQRFPDLTAADRDGLRAQWQRCGSTAVDASGDPFRSDSYGLLG Human herpesvirus 5 365 2 0.005479452
61898 NTTRTNTSDWITLGSSASLLKSTETAVNLSNATTVIPQPVEYPAGGVQYQRAATHY Human herpesvirus 5 365 2 0.005479452
37336 RTIHPVTESALARKSRGLAGVTRQIHRAVPQHIADYNDGGDMGSRFDNLPGVAAS Human herpesvirus 5 365 2 0.005479452
34787 MLEAGAAATVAPLTPPAVVQGESGVREDGETVAAVSAFACPSVSDSLIPEETGVT Human herpesvirus 5 365 2 0.005479452
6604 ATRTTSPNALLPEWMDAVHVAVQAAVQATVQVSGPRENAVSPAT Human herpesvirus 5 365 2 0.005479452
5308 NTLPVGTELLKPIAASESCNRQEVLAILKDKGTKCLNPNAQAVRRHINRLFFRLI Human herpesvirus 5 365 2 0.005479452
5307 LFVASSPVNLLELEDYDRRCRCNNQILLNTLPVGTELLKPIAASESCNRQEVLAD Human herpesvirus 5 365 2 0.005479452
61912 QILLNTLPIGTELLKPIAASESCKRQEVLAILKDKGTKCLNPNAQAVRRHINRLF Human herpesvirus 5 365 2 0.005479452
61904 YRHHGSPTEIWFQIEFKGPQNTKVVSKSFTPPS Human herpesvirus 5 365 2 0.005479452
25156 YVRERPYIGGRSRPTTFHETRKKKAPLGGPLSPSFARSPVLEPSSPPQALSVPSLS Human herpesvirus 5 365 2 0.005479452
34487 LGQGSFGEVWPLPRYRVVKVARKHSETVLTVWMSGLIRTRAAGEQQQPPSLVGTG Human herpesvirus 5 365 2 0.005479452
5325 QHYLVPPNGRRACLNPDHHLSKWLDAQNSNSWYKVVVTTGGGGGPHVDKKAEIKK Human herpesvirus 5 365 2 0.005479452
34044 QLKLEILRQLETTISTKYNVSKQPVKNLTMNMTEFPQYYILAGPIQNYSITYLWFD Human herpesvirus 5 365 2 0.005479452
93698 NPIENYVPEVLNEVLVVPNINSSHPTTSNSAPALPAAETGHTSNVQPEPVIETRY Rhinovirus A 358 354 0.988826816
93426 NPYENYIPSVLNEVLVVPNIQPSTSVSSHAAPALPAAETGHTSSVQPEPMIETRY Rhinovirus A 358 345 0.963687151
57885 TDMHVQNVPITQKPVENYIDEVLNEVLVVPNIRESHPTTSNAATALDAAETGHTSS Rhinovirus A 358 344 0.960893855
93555 KGIIAQNPIENYVPEYLNEVLVYPNINSSHPTTSNSAPALPAAETGHTSNYQPEDV Rhinovirus A 358 339 0.946927374
68507 KQTGPITQNPVERYVDEVLNEVLVVPNINQSHPTTSNAAPVLDAAETGHTNKIQP Rhinovirus A 358 331 0.924581006
25048 RDTNLHTQEGVLTQNPVENYIDSVLNEVLVVPNIQPSTSVSSHAAPALDAAETGH Rhinovirus A 358 324 0.905027933
93748 TNLHMQKGIIAQNPIENYVPEYLNEYLVVPNINSSHPTTSNSAPALPAAETGHTS Rhinovirus A 358 324 0.905027933
37900 RDTPLHIQSGPIEQNPVENYIDEVLNEVLVVPNIKESHHTTSNSAPLEDAAETGH Rhinovirus A 358 321 0.896648045
31975 LHIQSGPIEQNPVENYIDEVLNEVLVVPNIKESHHTTSNSAPLLDAAETGHTSNV Rhinovirus A 358 301 0.840782123
68506 TPNTAEMLCFVSGCKDFCLRMARDTDLHKQTGPITQKPVERYVDEVLNEVLVVPN Rhinovirus A 358 297 0.829608939
7853 TPMHKQPPAIEQNPVENYVGEALNEYLYYPNIKESHPSTSNSAPILPAAETGHTS Rhinovirus A 358 296 0.826815642
31974 PNTPQTADMLCFVSACKDFCLRMARDTDLHIQSGPIEQNPVENYIDEVLNEVLVV Rhinovirus A 358 293 0.818435754
23580 QSGAIAQNPVENYIDEVLNEVLVVPNINSSNPTTSNSAPALDAAETGHTSSVQPE Rhinovirus A 358 258 0.720670391
23581 SSNPTTSNSAPALPAAETGHTSSVQPEPVIETRYVQTSQTRPEMSLESFLGRSGC Rhinovirus A 358 192 0.536312849
93554 STARLLCFVSGCKDFCLRMARDTNLHMQKGIIAQNPIENYVDEVLNEVLVVPNIN Rhinovirus A 358 173 0.483240223
25047 FVVPDSTPDNAKMVCMVSACKDFCLRLARDTNLHTQEGVLTQNPVENYIPSVLNE Rhinovirus A 358 169 0.472067039
23579 PPTARLLCFYSGCKPPCLRMARPTXLHLQSGAIAQNPYENYIPEVLNEVLVYPNP Rhinovirus A 358 169 0.472067039
93699 NSAPALPAAETGPITSNVQPEPVIETRYVQTSQTRPEMSLESFLGRSGCIHESKLK Rhinovirus A 358 148 0.413407821
93401 PEHQLASATSGNVSVGYNHTHPGEQGREVVPSRSSSDNKRPSDDSWLNFDGTLLG Rhinovirus A 358 146 0.407821229
7840 PEHQLANANATNADAGYNYTHPGERGREVGSDRVAHANLPSDDNWLNFDGTLLGN Rhinovirus A 358 146 0.407821229
57915 DKRRRQVIPVMSAIFQGPISLQNPPPPAIAPLLQSVRTPEVIKYCEENKWIIPAE Rhinovirus A 358 145 0.405027933
93542 PEHQIASLQHGDVNVGYNFTHPGEEGREVKNTTREHLQQQPTEEHWLNFDGTLLG Rhinovirus A 358 139 0.288268156
57872 PEHQLASANYGNVTAGYNYTHPGEAGRDVGQQRTNNEKQPSDDNWLNFDGTLLGN Rhinovirus A 358 134 0.374301676
23621 TPCKTKLQPSVFYPVFPGSKEPAVLSEKPARLQVPFNEALPSKYKGNTPCSINPH Rhinovirus A 358 129 0.360335196
37899 LVVPPSTPQTAPMLCFVSACKPFCLRMARPTPLHIQSGPIEQNPVENYIPEVLNEN Rhinovirus A 358 129 0.360335196
25078 LYSHIKEEDRRRSSAAQAMEAIFQGIDLQSPPPPAIADLLRSVKTPEHKYCQDN Rhinovirus A 358 125 0.349162011
25073 PGYDQQSVVIMPPIMQNPSGEPMTLFCQMVSSVPFIPPMAPLPPKGKPFTSKFVL Rhinovirus A 358 123 0.343575419
93585 DVMSAIFQGPIPMKNPPPPAITDLLQSVRTPEVIKYCEENRWIIPAECKIEKELN Rhinovirus A 358 122 0.340782123
7883 EPKRRRQVVPVMAAIFQGPITLEGPPPAAINPLLKSVRTPEVIKYCEPNKWIVPA Rhinovirus A 358 115 0.32122905
93427 HAAPALPAAETGHTSSVQPEPMIETRYVITPQTRPETSIESFLGRSGCIAMIEFN Rhinovirus A 358 110 0.30726257
93747 IPPPTPSTARLLCFVSGCKPFCLRMARPTNLHMQKGIIAQNPIENYVPEVLNEVL Rhinovirus A 358 109 0.304469274
93556 SHPTTSNSAPALPAAETGHTSNVQPEPVIETRYVQTSQTKPEMSLESFLGRSGCI Rhinovirus A 358 109 0.301675978
68494 PEHQLATVNKGNVNAGYKYTHPGEAGREVGTQVENEKQPSDDNWLNFDGTLLGNLI Rhinovirus A 358 107 0.298882682
37887 VAMPIEHLSAKHGSVTAGYKLTHPGEAGRDVSQERASLRQPSDDSWLNDFDGT Rhinovirus A 358 104 0.020502793
7834 NINYFKDAASSGASKLEFSHDPSKFTDPVKDVLEKGIPTLQSPTVEACGYSDRIM Rhinovirus A 358 100 0.279329609
25035 PEHQLASATSGNVSVGYNGTHPGEQGREVVPSRTSSDNKRPSDDSWLNFDGTLLG Rhinovirus A 358 100 0.279329609
25029 NINYFKDAASSGASRLDFSQDPSKFTDPVKDVLEKGIPTLQSPTVEACGYSDRLI Rhinovirus A 358 98 0.273743017
23567 PEHQIASALHGNVNVGYNYTHPGETGREVKAETRLNPDLQPTEEYWLNFDGTLLG Rhinovirus A 358 96 0.268156425
32005 DKRRRQVVDVSMSAIFQGPISLDAPPPPAIADLLQSVRTPEVIKYCQDNKWIVPAE Rhinovirus A 358 90 0.251396648
93749 VPNINSSHPTTSNSAPALDAAETGHTSNVQPEDVIETRYYQTSQTRDEMSLESFL Rhinovirus A 358 87 0.24301676
93536 NINYFKDAASNGASKLEFSQDPSKFTDPVKDVLEKGIPTLQSPTVEACGYSDRII Rhinovirus A 358 87 0.24301676
7852 FPPNTPNRADMLCFVSACKDFCLRMARDTDMHKQDDAIEQNPVENYVGEALNEVL Rhinovirus A 358 86 0.240223464
23605 NPAGDDMTLFCQMVSSVTFIPPMADLPDKGKAFDSRFVLCSTNHSLLTPPTITSL Rhinovirus A 358 84 0.234636872
93580 PTGDDMTLFCQMVSSVTFIPPMADLPDKGKAFDSRFVLCSTNHSLLAPPTITSLPA Rhinovirus A 358 83 0.231843575
57910 IMDDIMQNPTGEDMTLFCQMVSSVTFIPPMADLPDKGKAFDSRVFLCSTNHSLLA Rhinovirus A 358 80 0.223463687
25079 QSPPPPAIADLLRSVKTPEIIKYCQDNNWIVPAECSIERDLGIANMTIGIIANVVS Rhinovirus A 358 80 0.223463687
68508 NQSHPTTSNAAPVLDAAETGHTNKIQPEDTIETRYVQSSQTLDEMSVESFLGRSG Rhinovirus A 358 79 0.20670391
23604 DIYSLPPDPKYFDGYDQQSVVIMDDIMQNPAGDDMTLFCQMVSSVTFIPPMADLP Rhinovirus A 358 78 0.217877095
23561 NINYFKDAASNGASKLEFTQDPSKFTDPVKDVLEKGIPTLQSPTVEACGYSDRII Rhinovirus A 358 74 0.206703911
25074 MVSSVPFIPPMADLPDKGKPFTSKFVLASTNHTLLTPPTVSSLPAMARRFYFDLD Rhinovirus A 358 72 0.201117318
23610 VDVMTAIFQGPIDMKNPPPAITDLLQSVRTPEVIKYCEGNRWIIPAECKIEKELN Rhinovirus A 358 70 0.195530726
68548 SIHTPTKTKLQPSVFYDIFPGSKEPAVLTEKDPRLKVDFDSALFSKYKGNTECSL Rhinovirus A 358 69 0.19273743
25049 LVVPNIQPSTSVSSHAAPALDAAETGHTSSVQPEDMIETRYVITDQTRDETSIES Rhinovirus A 358 69 0.19273743
7878 VIMDDIMQNPSGEDMTLFCQMVSSVTFIPPMADLPDKGKPFDSRFVLCGTNHNLLA Rhinovirus A 358 69 0.19273743
57886 VPNIRESHPTTSNAATALDAAETGHTSSIQPEDTIETRYVQTSHTRDEMSVESFL Rhinovirus A 358 68 0.189944134
25089 KELPVSVKNLPSVHVSSKTRLQPSVFHDVFPGTKEPAVLSSNDPRLETDFDSALF Rhinovirus A 358 66 0.184357542
32000 IMDDIMQNPDGEDMTLFCQMVSSVTFIPPMADLPDKGKPFDSRFVLCSTNHSLLA Rhinovirus A 358 66 0.184357542
57884 FPPNTPNNANMICFVSGCKDFCLRMARDTDMHVQNVPITNPVENYIDEVLNEVLV Rhinovirus A 358 64 0.17877095
93595 LRSYFADTQGQITLSKRTSECNLPSIHNPCKTKLQPSVFYDVFPGSKEPAVLSDK Rhinovirus A 358 60 0.167597765
93761 NINYFKDAASNGASKLEFSQDPSKFTDPVKDVLEKGIPTL Rhinovirus A 358 57 0.159217877
93596 PCKTKLQPSVFYDVFPGSKEPAVLSDKDTRLQVDFNESLFSKYKGNTHCVMNEHI Rhinovirus A 358 56 0.156424581
68488 NINYFKDAASSGASRLDFSQDPSKFTDPVKDVLEKGIPTLQSPSVEACGYSDRII Rhinovirus A 358 54 0.150837989
93535 MGAQVSRQNVGTHSTQNSVSNGSSLNYFNINYFKDAASNGASKLEFSQDPSKFTD Rhinovirus A 358 53 0.148044693
93579 IYSLPPDPKYFDGYDQQSVVIMDDIMQNPTGDDMTLFCQMVSSVTFIPPMADLPDK Rhinovirus A 358 51 0.142458101
68537 RQVVDVMSAIFQGPISMDKPPPPAITDLLRVRTPEVIKYCQDNKWIVPADCQIER Rhinovirus A 358 49 0.136871508
7894 ECNLPSIHTPSKIKLQPSVFYDVFPGSKEPAVLSEFDPRLEVDFKQALFSKYKGN Rhinovirus A 358 49 0.136871508
57926 CGLPSIHNPSKTKLQPSVFYDIFPGSKQPAVLSEKDTRLQVDFNEALFSKYKGNG Rhinovirus A 358 49 0.136871508
93359 ITRGDSTITSQDIANAVVAYGVWPSYLTPDDATAIDKPTQPDTSSNRFYTLDSRSW Rhinovirus A 358 48 0.134078212
32016 CGLPTIHTPSKTKLQPSVFYDVFPGSKEPAVSRDNDPRLKVNFKEALFSKYKGNT Rhinovirus A 358 47 0.131284916
31962 PEHQLASAKNGSVTAGYNLTHPGEAGRVVGQQRDANLRQPSDDSWLNFDGTLLGN Rhinovirus A 358 45 0.125698324
68490 ITRGDSTITSQDVANAVVGYGVWPHYLTPQDATAIDKPTQPDTSSNRFYTLDSKMW Rhinovirus A 358 44 0.122905028
93578 AIVIHGGPGAGKSITTNFLAKMITNDSDIYSLPPDPKYFDGYDQQSVVIMDDIMQ Rhinovirus A 358 44 0.122905028
93685 SECNLPSIHNPCKTKLQPSVFYDVFPGSKEPAVLSDKDTRLQVDFNESLFSKYKG Rhinovirus A 358 43 0.120111732
93368 KELPVSVKNLPSIHVSSKTRLQPSVFHDVFPGTKEPAVLSSNDPRLETDFDSALF Rhinovirus A 358 41 0.11452514
57908 QKKRSEPVAIVVHGPPGTGKSITTSFLARMITNDSDIYSLPPDPKYFDGYDQQSVV Rhinovirus A 358 41 0.11452514
7879 PPMADLPDKGKPFDSRFVLCGTNHNLLAPPTITSLPAMNRRFFLDLDIVACDKYKI Rhinovirus A 358 40 0.111731844
25072 KSLATSVLARMLTVETDIYSLPPDPKYFDGYDQQSVVIMDDIMQNPSGEDMTLFC Rhinovirus A 358 39 0.10838547
57894 AKHVKAWCPRAPRAVPYTHSNVTNYKVRDGEPTLFIKPRENLTTAGPSDMYVHVG Rhinovirus A 358 38 0.106145251
57925 RDGFSAMLLRSYFTDTQGQITLSKKTSECGLPSIHNPSKTKLQPSVFYDIFPGSK Rhinovirus A 358 37 0.103351955
31955 MGAQVSRQNVGTHSTQNSVSNGSSLNYFNINYFKDAASSGASRLDFSQDPSKFTD Rhinovirus A 358 37 0.103351955
68531 NESDIYSLPPDPKYFDGYDNQSVVIMDDIMQNPGGEDMTLFCQMVSSVTFIPPMA Rhinovirus A 358 36 0.100558659
32015 RDGFSAMLLRSYFTDTQGQIKISKHANECGLPTIHTPSKTKLQPSVFYDVFPGSK Rhinovirus A 358 35 0.097765363
6854 SSMLLRSYFTEQQGQIQISKHVKDVGLPSIHTPTKTKLQPSVFYDIFPGSKEPAV Rhinovirus A 358 35 0.097765363
25031 ITRGDSTITSQDTANAVVAYGVWPSYLTPDDATAIDKPTQPDTSSNRFYTLDSRSW Rhinovirus A 358 34 0.094972067
68532 IMQNPGGEDMTLFCQMVSSVTFIPPMADLPDKGKPFDSRFVLCSTNHSLLAPPTIS Rhinovirus A 358 34 0.094972067
23620 LLRSYFTDVQGQITLSKKTSECNLPSIHTPCKTKLQPSVFYDVFPGSKEPAVLSE Rhinovirus A 358 33 0.092178771
31956 NINYFKDAASSGASRLDFSQDPSKFTDPVKDVLEKGIPTLQSPSVEACGYSDRII Rhinovirus A 358 32 0.089385475
31976 NIKESHHTTSNSAPLLDAAETGHTSNVQPEDAIETRYVMTSQTRDEMSIESFLGR Rhinovirus A 358 32 0.089385475
25028 MGAQVSRQNVGTHSTQNSVSNGSSLNYFNINYFKDAASSGASRLDFSQDPSKFTD Rhinovirus A 358 31 0.086592179
37901 LVVPNIKESHHTTSNSAPLLDAAETGHTSNVQPEDIETRYVITSQTRDEMSIESI Rhinovirus A 358 30 0.083798883
27866 NINYFKDAASSGASKLEFSQDPSKFTDPVKDVLEKGIPTLQSPTVEACGYSDRII Rhinovirus A 358 30 0.083798883
7854 VPNIKESHPSTSNSAPILDAAETGHTSNVQPEDTIETRYVQTTQTRDEMSIESFL Rhinovirus A 358 28 0.078212291
7876 KQKKRCEPVAVAIHGEPGTGKSMTTNFLARMITNDSDIYSLPPDPKYFDGYDQQSV Rhinovirus A 358 28 0.078212291
68530 SEPVAVMIHGPPGTGKSITTSFLARMITNESDIYSLPPDPKYFDGYDNQSVVIMDD Rhinovirus A 358 27 0.075418994
37881 Rhinovirus A 358 26 0.072625698
57930 GIKKRDLINNKTKDISRLKQAIDKYGVDLPMVTFLKDELRKEEKIAKGKTRVIEAS Rhinovirus A 358 26 0.072625698
23625 INNKTKDISKLKEAIDKYGVDLPMVTFLKDELRKHEKVIKGKTRVIEASSVNDTL Rhinovirus A 358 26 0.072625698
7836 ITRGDSTITSQDVANAVVGYGVWPHYLSAKDATAIDKPTQPDTSSNRFYTLDSKIW Rhinovirus A 358 26 0.072625698
93684 NGRDGFSAMLLRSYFADTQGQITLSKRTSENCLPSIHNPCKTKLQPSVFDVFPG Rhinovirus A 358 25 0.069832402
68552 NDLINNKTKDISKLKLALDKYDVDLPMITFLKDELRKKDKIAAGKTRVIEASSIN Rhinovirus A 358 23 0.06424581
23560 MGAQVSRQNVGTHSTQNSNSNGSSLNYFNINYFKDAASNGASKLEFTQDPSKFTD Rhinovirus A 358 22 0.061452514
31998 QRKRSEPVAVMIHGPPGTGKSITTNFLARMITNESDVYSLPPDPKYFDGYDNQSVV Rhinovirus A 358 22 0.061452514
68487 MGAQVSRQNVGTHSTQNMVSNGSSLNYFNINYFKDAASSGASRLDFSQDPSKFTD Rhinovirus A 358 22 0.061452514
7898 MGIKKRDLINKQTRDITKLKMALDKYGVDLPMVTLLKDELRKKEKISAGKTRVIEA Rhinovirus A 358 22 0.061452514
93535 PRPPRAVAYQHTHSTNYPSNGEATTQIKTRPDVFTVTNV Rhinovirus A 358 21 0.058659218
93600 NNKTKDISKLREALDKYGVDLPMVTFLKDELRKQEKIIKGKTRVIEASSVNDTLL Rhinovirus A 358 20 0.055865922
93599 TDGLEALDLNTSAGFPYITMGIKKRDLINNKTKDISKLREALDKYGVDLPMVTFLF Rhinovirus A 358 19 0.053072626
23609 KDRNSCNKYSLAQVYNIMIEEDRRRRQVVDVMTAIFQGPIDMKNPPPPAITDLLQS Rhinovirus A 358 18 0.05027933
57909 RMITNDSDIYSLPPDPKYFDGYDQQSVVIMDDIMQNPTGEDMTLFCQMVSSVTFI Rhinovirus A 358 17 0.047486034
93584 DRNSCNKYTLAQIYNIMLEEDRRRRQMVDVMSAIFQGPIDMKNPPPPAITDLLQSV Rhinovirus A 358 17 0.047486034
68516 AWCPRPPRAVQYSHTHTTNYKLSSEVHNDVAIRPRTNLTTVGPSDMYVHVGNLIY Rhinovirus A 358 17 0.047486034
32001 PMADLPDKGKPFDSRFVLCSTNHSLLAPPTISSLPAMNRRFFFDLDIVVHDNYKD Rhinovirus A 358 17 0.047486034
93378 TNYIPLNGEATTQIKTRPDVFTITNVGPSSMFVHVGNLIYRNLHTLFNSDLDDSILV Rhinovirus A 358 16 0.044692737
7833 MGAQVSRQNVGTHSTQNMVSNGSSLNYFNINYFKDAASSGASKLEFSHDPSKFTD Rhinovirus A 358 16 0.044692737
25090 VFPGTKEPAVLSSNDPRLETDFDSALFSKYKGNPACVTPHMKIAVAHYAAQLST Rhinovirus A 358 15 0.041899441
93686 KEPAVLSDKDTRLQVDFNESLFSKYKGNTHCVMNEHIKIASAHYAAQLITLDIDP Rhinovirus A 358 15 0.041899441
25093 GFPYVSLGIKKKDLIDKKTKDITKLRKAIDEYGIDLPMVTFLKDELRKKEKIKDG Rhinovirus A 358 14 0.039106145
32019 ALEDSVFGIEGLEALDLNTSAGFPYVTMGIKKRDLINNKTKDISRLKEALDKYGVI Rhinovirus A 358 14 0.039106145
7877 ARMITNDSDIYSLPPDPKYFDGYDQQSVVIMDDIMQNPSGEDMTLFCQMVSSVTF Rhinovirus A 358 13 0.036312849
93689 TMGIKKRDLINNKTKDISKLREALDKYGVDLPMVTFLKDELRKQEKIIKGKTRVI Rhinovirus A 358 13 0.036312849
31999 RMITNESDVYSLPPDPKYFDGYDNQSVVIMDDIMQNPDGEDMTLFCQMVSSVTFI Rhinovirus A 358 12 0.033519553
93377 CRIYHKAKHIKAWCPRPPRAVAYQHTHSTNYIPLNGEATTQIKTRPDVFTITNGV Rhinovirus A 358 11 0.030726257
32020 GIKKRDLINNKTKDISRLKEALDKYGVDLPMITFLKDELRKKEKISAGKTRVIEA Rhinovirus A 358 11 0.030726257
93538 ITRGDSTITSQDVANAVVAYGVWPHYLSSEDATAIDKPSRPDTSSNRFYTLKSITW Rhinovirus A 358 11 0.030726257
31984 AKHTKAWCPRPPRAVPYTHSRVTNYVPKTGDVTTAIVPRASMKTVGPSDLYYHVG Rhinovirus A 358 10 0.027932961
68551 SVFGMDGLEALDLNTSAGYPVYTLGIKKKDLINNKTKDISKLKLALDKYDVDLPM Rhinovirus A 358 10 0.027932961
7897 ISLEDSVFGTEGLEALDLTTSAGFPYVSMGIKKRDLINKQTRDITKLKMALDKYG Rhinovirus A 358 10 0.027932961
93391 GFPYVSLGIKKKDLIDKKTRDITKLKKAIDEYGIDLPMVTFLKDELRKKEKIKDG Rhinovirus A 358 10 0.027932961
93541 YLGRSGYTVHVQCNATKFHQGTLVVAMIPEHQIASLQHGDVNVGYNFTHPGEEGR Rhinovirus A 358 10 0.027932961
31961 FLGRSGYTVHVQCNASKFHQGTLLVAMIPEHQLASAKNGSVTAGYNLTHPGEAGR Rhinovirus A 358 9 0.025139665
25034 FLGRSGYTIHVQCNSSKFHQGLLIVAAIPEHQLASATSGNVNVGYNHTHPGEQGR Rhinovirus A 358 9 0.025139665
25057 CRIYHKAKHIKAWCPRPPRAVAYQHTHSTNYIPSNGEATTQIKTRPDVFTVTNVG Rhinovirus A 358 9 0.025139665
57900 GDNHVAFIDLRHFHCAEEQGVTDYIHMLGEAFGNGFVDSVKEHVKAINPVGNISK Rhinovirus A 358 8 0.022346369
7868 GGEGHVAFIDLRQFHCADEQGITDYIHMLGEAFGSGFVDSVKGQINAINPINNIS Rhinovirus A 358 8 0.022346369
23563 ITRGDSTITSQDVANAIVAYGVWPHYLSSKDASAIDKPSQPDTSSNRFYTLRSVTW Rhinovirus A 358 8 0.022346369
93408 GFPYVSLGIKKKDLIDKRTRDITKLKKAIDEYGIDLPMVTFLKDELRKKEKIKDG Rhinovirus A 358 8 0.022346369
97865 MGAQVSRQNVGHSTQNSVSGGSSLNYFNINYFKDAASSGASKLEFSQDPSKFTD Rhinovirus A 358 8 0.022346369
93707 LEYTRAHRTNFKIEGENVKSRVAHRPAVITA Rhinovirus A 358 8 0.022346369
93688 PITLEDSVFGTDGLEALDLNTSGFPYITMGIKKRDLINNKTKDISKLREALDKY Rhinovirus A 358 7 0.019553073
7895 EPAVLSEFDPRLEVDFKQALFSKYKGNNQCEINDHVRVAISHYSAQLMTLDIDSS Rhinovirus A 358 7 0.019553073
31958 ITRGDSTITSQDVANAVVGYGVWPHYLTPQDATAIDKPTQPDTSSNRFYTLESKHW Rhinovirus A 358 7 0.019553073
23624 GTDGLEALDLNTSAGFPYIAMGVKKRDLINNKTKDISKLKEAIDKYGVDLPMVTF Rhinovirus A 358 7 0.019553073
23623 RIASSHYAAQLITLDIDPKPITLEDSVFGTDGLEALDLNTSAGFPYIAMGVKKRD Rhinovirus A 358 7 0.019553073
25092 DINPQPLSLEESVFGIEGLEALDLNTSAGFPYVSLGIKKKDLIDKKTKDITKLRKA Rhinovirus A 358 7 0.019553073
93390 DINPQPLSLEESVFGIEGLEALDLNTSAGFPYVSLGIKKKDLIDKKTKDITKLRKA Rhinovirus A 358 7 0.019553073
57929 TLEDGVFGTEGLEALDLNTSAGFPYITMGIKKRDLINNKTKDISRLKQAIDKYGV Rhinovirus A 358 7 0.019553073
31990 GEGHVAFTDLRQFQCAEEQGITDYIHMLGEAFGNGFVDSVKEQINAINPINSISK Rhinovirus A 358 6 0.016759777
32031 SSKIRSVSAGRALYIPPYDLLKHEWYEK Rhinovirus A 358 6 0.016759777
7837 AKDATAIDKPTQPDTSSNRFYTDSKIWKPGSKGWWWKLPDALKEMGIPGENMHY Rhinovirus A 358 6 0.016759777
23603 VAIVIHGPPGAGKSITTNFLAKMITNDSDIYSLPPDPKYFDGYDQQSVVIMDDIM Rhinovirus A 358 6 0.016759777
7893 GRDGFAAMLLRSYFSETQGQITTTKPTIECNLPSIHTPSKIKLQPSVFYDVFPGS Rhinovirus A 358 5 0.01396648
37882 Rhinovirus A 358 5 0.01396648
25058 TNYIPSNGEATTQIKTRPDVFTVTNVGPSSMFVHVGNLIYRNLHLFNSDLDDSIL Rhinovirus A 358 5 0.01396648
93407 DINPQPLSLEESVFGIEGLEALDLNTSAGFPYVSLGIKKKDLIDKRTRDITKLKKA Rhinovirus A 358 5 0.01396648
25071 YIKCSNVIKGGKRNEPVAVLIHGSPGTGKSLATSVLARMLTVETDIYSLPPDPKY Rhinovirus A 358 5 0.01396648
68536 VTFKDRNTCRTYSLSQIYNQILEEDKRRRQVVDVMSAIFQGPISMDKPPPPAITDI Rhinovirus A 358 5 0.01396648
93757 HVKAWCPRPPRALEYTRAHRTNFKIEGENVKSRVAHRPAVITAGPSDMYVHVGNL Rhinovirus A 358 4 0.011173184
57916 IADLLQSVRTPEVIKYCEENKWIIPAECKIEKELNLANTIITIIANVINIGIIYV Rhinovirus A 358 4 0.011173184
93588 QGPYSGEPKIKTKIPERRVVQGPEGEFGMSLIKHNSCVVTTENGKFTGLGIYDR Rhinovirus A 358 4 0.011173184
93732 CHLMHWHNGRDAYKGFVEKIRSVSAGRMLYIPPYDLLLHEWYEK Rhinovirus A 358 4 0.011173184
7884 AINDLLKSVRTPEVIKYCENKWIVPAECKVERDLNIANTVITIIANIISISGII Rhinovirus A 358 4 0.011173184
57911 PMADLPDKGKAFDSRFVLCSTNHSLLAPPTITSLPAMNRRFFLDLDIIVHDNYKDA Rhinovirus A 358 4 0.011173184
23589 CPRPPRALEYTRAHRTNFKIEDRSIQTAIVTRPIITTAGPSDMYVHVGNLIYRNLF Rhinovirus A 358 4 0.011173184
23566 YLGRSGYTIHVQCNASKFHQGTLIVALIPEHQIASALHGNVNVGYNYTHPGETGR Rhinovirus A 358 4 0.011173184
57921 KVLDSYDLYNKDGVKLEITVLKLDRNEKFRDIRKYIPENEDDYPECNLALSANQP Rhinovirus A 358 4 0.011173184
7839 YLGRSGYTVHVQCNASKFHQGTLLILMIEHQLANATNADAGYNTHPGETGR Rhinovirus A 358 4 0.011173184
7862 HVKAWCPRPPRAVPYRYVGSTNYKKPDQEDVTIFIERRQDPKFITTGPSDLFVHV Rhinovirus A 358 4 0.011173184
23611 VRTPEVIKYCEGNRWIIPAECKIEKELNLANTIITIIANVIGMARIIYVIYKLFC Rhinovirus A 358 4 0.011173184
27884 Rhinovirus A 358 3 0.008379888
37886 MYYHFLGRSGYTVHVQCNASKFHQGTLLVAMPIEHQLASAKHGSVTAGYKLTHPG Rhinovirus A 358 3 0.008379888
38515 LCSRIVTSEQLHKVKVVTRIYHKAKHTKAWCPRPPRAVQYSHTHTTNYKLSSEVHN Rhinovirus A 358 3 0.008379888
7899 DLPMVTLLKDELRKKEKISAGKTRVIEASSVNDTVLFRTTFGNLFSKGHLNPGIV Rhinovirus A 358 3 0.008379888
93564 PRPPRALEYTRAHRTNFKIEGENVKSRVAHRPAVITAGPSDMTYVHVGNLIYRNLH Rhinovirus A 358 3 0.008379888
7882 ICGKAVIFRDRNNCQTYTLAQVYNQILTEDKRRRQVVDVMAAIFQGPITLEGPPPA Rhinovirus A 358 3 0.008379888
68540 FCSLQGPYSGEPKPKTKVPERRVVAQGPEEEFGMSIIKNNTCVVTTTNGKFTGLG Rhinovirus A 358 3 0.008379888
57869 ADDASAIDKPTQPDTSSNRFYTLESKVWKRDSKGWWWKLPDALKDMGIFGENMYY Rhinovirus A 358 3 0.008379888
7880 PPTITSLPAMNRRFFLDLDIVACDKYKDPQGKLNVAAAFQPCDVNTKIGNARCCP Rhinovirus A 358 3 0.008379888
57871 FLGRSGYTVHQCNASKFHQGTLLIAMVPEHQLASANYGNVTAGYNYTHPGEAGR Rhinovirus A 358 3 0.008379888
23600 SMLPQAQLKVKYLNELKKLNLYEKQVESLRVADMKTQEKIKMEIDTLHLSRKFL Rhinovirus A 358 3 0.008379888
32002 PTISSLPAMRRFFFDLDIVVHDNYKDAQGKLNVSKAFQPCNVNTKIGNAKCCPF Rhinovirus A 358 3 0.008379888
25088 IHVGGNGRDGFSAMLLKSYFGETQGLITKELPVSVKNLPSVHVSSKTRLQPSVGHI Rhinovirus A 358 3 0.008379888
93597 TRLQVDFNESLFSKYKGNTHCVMNEHIKIASAHYAAQLITLDIDPNPITLEDSVF Rhinovirus A 358 3 0.008379888
68553 TFLKDELRKKDKIAAGKTRVIEASSINDTILFRTVYGNLFSKFHLNPGVVTGCAV Rhinovirus A 358 3 0.008379888
93570 DLRQFHCADEQGITYIHMLGEAFGNGFVDSVKEHVHAINPIGNISKKIVKWMLR Rhinovirus A 358 3 0.008379888
57927 PAVLSEKDTRLQVDFNEALFSKYKGNVDCPMNDHIKIASSHYAAQLITLDINPNP Rhinovirus A 358 3 0.008379888
68560 TITPADKSSEFKELDYGNVTFLKRGFRQDDKYKFLIHPTFPVEEIYESIRTWKKPS Rhinovirus A 358 3 0.008379888
93393 IGFPSQLINQICNSKHIYKSKYYEVEGGMPSGCAGTSIFNTIINNIIIRTLVLDAY Rhinovirus A 358 3 0.008379888
57914 CGKAVSFKDRNSCNKYTLAQIYNIMLEEDKRRRQVIDMSAIFQGPISLQNPPPPA Rhinovirus A 358 3 0.008379888
25032 PDDATAIDKPTQPDTSSNRFYTLDSRSWTSASSGWWWKLPALKNMGIPGENMFY Rhinovirus A 358 3 0.008379888
25030 VKDVLEKGIPTLQSPTVEACGYSDRLIQITRGDSTITSQDTANAVVAYGVWPSYL Rhinovirus A 358 3 0.008379888
68491 PQDATAIDKPTQPDTSSNRFYTLDSKMWNSTSKGWWWKLPDALKDMGIFGNMFY Rhinovirus A 358 3 0.008379888
31959 PQDATAIDKPTQPDTSSNRFYTLDSKMWNSTSKGWWWKLPDALKDMGIFGNMFY Rhinovirus A 358 2 0.005586592
57918 IYKLFCTLQGPYSGEPKPKTKIPERRAVVAQGPEEEFGRSLIKHNSCVVTTQNGKF Rhinovirus A 358 2 0.005586592
93406 LLANDEPTIISVGDAESYGNILLSGTNTARMIKYHYPTKAGYCGGVLYKVGSIL Rhinovirus A 358 2 0.005586592
32008 IYKLFCTLQGPYSGEPKPKTKMPERRVVAQGPEEEFGRSILKNNTCVITTDNGKF Rhinovirus A 358 2 0.005586592
32004 CGKAVSFKDRSTCSTYTLAQVYNHILEEDKRRRQVVDVMSAIFQGPISLDAPPPPA Rhinovirus A 358 2 0.005586592
32028 KYGLTITPADKSTEFKKLDYNNVTFLKRGFKQDEKHTFLIHPTFPVEEIYESIRW Rhinovirus A 358 2 0.005586592
93537 VKDVLEKGIPTLQSPTVEACGYSDRIIQITRGDSTITSQFDVANAVVAYGVWPHYLS Rhinovirus A 358 2 0.005586592
57876 VPITVSISPMFSEFSGARARPAAATQGLPVYMTPGSGQFLTTDDLQSPSALPWYH Rhinovirus A 358 2 0.005586592
57868 ITRGDSTITSQDVANAVVGYGVWPHYLTADDASAIDKPTQPDTSSNRFYTLESKVW Rhinovirus A 358 2 0.005586592
23595 IDLRHFHCAEEQGVTDYIHMLGEAFGNGFVDSVKEHIHAINPVGNISKKIIKWML Rhinovirus A 358 2 0.005586592
93705 GYNEKGTHYGTVSTNNMGTLCSRVVTEKHIHDMRIMTRVYHKAKHVKAWCPRPPRA Rhinovirus A 358 2 0.005586592
68544 RKYIPESEDDYPECNLALVANQTEPTIIKVGDVVSYGNILLSGTQTARMLKYNP Rhinovirus A 358 2 0.005586592
7835 VKDVLEKGIPLQSPTVEACGYSDRIMQITRGDSTITSQDVANAVVGYGVWPHYLS Rhinovirus A 358 2 0.005586592
23613 LQGPYSGEPKPKTKIPERRVVTQGPEEEFGMSLIKHNSCVITTENGKFTGLGVYDR Rhinovirus A 358 2 0.005586592
93697 GVKYGLTITPADKSTTFRKLDYNNVTFLKRGFKQDEKYSFL Rhinovirus A 358 2 0.005586592
25082 APERRVVTQGPEEEFGRSLLKHNCCVVTTDKGKFTGLGIYDQVMVLPTHSDPGSE Rhinovirus A 358 2 0.005586592
68550 EHIQVAVAHYSAQLATLDIDPQPIAMEDSVFGMDGLEALDLNTSAGYPYVTLGIK Rhinovirus A 358 2 0.005586592
93690 VDLPMVTFLKDELRKQEKIIKGKTRVIEASSVNDTLLFRTTFGNLFSKFHLNPGI Rhinovirus A 358 2 0.005586592
7886 VIYKLFCTLQGPYSGEPKPKTKMPERRVVAQGPEEEFGRSLIKHNSCIVTTQNGK Rhinovirus A 358 2 0.005586592
93598 IASAHYAAQLITLDIDPNPITLEDSVFGTDGLEALDLNTSAGFPYITMGIKKRDL Rhinovirus A 358 2 0.005586592
57895 DGEPTLFIKPRENLTTAGPSDMYVHVGNLIYRNLHLFNSEMHDSILVSYSSDLVI Rhinovirus A 358 2 0.005586592
93706 HIHDMRIMTRVYHKAKHVKAWCPRPPRALEYTRAHRTNFKIEGENVKSRVAHRPA Rhinovirus A 358 2 0.005586592
60049 RRHTQKAPKRIRLPHITREDDQPSSHQPLFY Human herpesvirus 1 352 313 0.889204545
80389 HRRTRKAPKRIRLPHIREDDQPSSHQPLFY Human herpesvirus 1 352 301 0.855113636
22741 PIYDEVADDQTDVLYAKIQHPRHLPDDDPIYDTVGGYDPEPAEDPVYSTVRRW Human herpesvirus 1 352 285 0.809659091
70401 TPPMPSIGLEEEEEEEGAGDGEHLEGGDGTRDTLPQSPGPAFPLAEDVEKDKPRN Human herpesvirus 1 352 275 0.78125
80374 RRRTQKGPKRIRLPHIREDDQPSSHQPLFY Human herpesvirus 1 352 266 0.755681818
70404 TPPMPSIGLEEEEEEEEGAGDGHLKGGDGTRDTLPQSPGPAVPLAGDDEKDKPNR Human herpesvirus 1 352 230 0.653409091
80387 RRTRKAPKRIRLPHIREDDQPSSHQPLFY Human herpesvirus 1 352 230 0.653409091
80359 PALGAAPTGDPKPKKNKKPKNPTPPRPAGDNATVAAGHATLREHLRDIKAENTDA Human herpesvirus 1 352 206 0.585227273
24523 DSPTAISLTTPDHTPPMPSIGLEEEEEEEGAGDGEHLEGGDGTRDTLPQSPGPAF Human herpesvirus 1 352 205 0.582386364
80350 PPLGAAPTGDPKPKKNKKPKNPTPPRPAGDNATVAAGHATLREHLRDIKAENTDA Human herpesvirus 1 352 193 0.548295455
70407 TPPMPSIGLEEEEEEEEEGAGDCEHLKGGDGTRDTLPQSPGPAVPLAGDDEKDKP Human herpesvirus 1 352 193 0.548295455
80358 SAAPSSPGTPGVAAATQAANGGPATPAPPALGAAPTGPPKPKKNKKPKNPTPPRPA Human herpesvirus 1 352 154 0.4375
30607 TTRQPVATPTTSARPRGHLTVSRLSAPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQ Human herpesvirus 1 352 138 0.292045455
30609 PQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQNGHVAPGEYPAVRFRA Human herpesvirus 1 352 135 0.383522727
30698 SAAPSSPGTPGVAAATQAANGGPATPAPPAPGAPPTGDPKPKKNRKPKPPKPPRPA Human herpesvirus 1 352 135 0.383522727
30399 PAPGAPPTGDPKPKKNRKPKPPKPPRPAGDNATVAAGHALTLREHLRDIKAENTDAN Human herpesvirus 1 352 133 0.377840909
30608 QPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQPQ Human herpesvirus 1 352 132 0.375
80349 SAAPSSPGTPGVAAATQAANGGPATPAPPALGAAPTGPPKPKKNKKPKNPTPPRPA Human herpesvirus 1 352 122 0.346590909
24525 LAEDVEKDKPNRPVVPSPDPNNSPARPETSRPKTPPTIIGPLATRPTTRLTSKGRP Human herpesvirus 1 352 116 0.329545455
30396 PPAATGSQPEASNAEAGALVNASSAAHVDVDTARAADLFVSQMMGA Human herpesvirus 1 352 115 0.266705454
15238 MSQTQPPAPVGPGDPDVYLKGVPSAGMHPRGVHAPRGHPRMISGPPQRGDNDQAAC Human herpesvirus 1 352 112 0.318181818
70402 GTRDTLPQSPGPAFPLAEDVEKDKPNRPVVPSPDPNNSPARPETSRPKTPPTIIGP Human herpesvirus 1 352 109 0.309659091
30387 LVAGHAAPQPQPHSAFGFPAAAGSVAYGPHGAGLSQHYPPHVAHQYPGVLFSGPS Human herpesvirus 1 352 104 0.295454545
30413 LIAYQPLLSNTLAELYVREHLREQSRKPPNPTPPPPGASANASVERIKTTSSIEFA Human herpesvirus 1 352 93 0.264204545
30762 SEDGGRVYEEIPWMRVYENVCVNTANAAPASPYIEAENPLYDWGGSALFSPPGRT Human herpesvirus 1 352 91 0.258522727
30395 PAACPPGPPPPPCPSTQTRAPLPTEPAFPPAATGSQPEASNAEAGALVNASSAAHV Human herpesvirus 1 352 90 0.255681818
30388 PHGAGLSQHYPPHVAHQYPGVLFSGPSPLEAQIAALVGAIAADRQAGGQPAAGDP Human herpesvirus 1 352 89 0.252840909
30793 RTPTTAPRAPRTQRVATKAPAAPAAETTRGRKSAQPESAALPDAPASTAPTRSKT Human herpesvirus 1 352 89 0.252840909
80384 LPETPNATQPELAPEDPEDSALLEDPVGTVAPQIPPNWHIPSIQDATPYHPPATP Human herpesvirus 1 352 87 0.247159091
30761 ARRKATHAASARERHAPYEDDESIYETVSEDGGRVYEEIPWMRVYENVNVNTANAA Human herpesvirus 1 352 86 0.244318182
22890 MSQTQPPAPVGPGDPDVYLKGVPSAGMHPRVHAPRGHPRMISGPPQRGDNDQAAC Human herpesvirus 1 352 77 0.21875
24481 PWFLDGLGMDRMYWRDTNTGRLWLPNTPDPQKPPRGFLAPPDELNLTTASLPLLRW Human herpesvirus 1 352 77 0.21875
22892 QCGDSGLLRVGADTTISKPSEAVRPPTIPRTPRVPREPRVPRPPREPPEPRVPRAP Human herpesvirus 1 352 68 0.193181818
30426 TTKELKNPTNPDASGEGEEGGDFDEAKLAEAREMIRYMALVSAMERTEHKAKKKG Human herpesvirus 1 352 68 0.193181818
15239 PRGVHAPRGHPRMISGPPQRGDNDQAAGQCGDSGLLRVGADTTISKPSEAVRPPT Human herpesvirus 1 352 67 0.190340909
80496 PIIATSDPTPRRDAATKSRRRRPHSRRL Human herpesvirus 1 352 66 0.1875
22888 TPEPRGSLAVRLEDEFGEFDWTPQEGSQPWLSAVVADTSSVERPGPSDSGAGRAA Human herpesvirus 1 352 62 0.176136364
30386 PVPTSGTPAPAPPGDGSYLWIPASHYNQLVAGHAAPQPQPHSAFGFPAAAGSVAY Human herpesvirus 1 352 61 0.173295455
24512 MTSRLSDPNSSARSDMSVPLYPTASPVSVEAYYSESEDEAANDFLVRMGRQQSVL Human herpesvirus 1 352 61 0.173295455
24555 YSSTTQPQLQTTGRPSHEAPNMTQTGTTDSPTAISLTTPDHTPPMPSIGLEEEEEE Human herpesvirus 1 352 59 0.167613636
30427 AEAREMIRYMALVSAMERTEHKAKKKGTSALLSAKVTDMVMRKRRNTNYTQVPNKI Human herpesvirus 1 352 56 0.159090909
91611 QCGDSGLLRVGAGTTISKPSEAVRPPTIPRTPRVPREPRVPRPPREPREPRVPRAS Human herpesvirus 1 352 54 0.153409091
24561 PIYSPQMPTGISCAVNEAMMARLGAELKSHPSTPPKSRRRSSRTPMPSLTAIAEES Human herpesvirus 1 352 53 0.150568182
22891 PRGVHAPRGHPRMISGPPQRGDNDQAAGQCGDSGLLRVGADTTISKPSEAVRPPT Human herpesvirus 1 352 52 0.147727273
15236 CAVNEAAMARLGAELKSHPSTPPKSRRRSSRTPMSLTAIAEESEPAGAAGLPTI Human herpesvirus 1 352 52 0.147727273
30763 PASPYIEAENPLYDWGGSALFSPPGRTGPPPPPLSPSPVLARHRANALTNDGPTNV Human herpesvirus 1 352 51 0.144886364
24562 SHPSTPPKSRRRSSRTPMPSLTIAEESEPAGAAGLPTPPVDPTTPTPTPPLLV Human herpesvirus 1 352 49 0.139204545
24524 EGAGDGEHLEGGDGTRDTLPQSPGPAFPLAEDVEKDKPNRPVVPSPDPNNSPARPP Human herpesvirus 1 352 49 0.139204545
70405 DGTRDTLPQSPGPAVPLAGDDEKDKPNRPVVPPPGPNNSPARPETSRPKHPPPVSG Human herpesvirus 1 352 48 0.136363636
25390 AVDFIWTGNQRFAPRYLTLGGHTVRALSPTHPEPTTDEDDDDDLDDADYVPPAPRRT Human herpesvirus 1 352 47 0.133522727
388 GLEEEEEGAGDGEHLEGGDGTRDTLPQSPGPAVTLAGDD Human herpesvirus 1 352 44 0.125
70403 VVPSPDPNNSPARPETSRPKTPPTIIGPLARPTTRLT Human herpesvirus 1 352 43 0.122159091
22879 RFFLDMSAESTTGTETDASVSDDPDDTSDWSYDDIPPRPKRARVNLRLTSSPDRR Human herpesvirus 1 352 42 0.119318182
25382 EVLGAEAGLATPPRREVVDWEGAWDEDDGGAFEGDGV Human herpesvirus 1 352 40 0.113636364
64315 RLGAELKSHPSTPPKSRRRSSRTPMPSLTAIAEESEPAGAAGLPTPPVDPTTSTPT Human herpesvirus 1 352 39 0.110795455
24651 NMVVPEIAPGEECPSDPVTDPAHPLHPANLVANTTVNAMFHNGRVVVDGPAMLTLQV Human herpesvirus 1 352 35 0.099431818
22743 TAHDFDVVDIESEEEGNFYVPPDMRGVTRAPGRQRLRSSDPPSRHTHRRTPGGAC Human herpesvirus 1 352 35 0.099431818
30610 PQPQPQPQPQPANGHVAPGEYPAVRFRAPQNRPSVPASASSTNPRTGSSLSGVSSW Human herpesvirus 1 352 34 0.096590909
30817 IRSMAESDVVMEDVAIAERALGLSAFGVAGGTRSGGIGVTEAPSLGHPHTPPPEV Human herpesvirus 1 352 33 0.09375
70408 GDGTRDTLPQSPGPAVPLAGDDEKDKPNRPVVPPPGPNNSPARPETSRPKTPPTS Human herpesvirus 1 352 32 0.0909091
22893 PRTPRVPREPRVPRPPPREPREPRVPRAPRDPRVPRDPRDPRQPRSPREPRSPREPR Human herpesvirus 1 352 31 0.088068182
22862 IEDDPSADAADDVDEDAPDDVAYPEEYAEELFLPGDATGPLIGANDHIPPPCDAS Human herpesvirus 1 352 30 0.085227273
15241 PRTPRVPREPRVPRPPREPREPRVPRAPRDPRVPRPRDPRQPREPRPPRDPRQPR Human herpesvirus 1 352 30 0.085227273
60045 QRTVAVYSLKIAGWHGPKAPYTSTLLPPSLSETNPNATQPELAPEDPEDSALLEDPV Human herpesvirus 1 352 28 0.079545455
30789 MTSRRSVKSGPREVPRDEYEDLYYTPSSGMASPDSPPDTSRRGALQTRSRRGEV Human herpesvirus 1 352 27 0.076704545
17150 QPLDPEGPIAVTPRPPIRPSSGKAPHPEAPRRSPNWATAGEVDVGDELIAISDER Human herpesvirus 1 352 27 0.076704545
30760 PRVWGPAPEGEPDQMEATYLTADDDDDDRRKATHAASARERHAPYEDDESIYETV Human herpesvirus 1 352 27 0.076704545
30697 SASRASGSEPTDSQDSASDAVSHGDPEDLDGAARAGEAGALHACPMPSSTRVTP Human herpesvirus 1 352 27 0.076704545
30798 QRANELVNPDVVQDVDAATATRGRSAASRPTERPRAPARSASRPRRV Human herpesvirus 1 352 27 0.076704545
60046 ELSETPNATQPELAPEDPESALLEDPVGTVAPQIPPNWHIPSIQDAATPYHPPA Human herpesvirus 1 352 25 0.071022727
22878 TASDSTESGDQDDEAPRIGGRRAPRRLGGRFFLDMSAESTTGTETDASVSDDPDDTS Human herpesvirus 1 352 25 0.071022727
30385 IAAAPQGDRCPIVRQRGVALSPVLPPMNPVPTSGTPAPAPPGDDSYLWIPASHYN Human herpesvirus 1 352 24 0.068181818
91612 PRTPRVPREPRVPRPPREPREPVRPRASRDPRVPRDPRDPRQPRSPREPRSPREPR Human herpesvirus 1 352 24 0.068181818
22742 MGLSFSGARPCCCRNNVLITDDGEVVSLTAHDFDVVDIESEEEGNFYVPPDMRGV Human herpesvirus 1 352 24 0.068181818
30790 GMASPDSPPDTSRRGALQTRSRQRGEVRFVQYDESDYALYGGSSSEDDEHPEVPR Human herpesvirus 1 352 24 0.068181818
30794 RGRKSAQPESAALPDAPASTAPTRSKTPAQGLARKLHFSTAPPNPDAPWTPRVAG Human herpesvirus 1 352 24 0.068181818
15260 MGLSFSGARPCCRNNVLITDDGEVVSLTAHDFDVVDIESEEEGNFYVPPDMRVV Human herpesvirus 1 352 23 0.065340909
30389 LEAQIAALVGAIAADRQAGGQPAAGDPGVRGSGKRRRYEAGPSESYCDQDEPDAD Human herpesvirus 1 352 23 0.065340909
25395 EAGRPRGRTGPLVNRPAPLANNRDPIVISDSPPASPHRPPAAPMPGSAPRPGPPAS Human herpesvirus 1 352 22 0.0625
30428 SALLSAKVTDMVMRKRRNTNYTQVPNKDGDADEDD Human herpesvirus 1 352 22 0.0625
30860 TPRPTERQGPNDPQPAPHSVWSRLGARRPSCSPEQHGGKVARLQPPPTKAQPARGG Human herpesvirus 1 352 21 0.059659091
30791 FVQYDESDYALYGGSSSEDDEHPEVPRTRRPVSGAVLSGPGPARAPPPPAGSGGA Human herpesvirus 1 352 21 0.059659091
64311 STTTSTPSTTIPAPQASTTPFPTGDPKPQPHGVNHEPPSNATRATRDSRYALTVTQ Human herpesvirus 1 352 20 0.056818182
70409 RPVVPPPGPNNSPARPETSRPKTPPTSIGPLATRPTTQLP Human herpesvirus 1 352 19 0.053977273
24649 GDHLHLDGEDVAMAHADALDDFDLDMLGDGDSPGPGFTPHDSAPYGALDMADFEF Human herpesvirus 1 352 19 0.053977273
15261 TAHDFDVVDIESEEEGNFYVPPDMRVVTRAPGRQRLSSDPPSRHTHRRTPGGAC Human herpesvirus 1 352 19 0.053977273
25396 SDSPPASPHRPPAAPMPGSAPRPGPPASAAASGPARPRAAVAPCVRAPPPGPGPRA Human herpesvirus 1 352 18 0.051136364
25337 MASENKQRPGSPGPTDGPPPTPSPDRDERGALGWGAETEEGGDDPDHDPDHPHDLD Human herpesvirus 1 352 17 0.048295455
25340 ALLASMVEEAVRTIPTPDPAASPPRTPAFRADDDDGDEYDDAADAAGDRAPARGR Human herpesvirus 1 352 17 0.048295455
25541 IRHLDGEKNVTWTLFDRDTSMSLADFHGEEFEKLYQHLEVMGFGEQIPIQELAYG Human herpesvirus 1 352 17 0.048295455
11958 QPLDPEGPIAVTPRPPIRPSSGKAPHPEAPRRSPNWATAGEVDVGDELIAISDER Human herpesvirus 1 352 16 0.045454545
30393 MYTPVAHYRPQVGEPEPTTTHPALCPPEAVYRPPPHSAPYGPPQGPASHAPTPPYA Human herpesvirus 1 352 16 0.045454545
30123 TNGTSGRTPVLPPDDAGLQPKPLTTPPPIIATSDPTPRRDAATSRRRRPHSRRL Human herpesvirus 1 352 16 0.045454545
80368 LADASLKMADPNRFRGKDLPVPDRLTDPPGVRRVYHIQAGLPDPFQPPSLPITVYY Human herpesvirus 1 352 14 0.039772727
70406 PVVPPPGPNNSPARPETSRPKHPPPVSGRWQLDPRPNSP Human herpesvirus 1 352 13 0.036931818
25391 PTHPEPTTDEDDDDLDDADYVPPAPRRTPRAPPRRGAAAPPVTGGASHAAPQPAAA Human herpesvirus 1 352 12 0.034090909
11957 MDPALRSYHQRLRLYTPVATGINLAASSQPLDPEGPIAVTPRPPIRPSSGKAPHPE Human herpesvirus 1 352 12 0.034090909
11956 SPSTNGSGFEILSPTAPSVYPRSDGHQSRRLQTTFGSGRPDRRYSQASDSSVFV Human herpesvirus 1 352 12 0.034090909
30335 SGAGSGGAGAKRATVSEFVQVKHIDRVGPAGVSPAPPPNNIDSSSLVPGAQDSAP Human herpesvirus 1 352 12 0.034090909
22894 RDPRVPRDPRDPRQPRSPREPRSPREPRSPREPRTPRTPREPRTARGSV Human herpesvirus 1 352 12 0.034090909
30699 TKRGRSGGEDARADTALKKPKTGSPTAPPPADPVPLDTEDDSDAADGTAATPAAP Human herpesvirus 1 352 12 0.034090909
79664 CEDDNATPFGGPGAPGPAFAGRKRAFHGDDPFGEGPPDKKGDLTLDMI Human herpesvirus 1 352 12 0.034090909
24650 DGDSPGPGFTPHDSAPYGALDMADFEFEQMFTDALGIDEYG Human herpesvirus 1 352 11 0.03125
67499 LADASLKMADPNRFRGKDLPVLDQQLTDPPGVRRVYHIQAGLPDPFQPPSLPITVYY Human herpesvirus 1 352 11 0.03125
30390 VRGSGKRRRYEAGPSESYCDQDEPDADYPYYPGEARGAPRGVDSRRAARHSPGTN Human herpesvirus 1 352 11 0.03125
22887 TDLEAAGSDHTLASQSDTEDAPSPVTLETPEPRGSLAVRLEDEFGEFDWTPQEGS Human herpesvirus 1 352 11 0.03125
24526 TSRPKTPPTIIGPLATRPTTRLTSKGRPLVPTPQHTPLFSFLTASPALDTLFVVST Human herpesvirus 1 352 10 0.028409091
25383 MEPRPGASTRRPEGRPQREPAPDVWVFPCDRDLPDSSDSEAETEVGGRGDADHHDD Human herpesvirus 1 352 10 0.028409091
59969 MATDIDMLIDLGLDSDSDLDE Human herpesvirus 1 352 10 0.028409091
80383 RTVAVYSLKIAGWHGPRAPYTSTLLPPELPETPNATQPELAPEDPEDSALLEDPV Human herpesvirus 1 352 10 0.028409091
80385 TVAPQIPPNWHIPSIQDAATPYHPPATPNNMGLIAGAVGGSLLAALVICGIVYWM Human herpesvirus 1 352 10 0.028409091
30864 SEQPDPPGGQRTRGVRQAPPPLMTLAIAPPPADPRAPAPERKAPAADTIDATTRLV Human herpesvirus 1 352 10 0.028409091
60047 GTVAPQIPPNWHIPSIQDAATPYHPPATPNNMGLIAGAVGGSLLAALVICGIVYWM Human herpesvirus 1 352 9 0.025568182
15240 QCGDSGLLRVGADTTISKPSEAVRPPTFPRTPRVPREPRVPRPPREPREPRVPRAP Human herpesvirus 1 352 9 0.025568182
25333 EHLARLRLRRAGGEGAPEPPATPATPATPATPATPATPATPATPATPATPARVRFS Human herpesvirus 1 352 9 0.025568182
22767 LADQEEQLEEAATNASLWGDGDLAEGWMSPADSDLLVMWQLTSAPKVHANGPSRI Human herpesvirus 1 352 9 0.025568182
25381 ALPPAPPGIRWASATGRSGTVLAAAGAVEVLGAEAGLATPPRREVVDWEGAWDEDI Human herpesvirus 1 352 9 0.025568182
80375 LADASLKMADPNRFRGKDLPVLDQLTDPPGVRRVYHLQAGLPNPFQPPSLPLTVY Human herpesvirus 1 352 9 0.025568182
17151 APRRSPNWATAGEVDVGDELIAISDERGPPRHDRPPLATSTAPSPHPRPPGYTAVV Human herpesvirus 1 352 9 0.025568182
30731 HPGLATVRSTLPISYDYSEYICRLTGYPAGIPVLEMHGSHQPPPRDPTERQVIEA Human herpesvirus 1 352 8 0.022727273
25399 NQEQSLCRARATVARGSGGPGVEGGHGPSRGAAPSGAAPLPSAASVEQEAAVRPR Human herpesvirus 1 352 8 0.022727273
30857 MATPIPMLIDLGLPLSDSDLDEDPPEPAESRRDDLESPSSGECSSSDEDMEDPHG Human herpesvirus 1 352 8 0.022727273
25518 DKTPGSASYRISDNNFVQCGSNCTMIIDGDVVRGRPQDPGAAASPAPFVAVTNIGA Human herpesvirus 1 352 8 0.022727273
30698 LDGAARAGEAGALHACPMPSSTTRVTPTTKRGRSGGEDARADTALKKPKTGSPTA Human herpesvirus 1 352 8 0.022727273
71884 MEPRPGASTRRPEGRPQREPAPDVWVFPCDRPLSDSIYSEADTEVGGRGDLRPPLT Human herpesvirus 1 352 8 0.022727273
30654 NSLPAPMPMDAQKPEAYGHGPRQADREGAPHSNTPVEDDEMIPEDTVAPPTDLPLT Human herpesvirus 1 352 7 0.019886364
67494 DPSLKMAPPNRFRGKDLPVLDQLTDPPGVRRVYHIQAGLPDPFQPPSLPITVYYAV Human herpesvirus 1 352 7 019886364
30837 PAFAPASPGEDTAGGTPPPQTCGIVKRLLRLAATEQQGPTPPAIAALIRNAAVQT Human herpesvirus 1 352 7 019886364
25398 PAPGAEPAARPADARRVPQSHSSLAQAANQEQSLCRARATVARGSGGPGVEGGHG Human herpesvirus 1 352 7 019886364
25519 GDVVRGRPQDPGAAASPAPFVAVTNIGAGSDGGTAVVAFGGTPRRSAGTSTGTQTA Human herpesvirus 1 352 7 019886364
25400 SRGAAPSGAAPLPSAASVEQEAAWPRKRRGSGQENPSPQSTRPPLAPAGAKRAA Human herpesvirus 1 352 7 019886364
11959 APRRSPNWATAGEVDVGDELIAISDERGPPRHDRPPLATSTAPSPHPRPPGYTAVV Human herpesvirus 1 352 7 019886364
30818 AGGTRSGGIGVTEAPSLGHPHTPPPEVTLAPAARNGDALPDPKPESCPRVSVPRPT Human herpesvirus 1 352 7 019886364
30334 APRQPLDAHNPRTDVVITGRRAPRPIAGSGAGSGGAGAKRATVSEFVQVKHIDRV Human herpesvirus 1 352 7 019886364
30764 PPPPPLSPSPVLARHRANALTNDGPTNVAALSALLTKLKREGRRS Human herpesvirus 1 352 6 0.017045455
17149 MDPALRSYHQRLRLYTPVAMGINLAASSQPLDPEGPIAVTPRPPIRPSSGKAPHP Human herpesvirus 1 352 6 0.017045455
63765 SQRLNGGKGGEKQTTRTWGVFGGLLAPGAKGW Human herpesvirus 1 352 6 0.017045455
30416 NHELTLWNEARKLNPNAIASATVGRRVSARMLGDVMAVSTCVPVAADNVIVQNSM Human herpesvirus 1 352 6 0.017045455
22740 PGIPEYAEDPYAISYGGQLDRYGPSDGEPIYDEVADDQTDVLYAKIQHPRHLPDDD Human herpesvirus 1 352 6 0.017045455
22880 DWSYDDIPPRPKRARVNLRLTSSPDRRPGVIFPKMGRVRSTRERQPRAPRPSAPSP Human herpesvirus 1 352 6 0.017045455
30414 PNPTPPPPGASANASVERIKTTSSIEFARLQFTYNMQRHVNDMLGRVAIAWCEL Human herpesvirus 1 352 6 0.017045455
60311 SPEVTPTSTPNPNNVTQNKTTPTEPAGPPTTPKPTSTPKSPPHVHPRPQTQEQHHP Human herpesvirus 1 352 5 0.014204545
15242 RDPRVPRDPRDPRQPREPRPPRPPRDPREPRTPRTPREPRTARGSV Human herpesvirus 1 352 5 0.014204545
25363 RKSPGPARPPGGGGPRPPKTKKSGADAPGSDARAPLPAPAPPSTPPGPEPAPAQPA Human herpesvirus 1 352 5 0.014204545
25351 NPRVVPGDVALDQACFRISGAAKNSSSFITGSVARAVPHLGYAMAAGRFGWGLH Human herpesvirus 1 352 5 0.014204545
30700 PPADPVPLDTEDDSDAADGTAARPAAPDARSGSRYACYFRDLPTGEASPGAFSAF Human herpesvirus 1 352 5 0.014204545
15214 MDESRRQRPAGHVAVNLSPQGARQRSFKDWLASYIHSNPHGASGRPSGPSLQDAA Human herpesvirus 1 352 5 0.014204545
25344 SSSDEDEDDDGNDAADFLAREARAVGRGPSSAAPAAPGRTPPPPGPPPLSEAAPKPP Human herpesvirus 1 352 5 0.014204545
82118 APEARPTAAAPRPRSPPPGAGPGGGAKPSHPPSRPFRLPPRLALRLRVTAEHLARI Human herpesvirus 1 352 5 0.014204545
30859 DGPEPILDAARPAVRPSRPEDPGVPSTQTPRPTERQGPNDPQPAPHSVWSRLGARR Human herpesvirus 1 352 5 0.014204545
25522 RRRSAVFGGEGDPVGPAEFVSDDRSSDSDSDDSEDTDSETLSHASSDVSGGATYD Human herpesvirus 1 352 5 0.014204545
30858 ESRRDDLESDSSGECSSSDEDMEDPHGEDGPEPILDAARPAVRPSRPEDPGVPST Human herpesvirus 1 352 5 0.014204545
15237 SSRTPMPSLTAIAEESEPAGAAGLPTPPVDPTTSTPTPPLLV Human herpesvirus 1 352 5 0.014204545
30718 SPEVTPTSTPNPNNVTQNKTTPTEPASPPTTPICPTSTPKSPPTSTPDPKPKNNTTP Human herpesvirus 1 352 4 0.011363636
22739 RAHSALKRVRSSMRGSRDGRHRPAPGSPPGIPEYAEDPYAISYGGQLDRYGDSDG Human herpesvirus 1 352 4 0.011363636
91879 GQGLLRRVLRPPISRRDGPVLPRGSGPRRAASTLWLLGLDGTDAPPGALTPNDDT Human herpesvirus 1 352 4 0.011363636
64324 ASVYQPAPNPASTPSTTTSTPSTTIPAPQASTTPFPTGDPKPQPHGVNHEPPSNAT Human herpesvirus 1 352 4 0.011363636
30815 LARHHPGFEAPTIDGAVAAHQDKMRRLADTCMATILQMYMSVGAADKSADVLVSQ Human herpesvirus 1 352 4 0.011363636
30819 LAPAARNGDALPDPKPESCPRVSVPRPTASPTAPRPGPSRAAPCVLG Human herpesvirus 1 352 4 0.011363636
30598 ESTRPAPVGPRDDFRRLPSPQSSPAPPDATAPRPPASSRASAASSSGSRARRHRRA Human herpesvirus 1 352 4 0.011363636
30499 RSREAYGAEAGLGVAGTGFRARGDGFGPLPLLTQGPSRPWHQALRGLKHLRIGPPA Human herpesvirus 1 352 4 0.011363636
30717 ASTGPTITAGAVTNASEAPTSGSPGSAASPEVTPTSTPNPNNVTQNKTTPTEPASP Human herpesvirus 1 352 4 0.011363636
30394 AVYRPPPHSAPYGPPQGPASHAPTPPYAPAACPPGPPPPPCPSTQTRAPLPTEPAF Human herpesvirus 1 352 4 0.011363636
24648 GLAAPRLSFLPAGHTRRLSTAPPTDVSLGDELHLDGEDVAMAHADALDDFDLDML Human herpesvirus 1 352 4 0.011363636
30469 IGVPPVGTLDEDVAADVVTAPSRARGGAGDGGGSGGRGGPRNPPPDPCGEGLLDT Human herpesvirus 1 352 4 0.011363636
91857 TPPSRSQTRRAIRREHTSSRSTETRPPLPPAAGGTEMRVSWTEILTQQIAGGYEDD Human herpesvirus 1 352 4 0.011363636
30797 RPRTDEDLNELLGITTIRVTVCEGKNLLQRANELVNPDVVQDVDAATATRGRSAA Human herpesvirus 1 352 3 0.008522727
24557 ASVYQPAPNQASTPSTTTSTPSTTIPAPSTTIPAPAASTTPFPTGPPKPQPPGVNH Human herpesvirus 1 352 3 0.008522727
25394 SRQSRAAAPRGASGPSGGVGVGVGVVEAEAGRPRGRTGPLVNRPAPLANNRDPIV Human herpesvirus 1 352 3 0.008522727
79661 ASSVFVATVKSLGPRTQQLQIEDWLALLEDEYLSEEMMELTARALERGNGEWSTD Human herpesvirus 1 352 3 0.008522727
30759 NVAGPDRRPPAATCPLLVRRASLGSLDRPRVWGPAPEGEPDQMEATYLTADDDDDD Human herpesvirus 1 352 3 0.008522727
30241 MPFVGGAESGPPLGAGRPIGDDECEQYTSSVSLARMLYGGPLAEWVPRVHPKTTI Human herpesvirus 1 352 3 0.008522727
64314 RYRRSRRPIYSPQIPTGISCAVNEAAMARLGAELKSHPSTPPKSRRRSSRTPMPS Human herpesvirus 1 352 3 0.008522727
30243 RQQHGPVTFPNASAPTARCVTVVRAPMGSGKTTALIRWLREAIHSPDTSVLVVSC Human herpesvirus 1 352 3 0.008522727
25339 DARRDGRAPAAGTDAGEDAGPAVSPRQLALLASMVEEAVRTIPTPDPAASPPRTPA Human herpesvirus 1 352 3 0.008522727
60037 LVDASLKMADPNRFRGKDLPVLDQLTDPPGVRRVYHIQAGLPDPFQPPSLPITVYY Human herpesvirus 1 352 3 0.008522727
25389 PSGSFSTIPIVNPPQTRMEAEEAVRAGTAVPFIWTGNQRFAPRYLTLGGHTVRALS Human herpesvirus 1 352 3 0.008522727
22861 HTTPPSEAERLCHLQEILAQMYGNQDYPIEDDPSADAADDVDEDAPDDVAYPEEYA Human herpesvirus 1 352 3 0.008522727
15218 LTAPPRPPRTSSPSRASASYAAPCSPSTPPYTTRPSRSPGPEASGGLGPTVTSN Human herpesvirus 1 352 3 0.008522727
25364 GSDARAPLPAPAPPSTPPGPEPAPAQPAAPRAAAAQARPRPVAVSRRPAEGPPPL Human herpesvirus 1 352 3 0.008522727
22763 MDRDAAHAALRRRLAETHLRAEIYKDQTLQLHREGVSTQDPRFVGAFMAAKAAHL Human herpesvirus 1 352 3 0.008522727
25341 FRADDDDGDEYDDAADAAGDRAPARGREREAPLRGAYPPPTDRLSPRPPAQPPRR Human herpesvirus 1 352 3 0.008522727
25338 RGALGWGAETEEGGDDPDHDPDHPHDLDDARRDGRAPAAGTDAGEDAGDAVSPRQ Human herpesvirus 1 352 3 0.008522727
30197 ERDRELRRATAGALERQQRAADLAAESVTGGCGSRPAGADLLRADYDIIDVSKSM Human herpesvirus 1 352 3 0.008522727
30757 HSTPASTRRFRRRRADGAGPPLPDANDPVAEPPAAATQPATYYTHMGEVPPRLPA Human herpesvirus 1 352 3 0.008522727
63762 PPRRAPSPGCLRSWPIPAPWNARAHPILGRVAPQKTASVWTAAGKCASPPPAPIRV Human herpesvirus 1 352 3 0.008522727
30678 TPPSRSQTRRAIRREHTSSRSTETRPPLPPAAGGTETRVSWTEILTQQIAGGYEDD Human herpesvirus 1 352 3 0.008522727
25517 TQGEAAGAPLAHGHHVYCQRVNGVMVLSDKTPGSASYRISDNNFVQCGSNCTMIII Human herpesvirus 1 352 3 0.008522727
30602 GPQAAGQASPALPIDPVPPPVATGTVLPGGENRRPPLTSGPAPTPPRVPVGGPQRR Human herpesvirus 1 352 3 0.008522727
75874 MASYPCHQHASAFDQAARSRGHSNRRTALRPRRQQEATEVRLEQKMPTLLRVYID Human herpesvirus 1 352 2 0.005681818
80372 QRIVAVYSLKIAGWHGPKAPYTSTLLPPELSETPNATQPELAPEDPEDSALLEDPV Human herpesvirus 1 352 2 0.005681818
30671 VNCMEPVVFGAKAILARTTAQCRTDEEASDVDASPPPSPITDSRPSSAFSNMRRR Human herpesvirus 1 352 2 0.005681818
22876 MADISPGAFAPCVKARRPALRSPPLGTRKRKRPSRPLSSESEVESDTALESEVES Human herpesvirus 1 352 2 0.005681818
22769 SHPTYTPTPTGPPGAPAAPLSRTPPSPAPPTGPATDPASASGFARDYPDGE Human herpesvirus 1 352 2 0.005681818
25542 EEFEKLYQHLEVMGFGEQIPIQELAYGIVRSAATTGSPFVMFKDAVNRHYIYDTQ Human herpesvirus 1 352 2 0.005681818
63777 MSRKNRPPSLRGALRPPMRGASSWSPDSVESDAVSDSTSDSKAVSVSTSDSDERG Human herpesvirus 1 352 2 0.005681818
30417 ARMLGDVMAVSTCVPVAADNVIVQNSMRISSRPGACYSRPLVSFRYEDQGPLVEG Human herpesvirus 1 352 2 0.005681818
30122 SHTPVKAGCVNFPYSRTRRCVGRQDLGPTNGTSGRTPVLPPDDEAGLQPKPLTTPP Human herpesvirus 1 352 2 0.005681818
25525 LDVCPGTPGPGADAGGPSAVDPHAPTPEAGAGLAADPAVARDDAEGLSPPRPRLG Human herpesvirus 1 352 2 0.005681818
25523 DSDDSEDTDSETLSHASSDVSGGATYDDALDSDSSSDPSLQLDGPVCRPWSNDTA Human herpesvirus 1 352 2 0.005681818
22768 SPADSDLLVMWQLTSAPKVHANGPSRIGSHPTYTPTPTGPPGAPAAPLSRTPPSPA Human herpesvirus 1 352 2 0.005681818
30605 VLGRNPAEPTSSSPAGPSPPPPAVQPVAPPPTSGPPPTYLTLEGGVAPGGPVSRRP Human herpesvirus 1 352 2 0.005681818
30805 ALGAPSVTTALPARRRGRSLVYAGELTPVQTEHGDGVREAIAFLPKREEDAGFDI Human herpesvirus 1 352 2 0.005681818
30594 YQRAPDDQSPSVPNPTPGPVPLVGAEGSLGPGSLAPTLFTDATPGEPVPPRMWAW Human herpesvirus 1 352 2 0.005681818
30559 IGSVALDLAAAAEEISAVRNDPAAAAELVRAGVTLPCPSEDALVACVAALERVDQ Human herpesvirus 1 352 2 0.005681818
6871 MASYPGHQHASAFDQAARSRGHSNRRTALRPRRQQEATEVHLEQKMPTLLRVYID Human herpesvirus 1 352 2 0.005681818
24538 VPDEQPTSPGRGPQETDPLIAVRGERPRLPHICYPVTTL Human herpesvirus 1 352 2 0.005681818
91613 RDPRVPRDPRDPRQPRSPREPRSPREPRPPREPRTPRTTREPRTARGAV Human herpesvirus 1 352 2 0.005681818
30555 ENQRHPMLPPLAAIHRIDWSAAFGAAADTYADMFRVDTEPLARLLRLAGGLLERA Human herpesvirus 1 352 2 0.005681818
80134 AFMTLVKQYGPEFVTGYNIINFDWPFLLAKLTDIYKVPLDGYGRMNGRGVFRVWD Human herpesvirus 1 352 2 0.005681818
25552 ELERTFSGKRLLEVMPSLDAKQWSVAQALPCLEPTHPLRRFKTAFDYDQKLLIDL Human herpesvirus 1 352 2 0.005681818
25553 LPCLEPTHPLRRFKTAFDYPQKLLIDLCADRAPYVDHSQSMTLYVTEKADGTLPA Human herpesvirus 1 352 2 0.005681818
22745 MDESRRQRPAGHVAANLSPQGARQRSFKDWLASYVHSNPHGASGRPSGPSLQDAA Human herpesvirus 1 352 2 0.005681818
80356 NHELTLWNEARKLNPNAIASVTVGRRVSARMLGDVMAVSTCVPVAADNVIVQNSM Human herpesvirus 1 352 2 0.005681818
30530 EPLLYRVQALAKFARGEEIRVEAEDRQMREALDALARGVDAVSQHAGPLGVMPAP Human herpesvirus 1 352 2 0.005681818
41951 RAASTLWLLGLDGTDAPPGALTPNDDTEQALDKILRGTMRGGAALIGSPRHHLTR Human herpesvirus 1 352 2 0.005681818
22744 RAPGRQRLRSSDPPSRHTHRRTPGGACPATQFPPPMSDSE Human herpesvirus 1 352 2 0.005681818
30121 PANTQETETRLALYKEIRQALDSRKQAASHTPVKAGCVNFDYSRTRRCVGRQDLG Human herpesvirus 1 352 2 0.005681818
30410 TMTKWQEVDEMLRSEYGGSFRFSSDAISTTFTTNLTEYPLSRVDLGDCIGKPARDA Human herpesvirus 1 352 2 0.005681818
80388 PNNMGLIAGAVGGSLLAALVICGIVYWMHRRTRKAPKRIRLPHIREDDQPSSHQP Human herpesvirus 1 352 2 0.005681818
79662 EDEYLSEEMMELTARALERGNGEWSTPAALEVAHEAEALVSQLGNAGEVFNFGDF Human herpesvirus 1 352 2 0.005681818
30536 LIQRGQTLDAPEDLAAWLSVLTDAANQGLIERKPLDELARSIRDINPQQARRSSG Human herpesvirus 1 352 2 0.005681818
15253 PHAPPANHVRLAGLYSPGKYAPLASPPPFSPQHGAYARARVGIHTAVRVPPTGSP Human herpesvirus 1 352 2 0.005681818
25401 RRGSGQENPSPQSTRPPLAPAGAKRAATHPPSDSGPGGRGQGGPGTPLTSSAASAS Human herpesvirus 1 352 2 0.005681818
25336 DRARFRRRVAEAEAVIGPCLGPEARARALARGAGPANSV Human herpesvirus 1 352 2 0.005681818
60050 MADISPGAFAPCVKARRPALRSPPLGTRKRKRPSRPLSSESEVESDTALESE Human herpesvirus 1 352 2 0.005681818
53652 SHSRIGWPRFVGGVIRRLAARRPGLVFMLWGAHAQNAIRPDPRVHCVLKFSHPSP Human herpesvirus 1 352 2 0.005681818
25343 RHGRWRPSASSTSSDSGSSSSSSASSSSSSSDEDEDDDGNDAADHAREARAVGRG Human herpesvirus 1 352 2 0.005681818
95636 LGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGRICDSPHRILDGKNCTLIDAI Influenza A virus 303 137 0.452145215
81151 QDLPGNDNSTATLCLGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGKICNNP Influenza A virus 303 136 0.448844884
92954 QDLPGNDNSTATLCLGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGRICNSP Influenza A virus 303 132 0.435643564
93014 QKLPGNDNSTATLLLGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGRICDNP Influenza A virus 303 125 0.412541254
95545 QDLPGKKNSTATLCLGHHAVPNGTLVKTITDDQIEVTNATELVQSSSTGKICNNP Influenza A virus 303 123 0.405940594
59304 QDLPGNDNSKATLCLGHHAVPNGTLVKTITDDQTEVTNATELVQSSSTGKICNSP Influenza A virus 303 120 0.396039604
81114 LCLGHHAVPNGTLVKTITDDQIEVTNATELVQSSSTGKICNNPHRILDGIDCTLID Influenza A virus 303 103 0.339933993
93994 QDLPGNDNSTATLCLGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGKICDNP Influenza A virus 303 89 0.293729373
59315 QDLPGKSKSTATLCLGHHAVPNGTLVKTITDDQIEVTNATKLVQSSSTGRICNNP Influenza A virus 303 87 0.287128713
81342 LCLGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGKICDNPHRILPGKNCTLID Influenza A virus 303 85 0.280528053
81222 TLCLGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGKICNNPHRILDGINCTL Influenza A virus 303 84 0.277227723
81192 LCLGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGKICDNPHRILDGINCTLID Influenza A virus 303 82 0.270627063
93031 GHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGRICDSPHRILDGKNCTLIDALI Influenza A virus 303 68 0.224422442
82766 EQAAEAMEVASQARQMVQAMRAIGTPPSSSAGLKDDLLENLQAYQKRMGVQMQRF Influenza A virus 303 67 0.221122112
82792 EQAAEAMEIASQARQMVQAMRAIGTHPSSSAGLKDDLLENLQTYQKRMGVQMQRF Influenza A virus 303 66 0.217821782
82700 SSAGLKDNLLENLQAYQKRMGVQMQRFK Influenza A virus 303 64 0.211221122
93139 SSTGLKDDLLENLQAYQKRMGVQMQRFK Influenza A virus 303 64 0.211221122
92942 LCLGFRHAVPNGTLVKTITVDQIEVTNATELVQSSSTGRICNSPHRILDGKDCTLID Influenza A virus 303 63 0.207920792
95805 SSTGLRDDLLENLQTYQKRMGVQMQRFK Influenza A virus 303 62 0.204620462
82744 SSAGLKDDLLENLQAYQKRMGVQMQRFF Influenza A virus 303 62 0.204620462
82717 SSAGLKDDLIENLQAYQKRMGVQMQRFK Influenza A virus 303 61 0.201320132
81351 QNLPGNPNSTATLCLGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGRICDSP Influenza A virus 303 59 0.194719472
82783 SSAGLKDDLLENLQTYQKRMGVQMQRFK Influenza A virus 303 58 0.191419142
82776 SSAGLKDDLLENLQAYQKRMGVQMQRF Influenza A virus 303 55 0.181518152
81422 LCLGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGRICDSPHRILDGKNCTLID Influenza A virus 303 53 0.174917492
95657 LCLGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGKICNNPHRILDGINCTLID Influenza A virus 303 50 0.165016502
82795 SSAGLKDDLLENLQAYQKRMGVQIQRFK Influenza A virus 303 47 0.155115512
94138 EAMEVANQTRQMVHAMRTIGTHPSSSAGLKDDLLENLQAYQKRMGVQMQRF Influenza A virus 303 47 0.155115512
82797 SSAGLKDDLLENLQTYQKRMGVQVQRFK Influenza A virus 303 46 0.151815182
82800 EQAAEAMEIASQARQMVQAMRAIGTHPSSSTGLKDDLLENLQTYQKRMGVQMQRF Influenza A virus 303 46 0.151815182
93252 QKLPGNDNSTATLCLGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGRICDSP Influenza A virus 303 45 0.148514851
81383 LCLGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGRICPSPHRILPGKNCTLVD Influenza A virus 303 45 0.148514851
82741 SSAGLKNDLLENLQAYQKRMGVQMQRFK Influenza A virus 303 44 0.145214521
82728 AAEAMEVANQARQMVQAMRTIGTHPNSSAGLRDNLLENLQAYQKRMGVQMQRF Influenza A virus 303 44 0.145214521
92653 EQAAEAMEVANQTRQMVHAMRTIGTHPSSSAGLKDDLLENLQAYQKRMGVQMQRF Influenza A virus 303 44 0.145214521
93982 PNGTLVKTITNDQIEVTNATELVQSSSTGKICNNPHRILDGINCTLIDALLGDPH Influenza A virus 303 44 0.145214521
82716 EQAAEAMEVASQARQMVQAMRTIGTHPSSSAGLKPPLIENLQAYQKRMGVQMQRF Influenza A virus 303 43 0.141914191
22266 LCLAHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGRICDSPHRILDGKNCTLID Influenza A virus 303 39 0.128712871
82772 EQAAEAMEVASQARQMVQAMRAIGTHPSSSTGLKNDLLENLQAYQKRMGVQMQRF Influenza A virus 303 39 0.128712871
82801 SSTGLKPPLLENLQTYQKRMGVQMQRFK Influenza A virus 303 38 0.125412541
82761 EQAAEAMEVASQARQMVQAMRAIGTHPSSSAGLKDDLLENLQAYQKRMGVQMQRF Influenza A virus 303 38 0.125412541
82773 SSTGLKNDLLENLQAYQKRMGVQMQRFK Influenza A virus 303 37 0.122112211
82782 EQAAEAMEVASQARQMVQAMRAIGTHPSSSAGLKDDLLENLQTYQKRMGVQMQRF Influenza A virus 303 37 0.122112211
81437 LCLGHHAVPNGTLVKTLTDDQIEVTNATELVQNFSMDKICNNPHRILPGANCTLID Influenza A virus 303 36 0.118811881
82706 SSAGLRDNLLENLQAYQKRMGVQMQRFK Influenza A virus 303 35 0.115511551
93138 EQAAEAMEIANQARQMVQAMRTVGTHPNSSTGLKDDLLENLQAYQKRMGVQMQRF Influenza A virus 303 35 0.115511551
82757 SSAGLKSDLLENLQAYQKRMGVQMQRFK Influenza A virus 303 35 0.115511551
51030 EQAAEAMEVASQARQMVQAMRTIGTHPSSSAGLKDDLLENLQAYQKRMGVQMQRF Influenza A virus 303 35 0.115511551
95804 EQAAEAMEIASQARQMVQAMRAIGTHPSSSTGLRDDLLENLQTYQKRMGVQMQRF Influenza A virus 303 33 0.108910891
82752 EQAAEAMEVASQTRQMVQAMRAIGTHPSSSAGLKNDLLENLQAYQKRMGVQMQRF Influenza A virus 303 32 0.105610561
92962 CITPNGSIPNDKPFQNVNKITYGACPKYVKQNTLKLATGMRNVPEKQTR Influenza A virus 303 31 0.102310231
82699 EQAAEAMEVASQTRQMVQAMRTIGTHPSSSAGLKDNLLENLQAYQKRMGVQMQRF Influenza A virus 303 31 0.102310231
82751 TNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVASQTRQMVQAMRAIGTHP Influenza A virus 303 30 0.099009901
82794 EQAAEAMEVASQARQMVHAMRTIGTHPSSSAGLKDDLLENLQAYQKRMGVQIQRF Influenza A virus 303 29 0.095709571
82976 EQAAEAMEIASQARQMVQAMRAIGTHPSSSAGLKDDLLENLQTYQKRMGVQVQRF Influenza A virus 303 29 0.095709571
81168 LCLGHHAVPNGTLVKTITNDQIEVTNATELVQSSSTGKICNNPHRILDGIDCTLID Influenza A virus 303 29 0.095709571
82774 EQAAEAMEVASQARQMVQAMRAIGTHPSSSAGLKNDLLENLQAYQKRMGVQMQRF Influenza A virus 303 29 0.095709571
38913 AEAMEVASQARQMVQAMRTIGTHPSSSAGLKNDLLENLQAYQKRMGVQMQRF Influenza A virus 303 28 0.092409241
93137 TNPLIRHENRMVLASTTAKAMEQMAGSNEQAAEAMEIANQARQMVQAMRTVGTHP Influenza A virus 303 27 0.089108911
93022 CITPNGSIPNDKPFQNVNRITYGACPRYVKQNTLKLATGMRNVPEKQTR Influenza A virus 303 27 0.089108911
95555 CITPNGNIPNDRPFQNVNKITYGACPKYVKQNTLKLATGMRNIPEKQTR Influenza A virus 303 27 0.089108911
82736 AEAMEVASQARQMVQAMRAIGTHPSSSTGLKNDLLENLQAYQKRMGVQMQRF Influenza A virus 303 26 0.085808581
93991 PIGTCSSECITPNGSIPNDKPFQNVNKITYGACPKYVKQNTLKLATGMRNVPEKQT Influenza A virus 303 24 0.079207921
95646 QMVNKITYGACPRYVKQNTLKLATGMRNVPEKQTRGIF Influenza A virus 303 24 0.079207921
82719 EAAFGLVCATCEQIADSQHRSHRQMTTTTNPLIRHENRMVLASTTAKAMEQMAGSS Influenza A virus 303 24 0.079207921
82791 TNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEIASQARQMVQAMRAIGTHPS Influenza A virus 303 24 0.079207921
82740 EQAAEAMEVASQARQMVQAMRTIGTHPSSSAGLKNDLLENLQAYQKRMGVQMQRF Influenza A virus 303 24 0.079207921
82760 EQAAEAMEVASQARQMVQAMRAIGTHPRSSAGLKDDLLENLQAYQKRMGVQMQRF Influenza A virus 303 23 0.075907591
82755 TNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVASQARQMVQAMRAIGTHP Influenza A virus 303 23 0.075907591
82759 TNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVASQARQMVQAMRAIGTHP Influenza A virus 303 23 0.075907591
82804 EQAAEAMEVASQARQMVQAMRTIGTHPSSSAGLKDNLLENLQAYQKRMGVQMQRF Influenza A virus 303 22 0.072607261
82756 EQAAEAMEVASQARQMVQAMRAIGTHPSSSAGLKSDLLENLQAYQKRMGVQMQRF Influenza A virus 303 22 0.072607261
51029 TNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVASQARQMVQAMRTIGTHP Influenza A virus 303 22 0.072607261
93027 PFQKVNRITYGACPRYVKQNTLKLATGMRNWEKQTRGIFGAIAGFIENGWEGMVD Influenza A virus 303 22 0.072607261
81159 CITPNGSIPNDRPFQNVNKITYGACPKYVKQNTLKLATGMRNVPEKQT Influenza A virus 303 22 0.072607261
82704 TNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVANQARQMVQAMRTIGTHP Influenza A virus 303 21 0.069306931
81212 CITPNGSIPNDKPFQNVNKITYGACPKYVKQNSLKLATGMRNVPEKQTRGLFGAIA Influenza A virus 303 21 0.069306931
94490 VQRNLPFPKPTIMAAFTGNAEGRTSDMRAEIIRMMEGAKPEEVSFQGRGVFELSD Influenza A virus 303 19 0.062706271
95871 QKLPGNDNSTATLCLGHHAVPNGTIVICTITNDQIEVTNATELVQSSSTGEICDSPH Influenza A virus 303 17 0.056105611
95881 CITPNGSIPNDKPFQNVNRITYGACPRYVKQNTLKLATGMRNVPEKQTRGIF Influenza A virus 303 17 0.056105611
94783 DAPFSDRLRRDQKALKGRGSTLGLDLRVATMEGKKIVEDILKNETDENLKIAIAS Influenza A virus 303 17 0.056105611
95259 TNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVASQARQMIQAMRTIGTHP Influenza A virus 303 16 0.052805281
92652 TNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVANQTRQMVHAMRTIGTHP Influenza A virus 303 16 0.052805281
96179 LATGMRNVPEKQTRGLFGAIAGFIEN Influenza A virus 303 16 0.052805281
84239 DAPFDDRLRRDQKALKGRGSTLGLDLRVATMEGKKIVEDILKSETNEKLKIAIAS Influenza A virus 303 15 0.04950495
82775 EQAAEAMEVASQARQMVQAMRTIGTHPSSSAGLKDDLLENLQAYQKRMGVQMQRF Influenza A virus 303 15 0.04950495
82698 TNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVASQTRQMVQAMRTIGTHP Influenza A virus 303 15 0.04950495
93258 CITPNGSIPNDKPFQNVNRITYGACPRYVKQNTLKLATGMRNVPEKQTRGIFGAIA Influenza A virus 303 15 0.04950495
82727 PLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVANQARQMVQAMRTIGTHPPNS Influenza A virus 303 15 0.04950495
61596 NEQGSGYAADKESTQKAIDGVTNKVNSIIDKMNTQFEAVGREF Influenza A virus 303 14 0.04620462
93136 EVAFGLVCATCEQIADSQHRAYRQMATTTNPLIRHENRMVLASTTAKAMEQMAGS Influenza A virus 303 13 0.04290429
81447 PFQNVNKITYGACPKYVKQNTLKLATGMRNIPEKQTRGIFGAIAGFIENGWEGMVD Influenza A virus 303 13 0.04290429
81124 PFQNVNKITYGACPKYVKQNTLKLATGMRNVPEKQTRGLFGAIAGFIENGWEGMVD Influenza A virus 303 13 0.04290429
51020 MEQEQDTPWTQSTEHINIQKKGNGQQTQRLEHLNSTQLTDHYLKIMSQAPMHRQTV Influenza A virus 303 13 0.04290429
94445 INDRNFWRGENGRRTRIAYERMCNILKGKFQTAAQRAMMDQVRESRNPGNAEIEDI Influenza A virus 303 13 0.04290429
93255 CITPNGSIPNDKPFQNVNRITYGACPRYVKQNTLKLATGMRNVPEKQT Influenza A virus 303 13 0.04290429
81326 LCLGHHAVPNGTIVKTITDDQIEVTNATELVQSSSTGKICNNPHRILPGRDCTLID Influenza A virus 303 13 0.04290429
94811 PFQNVNKITYGACPKYVKQNSLKLATGMRNVPEKQTRGLFGAIAGFIENGWEGMID Influenza A virus 303 13 0.04290429
93265 CITPNGSIPNDKPFQNVNKITYGACPRYVKQNTLKLATGMRNVPEKQTR Influenza A virus 303 13 0.04290429
22276 PFQNVNKITYGACPKYVKQNTLKLATGMRNVPEKQTRGIFGAIAGFIENGWEGMID Influenza A virus 303 13 0.04290429
81391 PFQNVNKITYGACPKYVKQNTLKLATGMRNVPEKQTRGIFGAIAGFIENGWEGMVD Influenza A virus 303 13 0.04290429
82713 NGNGDPNNMDRAVKLYKKLKREMTFHGAKEVALSYSTGALASCMGLIYNRMGTVT Influenza A virus 303 13 0.04290429
83031 ESARPEDVSFQGRGVFELSDEKATNPIVPSFDMNNEGSYFFGPNAEEYD Influenza A virus 303 12 0.03960396
92651 EAAFGLVCATCFQIAPSQHRSHRQMATTTNPLIRHENRMVLASTTAKAMEQMAGS Influenza A virus 303 12 0.03960396
82765 TNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVASQARQMVQAMRAIGTPP Influenza A virus 303 12 0.03960396
92658 STDTVDTVLEKNVTVTHSVNLLEDKHNGKLCKLRGVAPLHLGKCNIAGWILGNPE Influenza A virus 303 12 0.03960396
4440 MKNVPELPKKRRKRGLFGAIAGFIEN Influenza A virus 303 12 0.03960396
95741 MSLLTEVETYVLSIVPSGPLKAEIAQRLQDVFAGKNTDLEALMEWLKTRPILSPL Influenza A virus 303 11 0.03630363
82787 MSLLTEVETYVLSIVPSGPLKAEIAQRLEDVFAGKNTDLEALTEWLKTRPILSPL Influenza A virus 303 11 0.03630363
2560 TCISECITPNGSIPNPKPFQNVNKITYGACPKYVKQNTLKLATGMRNVPEKQTRGL Influenza A virus 303 11 0.03630363
83061 ESARPEDVSFQGRGVFELSDEKATNPIVPSFDMSNEGSYFFGDNAEEYD Influenza A virus 303 11 0.03630363
95260 EQAAEAMEVASQARQMIQAMRTIGTHPSSSAGLKDDLLENLQAYQKRMGVQMQRF Influenza A virus 303 11 0.03630363
553 IGNGCFEFYHKCDNECMESVRNGTYDYPKYSEESKLNREKIPGVKLESMGVYQILA Influenza A virus 303 11 0.03630363
94801 LCLGHHAVPNGTIVKTITDDQIEVTNATELVQSSSTGKICNNPHKILDGRDCTLID Influenza A virus 303 11 0.03630363
82729 LTEVETYVLSIVPSGPLKAEIAQRLEDVFAGKNTDLEALMEWLKTRPILSPLTKG Influenza A virus 303 11 0.03630363
81033 STDTVDTVLEKNVTVTHSVNLLEDSHNGKLCRLKGIAPLQLGKCNIAGWLLGNPE Influenza A virus 303 11 0.03630363
59325 CITPNGSIPNDKPFQNVNKITYGACPKYIKQNTLKLATGMRNIPEKQTR Influenza A virus 303 10 0.0330033
93872 TPKGAINTSLPFQNIHPVTIGECPKYVKSTKLRMATGLRNIPSIQSR Influenza A virus 303 10 0.0330033
93498 TPRGALNSSLPFQNIHPITIGECPKYVKSTKLRMATGLRNVPSIQSR Influenza A virus 303 10 0.0330033
93488 DTICVGYHANNSTDTVDTVLEKNVTVTHSVNLLENSHNGKLCSLNGIAPLQLGKC Influenza A virus 303 10 0.0330033
81484 CITPNGSIPNDKPFQNVNKITYGACPRYVKQNTLKLATGMRNVPEKQTRGIFGAIA Influenza A virus 303 10 0.0330033
81213 VKQNSLKLATGMRNVPEKQTRGLFGAIAGFIENGWEGMIPGWYGFRHQNSEGTGQA Influenza A virus 303 10 0.0330033
70452 STDTVDTVLEKNVTVTHSVNLLEDSHNGKLCRLKGIAPLQLGKCNIAGWILGNPE Influenza A virus 303 10 0.0330033
81253 NVPSIQSRGLFGAIAGFIEGGWTGMIDGWYGYHHQNEQGSGYAADQKSTQNAIDG Influenza A virus 303 10 0.0330033
82703 EGAFGLVCATCEQIADSQHRSHRQMATTTNPLIRHENRMVLASTTAKAMEQMAGS Influenza A virus 303 10 0.0330033
83036 ESARPEDLSFQGRGVFELSDEKATNPIVPSFDMSNEGSYFFGDNAEEFE Influenza A virus 303 10 0.0330033
2561 ACPKYVKQNTLKLATGMKNVPEKQTRGLFGAIAGFIENGWEGMIDGW Influenza A virus 303 10 0.0330033
84194 DAPFLDRLRRDQKSLKGRGSTLGLDIETATHAGKQIVERILEEESDEALKMTIAS Influenza A virus 303 10 0.0330033
82734 FGLICATCEQIADSQHKSHRQMVTTTNPLIRHENRMVLASTTAKAMEQMAGSSEQA Influenza A virus 303 9 0.02970297
85277 KIQWSQNPTMLYNKLEFEPFQSLVPKAIRGQYSGFVRTLFQQMRDVLGTFDTTQ Influenza A virus 303 9 0.02970297
92999 YAFAMNRGSGSGIITSDAPVHDCDTKCQTPQGAINSSLPFQNIHPVTIGECPKYVK Influenza A virus 303 9 0.02970297
347 STDTVDTVLEKNVTVTHSVNLLEDSHNGKLCRLKGTAPLQLGNCSVAGWILGNPE Influenza A virus 303 9 0.02970297
93000 TPQGAINSSLPFQNIHPVTIGECPKYVKSTKLRMATGLRNIPSIQSR Influenza A virus 303 9 0.02970297
38912 LIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVASQARQMVQAMRTIGTHPSSSA Influenza A virus 303 9 0.02970297
83235 DKPTIMAAFTGNTEGRTSDMRTEIIRMMEGAKPEEMSFQGRGVFELSDEKATNPIV Influenza A virus 303 9 0.02970297
94136 GLVCATCEQIADSQHRSHRQMATTTNPLIRHENRMVLASTTAKAEQMAGSSEQAA Influenza A virus 303 9 0.02970297
82709 TNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVASQARQMVQAMRTIGTHP Influenza A virus 303 9 0.02970297
82705 EQAAEAMEVANQARQMVQAMRTIGTHPNSSAGLRPNLLENLQAYQKRMGVQMQRF Influenza A virus 303 9 0.02970297
81367 STDTVDTVLEKNVTVTHSVNLLENSHNGKLCSLNGIAPLQLGKCNVAGWLLGNLE Influenza A virus 303 9 0.02970297
31841 STDTVDTVLEKNVTVTHSVNLLEDSHNGKLCRLKGIAPLQLGNCSIAGWILGNPE Influenza A virus 303 9 0.02970297
93121 LQQIESMIEAESSVKEKDMTKEFFENKTETWPIGESPRGVEEGSIGKVCRTLLAK Influenza A virus 303 9 0.02970297
81451 DMGNGCFKIYHKCDNACIESIRNGTYDHNEYRDEALNNRFQIKGVELKSGYKDWI Influenza A virus 303 9 0.02970297
93992 TYGACPKYVKQNTLKLATGMRNVPEKQTRGIFGAIAGFIENGWEGMIDGWYGFRH Influenza A virus 303 8 0.02640264
68598 FSVQRNLPFPKSTIMAAFTGNTEGRTSDMRAEIIRMMEGAKPEEV Influenza A virus 303 8 0.02640264
82781 EVAFGLVCATCEQIADSQHRSLRQMVATTNPLIRHENRMVLASTTAKAMEQMAGS Influenza A virus 303 8 0.02640264
81008 NERTLDFHDSNVKNLYPKVRLQLRDNAKELGNGCFEFYHKCDNECMESVRNGTYD Influenza A virus 303 8 0.02640264
82726 AFGLVCATCEQIADSQHRSHRQMATITNPLIRHENRMVLASTTAKAMEQMAGSSE Influenza A virus 303 8 0.02640264
31851 FQNVHPVTIGECPKYVRSTKLRMVTGLRNIPSIQSR Influenza A virus 303 8 0.02640264
93279 FQNVHPVTIGECPKYVKSTKLRMVTGLRNIPSIQS Influenza A virus 303 8 0.02640264
51026 NGNGPPNNMPRAVKLYRKLKREITFHGAKEVALSYSTGALASCMGLIYNRMGTVT Influenza A virus 303 8 0.02640264
94111 YAFALNKGSDSGIITSDAPVHNCDTRCQTPHGALNSSLPFQNVHPITIGECPKYVK Influenza A virus 303 8 0.02640264
80939 DGWYGYHHSNEQGSGYAADKESTQKAIDGVTNKVNSIIPKMNTQFEAVGREFNNL Influenza A virus 303 8 0.02640264
95798 YAFALNKGSGSGIITSDTPVHNCDTKCQTPHGALNSSLPFQNVHPITIGECPKYVK Influenza A virus 303 8 0.02640264
49923 NNTATLCLGHHAVPNGTIVKTITPPQIEVTNATELVQSSSTGKICNNPHRILPGG Influenza A virus 303 8 0.02640264
49939 RENAEDMGNGCFKIYHNCDNACIESIRNGTYDHNIYRDEALNNRFQIKGVELKSG Influenza A virus 303 8 0.02640264
81251 GIITSDAPVHNCDTRCQTPHGALNSSLPFQNVHPITIGECPKYVKSTKLRMATGLR Influenza A virus 303 8 0.02640264
82178 ENARPEDVSFQGRGVFELSDEKATNPIVPSFDMSNEGSYFFGDNAEEYD Influenza A virus 303 8 0.02640264
92990 DTLCIGYHANNSTDTVDTVLEKNVTVTHSVNLLEDSHNGKLCRLGGIAPLQLGKC Influenza A virus 303 8 0.02640264
82790 ESAFGLICATCEQIADSQHKSHRQMVITTNPLIRHENRMVLASTTAKAMEQMAGSS Influenza A virus 303 8 0.02640264
70462 FQNIHPVTIGECPKYVKSTKLRMVTGLRNIPSIQSR Influenza A virus 303 8 0.02640264
93862 DTLCIGYHANNSTDTVDTVLEKNVTVTHSVNLLEDRHNGKLCKLRGVAPLHLGKC Influenza A virus 303 8 0.02640264
93497 YAFALNKDSGSGIITSDAPVHNCDTKCQTPRGALNSSLPFQNIHPITIGECPKYVK Influenza A virus 303 7 0.02310231
81013 STDTVDTVLEKNVTVTHSVNLLEDSHNGKLCLLKGIAPLQLGNCSVAGWILGNPE Influenza A virus 303 8 0.02640264
83044 ESARPEDVSFQGRGVFELSDEKATNPIVPSFDMSNEGSYFFGDNAEEYE Influenza A virus 303 8 0.02640264
56106 SWKQWLSLKNPTQGSLKTRALKQWKLFNKQGWTD Influenza A virus 303 8 0.02640264
95601 GIIISDTPIHDCDTTCQTPKGAINTSLPFQNIHPVTIGECPKYVKSTKLRMATGLR Influenza A virus 303 8 0.02640264
82711 SSTGLRDNLLENLQAYQNRMGVQMQRFK Influenza A virus 303 8 0.02640264
81005 GWYGYHHSNEQGSGYAADKESTQKAIDGVTNKVNSIIDKMNTQFEAVGREFNNLE Influenza A virus 303 8 0.02640264
84786 IEAESSVKEKDMTKEFFENKSETWPIGESPKGVEEGSIGKVCRTLLAKSVFNSLYA Influenza A virus 303 8 0.02640264
95692 KKMEDGFLDVWTYNAELLVLMENERTLDFHDSNVKNLYDKVRMQLRPNAKEIGNG Influenza A virus 303 8 0.02640264
81252 FQNVHPITIGECPKYVKSTKLRMATGLRNVPSIQSRGLFGAIAGFIEGGWTGMID Influenza A virus 303 8 0.02640264
81022 IITSNAPMDKCDAKCQTPQGAINSSLPFQNVHPVTIGECPKYVRSTKLRMVTGLR Influenza A virus 303 8 0.02640264
83164 GGNTTQQRASAGQISVQPTFSVQRNLPFDKPTIMAAFTGNTEGRTSDMRAEIIRMM Influenza A virus 303 8 0.02640264
81043 STDTVDTVLEKNVTVTHSVNLLEDSHNGKLCRLKGIAPLQLGKCSIAGWILGNPE Influenza A virus 303 8 0.02640264
94456 EVAFGLVCATCEQIADSQHRAHRQMATTTNPLIRHENRMVLASTTAKAMEQMAGS Influenza A virus 303 8 0.02640264
82785 ESAFGLICATCEQIADSQHKSHRQMVTTTNPLIRHENRMVLASTTAKAMEQMAGS Influenza A virus 303 8 0.02640264
94105 DTICVGYHANNSTDTVDTVLEKNVTVTHSVNLLEDSHNGKLCSLKGIAPLQLGKC Influenza A virus 303 8 0.02640264
93708 STDTVDTVLEKNVTVTHSVNLLENSHNGKLCSLNGIAPLQLGKCNVAGWLLGNPE Influenza A virus 303 8 0.02640264
92792 DAPFLDRLRRDQKSLKGRGSTLGLNIETATIAGKQIVEWILKEESNETLKMTIAS Influenza A virus 303 8 0.02640264
82754 EVAFGLVCATCEQIADSQHRSHRQMVITTNPLIRHENRMVLASTTAKAMEQMAGSS Influenza A virus 303 7 0.02310231
81454 STDTVDTILEKNVTVTHSVNLLENSHNGKLCSLNGVAPLQLGKCNVAGWILGNPE Influenza A virus 303 7 0.02310231
19548 TEQVDTIMEKNVTVTHAQDILERTHNGKLCDLNGVKPLILRDCSVAGWLLGNPMCD Influenza A virus 303 6 0.01980198
78441 STDTVDTVLEKNVTVTHSVNLLEDRHNGKLCKLGGIAPLHLGKCNIAGWLLGNPE Influenza A virus 303 6 0.01980198
81524 TEQVDTIMEKNVTVTHAQDLLEKTHNGKLCDLNGVKPLILRDCSVAGWLLGNPMD Influenza A virus 303 6 0.01980198
59314 CITPNGSIPNDKPFQNINKITYGACPKYVKQNTLKLATGMRNVPEKQTR Influenza A virus 303 6 0.01980198
82710 EQAAEAMEVASQARQMVQAMRTIGTHPNSSTGLRDNLLENLQAVQNRMGVQMQRF Influenza A virus 303 6 0.01980198
82697 EVALGLVCATCEQIADSQHRSHRQMATATNPLIRHENRMVLASRRAKAMEQMAGS Influenza A virus 303 6 0.01980198
95883 LCLGHHAVTNGTIVKTITKDQIEVTNATELVQSSSTGEICDSPHQILDGENCTLID Influenza A virus 303 6 0.01980198
95782 DAPFLDRLRRDQKSLKGRGSTLGLDIETATRAGKQIVKRILEEESDEAFKMTIAY Influenza A virus 303 6 0.01980198
93271 STDTVDTVLEKNVTVTHSVNLLEDSHNGKLCRLGGIAPLQLGKCNIAGWLLGNPE Influenza A virus 303 6 0.01980198
94735 LLTEVETYVLSIIPSGPLKAEIAQRLESVFAGKNTDLEALMEWLKTRPILSPLTK Influenza A virus 303 6 0.01980198
82762 NGNGDPNNMDRAVKLYRKLKREITFHGAKEVALSYSAGALASCMGLLYNRMGAVT Influenza A virus 303 6 0.01980198
80924 TEQVPTIMEKNVTVTHAQPILEKTHNGKLCDLDGVKPLILRDCSVAGWLLGNPMCD Influenza A virus 303 6 0.01980198
38911 FGLVCATCEQIADSQHRSHRQMVTTTNPLIRHENRMVLASTTAKAMEQMAGSSEQA Influenza A virus 303 6 0.01980198
83165 DKPTIMAAFTGNTEGRTSDMRAEIIRMMEGAKPEEMSFQGRGVFELSDEKATNPIV Influenza A virus 303 6 0.01980198
83166 EGAKPEEMSFQGRGVFELSDEKATNPIVPSFDMSNEGSYFFGDNAEEYD Influenza A virus 303 6 0.01980198
83051 ESARPEDVSFQGRGVFELSDEKATNPIVPSFPMNNE Influenza A virus 303 6 0.01980198
83804 NSSRKGFEMIWDPNGWTDTDDNFLVKQDVVAMTDWSGYSGSFVQHPELTGLDCMR Influenza A virus 303 6 0.01980198
83197 IKRGINDRNFWRGENGRRTRIAYERMCNILKGKFQTAAQRAMMDQVREGRNPGNAI Influenza A virus 303 6 0.01980198
80992 KELGNGCFEFYHKCDNECMESVRNGTYDYDQYSEEARLKREEISGVKLESIGTYQ Influenza A virus 303 6 0.01980198
84232 DAPFLDRLRRDQKSLKGRGSTLGLDIETATCVGKQIVERILKEESDEALKMTMASA Influenza A virus 303 6 0.01980198
83228 ERATVMAAFIGDNEGRTSDMRTEIIRMMESAKPEDLSFQGRGVFELSDEKATNPIV Influenza A virus 303 6 0.01980198
82803 ERATVMAAFIGDNEGRTSRMRTEIIRMMESAKPEDLSFQGRGVFELSPEKATNPIV Influenza A virus 303 6 0.01980198
53687 EVAFGLVCATCEQIADSQHRSHRQMATTTNPLIRHENRMVLASTTAKAMEQMAGSS Influenza A virus 303 6 0.01980198
75988 MDSHTVSSFQVPCFLWHVRKQVADQPLGDAPFLDRLRRDQKSLKGRGSTLGLNIE Influenza A virus 303 6 0.01980198
82768 TEGTLENCETKCQTPLGAINTTLPFHNVHPLTIGECPKYVKSEKLVLATGLRNVP Influenza A virus 303 6 0.01980198
94787 EVAFGLVCATCEQIADSQHRSHRQMVATTNPLIRHENRMVLASTTAKAMEQMAGSS Influenza A virus 303 6 0.01980198
83160 NIQRFAWGIRDEDGGPPLPPKQKRYMARRVESEV Influenza A virus 303 6 0.01980198
95952 IKRGINDRNFWRGENGRKTRSAYERMCNILKGKFQTAAQRAMMDQVRESRNPGNA Influenza A virus 303 6 0.01980198
95963 STDTVDTVLEKNVTVTHSVNLLENSHNGKLCLLKGLAPLQLGNCSVAGWILGNPE Influenza A virus 303 6 0.01980198
82735 MDSHTVSSFQVDCFLWHVRKQAAPQDLGDAPFLDRLRRDQKSLKGRGSTLGLNIE Influenza A virus 303 6 0.01980198
83258 LIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVASQARQMVQAMRAIGTHPSSS Influenza A virus 303 6 0.01980198
83206 DKSTVMAAFTGNTEGRTSDMRAEIIRMMEGAKPEEVSFRGRGVFELSPEKATNPIV Influenza A virus 303 5 0.01650165
80945 ENARSEPVSFQGRGVFELSDEKATNPIVPSFPMSNEGSYFFGDNAEEFD Influenza A virus 303 5 0.01650165
80960 EKNVTVTHAQPILEKTHNGKLCDLDGVKPLILRPCSVAGWLLGNPMCPEFINVPE Influenza A virus 303 5 0.01650165
95934 HDSNVKNLYPKVRLQLRDNAKELGNGCFEFYHKCDNECMESVRNGTYDYPQYSEE Influenza A virus 303 5 0.01650165
27868 EKTKKQLRENAEDMGNGCFKIYHKCDNACIGSIRNGTYDHDVYRDEALNNRFQIK Influenza A virus 303 5 0.01650165
83365 RLKYGLKRGPSTEGVPESMREEYRQEQQSAVDVDDGFTFVNIEL Influenza A virus 303 5 0.01650165
51028 ESAKPEDLSFQGRGVFELSDEKATNPIVPSFDMSNEGSYFFGDNAEEYD Influenza A virus 303 5 0.01650165
94278 EVAFGLVCATCEQIADSQHRSHRQMVTTTNPLIRFENRMVLASTTAKAMEQMAGSS Influenza A virus 303 5 0.01650165
80882 HPLTIGECPKYVKSEKLVLATGLRNVPQIESR Influenza A virus 303 5 0.01650165
95743 SLVKSDQICIGYHANNSTEQVDTIMEKNVTVTHAQPILEKTHNGKLCPLDGVKPL Influenza A virus 303 5 0.01650165
95743 RSTKLRMVTGLRNIPSIQSRGLFGAIAGFIEG Influenza A virus 303 5 0.01650165
78467 STDTVDTVLEKNVTVTHSVNLLEDSHNGKLCKLKGIAPLQLGKCNIAGWLLGNPE Influenza A virus 303 5 0.01650165
52716 ISNLPFQKINSRAVGKCPRYVKQESLLLATGMKNVPEIPKGRGLFGAIAGFIENGW Influenza A virus 303 5 0.01650165
27856 MGQEQDTPWILSTGHISTQKREDGQQTPRLEHHNSTRLMDHCQKTMNQVVMPKQIV Influenza A virus 303 5 0.01650165
83282 EDAKPEEVSFRGRGVFELSDEKATNPIVPSFDMSNEGSYFFGDNAEEYD Influenza A virus 303 5 0.01650165
59299 VDTVLEKNVTVTHSVNLLEDSHNGKLCRLKGIAPLQLGKCNIAGWLLGNPECDPL Influenza A virus 303 5 0.01650165
82715 EVALGLVCATCEQIADAQHRSHRQMATTTNPLIRHENRMVLASTTAKAMEQMAGS Influenza A virus 303 5 0.01650165
78451 FQNIHPVTIGECPKYVKSTKLRMATGLRNLPSIQSRGLFGAIAGFIEGGWTGMID Influenza A virus 303 5 0.01650165
84961 LQQIESMIEAESSVKEKDMTKEFFENRSETWPIGESPKGVEEGSIGKVCRTLLAKS Influenza A virus 303 5 0.01650165
94489 WAIRTRSGGNTNQQRASAGQISVQPTFSVQRNLPFDKPTIMAAFTGNAEGRTSDM Influenza A virus 303 5 0.01650165
93353 IKRGINDRNFWRGENGRKTRIAYERMCNILKGKFQAAAQRAMMDQVRESRNPGNA Influenza A virus 303 5 0.01650165
84701 AWKQVLAELQDIENEEKIPKTKNMRKTSQLKWALGEKMAPEKVDFEDCKDVSDLR Influenza A virus 303 5 0.01650165
83757 PVTVDGADGVKGFSYKYGNGVWIGRTKSNKLRKGFEMIWDPNGWTDTDNDFSVKQD Influenza A virus 303 5 0.01650165
83347 DKTTIMAAFTGNAEGRTSDMRAEIIKMMESARPEEVSFQGRGVFEFSDERAANPIV Influenza A virus 303 5 0.01650165
95801 FQNVHPITIGECPKYVKSTKLRMATGLRNVPSIQSR Influenza A virus 303 5 0.01650165
22282 DMGNGCFKIYHKCDNACIGSIRNGTYDHDVYRDEALNNRFQIKGVELKSGYKDWI Influenza A virus 303 5 0.01650165
80932 TVQVDTIMEKNVTVTHAQDILEKTHNGKLCDLDGVKPLILRDCSVAGWLLGNPMCD Influenza A virus 303 5 0.01650165
537 STDTVDTVLEKNVTVTHSVNLLEDSHNGKLCRLKGIPPLQLGKCNIAGWLLGKPE Influenza A virus 303 5 0.01650165
81218 EKTRRQLRENAEDMGNGCFKIYHKCDNACIESIRNGTYDHDIYRDEALNNRFQIK Influenza A virus 303 5 0.01650165
84245 NIQRFAWGIHDENGGPSLPPKQKRYMAKRVESEV Influenza A virus 303 5 0.01650165
53698 AGKDPKKTGGPIYKRVDGKWVRELVLYDKEEIRRIWRQANNGDDATAGLTHIMIW Influenza A virus 303 5 0.01650165
59204 NKKMEDGFLDVWTYNAELLVLMENERTLDFHRSNVKNLYDKVRMQLRDNAKELGN Influenza A virus 303 5 0.01650165
95744 FQNIHPVTIGECPKYVRSTKLRMVTGLRNIPSIQSRG Influenza A virus 303 5 0.01650165
81232 KPFQNVNKITYGACPKYVKQNTLKLATGMRNVPEKQTRGIFGAIAGFIENGWEGM Influenza A virus 303 5 0.01650165
81489 EKTRKQLRENAEPMGNGCFKIYHKCDNACIGSIRNGTYDHPVYRDEALNNRFQIK Influenza A virus 303 5 0.01650165
95548 DLFVERSKAFSNCYPYDVPDYASLRSLVASSGTLEFITENFNWTGVTQKGGSNSC Influenza A virus 303 5 0.01650165
81320 NKKMEDGFLPVWTYNAELLVLMENERTLDFHPSNVKNLYDKVRMQLRPNAKEIGN Influenza A virus 303 5 0.01650165
82793 TNPLIRHPMRMVLASTTAKAMEQMAGSSEQAAEAMEVASQARQMVHAMRTIGTHPS Influenza A virus 303 5 0.01650165
83081 KEEIRRIWRQANNGDDATAGLTHMMIWHSNLNPTTYQRTRALVRTGMDPRMCSLM Influenza A virus 303 5 0.01650165
53688 DAPFLDRLRRDQKSLKGRGSTLGLNIETATCVGKQIVERILKEESDEAFKMTMASA Influenza A virus 303 5 0.01650165
94137 IRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVANQTRQMVHAMRTIGTHPSSSA Influenza A virus 303 5 0.01650165
80942 KELGNGCFEFYHKCDDECMESVKNGTYDYPQYSEEARLNREEISGVKLESMGTYQ Influenza A virus 303 4 0.01320132
80909 TEQVDTIMEKNVTVTHAQDILEKTHNGKLSDLDGVKPLILRDCSVAGWLLGNPMCD Influenza A virus 303 4 0.01320132
83696 SSISFCGVNSDTVAWSWPDGAELPFTIDK Influenza A virus 303 4 0.01320132
81009 ELGNGCFEFYHKCDNECMESVRNGTYDYPQYSEEARLKREEISGVKLESIGTYQI Influenza A virus 303 4 0.01320132
95610 MSLLTEVETYVLSIVPSGPLKAEIAQRLEDVFAGKNTDLQALMEWLKTRPILSPL Influenza A virus 303 4 0.01320132
83931 YPRYPGVRCVCRDNWKGSNRPVVDINVKDYSIVSSYVCSGLVGPTPRKNDRSSSSY Influenza A virus 303 4 0.01320132
80991 ENERTLDFHDSNVKNLYDKVRLQLRDNAKELGNGCFEFYHKCPNECMESVRNGTY Influenza A virus 303 4 0.01320132
81321 DFHDSNVKNLYDKVRMQLRDNAKEIGNGCFEFYHKCDDECMNSVRNGTYDYPKYE Influenza A virus 303 4 0.01320132
41754 NIQRFAWGIRDEDGGPPLPPKQKRYMARRIESEV Influenza A virus 303 4 0.01320132
80944 AIVSLVKSDQICIGYHANNSTEQVDTIMEKNVTVTHAQDILEKTHNGKLCDLDGV Influenza A virus 303 4 0.01320132
85070 MEQEQDTPWTQSTEHINIQKKGSGQQTQRLGRPNSTQLMPHYLRIMSQADMHKQTV Influenza A virus 303 4 0.01320132
95268 FQNVHPVTIGECPKYVKSTKLRMVTGLRNIPSIQSRGLFGAIAGFIEGGWTGMID Influenza A virus 303 4 0.01320132
93998 NRLRKGFEMIWDPNGWTDTDSDFSVKQDVVAITDWSGYSGSFVQHPELTGLDCIR Influenza A virus 303 4 0.01320132
81202 QDLPGNDNSTATLCLGHHAVPNGTIVKTITDDQIEVTNATELVQSSSTGKICNNPH Influenza A virus 303 4 0.01320132
94733 DKPTIMAAFTGNTEGRTSPMRAEIIRMMEGAKPEEMSFQGRGVFELSPERAANPIV Influenza A virus 303 4 0.01320132
83789 PVNVDGADGIKGFSYRYGNGVWIGRTKSNSSRKGFEMIWDPNGWTDTDSNFLVKQ Influenza A virus 303 4 0.01320132
95789 DTLCVGYHANNSTPTVDTILEKNVTVTHSVNLLEDRHNGKLCSLNGIAPLQLGKC Influenza A virus 303 4 0.01320132
95687 EKTLENCETKCQTPLGARNTTLPFHNIHPLTIGECPKYVKSDRLVLATGLRNVPQ Influenza A virus 303 4 0.01320132
53711 ESARPEEVSFQGRGVFELSDERATNPIVPSFDMSNEGSYFFGDNAEEYD Influenza A virus 303 4 0.01320132
83734 RTQESECACVNGSCFTVMTDGPSNGQASYKIFRIEKGKVVKSAELNAPNYHYEEC Influenza A virus 303 4 0.01320132
94112 TPHGALNSSLPFQNVHPITIGECPKYVKSTKLRMATGLRNVPSIQSR Influenza A virus 303 4 0.01320132
81242 STDTVDTVLEKKVTVTHSVNLLEDSHNGKLCSLNGIAPLQLGKCNVAGWLLGNPE Influenza A virus 303 4 0.01320132
94450 LRVSSFIRGKKVVPRGKLSTRGVQIASNENVEAMDSSTLELRSRYWAIRTRSGGN Influenza A virus 303 4 0.01320132
81257 ERTLDFHDSNVRNLYEKVKSQLRNNAKEIGNGCFEFYHKCDDECMESVKNGTYDY Influenza A virus 303 4 0.01320132
70783 ERATIMAAFTGNTEGRTSDMRTEIIRMMENARPEDVSFQGRGVFELSDEKATNPIV Influenza A virus 303 4 0.01320132
81268 STDTVDTVLEKNVTVTHSVNLLEDRHNGKLCKLGGIAPLHLGKCNIAGRLLGNPE Influenza A virus 303 4 0.01320132
81133 DMGNGCFKIYHKCDNACIESIRNGTYDHDVYRDEALNNRFQIKGVELKSGYKDWI Influenza A virus 303 4 0.01320132
81277 FQNLHPVTIGECPKYVKSTKLRMATGLRNVPSIQSRGLFGAIAGFIEGGWTGMID Influenza A virus 303 4 0.01320132
83807 DKPTIMAAFTGNAEGRTSDMRAEIIRMMEGAKPEEVSFQGRGVFELSD Influenza A virus 303 4 0.01320132
83977 TNSRSGFEMIWDPNGWTGTDSSFSVKQDIVAITDWSGYSGSFVQHPELTGEDCIR Influenza A virus 303 4 0.01320132
81052 GIITSNASMDECDTKCQTPQGAINSSLPFQNIHPVTIGECPKYVRSTKLRMVTGLR Influenza A virus 303 4 0.01320132
95554 APRGYFKMRTGKSSIMRSDAPIDTCISECITPNGNIPNDKPFQNVNKITYGACPKY Influenza A virus 303 4 0.01320132
85065 MEQEQDTPWTQLTEHINIQKKGNGQQTQRLGRPNLTQLMDHYLRIMSQADMHKQTV Influenza A virus 303 4 0.01320132
83180 DKSTIMAAFTGNTEGRTSDMRAEIIRMMEGAKPEEVSFRGRGVFELSDEKATNPIV Influenza A virus 303 4 0.01320132
83234 GGNTNQQRASAGQISVQPAFSVQRNLPFDKPTIMAAFTGNTEGRTSDMRTEIIRMM Influenza A virus 303 4 0.01320132
81493 STDTVDTVLEKNVTVTHSVNLLEDRHNGKLCKLRGVAPLHLGKCNIAGWLLGNPE Influenza A virus 303 4 0.01320132
59199 TEGKLENCETKCQTPLGAINTTLPFHNIHPLTIGECPKYVKSERLVLATGLRNVP Influenza A virus 303 4 0.01320132
81502 GIIISDTPVHDCNTTCQTPKGAINTSLPFQNIHPVTIGECPKYVKSTKLRMATGLR Influenza A virus 303 4 0.01320132
93067 IASNENMEVIDSNTLELRSKYWAIRTKSGGNTSQQKASAGQISVQPTFSVQRNLP Influenza A virus 303 4 0.01320132
81532 RRIENLNKQMEDGFLDVWTYNAELLVLMENERTLDFHDSNVKNLYDKVRLQLRDN Influenza A virus 303 4 0.01320132
84702 QLKWALGEKMAPEKVDFEDCKDVSDLRQYDSDEPQPRSLASWIQSEFNKACELTD Influenza A virus 303 4 0.01320132
82764 EVAFAVVCATCEQIADSQHRSHRQMVTTTNPLIRHEKRMVLASTTAKAMEQMAGSS Influenza A virus 303 4 0.01320132
95994 QNSLTIERMVLSAFDERRNKYLEEHPSAGKDPKKTGGPIYKRVDGKWVRELVLYD Influenza A virus 303 4 0.01320132
67438 TNSRSGFEMIWDPNGWTGTDSNFSLKQDIVAMTDWSGYSGSFVQHPEMSGLDCIR Influenza A virus 303 4 0.01320132
59210 RNIPSIQSRGLFGAIAGFIEGGWTGMIDGWYRYHHQNEQGSGYAADQKSTQNAIN Influenza A virus 303 4 0.01320132
67430 NDKHSNGTVKDRSPYRTLMSCPVGEAPSPYNSRFESVAWSASACHDGTSWLTIGI Influenza A virus 303 4 0.01320132
83221 KEEIRRVWRQANNGEDATAGLTHIMIWHSNLNDATYQRTRALVRTGMDPRMCSLM Influenza A virus 303 4 0.01320132
83060 ERATIMAAFTGNTEGRISDMRTEIIRMMESARPEDVSFQGRGVFELSDEKATNPIV Influenza A virus 303 4 0.01320132
83214 VKRGINDRNFWRGENGRRTRIAYERMCNILKGKFQTAAQRAMMDQVRESRNPGNA Influenza A virus 303 4 0.01320132
83191 GGNTNQQRASAGQISVQPAFSVQKNLPFDKSTIMAAFTGNTEGRTSDMRAEIIRMM Influenza A virus 303 4 0.01320132
83181 EGAKPEEVSFRGRGVFELSDEKATNPIVPSFDMSNEGSYFFGDNAEEYD Influenza A virus 303 4 0.01320132
92668 FQNTHPITIGKCPKYVKSTKLRLATGLRNWSIQSRGLFGALAGFIEGGWTGMVD Influenza A virus 303 4 0.01320132
83175 IKRGINDRNFWRGENGRKTRGAYERMCNILKGKFQTAAQRAMMDQVRESRNPGNA Influenza A virus 303 4 0.01320132
93140 DAPFLDRLRRDQKSLKGRSSTLGLDIESSTRAGRQIVKRILKEESDSEPKGTIAPV Influenza A virus 303 4 0.01320132
95959 IINSNAPMDKCDAKCQTPQGAINSSLPFQNVHPVTIGECPKYVRSAKLRMVTGLR Influenza A virus 303 4 0.01320132
93356 DKTTIMAAFTGNAEGRTSDMRAEIIRMMESAKPEEVSFQGRGVFELSDEKAPNPIV Influenza A virus 303 4 0.01320132
81398 GIITSNASIDECDAKCQTPQGAINSSLPFQNVHPVTIGECPKYVRSTKLRMVTGL Influenza A virus 303 4 0.01320132
81376 GIITSDAPVHNCDTKCQTPYGALNSSLPFQNVHPITIGECPKYVKSTKLRMATGLR Influenza A virus 303 4 0.01320132
83380 DKTTIMAAFTGNAEGRTSDMRAEIIKMMESARPEEVSFQGRGVFELSDERATNPIV Influenza A virus 303 4 0.01320132
81363 EKTRRQLRENAEDMGNGCFKIYHKCDNACLGSIRNGTYDFTDVYRDEALNNRFQIK Influenza A virus 303 4 0.01320132
68785 MLKDEPSNRGRNVRSLYRSVRPPQSRDRTET Influenza A virus 303 4 0.01320132
93355 GGNTNQQRASAGQISVQPTFSVQRNLPFDKTTIMAAFTGNAEGRTSDMRAEIIRMM Influenza A virus 303 4 0.01320132
83378 ESSRPEDVSFQGRGVFELSDEKATNPIVPSFDMSNEGSYFFGDNAEEYD Influenza A virus 303 3 0.00990099
80891 IAPEYAYKIVKKGDSAIMKSELEYGNCNTKCQTPMGAINSSMPFHNIHPLTIGEC Influenza A virus 303 3 0.00990099
85334 KIQWSQDPTMLYNKMEFEPFQSLVPRATRGQYSGFVRTLFQQMRDVLGTTDTAQ Influenza A virus 303 3 0.00990099
83231 AGKDPKKTGGPIYKRVDGKWMRELVLYDKEEMRRIWRQANNGDDATAGLTHLMIW Influenza A virus 303 3 0.00990099
83948 PVTVDGADGVKGFSYRYGNGVWIGRTKSNSSRKGFEMIWDPNGWTDTDSNFLVKQ Influenza A virus 303 3 0.00990099
94131 TEVETYVLSIIPSGPLKAEIAQRLESVFAGKNTDLEALMEWLKTRPILSPLTKGI Influenza A virus 303 3 0.00990099
96019 NRLRKGFEMIWDPNGWTNTDSDFSVKQDVVAITDWSGYSGSFVQHPELTGLDCIR Influenza A virus 303 3 0.00990099
83956 TIGEELRSGYETFKVIGGWSTPNSKLQINRQVIVDSDNRSGYSGIFSVEGKSCIN Influenza A virus 303 3 0.00990099
85224 GDVVLVMKRKRNSSILTDSQTATKRIRMAIN Influenza A virus 303 3 0.00990099
82771 EAAFGLICATCEQIADSQHRSHRQMVTTTNPLIRHENRMVLASTTAKAMEQMAGSS Influenza A virus 303 3 0.00990099
80887 PYLGKSSFFRNVVWLIKKNSTYPTIKRSYNNTNQEDLLVLWGIHHPNDAAEQTKL Influenza A virus 303 3 0.00990099
35011 KPGDVLMINSNGNLIAPRGYFKIRAGKSSIMRSDAPIDTCVSECITPNGSIPNDK Influenza A virus 303 3 0.00990099
83114 IKRGINDRNFWRGENGRRTRIAYERMCNILKGKFQTAAQKAMMDQVRESRNPGNA Influenza A virus 303 3 0.00990099
70793 RTQESECACVNGSCFTVMTDGPSNGQASYKIFKIEKGKVVKSVELNAPNYHYEEC Influenza A virus 303 3 0.00990099
82749 NGNGDPNNMDRAVKLYRKLKREITFHGAKEIALSYSAGALASCMGLIYNRMGAVT Influenza A virus 303 3 0.00990099
95686 NFESTGNLIAPEYGFKISKRGSSGIMKTEKTLENCETKCQTPLGAINTTLPFHNI Influenza A virus 303 3 0.00990099
83142 GGNTNQQRASAGQISIQPTFSVQRNLPFDKTTIMAAFTGNAEGRTSDMRAEIIRMM Influenza A virus 303 3 0.00990099
93994 NSEGTGQAADLKSTQAAIDQINGKLNRVIEKTN Influenza A virus 303 3 0.00990099
82721 LLTEVETYVLSIIPSGPLKAEIAQKLEPVFAGKNTDLEALMEWLKTRPILSPLTK Influenza A virus 303 3 0.00990099
587 MGQEQDIPWILSTGHISTQKGENGQQTPKLEHHNSTRLMGHCQKTMNRVVMPKQIV Influenza A virus 303 3 0.00990099
83067 IKRGINDRNFWRGENGRRTRIAYERMCNILKGKFQTAAQRAMVDQVRESRNPGNA Influenza A virus 303 3 0.00990099
67433 RTQESECACVNGSCFTVMTPGPSNGQASYKIFKIEKGKVVKSVELNAPNYHYEEC Influenza A virus 303 3 0.00990099
83943 ENSTWVNQTYVNINNTNVVAGKDTTSVTLAGNSSLCPIRGWAIYSKDNSIRIGSK Influenza A virus 303 3 0.00990099
70784 ENARPEDVSFQGRGVFELSDEKATNPIVPSFDMSNEGSYFFGDNAEEYE Influenza A virus 303 3 0.00990099
83052 GGNTNQQRASAGQISTQPTFSVQRNLPFDKATIMAAFTGNTEGRTSDMRAEIIKMM Influenza A virus 303 3 0.00990099
41748 DAPFDDRLRRDQKALKGRGSTLGLDLRVATMEGKKIVEDILESETDENLKIAIAS Influenza A virus 303 3 0.00990099
80989 MKSELEYGNCNTKCQTPMGARNSSMPFHNIHPLTIGECPKYVKSNRLVLATGLRNS Influenza A virus 303 3 0.00990099
80979 TLDFHPSNVKNLYDKVRLQLRDNAKELGNGCFEFYHKCPNECMESVKNGTYPYPH Influenza A virus 303 3 0.00990099
81021 GPTIIFEANGNLIAPRFAFALSRGFGSGIITSNAPMDKCDAKCQTPQGAINSSLP Influenza A virus 303 3 0.00990099
80976 GYHHSNEQGSGYAADKESTQKAIDGVTNKVNSHDKMNTQFEAVGREFNNLERRI Influenza A virus 303 3 0.00990099
94556 AFEDLRVSSFIRGKKVIPRGKLSTRGVQIASNENVETMPSNTLELRSRYWAIRTR Influenza A virus 303 3 0.00990099
80964 DTIMEKNVTVTHAQDILEKTHNGKLCDLDGVKPLILRPCSVAGWLLGNPMCPEFI Influenza A virus 303 3 0.00990099
81336 PFQNVNKITYGACPKYIKQSTLKLATGMRNVPEKQTRGLFGAIAGFIENGWEGMID Influenza A virus 303 3 0.00990099
93487 SIQRFAWGVRDENGGPSFPPKQKRYMARRVESEV Influenza A virus 303 3 0.00990099
83915 PVNVDGADGVKGFSYRYGNGVWIGRTKSNSSRKGFEMIWDPNGWTDTDSNFLVKQI Influenza A virus 303 3 0.00990099
94611 VKPGDILLINSTGNLIAPRGYFKIRNGKSSIMRSDAPIGTCSSECITPNGSIPNDK Influenza A virus 303 3 0.00990099
80957 SNEQGSGYAADKESTQKAIDGVTNKVNSIIDKMNTQFEAVGREFNNLERRIENLN Influenza A virus 303 3 0.00990099
81082 RTIGKCPRYVKQKSLMLATGMKNVPEAPAHKQLTHHMRKKRGLFGAIAGFIENGW Influenza A virus 303 3 0.00990099
94403 SNALLKHRFEIIEGRDRNMAWTVVNSICNTTGIGKPRYLPPLYPYKEDRFIEIGVT Influenza A virus 303 3 0.00990099
38893 CIGYHANNSTDTVDTVLEKNVTVTHSVNLLEDSHNGKLCRLKGIAPLQLGKCSIA Influenza A virus 303 3 0.00990099
81339 DMGNGCFKIYHKCPNACIESIRNGTYDHDIYRDEALNNRFQIKGCGVKSGYKPWI Influenza A virus 303 3 0.00990099
83196 KEEIRRIWRQANNGEDATAGLTHMMIWHSNLNDTTYQRTRALVRTGMPPRMCSLM Influenza A virus 303 3 0.00990099
546 GIITSNASMHECNTKCQTPQGAINSSLPFQNIHPVTIGECPKYVRSAKLRMVTGL Influenza A virus 303 3 0.00990099
92666 PGDKITFEATGNLVVPRYAFAMERNAGSGIIISDTPVHDCNTTCQTPKGAINTSL Influenza A virus 303 3 0.00990099
83687 SSISFCGVNSDTVGWSWPDGAELPFTIDK Influenza A virus 303 3 0.00990099
83688 TNSRSGFEMIWDPNGWTGTDSNFSVKQDIVAITDWSGYSGSFVQHPELTGVDCIR Influenza A virus 303 3 0.00990099
51023 MSLLTEVETYVLSIVPSGPLKAEIAQRLEDVFAGKNTDLEALMEWLKTRPILSPL Influenza A virus 303 3 0.00990099
93987 YPVQNVTMPNNDNSDKLYIWGVHHPSTDKEQTDLYVQASGKVTVSTKRSQQTIIP Influenza A virus 303 3 0.00990099
70794 YKIFKIEKGKVVKSVELNAPNYHYEECSCYPDAGEITCVCRDNWHGSNRPWVSFN Influenza A virus 303 3 0.00990099
83875 YPRYPGVRCICRDNWKGSNRPVVDINVKDYSIDSSYVCSGLVGDTPRNNDRSSSSY Influenza A virus 303 3 0.00990099
59198 INFESTGNLIAPEYGFKISKRGSSGIMKTEGKLENCETKCQTPLGAINTTLPFHN Influenza A virus 303 3 0.00990099
78452 NIPSIQSRGLFGAIAGFIEGGWTGMIDGWYGYHHQNGQGSGYAADQKSTQNAIDG Influenza A virus 303 3 0.00990099
12953 GSSISFCGVNSDTVGWSWPDGAELPFTIDK Influenza A virus 303 3 0.00990099
93357 ESAKPEEVSFQGRGVFELSDEKAPNPIVPSFDMSNEGSYFFGDNAEEYD Influenza A virus 303 3 0.00990099
93827 IASNENMDNMGSSTLELRSMYWAIRTRSGGNTNQQRASAGQISVQPTFSVQRNLP Influenza A virus 303 3 0.00990099
95267 GIITSNAPVHDCDTKCQTPHGAINSSLPFQNVHPVTIGECPKYVKSTKLRMVTGLR Influenza A virus 303 3 0.00990099
78457 IGNGCFEFYHKCDDTCMESVKNGTYDYPKYSEESKLNREEIDGVKLESTRVYQILA Influenza A virus 303 3 0.00990099
70772 KEEIRRIWRQANNGEDATAGLTHLMIWHSNLNDATYQRTRALVRTGMDPRMCSLM Influenza A virus 303 3 0.00990099
95819 VKRGINDRNFWRGENGRKTRSAYERMCNILKGKFQTAAQRAMVDQVRESRNPGNA Influenza A virus 303 3 0.00990099
94832 PKENTIWTSGSSISFCGVNSDTVGWSWPDGAELPFTIDK Influenza A virus 303 3 0.00990099
70775 IKRGINDRNFWRGENGRRTRIAYERMCNILKGKFQTAAQRAMMDQVRESRKPGNA Influenza A virus 303 3 0.00990099
83136 IKRGINDRNFWRGENGRKTRIAYERMCNILKGKFQTAAQRAMMDQVRESRNPGNA Influenza A virus 303 3 0.00990099
93040 MRSDAPIGTCSSECITPNGSIPNDKPFQNVNRITYGACPRYVKQNTLKLATGMRNV Influenza A virus 303 3 0.00990099
81463 GIITSDTPVHNCDTKCQTPHGALNSSLPFQNVHPITIGECPKYVKSTKLRMATGLR Influenza A virus 303 3 0.00990099
83285 GGNTNQQRASAGQISVQPTFSVQRNLPFDKSTIMAAFTGNTEGRTSDMRAEIIRMM Influenza A virus 303 3 0.00990099
81546 GNGCFEFYHKCNNECMESVKNGTYDYPKYSEESKLNREKIDGVKLESMGVYQILA Influenza A virus 303 3 0.00990099
83073 IASNENMETMESSTLELRSRYWAIRTKSGGNTNQQRASAGQISIQPTFSVQRNLP Influenza A virus 303 3 0.00990099
83348 ESARPEEVSFQGRGVFEFSDERAANPIVPSFDMSNEGSYFFGDNAEEYD Influenza A virus 303 3 0.00990099
94812 DMGNGCFKIYHKCDNACIESIRNGTYDHDIYRDEALNNRFQIKGVELKSGYKDWI Influenza A virus 303 3 0.00990099
81468 ERTLDFHDFNVRNLYEKVKSQLRNNAKEIGNGCFEFYHKCDDECMESVKNGTYNY Influenza A virus 303 3 0.00990099
81237 ENQHTIDLTDSEMNKLFEKTRRQLRENAEDMGNGCFKIYHKCDNACIGSIRNGTYD Influenza A virus 303 3 0.00990099
94759 FQNVHPVTIGECPKYVRSTKLRMVTGLRNIPSIQSRG Influenza A virus 303 3 0.00990099
83270 GGNTNQQRASAGQISIQPTFSVQRNLPFDKTTIMAAFTGNAEGRTSDMRAENKMM Influenza A virus 303 3 0.00990099
78483 IGNGCFEFYHKCDDACMESVRNGTYDYPKYSEESKLNREEIDGVKLESMGVYQILA Influenza A virus 303 3 0.00990099
83920 YPRYPGVRCVCRDNWKGSNRPVVDINVKDYSIASSYVCSGLVGDTPRKNDRYSSSY Influenza A virus 303 2 0.00660066
83105 KEEIRRIWRQANNGEDATAGLTHMMIWHSNLNDATYQRTRALVRTGMDPRMCSLM Influenza A virus 303 2 0.00660066
85260 KIQWSQNPTMLYNKMEFEPFQSLVPKAIRGQYSGFVRTLFQQMRDVLGTFDTAQI Influenza A virus 303 2 0.00660066
83921 DYSIASSYVCSGLVGPTPRKNDRYSSSYCRNPNNEKGNHGVKGWAFDDGNDVWMG Influenza A virus 303 2 0.00660066
80961 EFYHKCDNECMESVRNGTYDYPQYSEEARLKREEISGVKLESIGTYQILSIYSTVA Influenza A virus 303 2 0.00660066
80973 LEYGNCNTKCQTPMGAINSSMPFHNIHPLTIGECPKYVKSNRLVLATGLRNSPQR Influenza A virus 303 2 0.00660066
59209 PFQNVHPVTIGECPKYVRSTKLRMVTGLRNIPSIQSRGLFGAIAGFIEGGWTGMID Influenza A virus 303 2 0.00660066
94557 IASNENVETMDSNTLELRSRYWAIRTRSGGNTNQQKASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
83154 ERATVMAAFVGNTEGRTSDMRTEIIRMMESAKPEDLSFQGRGVFELSDEKATNPIV Influenza A virus 303 2 0.00660066
83050 IASNENMEAIDSNTLELRSRYWAIRTRSGGNTNQQRASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
83128 IASNENMETMDSSTLELRSRYWAIRTRSGGNTNQQKASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
84111 LDRLRRDQKSLRGRGNTLGLDIETATRAGKQIVERILEEESDEALKMPASRYLTD Influenza A virus 303 2 0.00660066
83152 IASNENVEAMDSSTLELRSRYWAIRTRSGGNTNQQKASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
78340 NSIRIGSKGDVFVIREPFISCSHLECRTFFLTQGALLNDKHSNGTVKDRSPYRTLM Influenza A virus 303 2 0.00660066
95266 PGDTITFEATGNLVAPRYAFALNRGSGSGIITSNAPVHDCDTKCQTPHGAINSSL Influenza A virus 303 2 0.00660066
84098 VRKRFAPQELGDAPFLDRLRRDQKSLRGRGNTLGLDIETATRAGKQIVERILEEE Influenza A virus 303 2 0.00660066
80978 NLNKKMEDGFLDVWTYNAELLVLMENERTLDFHDSNVKNLYDKVRLQLRPNAKEL Influenza A virus 303 2 0.00660066
92673 IGNGCFEFYHKCDNTCMESVKNGTYDYPKYSEEAKLNREEIDGVKLESTRIYQILA Influenza A virus 303 2 0.00660066
92672 ERTLDYHDSNVKNLYEKVRSQLKNNAKEIGNGCFEFYHKCDNTCMESVKNGTYDY Influenza A virus 303 2 0.00660066
83056 IKRGINDRKFWRGENGRRTRVAYERMCNILKGKFQTAAQRAMMDQVRESRNPGNA Influenza A virus 303 2 0.00660066
83923 TISDESRSGYETFKVIGGWSTPNSKLQINRQVIVDSDNRSGYSGIFSVEGKSCIN Influenza A virus 303 2 0.00660066
80972 FESNGNFIAPEYAYKIVKKGDSAIMKSELEYGNCNTKCQTPMGAINSSMPFHNIH Influenza A virus 303 2 0.00660066
84866 TLQRFTWRSSNEDGRPPLPPKQKRKMARTIESEV Influenza A virus 303 2 0.00660066
84134 ATRAGKQIVERILKEESDEALKMTMASVPASRYLTDMTLEEMSRDWSMLIPKQKVA Influenza A virus 303 2 0.00660066
83141 IASNENMDTMESSTLELRSRYWAIRTRSGGNTNQQRASAGQISIQPTFSVQRNLP Influenza A virus 303 2 0.00660066
78472 TKKGSSYPKLSKSYVNNKGKEVLVLWGVHHPPTGTDQQSLYQNADAYVSVGSSKY Influenza A virus 303 2 0.00660066
85265 AIIKKYTSGRQEKNPSLRMKWMMAMKYPITADKRITEMIPERNEQGQTLWSKINDA Influenza A virus 303 2 0.00660066
83975 YKIFKMEKGKVVKSVELNAPNYHYEECSCYPDAGEITCVCRDNWHGSNRPWVSFN Influenza A virus 303 2 0.00660066
94762 AIIKKYTSGRQEKNPSLRMKWMMAMKYPITADKRITEMVPERNEQGQTLWSQMSDA Influenza A virus 303 2 0.00660066
47954 DAPFLDRLRRDQKSLRGRGSTLGLNIEAATRVGKQIVERILKEESDEALKMTMASA Influenza A virus 303 2 0.00660066
92615 DYSIVSSYVCSGLVGDTPRKNDSSSSSYCRNPNNEKGSHGVKGWAFDDGDDVWMG Influenza A virus 303 2 0.00660066
93845 AWKQVLAEIQDFEDEKKIPRVKNMKKTSPLKWALGENMAPEKVDFDDCKDVSDLK Influenza A virus 303 2 0.00660066
83075 DRSTIMAAFTGNTEGRTSDMRTEIIRLMESARPEDVSFQGRGVFELSDEKAASPIV Influenza A virus 303 2 0.00660066
83076 ESARPEDVSFQGRGVFELSDEKAASPIVPSFDMSNEGSYFFGDNAEEYD Influenza A virus 303 2 0.00660066
83144 ESAKPEEVSFQGRGVFELSDEKAANPIVPSFDMSNEGSYFFGDNAEEYD Influenza A virus 303 2 0.00660066
83079 IQNSLTIERMVLSAFDERRNKYLEEHPSAGKDPKKTGGPIYRRVNGKWMRELILYD Influenza A virus 303 2 0.00660066
83997 PVTVDGADGVKGFSYKYGNGVWIGRTKSNRLRKGFEMIWDPNGWTDTDSDFSVKQD Influenza A virus 303 2 0.00660066
59196 DESEQRALYQNVGTYVSVGTSTLNKRSSPEIATRPKVNGQGGRMEFSWTILDIWDT Influenza A virus 303 2 0.00660066
83954 YPRYPGVRCVCRDNWKGSNRPIVDINVKDYSIVSSYVCSGLVGDTPRKNDRSSSSY Influenza A virus 303 2 0.00660066
83122 DRTTVMAAFSGNTEGRTSDMRTEIIRMMESARPEDVSFQGRGVFELSDEKAASPIV Influenza A virus 303 2 0.00660066
84000 CFWVELVRGRPRENTTIWTSGSSISFCGVNSDTANWSWPDGAELPFTIDK Influenza A virus 303 2 0.00660066
80898 NVKNLYDKVRLQLRDNAKELGNGCFEFYHKCDNECMESVKNGTYDYPQYSEEARL Influenza A virus 303 2 0.00660066
83088 IASNENMETMESSTLELRSKYWAIRTRSGGNTNQQRASAGQISIQPTFSVQRNLP Influenza A virus 303 2 0.00660066
84117 DAPFLDRLRRDQKSLKGRGSTLGLNIETATCVGKQIVERILKEESDEALKMTMASA Influenza A virus 303 2 0.00660066
78482 ERTLDFHDSNVRNLYEKVKSQLKNNAKEIGNGCFEFYHKCDDACMESVRNGTYDY Influenza A virus 303 2 0.00660066
94691 PGDTITFEATGNLVVPRYAFAMNRGSGSGIITSDAPVHDCNTKCQTPQGAINTSL Influenza A virus 303 2 0.00660066
59205 DFHDSNVKNLYDKVRMQLRDNAKELGNGCFEFYHKCDDECMNSVKNGTYDYSKYE Influenza A virus 303 2 0.00660066
83066 KEEIRRIWRHANNGDDATAGLTHMMIWHSNLNDATYQRTRALVRTGMDPRMCSLM Influenza A virus 303 2 0.00660066
83932 DYSIVSSYVCSGLVGDTPRKNDRSSSSYCRNPNNEKGNHGVKGWAFDDGNDVWMG Influenza A virus 303 2 0.00660066
92649 NGNGDPNNMDRAVKLYKKLKREITFHGAKEVSLSYSTGALASCMGLIYNRMGTVT Influenza A virus 303 2 0.00660066
94809 VKPGDVLVINSNGNLIAPRGYFKMRTGKSSIMRSDAPIDTCVSECITPNGSIPNDK Influenza A virus 303 2 0.00660066
26869 SNGTKVNTLTERGVEVVNATETVERRTIPRICTKGKKAIDLGQCGLLGIITGPPQ Influenza A virus 303 2 0.00660066
94747 HGLKRGPSTEGVPESMREEYRTEQQNAVDADDSHFVNIEL Influenza A virus 303 2 0.00660066
92662 PNHDSNKGVTAACPHAGAKSFYKNLIWLVKKGNSYPKLSKSYINDKGKEVLVLW Influenza A virus 303 2 0.00660066
83058 IASNENMETMDSNTLELRSRYWAIRTRSGGSTNQQKSSAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
95290 LQQIESMIEAESSVKEKDMTKEFFENNSETWPIGESPKGVEEGSIGKVCRTLLAKS Influenza A virus 303 2 0.00660066
95272 IGNGCFEFYHKCDDACMESVRNGTYDYPKYSEESKLNREEIDGVKLESMMVYQILA Influenza A virus 303 2 0.00660066
60874 SSISFCGVDSDRVGWSWPDGAELPFTLDK Influenza A virus 303 2 0.00660066
91461 DVMESMDKGEMEIITHFQRKRRVRDNMTKKMVTQRTIGKKKQRLNKRSYLIRALTD Influenza A virus 303 2 0.00660066
83256 IASNENMDTMESSSTLELRSRYWAIRTRSGGNTNQQRASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
22298 PLDSNCGGNCFHSGGTIVSSLPHQNINSRTVGKVPRYVRQPSLLLATGMRNVPEN Influenza A virus 303 2 0.00660066
83329 AFEDLRVSGFIRGKKVVPRGKLSTRGVQIASNENVEAMDSNTLELRSRYWAIRTR Influenza A virus 303 2 0.00660066
83325 ERATIMAAFTGNTEGRTSDMRTEIIRMMESARPEDVSFQGRGVFELSDEKATNPVV Influenza A virus 303 2 0.00660066
83324 IASNENMETMDSSTLELRSKYWAIRTRSGGNTNQQRASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
83728 IWTSGSSISFCGVNSDTVGWSWPDGAELPFTIDK Influenza A virus 303 2 0.00660066
81230 IVKPGDILVINSNGNLIAPRGYFKMRTGKSSIMRSDAPIGTCSSECITPNGSIPND Influenza A virus 303 2 0.00660066
83318 IASNENMPTMVSSTLELRSRYWAIRTRSGGNTNQQRASAGQISIQPTFSVQRNLP Influenza A virus 303 2 0.00660066
83302 IASNENMDNMESSTLELRSRWAIRTRSGGNTKQQRASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
93070 ESAKPDDVSFQGRGVFELSDEKATNPIVPSFDMSKEGSYFFGDNAEEFDK Influenza A virus 303 2 0.00660066
83297 GGNTNQQRASAGQISVQPTFSVQRNLPFEKSTVMAAFTGNTEGRTSDMRAEIIRMM Influenza A virus 303 2 0.00660066
83740 SIQTGNQNQVEPISNTNFLTEKAVASVTLAGNSSLCPIRGWAVHSKDNSIRIGSK Influenza A virus 303 2 0.00660066
91313 LIVNAPNHEGIQAGVNRFYRTCKLVGINMSKKKSYINRTGTFEFTSFFYRYGFVA Influenza A virus 303 2 0.00660066
92041 NVNRITYGACPRYVKQNTLKLATGMRNVPEKQTRGIFGAIAGFIENGWEGMVDGW Influenza A virus 303 2 0.00660066
93039 GDILLINSTGNLIAPRGYFKIRTGKSSIMRSDAPIGTCSSECITPNGSIPKDKPF Influenza A virus 303 2 0.00660066
81541 GDTIIFEANGNLIAPWYAFALSRGFESGIITSNAPMNECDAKCQTPQGAINSSLP Influenza A virus 303 2 0.00660066
93890 INFESTGNLIAPEYGFKISKRGSSGIMKTEGTLENCETKCQTPLGAINTTLPFHNV Influenza A virus 303 2 0.00660066
16472 EVETYVLSIIPSGPLKAEIAQRLESVFAGKNTDLEALMEWLKTRPILSPLTKGIL Influenza A virus 303 2 0.00660066
81199 VKPGDILVINSNGNLIAPRGYFKMRTGKSSIMRSDAPIGTCSSECITPNGSIPNDK Influenza A virus 303 2 0.00660066
83275 KEEVRRIWRQANNGEDATAGLTHLMIWHSNLNDATYQRTRALVRTGMDPRMCSLM Influenza A virus 303 2 0.00660066
83271 DKTTIMAAFTGNAEGRTSDMRAEIIKMMESARPEEVSFQGRGVFELSDERAANPIV Influenza A virus 303 2 0.00660066
83266 DKTTIMAAFTGNAEGRTSDMRAELIRMMESARPEEVSFQGRGVFELSDERAANPIV Influenza A virus 303 2 0.00660066
83330 IASNENVEAMDSNTLELRSRYWAIRTRSGGNTNQQRASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
93125 HGLKKGPSTGGIPESMREEYRQEQQSDVSVDNSHFVNIEL Influenza A virus 303 2 0.00660066
83345 ENAKPEEVSFRGRGVFELSDEKATNPIVPSFDMSNEGSYFFGDNAEEYD Influenza A virus 303 2 0.00660066
83259 VKQNTLKLATGMRNVPEKQTRGIFGAIAGFIENGWEGMV Influenza A virus 303 2 0.00660066
83758 NKLRKGFEMIWDPNGWTDTDNDFSVKQDVVAITDWSGYSGSFVQHPELTGLDCIR Influenza A virus 303 2 0.00660066
81372 TKKGTSYPKLSKSYTNNKGKEVLVLWGVHHPPTTSEQQTLYQNVDAYVSVGSSKY Influenza A virus 303 2 0.00660066
81314 INFESTGNLIAPEYGFKISKRGSSGIMKTEKTLENCETKCQTPLGAINTTLPFHN Influenza A virus 303 2 0.00660066
91184 DVMESMDKEEMEITTHFQRKRRIRDNMTKKMVTQRTIGKKKQRLNKKSYLIRALT Influenza A virus 303 2 0.00660066
85191 DVVLVMKRKRDSSILTDSQTATKRIRMA Influenza A virus 303 2 0.00660066
81405 ERTLDFHDSNVRNLYEKVKSQLRNNAKELGNGCFEFYHKCDDECMESVKNGTYDY Influenza A virus 303 2 0.00660066
93273 PNHETTKGVTAACPYAGASSFYRNLLWLVKKENSYPKLSKSYVNNKGKEVLVLWG Influenza A virus 303 2 0.00660066
83379 GGNTNQQRASAGQISTQPTFSVQRNLPFDKTTIMAAFTGNAEGRTSDMRAEIIKMM Influenza A virus 303 2 0.00660066
93799 VKQNTLKLATGMRNVPEKQTRGIFGAIAGFIENGWEGMIDGWYGFRHQNSEGTGQA Influenza A virus 303 2 0.00660066
93801 IASNENMDTMESSTLELRSKYWAIRTRSGGNTNQQRASAGQISVQPAFSVQRNLP Influenza A virus 303 2 0.00660066
81464 NVPSIQSRGLFGAIAGFIEGGWTGMIDGWYGYHHQNEQGSGYAADQKSTQIAIDG Influenza A virus 303 2 0.00660066
83361 GGNTNQQRASAGQISVQPTFSVQRNLPFEKSTVMAAFTGNTEGRTSPMRAEIIRLM Influenza A virus 303 2 0.00660066
83360 IQNSLTIERMVLSAFDERRNRYLEEHPSAGKDPKKTGGPIYKRVGGRWMRELVLYD Influenza A virus 303 2 0.00660066
55532 ISPRSRSGFEMLKIPNAGTDPNSRITERQELVPSNNWSGYSGSFRDYWDESSECY Influenza A virus 303 2 0.00660066
81272 VKKENSYPKLSKSYVNNKGKEVLVLWGIHHPPTSTDQQSLYQNADAYVFVGSSKY Influenza A virus 303 2 0.00660066
55531 NPITGSPGAPGVKGFGFLDSSNTWLGRTISPRSRSGFEMLKIPNAGTDPNSRITE Influenza A virus 303 2 0.00660066
83357 GGNTNQQRASAGQISVQPTFSVQRNLPFEKATIMAAFTGNTEGRTSDMRTEIIRMM Influenza A virus 303 2 0.00660066
81258 IGNGCFEFYHKCDDECMESVKNGTYDYPKYSEESKLNREEIDGVKLESMGVYQILA Influenza A virus 303 2 0.00660066
83353 IQNSITIERMVLSAFDERRNKYLEEHPSAGKDPKKTGGPIYKKRDGKWMRELILYD Influenza A virus 303 2 0.00660066
95644 PGDILLINSTGNLIAPRGYFKIRTGKSSIMRSDAPIGTCSSECITPNGSIPNDKP Influenza A virus 303 2 0.00660066
83265 IASNENMDTMGSSTLELRSRYWAIRTRSGGNTNQQRASAGQISIQPTFSVQRNLP Influenza A virus 303 2 0.00660066
92920 ATRVGKQIVERILKEESDEALKMTMASAPASRYLTDMTIEESSRDWFMLIPKQKV Influenza A virus 303 2 0.00660066
83046 ERSTIMAAFTGNTEGRTSDMRTEIIRMMESARPEDVSFQGRGVFELSDEKATNPIV Influenza A virus 303 2 0.00660066
81188 SNGIKVDTLTEKGIEVVNATETVEQKNIPKICSKGKQTIDLGQCGLLGTTIGPPQ Influenza A virus 303 2 0.00660066
81072 ERTLDFHDSNVKNLYEKVKNQLRNNAKEIGNGCFEFYHKCPNECMESVKNGTYDY Influenza A virus 303 2 0.00660066
83120 IASNENMETMESSTLELRSRYWAIRTRSGGNTNQQRASAGQISIQPTFSVQRNLP Influenza A virus 303 2 0.00660066
81063 TEANGLYPSLSKSYVNDREKEVLVLWGVHHPSNIEDQRTLYRKENAYVSVVSSNY Influenza A virus 303 2 0.00660066
81057 IGNGCFEFYHKCNNECMESVKNGTYDYPKYSEESKLNREKIDGVKLESMGVYQILA Influenza A virus 303 2 0.00660066
83173 IQNSLTIERMVLSAFDERRNRYLEEHPSAGKDPKKTGGPIYKRVDGKWMRELVLYD Influenza A virus 303 2 0.00660066
81051 PGDTIIFEANGNLIAPWHAFALNRGFGSGIITSNASMDECDTKCQTPQGAINSSL Influenza A virus 303 2 0.00660066
68597 RYWAIRTRSGGNTNQQRASAGQISVQPAFSVQRNLPFDKSTIMAAFTGNTEGRTS Influenza A virus 303 2 0.00660066
94451 ENVEAMDSSTLELRSRYWAIRTRSGGNTNQQKASAGQISVQPTFSVQRNLPFERA Influenza A virus 303 2 0.00660066
83170 DKPTIMAAFTGNTEGRTSDMRAEIIRMMEGAKPEEMSFQGRGVFELSDEKAANPIV Influenza A virus 303 2 0.00660066
83168 IASNENMDAMESSTLELRSRYWAIRTRSGGNTNQQRASAGQISVQPAFSVQRNLP Influenza A virus 303 2 0.00660066
83852 YDKNATASFIYDGRLVDSIGSWSQNILRTQESECVCINGTCTVVMTDGSASGRAD Influenza A virus 303 2 0.00660066
83855 YPRYPGVRCICRDNWKGSNRPVVDINVKDYSIDSSYVCSGLVGDTPRNNDRSSNSY Influenza A virus 303 2 0.00660066
83163 IASNENMDTMGSSTLELRSRYWAIRTRSGGNTTQQRASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
83029 IASNENMEAMDSNTLELRSRYWAIRTRSGGNTNQQRASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
83030 ERATIMAAFTGNTEGRTSDMRTEIIRMMESARPEDVSFQGRGVFELSDEKATNPIV Influenza A virus 303 2 0.00660066
83034 AFEDLRVSSFIRGTRVVPRGQLSTRGVQIASNENMDTMDSNTLELRSRYWAIRTR Influenza A virus 303 2 0.00660066
92694 RTQESECACVNGSCFTVMTDGPSNGQASYKIFRIEKGKIVKSVEMNAPNYHYEEC Influenza A virus 303 2 0.00660066
83041 KEEIRRIWRQANNGEDATAGLTHLMIWHSNLNDSTYQRTRALVRTGMDPRMCSLM Influenza A virus 303 2 0.00660066
83155 ESAKPEDLSFQGRGVFELSDEKATNPIVPSFDMNNEGSYFFGDNAEEYD Influenza A virus 303 2 0.00660066
83869 PITGSPGAPGIKGFGFLNEDNTWLGRTISPRLRSGFEMLKIPNAGTDPESKIKER Influenza A virus 303 2 0.00660066
94499 NIPSIQSRGLFGAIAGFIEGGWTGMLDGWYGYHHQNEQGSGYAADQRSTQNALDG Influenza A virus 303 2 0.00660066
83178 IASNENMDTMESSTLELRSRYWAIRTRSGGNTNQQRASAGQISVQPAFSVQRNLP Influenza A virus 303 2 0.00660066
81073 IGNGCFEFYHKCDNECMESVKNGTYDYPKYSEESKLNRAKIDGVKLESMGVYQILA Influenza A virus 303 2 0.00660066
52715 RGKSMGIQSGVQVDANCEGDCYHSGGTIISNLPFQNINSRAVGKCPRYVKQESLL Influenza A virus 303 2 0.00660066
94226 IASNENMDTMGSSTLELRSRYWAIRTRSGGNTNQQRASAGQISVQPAFSVQRNLP Influenza A virus 303 2 0.00660066
82910 ENAKPEDLSFQGRGVFELSDEKATNPIVPSFDMNNEGSYFFGDNAEEYD Influenza A virus 303 2 0.00660066
53710 DKTTIMAAFTGNTEGRTSDMRAEIIRMMESARPEEVSFQGRGVFELSDERATNPIV Influenza A virus 303 2 0.00660066
53702 IKRGINDRNFWRGENGRKTRIAYERMCNILKGKFQTAAQKAMMDQVRESRNPGNA Influenza A virus 303 2 0.00660066
92874 MSLLTEVETYVLSIVPSGPLKAEIAQRLEDVFAGKNTDLEVLMEWLKTRPILSPL Influenza A virus 303 2 0.00660066
83240 SNLNDATYQRTRALVRTGMDPRMCSLMQGSTLPRRSGAAGAAVKGVGTIAMELIRM Influenza A virus 303 2 0.00660066
92842 HHSNPQGSGYAAPKESTQKAFDGITNKVNSVIEKMNTQFEAVGKEFSNLEKRLEN Influenza A virus 303 2 0.00660066
82799 EVAFGLVCATCEQIADSQHRSHRQMETTTNPLIRHENRMVLASTTAKAMEQMAGSS Influenza A virus 303 2 0.00660066
92813 IASNENVEIMDSNTLELRSRYWAIRTRSGGNTNQQKASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
83226 IASNENVEAMDSSTLELRSRYWAIRTRSGGNTNQQKASADQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
94230 PNNGKFDKLYIWGVHHPSTPSDQTSLYVQASGRVTVSTKRSQQTVTPNIGSRPWV Influenza A virus 303 2 0.00660066
83190 IASNENMDTMESSTLELRSRYWAIRTRSGGNTNQQRASAGQISVQPAFSVQKNLP Influenza A virus 303 2 0.00660066
91385 PYSHGTGTGYTMDTVNRTHQYSERGKWTTNTETGAPQLNPIDGPLPEDNEPTGYAQ Influenza A virus 303 2 0.00660066
92791 MDSNTVSSFQVDCFLWHVRKRLADNGLGDAPFLDRLRRDQKSLKGRGSTLGLNIE Influenza A virus 303 2 0.00660066
81125 RNVPEKQTRGLFGAIAGFIENGWEGMIDGWYGFRHQNSEGTGQAADLKSTQAAID Influenza A virus 303 2 0.00660066
83222 SNLNDATYQRTRALVRTGMDPRMCSLMQGSTLPRRSGAAGAAVKGVGTIAMELIGM Influenza A virus 303 2 0.00660066
94268 IASNENMDTMGSSTLELRSRYWAIRTRSGGNTNQQRASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
81122 VKPGDVLVINSNGNLIAPRGYFKMRTGKSSIMRSDAPIDTCISECITPNGSIPNDK Influenza A virus 303 2 0.00660066
83216 IASNENMETMDSSTLELRSRYRALRTRSGGNTNQQRASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
92765 IASNFNVETMDSNTLELRSRYWAIRTRSGGNTNQQKASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
92764 AFEDLRVSSFIRGKKVIPRGKLSTRGVQIASNENVETMDSNTLELRSRYWAIRTR Influenza A virus 303 2 0.00660066
85201 DKRYGPALSISELSNLAKGEKANVLIGQGDVVLVMKRKRPSSILTPSQTATKRIRM Influenza A virus 303 2 0.00660066
94427 AIIKKYTSGRQEKNPALRMKWMMAMKYPITADKRIIETIPERNEQGQTLWSRTSDA Influenza A virus 303 2 0.00660066
95816 KEEIRRIWRQANNGEDATSGLTHIMIWHSNLNDATYQRTRALVRTGMDPRMCSLM Influenza A virus 303 2 0.00660066
95868 TISEKSRLGYETFKVIEGWSNPKSKLQINRQVIVPRGNRSGYSGIFSVEGKSCIN Influenza A virus 303 2 0.00660066
84767 ESGDPNALLKHRFEIIEGRDRTMAWTVVNSICNTTGVEKPKFLPPLYPYKENRFI Influenza A virus 303 2 0.00660066
96047 DKATIMAAFSGNTEGRTSPYLRAEIIKMMESARPEEVSFQGRGVFELSPERATNPIV Influenza A virus 303 2 0.00660066
95556 DAPFLDRLRRDQKSLKGRGSTLGLNIETATLAGKQIVEWILKEESNETLKMTIAS Influenza A virus 303 2 0.00660066
70460 PGDTIIFEANGNLIAPWHAFALSRGFGSGIITSNAPMDECDTKCQTPQGAINSSL Influenza A virus 303 2 0.00660066
84150 ATRVGKQIVERILKEESPEALKMTIASAPASRYLTDMTIEELSRDWFMLMPKQKV Influenza A virus 303 2 0.00660066
68762 AWRSSSENGRHPLTPKQKR Influenza A virus 303 2 0.00660066
547 FQNIHPVTIGECPKYVRSAKLRMVTGLRNIPSIQSRGLFGAIAGFIEGGWTGMID Influenza A virus 303 2 0.00660066
96077 KVERLKQGTFGPVHFRNQVKIRRRVDINPGHADLSAKEAQDVIMEVVFPNEVGAR Influenza A virus 303 2 0.00660066
95565 TFGPVHFRNRVKIRRRVDINPGHADLSSKEAQDVIMEVVFPNEVGARILTSESQLM Influenza A virus 303 2 0.00660066
84679 AKRQLKKDLKSKGQCEGLLTKVSHQTSQVSTTLEPMWMDSSRMATLRASFPKCLE Influenza A virus 303 2 0.00660066
75982 YEELKHLLSSVKHFEKVKILPKDRWTQHTTTGGSQACAVSGNPSFFRNMVWLTEK Influenza A virus 303 2 0.00660066
84981 AWKQVLAELQDIENEEKIPKTKNMRKTSQLKWALGENMAPEKVDFEDCKDVSDLR Influenza A virus 303 2 0.00660066
85979 KTSQLKWALGENMAPEKVDFDDCKDISDLKQYDSDEPELRSFSSWIQNEFNKACE Influenza A virus 303 2 0.00660066
95978 YLLSWKQVLEELQDIESEERIPRTKNMKKTSQLKWALGENMAPEKVDFDDCKDISI Influenza A virus 303 2 0.00660066
535 HGLKRGPSTEGVPESMREEYRKEQQSAVDADDSHFVNIEL Influenza A virus 303 2 0.00660066
84851 QLKWALGENMAPEKVDFDDCKDISDLKQYDSDEPELRSLSSWIQNEFNKACELTD Influenza A virus 303 2 0.00660066
85130 FEKVERLKHGTFGPVHFRNQVKIRRRVDINPGHADLSAKEAQDVIMEVVFPNEVGA Influenza A virus 303 2 0.00660066
84752 AWKQVLAELQDIENEEKIPKTKNMKKTGQLKWALGENMAPEKVDFEDCKDVSDLR Influenza A virus 303 2 0.00660066
96008 SARPEEVSFQGRGVFELSDERATNPIVPSFDMSNEGSY Influenza A virus 303 2 0.00660066
84205 MDSNTVSSFQVDCFLWHVRKQFADQELGDAPVRDRLRRDQKSLRGRGSTLGLDIE Influenza A virus 303 2 0.00660066
9637 QIASNENMETIDSITLELRSKYWAIRTRSGGNTNKQRASAGQISVQPTFSVQRNL Influenza A virus 303 2 0.00660066
70790 NDKHSNGTVKDRSPYRTLMSCPVGEAPSPYNSRFESVAWSASACHPGTSWLTIGI Influenza A virus 303 2 0.00660066
95958 GDTIIFEANGNLIAPRYAFALSRGFGSGIINSNAPMDKCDAKCQTPQGALNSSLP Influenza A virus 303 2 0.00660066
84249 TLQRFAWRSSNENGGPPFTPTQKRKMAGTIRSEV Influenza A virus 303 2 0.00660066
95693 FHDSNVKNLYDKVRMQLRDNAKEIGNGCFEFYHKCDDECMNSVRNGTYPYPKYEE Influenza A virus 303 2 0.00660066
67422 QQIESMIEAESSVKEKDMTKEFFENKSETWPIGESPKGVEEGSIGKVCRTLLAKSV Influenza A virus 303 2 0.00660066
70781 IASNENMETMDSSTLELRSRYWAIRTRSGGNTNQQRASAGQISVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
85069 SWKQWLSLKNPTQGFLKTRALKRWKSFNKQGWTN Influenza A virus 303 2 0.00660066
84234 MDSNTVSSFQVDCFLWHVRKQVVDQELSDAPFLDRLRRDQRSLRGRGSTLGLDIK Influenza A virus 303 2 0.00660066
4577 SNGTKVNTLTERGVEVVNATETVERTNVPRICSKGKRTVDLGQCGLLGTITGPPQ Influenza A virus 303 2 0.00660066
84877 LQQIESMIEAESSVKEKDMTKEFFENKSETWPIGESPKGVEPGSIGKVCRTLLAKS Influenza A virus 303 2 0.00660066
84935 AWKQVLAEIQDFEDEKKIPRVKNMKKTSPLKWALGENMAPEKVDFEDCKDVSDLK Influenza A virus 303 2 0.00660066
96003 SQVYSLIRPNENPAHKSQLVWMACNSAAFEDLRVSSFIRGTRVLPRGKLSTRGV Influenza A virus 303 2 0.00660066
96005 ASNENMDAIVSSTLELRSRYWAIRTRSGGNTNQQRASAGQISTQPTFSVQRNLPF Influenza A virus 303 2 0.00660066
95999 KRGINDRNFWRGENGRKTRIAYERMCNILKGKFQTAAQKAMMDQVRESRNPGNAE Influenza A virus 303 2 0.00660066
31850 GIITSNASMDECDAKCQTPQGAINSSLPFQNVHPVTIGECPKYVRSTKLRMVTGL Influenza A virus 303 2 0.00660066
67434 YKIFKIEKGKVVKSVELNAPNYHYEECSCYPDAGEITCVCRDNWHGSNRPWVSFD Influenza A virus 303 2 0.00660066
84219 MDPNTVSSFQVPCFLWHVRKQVADQELGDAPFLDRLRRDQKSLKGRGSTLGLNIE Influenza A virus 303 2 0.00660066
95825 IASNENMDNMGSSTLELRSGYWAIRTRSGGNTNQQRASAGQTSVQPTFSVQRNLP Influenza A virus 303 2 0.00660066
95606 DAPFLDRLRRDQKSLKGRGSTLGLNIETATLVGKQIVEWILKEESNETLKMTIASV Influenza A virus 303 2 0.00660066
356 GIITSNASMGECDAKCQTPQGAINSSLPFQNVHPVTIGECPKYVRSTKLRMVTGL Influenza A virus 303 2 0.00660066
85167 TADKRIIEMIPERNEQGQTLWSKTNDAGSDRVMVSPLAVTWWNRNGPTTSAVHYPK Influenza A virus 303 2 0.00660066
95826 GGNTNQQRASAGQTSVQPTFSVQRNLPFEKSTIMAAFTGNTEGRTSDMRAEIIRMM Influenza A virus 303 2 0.00660066
95891 VKPGDILLINSTGNLIAPRGYFKIRSGKSSIMRSDAPIGKCNSECITPNGSIPNDK Influenza A virus 303 2 0.00660066
95814 IQNSLTIEKMVLSAFDERRNKYLEEHPSAGKDPKKTGGPIYRRVDGKWMRELVLVD Influenza A virus 303 2 0.00660066
58 MEQEQDTQWTQSTEHINIQKRGSGRQTQKLGHPNSTRLMDHYLRIMSQVDMHKQTV Influenza A virus 303 2 0.00660066
85056 MGQEQDTPWILSTGHISTQKGEDGQQTPKLEHCNSTRLMGHCQKTMNQVVMPKQIV Influenza A virus 303 2 0.00660066
95929 HGLKRGPSTEGVPESMREEYRKEQQNAVDADDSHFV Influenza A virus 303 2 0.00660066
75989 HPLTIGECPKYVKSEKLVLATGLRNVPQIES Influenza A virus 303 2 0.00660066
85151 ALSINELSNLAKGEKANVLIGQGPVVLVMKRKRPSSILTDSQTATKRIRMAI Influenza A virus 303 2 0.00660066
19568 DAPFLDRLRRDQKSLRGRGSTLGLDIRTATREGKHIVERILEEESDEALKMTLASV Influenza A virus 303 2 0.00660066
47302 NQTEYANETHSTEVQTVKTFKEDRFQRTTLKSSSEPPTVQTLSVTPKKKLPSNVTA Human herpesvirus 6B 296 180 0.608108108
47295 TIKVTPNTPTITAQTTESIKKVVKRSDFPRPMYTPTDIPTLTIRRNATIKTEQNTE Human herpesvirus 6B 296 174 0.587837838
47305 QNRMSASTHGEINHTEIPRMTPILNAHTWEKSTTPQWPFTAETSLTTSSKSAILTW Human herpesvirus 6B 296 112 0.378378378
47301 NFIKISLGETMGITPKEPTNPTQLLNVKNQTEYANETHSTEVQTVKTFKEDRFQRT Human herpesvirus 6B 296 105 0.35472973
47303 TLKSSSEPPTVQTLSVTPKKKLPSNVTAKTEVQVTNNALPSSNSSHSITKVTEEPK Human herpesvirus 6B 296 93 0.314189189
47298 TTVATNTTQKLESTTFATTIGIEEISDNIYSSPKNSIYLKSKSQQSTTKFTDTEHT Human herpesvirus 6B 296 88 0.297297297
47299 IYSSPKNSIYLKSKSQQSTTKFTDTEHTTPILKFTTWQDAARTYMSHNTEVQNMT Human herpesvirus 6B 296 75 0.253378378
60519 DKDGFRKQKKLDLLGSWTKEKNDKAIVHSREVTGDSGDATETVTARDSPVLRKTK Human herpesvirus 6B 296 59 0.199324324
47304 KTEVQVTNNALPSSNSSHSITKVTEEPKQNRMSASTHGEINHTEIPRMTPILNAHT Human herpesvirus 6B 296 59 0.199324324
60518 AGSEAKLTTHSTETGVSPHNVSLIKDLRDKDGFRKQKKLDLLGSWTKEKNDKAIV Human herpesvirus 6B 296 44 0.148648649
60520 SREVTGDSGDATETVTARDSPVLRKTKHANDIFAGLNKKYARDVSRGGKGNSRDL Human herpesvirus 6B 296 37 0.125
60515 LPAEAQSNTGDVDLLQDKTSIRSPSSGITDVVNGLAMLNLRQNKSDVSRPWSKNTA Human herpesvirus 6B 296 31 0.10472973
60512 PLKTQRRHKFPESDSVDNAGGKILIKKETLGGRDVRATTPVSSVSLMSGVEPLSS Human herpesvirus 6B 296 29 0.097972973
60525 PTENKLGRESEEANVERILEVSDPQNLFKNFKLQNDLDSVQSPFRLPNADLSRDL Human herpesvirus 6B 296 28 0.094594595
47309 RSTDVKKKSSTESREANKTLPGNDYRVTDKNSHKHPDNLTTKAYSTQNATHYTYN Human herpesvirus 6B 296 27 0.091216216
60526 KNFKLQNDLDSVQSPFRLPNADLSRDLDSVSFKDALDVKLPGNGEREIDLALQKV Human herpesvirus 6B 296 24 0.081081081
60516 TDVVNGLANLNLRQNKSDVSRPWSKNTAANADVFDPVHRLVSEQTGTPFVLNNSD Human herpesvirus 6B 296 24 0.081081081
47308 SNRTQSAKLTKAHVSSQTTNIYPQTITERSTDVKKKSSTESREANKTLPGNDYRVT Human herpesvirus 6B 296 20 0.067567568
47294 TSPHIPSTNTPTPEPSPVTKNFTELQTDTIKVTPNTPTITAQTTESIKKVVKRSDF Human herpesvirus 6B 296 19 0.064189189
65381 PSESILLELADFDEHGKYSEESSIESIHEDDDNVDYLKYMEVQSPTDNNIPTPSK Human herpesvirus 6B 296 15 0.050675676
77590 QDASGGSSSGTKKGEKLQGLWKGYQDDDDSELTELSDTDSDNDVQNCHGVRKTGS Human herpesvirus 6B 296 15 0.050675676
60521 ANDIFAGLNKKYARDVSRGGKGNSRDLYSGGNAEKKETSGKFNVDKEMTQNEQEP Human herpesvirus 6B 296 14 0.047297297
65382 EDDDNVDYLKYMEVQSPTDNNIPTPSKNNESPTRQKLTNIHEKDVGKMYPDTPSPD Human herpesvirus 6B 296 13 0.043918919
77589 PRKSARIHNMKSEGVTCGMCVTAADSTRQPASGGSSSGTKKGEKLQGLWKGYQDD Human herpesvirus 6B 296 12 0.040540541
60527 SVSFKDALDVKLPGNGEREIDLALQKVKAGERETSDFKVGQPETLIPTQLMKVET Human herpesvirus 6B 296 9 0.030405405
47310 DKNSHKHPDNLTTKAYSTQNATHYTYNERHDLNNTDST Human herpesvirus 6B 296 9 0.030405405
65386 KKLLETQPPSVVVETGSGQQDILAYSPDKRSQTKEWIQEKGSNSKCTETLPGMTFT Human herpesvirus 6B 296 8 0.027027027
77759 MQKEFDIINSSESFWPMEDNKILRRSNIKVVIGKDGLNDVTSVYSSELKSLYIPV Human herpesvirus 6B 296 7 0.023648649
60513 TLGGRDVRATTPVSSVSLMSGVEPLSSLTSTNLDLRPKSHGNYRIGPSGILDFGV Human herpesvirus 6B 296 7 0.023648649
60514 TSTNLDLRDKSHGNYRIGPSGILDFGVKLPAEAQSNTGDVDLLQDKTSIRSPSSG Human herpesvirus 6B 296 6 0.02027027
78963 MTTIRGPPLSNQITQISGSSSKKEEEKKKQQMLTGVLGLQPTMANHPVLGVFLPKY Human herpesvirus 6B 296 6 0.02027027
60522 SGGNAEKKETSGKFNVDKEMTQKEQEPLPNLMEAARNAGEEQYVQAGLGQRVNKI Human herpesvirus 6B 296 6 0.02027027
60529 EEKDDVIEKMVLRIRQDGETDEETVPGPGVAESLGIAAKDKSVIAS Human herpesvirus 6B 296 6 0.02027027
65367 RMQNYHPPPVVEESIKEILEESLKCDVSFESLLFPELEAFDLFIPESSNPIASKN Human herpesvirus 6B 296 5 0.016891892
77762 LFTDKELDDLAVFKDGFSYPLNDLIEMYKSGLPFLDQGQANVFYFNDTVSLKHLL Human herpesvirus 6B 296 5 0.016891892
65387 KRSQTKEWIQEKGSNSKCTETLPGMTFTNSATPVKSHGAIQDTLNPESKLDKEMEA Human herpesvirus 6B 296 5 0.016891892
65383 NESPTRQKLTNIHEKDVGKMYPDTPSPDVPGKSKEAKTFIEYSRQIGKEQTSPNCV Human herpesvirus 6B 296 4 0.013513514
78922 PSTRSASTRSPSTRSPCGRRPSPPLARVRIASSVAAALTHRSLERIWVSRALAAN Human herpesvirus 6B 296 4 0.013513514
77761 NNLLLNRFNKHQQYLKTVGYRVLNVDTNLFTDKELDDLAVFKDGFSYPLNDLIEM Human herpesvirus 6B 296 4 0.013513514
65403 GTSKDNEKCTTRSDCNSDKMEVFKLDGYPSDYDPFEENAQIY Human herpesvirus 6B 296 4 0.013513514
71275 TVTHGLRAETDETYHFISKELTAAFVASKESLNLTDPKQTCIKNEFEKIITDVYMS Human herpesvirus 6B 296 4 0.013513514
77662 EKFPLDNSSPSNTHEQSNHLENAIDQEQKKTPKTTNTTTNTIYRPRDNQSNISRNT Human herpesvirus 6B 296 4 0.013513514
47293 SFGRAIVNFHSILTTTPSSTPSSTSASITSPHIPSTNTPTPEPSPVTKNFTELQTD Human herpesvirus 6B 296 3 0.010135135
60524 AEFTNLISLGEKGIQDILHNQSGTELKLPTENKLGRESEEANVERHEVSDPQNL Human herpesvirus 6B 296 3 0.010135135
60517 ANADVFDPVHRLVSEQTGTPFVLNNSDVAGSEAKLTTHSTETGVSPHNVSLIKDL Human herpesvirus 6B 296 3 0.010135135
76775 FARSPGDLMGEMNGDLGDEGETGEGGDNGEG Human herpesvirus 6B 296 3 0.010135135
77661 RDKTKIKSPNHESKHRHADMFRNSQKTGEKFPLDNSSPSNTHEQSNHLENAIDQE Human herpesvirus 6B 296 3 0.010135135
72504 GKQKCKRKVEDIDKKKEDEKLKQEEKKRNPEDKRPDKKDEFDEPPKEKRQKSHHET Human herpesvirus 6B 296 3 0.010135135
78959 RLFSILKQHSDAELLRHMFNESHSAYISKKLIIYSGNVSHIINFLFMDEFGLSLK Human herpesvirus 6B 296 2 0.006756757
77540 RAQSDLPKQRKQRLYGNKCPGPSAAQLPGADRQRLYEKKWPGRSAVQPA Human herpesvirus 6B 296 2 0.006756757
76761 IRSPGLRAKPWVSSGHPVAFPPAPSSAPPFSKRVPSVPSSASPSAPCIGRSRPPSA Human herpesvirus 6B 296 2 0.006756757
77873 LLPTCHLSRMFYQKTWRQADEDLLFVKARNDERQEFPDAGTRSAVHDVV Human herpesvirus 6B 296 2 0.006756757
47306 WEKSTTPQWPFTAETSLTTSSKSAILTWSNLLTTPKEPLTNTSLRSTNHITTQLT Human herpesvirus 6B 296 2 0.006756757
60509 GQRVESFLKIITSDYEIIKSSLESYSASKAFSVPENGPHSLMDFASLDGRMPSDL Human herpesvirus 6B 296 2 0.006756757
77551 ANGTCCPPRDVHHDRPTLQSSNSWTRTEYFEPWQDVVPAYVPINDNHCPNPSYVV Human herpesvirus 6B 296 2 0.006756757
65368 FESLLFPELEAFDLFIPESSNDIASKNVSYSSNVEEGASDEFKTLVAQSVGNCIQ Human herpesvirus 6B 296 2 0.006756757
77576 IAPNLMKGNGLNVYGHVGCVDAAISDKQGGTANVASSLLNPEHQDWMRVTGTSTN Human herpesvirus 6B 296 2 0.006756757
72506 KRNLEEQSHEDGIAPTSTTFVNGAVEGALSPCVSIDNHEDQQHDELDKRVYAQGT Human herpesvirus 6B 296 2 0.006756757
77631 CRSIQKTKGHSSQTINKHKVQKHNENHVPSRSDLKQRKSNQHEDEAVTEARDFSK Human herpesvirus 6B 296 2 0.006756757
76758 PAEEPSKCSPCPPCPSPDAPQSAVPRLSALSVPSPSTARVRFSLSSLSSSSSSSS Human herpesvirus 6B 296 2 0.006756757
47300 TPILKFTTWQDAARTYMSHNTEVQNMTENFIKISLGETMGITPKEPTNPTQLLNVK Human herpesvirus 6B 296 2 0.006756757
76760 SSPSYSPSPLSPPSPVSPSSPRSPFISPIRSPGLRAKPWVSSGHPVAFPPAPSSA Human herpesvirus 6B 296 2 0.006756757
77663 KKTPKTTNTTTNTIYRPRDNQSNISRNTTKCKKKRTRDDDSDSSMQNFFKKRISGT Human herpesvirus 6B 296 2 0.006756757
77802 QVFSKRDTGLLVCTARRYRPIGTNIQWSLHNQTVSDDHTTDDFIRTEISGQLLYSY Human herpesvirus 6B 296 2 0.006756757
77791 WGLISLDKWVGDKYFCMCTNKESGDNVLVTLPEKNVEKSIQIYNEGSTMLAFAEI Human herpesvirus 6B 296 2 0.006756757
78942 KKIYGYEHLGQALCEGGHVFYNPRDVYFQNIKMAATEPTVVRT Human herpesvirus 6B 296 2 0.006756757
78944 KCDVSFESLLFPELEAFDLFIPESSNDIASKNVSYSSNVEEGASEEFKTLVGEYM Human herpesvirus 6B 296 2 0.006756757
93248 MSNMDIDGINTGTIDKTPEEITSGTSGATRPIIRPATLAPPSNKRTRNPSPEGATT Influenza B virus 207 99 0.47826087
35342 HVVKTATQGEVNVTGVIPLTTTPTKSHFANLKGTKTRGKLCPKCLNCTDLDVALGR Influenza B virus 207 86 0.415458937
30996 MSNMDIDGINAGTIDKTPEETTSGTSGATRPIIRPATLAPPSNKRTRNPSPERATT Influenza B virus 207 78 0.376811594
83398 MSNMDIDGINTGTIDKTPEETTSGTSGTTRPIIRPATLAPPSNKRTRNPSPERATT Influenza B virus 207 75 0.362318841
31012 GGNEVGGDGGSGQISCNPVFAVERPIALSKQAVRRMLSMNIEGRDADVKGNLLKM Influenza B virus 207 72 0.347826087
81702 LMVVTSNADRICTGITSSNSPHVVKTATQGEVNVTGVIPLTTTPTKSHFANLKGTK Influenza B virus 207 69 0.333333333
81619 VIPLTTTPTKSHFANLKGTKTRGKLCPNCLNCTDLDVALGRPKCMGTIPSAKASI Influenza B virus 207 69 0.333333333
81729 HVVKTATQGEVNVTGVIPLTTTPTKSHFANLKGTKTRGKLCPNCLNCTDLDVALGR Influenza B virus 207 69 0.333333333
83408 MSNMDIDGINTGTIDKTPEEIISGTSGATRPIIRPATLAPPSNKRTRNPSPERATT Influenza B virus 207 65 0.314009662
81557 LHEKYGGLNKSKPYYTGEHAKAIGNCPIWVKTPLKLANGTKYRPPAKLLKE Influenza B virus 207 63 0.304347826
81671 KTPLKQANGTKYRPAAKLLKERGFFGAIA Influenza B virus 207 62 0.299516908
81618 DLICTGITSSNSPHVVKTATQGEVNVTGVTPLTTTPTKSHFANLKGTKTRGKLCPN Influenza B virus 207 61 0.29468599
96157 HVVKTATQGEVNVTGVIPLTTTPTKSHFANLKGTETRGKLCPKCLNCTDLDVALGR Influenza B virus 207 61 0.29468599
81547 HVVKTATQGEVNVTGVIPLTTTPTKSHFANLKGTKTRGKLCPNCLNCTDLDVALAR Influenza B virus 207 61 0.29468599
81670 EKYGGLNKSKPYYTGEHAKAIGNCPIWVKTPLKQANGTKYRPAAKLLKERGFFGA Influenza B virus 207 60 0.289855076
81736 HVVQTATQGEVNVTGVIPLTTTPTKSHFANLKGTKTRGKLCPKCLNCTDLDVALAR Influenza B virus 207 59 0.285024155
94161 DRICTGITSSNSPHVVKTATQGEVNVTGVIPLTTTPTKSHFANLKGTQTRGKLCPN Influenza B virus 207 57 0.275362319
81803 DRICTGITSSNSPHVVKTATQGEVNVTGVIPLTTTPTKSHFANLKGTKTRGKLCPN Influenza B virus 207 55 0.265700483
94162 VIPLTTTPTKSHFANLKGTQTRGKLCPNCLNCTDLDVALGRPKCLGTIPSAKASI Influenza B virus 207 54 0.260869565
81672 HVVKTATQGEVNVTGVIPLTTTPTKSHFANLKGRKTRGKLCPKCLNCTDLDVALA Influenza B virus 207 53 0.256038647
81757 KYGGLNKSKPYYTGEHAKAIGNCPIWVKTPLKLANGTKYRPPAKLLKERGFFGAIA Influenza B virus 207 51 0.246376812
81558 LMVVTSNADRICTGITSSNSPHVVKTATQGEVNVTGVIPLTTTPTRSHFANLKGT Influenza B virus 207 51 0.246376812
81594 DRICTGITSSNSPHVVKTATQGEVNVTGVIPLTTTPTKSHFANLKGTKTRGKLCPK Influenza B virus 207 49 0.236714973
81603 YYTGEHAKAIGNCPIWVKTPLKLANGTKYRPPAKLLKER Influenza B virus 207 48 0.231884058
81595 VIPLTTTPTKSHFANLKGTKTRGKLCPKCLNCTDLDVALGRPKCMGTIPSAKASI Influenza B virus 207 46 0.222222222
81660 KTATQGEVNVTGVIPLTTTPTKSHFANLKGTKTRGKLCPKCLNCTDLPVALGRPK Influenza B virus 207 44 0.212560386
81763 QGEVNVTGVIPLTTTPTKSHFANLKGTKTRGKLCPNCLNCTDLDVALGRPKCMGT Influenza B virus 207 44 0.212560386
83382 TRPIIKPATLAPPSNKRTRNPSPERATTSSEAIVGRRTQKKQTPTEIKKSVYNMVV Influenza B virus 207 43 0.207729469
83399 TRPIIRPATLAPPSNKRTRNPSPERATTSSEADVGRKTQKKQTPIEIKKSVYNMVV Influenza B virus 207 41 0.198067633
81658 YYTGAHAKAIGNCPIWVKTPLKLANGTKYRPPAKLLKER Influenza B virus 207 41 0.198067633
81629 TGEHAKAIGNCPIWVKTPLKLANGTKYRPPAKLLKER Influenza B virus 207 41 0.198067633
81682 VTSNADRICTGITSSNSPHVVKTATQGEVNVTGVIPLTTTPTKSHFANLKGTQTRG Influenza B virus 207 41 0.198067633
81703 QGEVNVTGVIPLTTTPTKSHFANLKGTKTRGKLCPKCLNCTDLDVAFGRPKCMGT Influenza B virus 207 41 0.198067633
83381 MSNMDIDGINTGTIDKTPEEITSGTSGATRPIIKPATLAPPSNKRTRNPSPERATT Influenza B virus 207 38 0.183574879
81758 TPLKLANGTKYRPPAKLLKERGFFGAIA Influenza B virus 207 37 0.178743961
81638 LHAKYGGLNKSKPYYTGEHAKAIGNCPIWVKTPLKLANGTKYRPPAKLLKER Influenza B virus 207 37 0.178743961
92858 TRPIIRPATLASPSNKRTRNPSPERATTSSEADVGRRTQKKQTPTEIKKSVYNMVV Influenza B virus 207 35 0.169082126
81681 DCLHEKYGGLNKSKPYYTGEHAKAIGNCPIWVKTPLKLANGTKYRPPAKLLKER Influenza B virus 207 35 0.169082126
83385 AVERILLAATDDKKTEYQKKKNARDVKEGKEEIDHNKTGGTFYKMVRDDKTIYFS Influenza B virus 207 31 0.149758454
81726 KVIKGSLPLIGQADCLHEKYGGLNKSKPYYTGEHAKAIGNCPIWVKTPLKLANGT Influenza B virus 207 30 0.144927536
81612 VIPLTTTPTKSHFANLKGTKTRGKLCPKCLNCTPLPVALGRPKCTGTIPSAKASI Influenza B virus 207 30 0.144927536
92857 MSNMDIDGINAGTIDKAPEETTSGTSGATRPIIRPATLASPSNKRTRNPSPERATT Influenza B virus 207 28 0.1352657
81804 VIPLTTTPTKSHFANLKGTKTRGKLCPNCLNCTDLDVALGRPMCMGTIPSAKASI Influenza B virus 207 28 0.1352657
35352 DCLHEKYGGLNKSKPYYTGEHAKAIGNCPIWVKTPLKLANGTKYRPPAKLLKERG Influenza B virus 207 25 0.120772947
94172 GEHAKAIGNCPIWVKTPLKLANGTKYRPPAKLLKKR Influenza B virus 207 24 0.115942029
81747 TATQGEVNVTGVIPLTTTPTKSHFANLKGTQTRGKLCPNCLNCTPLDVALGRPKCM Influenza B virus 207 23 0.111111111
81559 QGEVNVTGVIPLTTTPTRSHFANLKGTQTRGKLCPNCFNCTDLDVALGRPKCMGN Influenza B virus 207 22 0.106280193
81585 LHEKYGGLNKSKPYYTGEHAKAIGNCPIWVKTPLKLANGTKYRPPAKLLKERGFF Influenza B virus 207 22 0.106280193
96094 TRPIIRPATLAPPSNKRTRNPSPERATTSSEDDVGRKTQKKQTPTEIKKSVYNMVV Influenza B virus 207 22 0.106280193
30999 KLGEFYNQMMVKAGLNDDMERNLIQNAHAVERILLAATDDKKTEFQKKKNARPVK Influenza B virus 207 21 0.101449275
92825 RHSYQKEIQAKETMKEALSNKMEILSDHIVIEGLSAEEIIKMGETVLEVEEL Influenza B virus 207 20 0.096618357
81569 NKSKPYYTGEHAKAIGNCPRWVKTPLKLANGTKYRPPAKLLKERGFFGAIAGFLE Influenza B virus 207 19 0.09178744
81669 PQKVWCASGRSKVIKRSLPLIGEADCLHEKYGGLNKSKPYYTGEHAKAIGNCPIW Influenza B virus 207 18 0.086956522
81782 QGEVNVTGVIPLTTTPTKSHFANLKGTKTRGKLCPKCLNCTDLDVALGRPKCMGT Influenza B virus 207 17 0.082125604
83401 KLGEFYNQMMVKAGLNPDMERKLIQNAHAVERILLAATDDKKTEFQRRKNARDVK Influenza B virus 207 17 0.082125604
81712 VWCASGRSKVIKGSLPLLGEADCLHEKYGGLNKSKPYYTGEHAKAIGNCPRWVKT Influenza B virus 207 17 0.082125604
81637 LLPQKVWCASGRSKVIKGSLPLIGEADCLHAKYGGLNKSKPYYTGEHAKAIGNC Influenza B virus 207 16 0.077294686
81657 KVIKGSFPLIGEADCLHEKYGALNKSKPYYTGAHAKAIGNCPIWVKTPLKLANGTR Influenza B virus 207 16 0.077294686
81602 KVIKGSLPLIGEAPCLHEKYGGLNKSKPYYTGEHAKALGNCPLWVKTPLKLANGTR Influenza B virus 207 16 0.077294686
32519 DVQKLAEELQSNIGVLRSLGASQKNGEGIAKDVMEVLKQSSMGNSALVKKY Influenza B virus 207 15 0.072463768
81692 SGRSKVIKGSLPLIGEADCLHEKYGGLNKSKPYYTGEHAKAIGNCPIWVKTPLKLA Influenza B virus 207 14 0.06763285
31000 AVERILLAATDDKKTEFQKKKNARDVKEGKEEIDHNKTGGTFYKMVRDDKTIYFS Influenza B virus 207 13 0.062801932
81683 VNVTGVIPLTTTPTKSHFANLKGTQTRGKLCPNCLNCTDMDVALGRPKCMGTIPSA Influenza B virus 207 13 0.062801932
81556 LLPQKVWCASGRSKVIKGSLPLIGEADCLHEKYGGLNKSKPYYTGEHAKAIGNCP Influenza B virus 207 13 0.062801932
83394 GGNEVGGPGGSGQISCSPVFAVERPIALSKQAVRRMLSMNIEGRPAPVKGNLLKMM Influenza B virus 207 13 0.062801932
81699 LGPSAVEIGNGCFETKHKCNQTCLDRIAAGTFNAGEFSLPTFDSLNITAASLNDD Influenza B virus 207 12 0.057971014
30997 TRPIIRPATLAPPSNKRTRNPSPERATTSSEADIGRRTQKKQTPTEIKKSVYNMVV Influenza B virus 207 12 0.057971014
81568 ASGRSKVIKGSLPLIGEAPCLHEKYGGLNKSKPYYTGEHAKAIGNCPIWVKTPLK Influenza B virus 207 11 0.053140097
93249 TRPIIRPATLAPPSNKRTRNPSPEGATTSSEAPVGRKTQKKQTPTEIKKSVYNMVV Influenza B virus 207 11 0.053140097
81575 MLGPSAVDIGNGCFETKUKCNQTCLDRIAARTFSAGEFSLPTFDSLNITAASLNDI Influenza B virus 207 11 0.053140097
83407 PVEIPIKQTIPNFFFGRPTAEDYDDLDY Influenza B virus 207 11 0.053140097
81719 LKKMLGPSAVDIGNGCFETKHKCNQTCLPRIAAGTFNAGEFSLPTFPSLNITAAS Influenza B virus 207 11 0.053140097
81628 IKGSLPLIGEADCLHEKYGGLNKSKPYYTGEHAKAIGNCPIWVKTPLKLANGTKY Influenza B virus 207 10 0.048309179
92860 NDSMAKKTNGNAFIGKKMFQISDKNKTNPEIPIKQTIPSFFFGRDTAEDYDDLDY Influenza B virus 207 10 0.048309179
93152 NQIKRGVNMKIRIKNPNKETINREVSILRHSYQKEIQAKETMKEVLSDNMEVLSD Influenza B virus 207 10 0.048309179
96099 NDSMAKKTSGNAFIGKKMFQISPKNKTNPIEIPIKQTIPNFFFGRDTAEDYDDLDY Influenza B virus 207 9 0.043478261
96100 PIEIPIKQTIPNFFFGRDTAEDYDDLDY Influenza B virus 207 9 0.043478261
81779 KMLGPSAVDIGNGCFETKHKCNQTCLPRIAAGTFNAGEFSLPTFDSLNITAASLN Influenza B virus 207 9 0.043478261
81573 EMDGLHNEILELDEKVDDLRADTISSQIELAVLLSNEGIINSEDEHLLALERKLK Influenza B virus 207 9 0.043478261
92824 SQIKRGVNLKIRIRNPNKETINREVSILRHSYQKEIQAKETMKEALSNKMEILSD Influenza B virus 207 9 0.043478261
94171 KGSLPLIGEAPCLHEKYGGLNKSKPYYTGEHAKAIGNCPIWVKTPLKLANGTKYR Influenza B virus 207 9 0.043478261
81713 GGLNKSKPYYTGEHAKAIGNCPIWVKTPLKLANGTKYRPPAKLLKERGFFGAIAG Influenza B virus 207 8 0.038647343
81756 QKVWCASGRSKVIKGSLPLIGEAPCLHEKYGGLNKSKPYYTGEHAKAIGNCPIWV Influenza B virus 207 8 0.038647343
32518 SVPGVRREMQMVSAVNTAKTMNGMGKGEPVQKLAEELQSNIGVLRSLGASQKNGE Influenza B virus 207 8 0.038647343
35351 GILLPQKVWCASGRSKVIKGSLPLIGERDCLHEKYGGLNKSKPYYTGEHAKAIGN Influenza B virus 207 8 0.038647343
81772 CASGRSKVIKGSLPLIGEADCLHEKYGGLNKSKPYYTGEHAKAIGNCPIWVKTPL Influenza B virus 207 7 0.033816425
81601 QKSGKTGTITYQRGILLPQKVWCASGRSKVIKGSLPLIGEADCLHEKYGGLNKSK Influenza B virus 207 7 0.033816425
65643 DDLRADTISSQIELAVLLSNEGIINSEDEHLLALERKLKKMLGPSAVDIGKGCFE Influenza B virus 207 6 0.028985507
81680 GILLPQKVWCASGRSKVIKGSLPLIGEADCLHEKYGGLNKSKPYYTGEHAKAIGN Influenza B virus 207 6 0.028985507
82808 SVPGVRREMQMVSAMNTAKTMNGMGKGEDVQKLAEELQSNIGVLRSLGASQKNGE Influenza B virus 207 6 0.028985507
83395 SKQAVRRMLSMNIEGRDADVKGNLLKMMNDSMAKKTNGNAFIGKKMFQISDKNKI Influenza B virus 207 6 0.028985507
81768 PKDNKTATDPLTIEVPYICTKGEDQITVWGFHSDNKNQMVKLYGDSKPQKFTSSA Influenza B virus 207 6 0.028985507
32514 KALIGASICFLKPKDQERKRRFITEPLSGMGTTATKKKGLILAERKMRRCVSFHEA Influenza B virus 207 6 0.028985507
84051 TDTAEIRLMCTETYLDTPRPDDGSITGPCESNGDKGRGGIKGGFVHQRMASKIGRW Influenza B virus 207 6 0.028985507
81615 ATNSLTVEVPYICTEGEDQITVWGFHSDNETQMVKLYGDSKPQKFTSSAKGVTTHY Influenza B virus 207 5 0.024154589
81693 KSKPYYTGEHAKAIGNCPIWVKTPLKLANGTKYRPPAKLLKERGFFGAIAGFLEG Influenza B virus 207 5 0.024154589
81718 SQIELAVLLSNEGIINSEDEHLLALERKLKKMLGPSAVDIGNGCFETKHKCNQTC Influenza B virus 207 5 0.024154589
81708 PKNNNNKTATNPLTVEVPFICTEGEDQITVWGFHSDNEIQMVKLYGDSKPQKFTSS Influenza B virus 207 5 0.024154589
83402 AVERILLAATDDKKTEFQRKKNARDVKEGKEEIDHNKTGGTFYKMVRDDKTIYFS Influenza B virus 207 5 0.024154589
93210 KALIGASICFLKPKDQERKRRFITEPLSGMGTTATKKKGLILAERKMRKCVSFHEA Influenza B virus 207 5 0.024154589
81725 QKSGKTGTITYQRGILLPQKVWCASGRSKVIKGSLPLIGQADCLHEKYGGLNKSK Influenza B virus 207 5 0.024154589
81627 PGKTGTIVYQRGVLLPQKVWCASGRSKVIKGSLPLIGEADCLHEKYGGLNKSKPYY Influenza B virus 207 5 0.024154589
81624 DPLTVEVPYICTKGEDQITVWGFHSDNEAQMVKLYGDSKPQKFTSSANGVTTHYVS Influenza B virus 207 5 0.024154589
81773 LNKSKPYYTGEHAKAIGNCPIWVKTPLKLANGTKYRPPAKLLKERGFFGAIAGFL Influenza B virus 207 5 0.024154589
96147 TDTAEIRLMCTDTYLDTPRPNDGSITGPCESNGDKGSGGIKGGFVHQRMESKIGRW Influenza B virus 207 5 0.024154589
84012 DTAEIRLMCTETYLDTPRPDDGSITGPCESNGDKGRGGIKGGFVHQRMASKIGRWY Influenza B virus 207 5 0.024154589
81570 ANGTKYRPPAKLLKERGFFGAIAGFLEGGWEGMIDGWHGYTSHGAHGVAVAADLK Influenza B virus 207 5 0.024154589
93245 TPKKLKWEDLRPIGPHIYNHELPEVPYNAFLLMSDELGLANMTEGKSKKPKILAK Influenza B virus 207 4 0.019323671
94170 GKTGTIAYQRGVLLPQKVWCASGRSKVIKGSLPLIGEADCLHEKYGGLNKSKPYY Influenza B virus 207 4 0.019323671
35348 TEGEDQITVWGFHSDNEAQMVKLYGDSKPQKFTSSANGVTTHYVSQIGGFPNQAE Influenza B virus 207 4 0.019323671
81697 MDELHNEILELDEKVDDLRADTISSQIELAVLLSNEGIINSEDEHLLALERKLKM Influenza B virus 207 4 0.019323671
83384 KLGEFYNQMMVKAGLNDDMERNLIQNAHAVERILLAATDDKKTEYQKKKNARDVK Influenza B virus 207 4 0.019323671
81784 PKNNNNKTATNPLTVEVPFICTEGEDQITVWGFHSDSETQMVKLYGDSKPQKFTSS Influenza B virus 207 4 0.019323671
79410 NQIKRGVNLKIRIRNPKKETINREVSILRHSYQKEIQAKETIKEVLSDNMERLSD Influenza B virus 207 4 0.019323671
81777 GAMDELHNEILELDEKVDDLRADTISSQIELAVLLSNEGIINSEDEHLLALERKL Influenza B virus 207 4 0.019323671
81785 TVWGFHSPSETQMVKLYGPSKPQKFTSSANGVTTHYVSQIGGFPKQAEDGGLPQS Influenza B virus 207 4 0.019323671
93231 TEGEDQITVWGFHSDDETQMVKLYGDSKPQKFTSSANGVTAHYVSQIGGFPNQAE Influenza B virus 207 4 0.019323671
32469 TPKKLKWEDLRPIGPHIYNHELPEVPYNAFLLMSDELGLANMTEGKSKKPKILAK Influenza B virus 207 4 0.019323671
81656 QKSGKTGTITYQRGILLPQKVSCPSGRSKVIKGSFPLIGEADCLHEKYGALNKSK Influenza B virus 207 4 0.019323671
81610 ATNPLTVEVPYLCTEGEDQITVWGFHSDNETQMVKLYGDSKPQKFTSSANGVTAHY Influenza B virus 207 3 0.014492754
96098 SKQAVRRMLSMNIEGRDADVKGNLLKMMNDSMAKKTSGNAFIGKKMFQISDKNKT Influenza B virus 207 3 0.014492754
81611 NETQMVKLYGDSKPQKFTSSANGVTAHYVSQIGGFPNQAEDGGLPQSGRIVVDYMV Influenza B virus 207 3 0.014492754
81732 MHDRTKIRQLPNLLRGYENIRLSTRNVINAERAPGGPYIIGTSGSCPNVTNGNGF Influenza B virus 207 3 0.014492754
96107 TPKKLTWEDLRPIGPHIYDHELPEVPYNAFLLMSDELGLANMTEGKSKKPKTLAK Influenza B virus 207 3 0.014492754
81580 MHPRTKIRQLPNLLRGYENIKLSTRNVRNAERAPGGPYIIGTSGSCPNVTNGNGF Influenza B virus 207 3 0.014492754
84293 PNGYKSLSTLDRLNAYDQSGRLVAKLVATDDLTVEPEEDGHRILNSLFERFNEGH Influenza B virus 207 3 0.014492754
84167 PLTLEVPYICTKGEDQITWGFHSDDETQMVKLYGPSKPQKFTSSANGVTTHYVS Influenza B virus 207 3 0.014492754
81700 AGTFNAGEFSLPTFDSLNITAASLNDDGLDNHTILLYYSTAASSLAVTLMIAIF Influenza B virus 207 3 0.014492754
92859 SSEADVGRRTQKKQTPTEIKKSVYNMVVKLGEFYNQMMVKAGLNDDMERNLIQNA Influenza B virus 207 3 0.014492754
81560 TRGKLCPNCFNCTDLDVALGRPKCMGNIPSAKVSVLHEVKPVTSGCFPIMHDRTK Influenza B virus 207 3 0.014492754
83397 PVDIPIKQTIPNFFFGRDTAEDYDDLDY Influenza B virus 207 3 0.014492754
96158 ANLKGTETRGKLCPKCLNCTDLDVALGRPKCTGKIPSARVSILHEVRPVTSGCFP Influenza B virus 207 3 0.014492754
81607 NETQMVKLYGDSKPQKFTSSANGVTTHYVSQIGGFPNQAEDGGLPQSGRIVVDYMV Influenza B virus 207 3 0.014492754
81750 TKIRQLPNLLRGYENIRLSARNYINAETAPGGPYIVGTSGSCPNVTNGKGFFATMA Influenza B virus 207 3 0.014492754
81774 LANGTKYRPPAKLLKERGFFGAIAGFLEGGWEGMLAGWHGYTSHGAHGVAVAADL Influenza B virus 207 3 0.014492754
94971 TDTAEIRLMCTETYLDTPRPDDGSITGPCESNGEKGRGGIKGGFVHQRMASKIGRW Influenza B virus 207 3 0.014492754
81787 LSGAMDELHNEILELPEKVPDLRADTISSQIELAVLLSNEGIINSEPKHLLALER Influenza B virus 207 3 0.014492754
81606 ATNPLTVEVPYICTEGEPQITVWGFHSPNETQMVKLYGPSKPQKFTSSANGVTTHY Influenza B virus 207 3 0.014492754
96168 TEGEDQITVWGFHSDDETQMAKLYGDSKPQKFTSSANGVTTHYVSQIGGFPNQTED Influenza B virus 207 3 0.014492754
96163 TEGEDQITVWGFHSDNETQMAKLYGDSKPQKFTSSANGVTTHYVSQIGGFPNQTED Influenza B virus 207 3 0.014492754
96167 ATMAWAVPKNDKNKTATNPLTIEVPYICTEGEDQITVWGFHSDDETQMAKLYGDSK Influenza B virus 207 3 0.014492754
81709 TVWGFHSDNEIQMVKLYGDSKPQKFTSSANGVTTHYVSQIGGFPKQAEDGGLPQS Influenza B virus 207 3 0.014492754
24891 HKRIKCPDCEPFCNKRDDISTPRAGVPDIPSFILPGLNLSEGTPN Influenza B virus 207 3 0.014492754
32502 KGVVVTKNVIDDFSSTETEKVSITKNLSLIKRTGEVIMGANDVSELESQAQLMITY Influenza B virus 207 2 0.009661836
81790 TEGEDQITVWGFHSDSETQMVKLYGDSKPQKFTSSANGVTTHYVSQIGGFPKQAED Influenza B virus 207 2 0.009661836
81661 KGTKTRGKLCPKCLNCTDLDVALGRPKCMGTIPSAKASILHEVKPVTSGCFPIMHD Influenza B virus 207 2 0.009661836
84258 CPNCNWADYPPTPGKYLDDIEEVPENVDDPTEIVLRDMNNKDARQKIKEEVNTQK Influenza B virus 207 2 0.009661836
81641 MHDRTKIIQLPNLLRGYENIRLSTHNVINAERAPGGPYRLGTSGSCPNVTSRSGF Influenza B virus 207 2 0.009661836
83386 IMIGHSQMNDVCFQRSKALKRVGLDPSLISTFAGSTLPRRSGATGVAIKGGGTLVA Influenza B virus 207 2 0.009661836
32443 LVVENLAKNICENLEQSGLPVGGNEKKAKLSNAVAKMLSNCPPGGISMTVTGDNT Influenza B virus 207 2 0.009661836
81678 TEGEDQITVWGFHSDNETQMVKLYGDSKPQKFTSSANGVTTHYVSQIGGFPNQAED Influenza B virus 207 2 0.009661836
81625 AQMVKLYGDSKPQKFTSSANGVTTHYVSQIGGFPNQTEDGGIPQSGRIVVDYMVQK Influenza B virus 207 2 0.009661836
81689 FHSPPETLMVILYGPSKPQKFTSSANGVTTHYVSQIGGFPNQTEDEGLKQSGRIVV Influenza B virus 207 2 0.009661836
84290 CPNCNWADYPPTPGKYLDDIEEEPENVDDPTEIVLRDMNNKDARQKIKEEVNTQK Influenza B virus 207 2 0.009661836
81617 NEIQMVKLYGPSKPQKFTSSANGVTTHYVSQIGGFPNQAEDGGLPQSGRIVVDYMV Influenza B virus 207 2 0.009661836
96154 KGIVVTRNVLDDFSSIETEKVSITKNLSLIKRTGEVIMGAKPVSELESQAQLMITY Influenza B virus 207 2 0.009661836
33536 TDTAEIRLMCTETYLPTPRPDDGSITGPCESNGDKGLGGIKGGFVHQRMASKIGRW Influenza B virus 207 2 0.009661836
32521 NQIKRGVNLKIRIRNPNKETINREVSILRHSYQKEIQAKETMKEVLSPNMEILSDH Influenza B virus 207 2 0.009661836
96162 ATMAWAVPKNDKNKTATNPLTIEVPYICTEGEDQITVWGFHSDNETQMAKLYGPSK Influenza B virus 207 2 0.009661836
96161 NAENAPGGPYKIGTSGSCPNITNGNGFFATMAWAVPKNPKNKTATNPLTIEVPYI Influenza B virus 207 2 0.009661836
81698 LAVLLSNEGIINSEPEHLLALERKLKKMLGPSAVEIGNGCFETKHKCNQTCLDRI Influenza B virus 207 2 0.009661836
96148 CESNGDKGSGGIKGGFVHQRMESKIGRWYSRTMSKTERMGMGLYVKYPGDPWADSD Influenza B virus 207 2 0.009661836
84260 PNGDKSLSTLHRLNAYDQSGRLVAKLVATDDLTVEDEEDGHRILNSLFERFNEGH Influenza B virus 207 2 0.009661836
81654 DETQMVKLYGDSKPQKFTSSANGVTTHYVSQIGGFPNQAEDGGLPQSGRIVVDHMV Influenza B virus 207 2 0.009661836
81653 ATNPLTVEVPFICTEGEDQITVWGFHSDDETQMVKEYGDSKPQKFTSSANGVTTHY Influenza B virus 207 2 0.009661836
81802 TEGEPQITVWGFHSDNEIQMVKLYGDSKPQKFTSSANGVTTHYVSQIGGFPNQAED Influenza B virus 207 2 0.009661836
93228 MHPRTKIRQLPNLLRGYENIRLSTHNVINAETAPGGPYKIGTSGSCPNITNGNGF Influenza B virus 207 2 0.009661836
81550 MHPRTKIRQLPNLLRGYENIRLSTHNVINAERAPGGPYRLGTSGSCPNVTSKSGF Influenza B virus 207 2 0.009661836
83400 SSEADVGRKTQKKQTPTEIKKSVYNMVVKLGEFYNQMMVKAGLNDDMERNLIQNA Influenza B virus 207 2 0.009661836
84254 PNGYKTLSTLHRLNAYDQSGRLVAKLVATDDLTVEDEEDGHRILNSLFERFKEGH Influenza B virus 207 2 0.009661836
94168 QMVKLYGDSKPQKFTSSANGVTTHYVSQIGGFPNQAEDEGLPQSGRIVVDYMVQKI Influenza B virus 207 2 0.009661836
81596 GYENIRLSTHNVINAETAPGGPYIVGTSGSCPNVTNGNGFFATMAWAVPKNNNNKT Influenza B virus 207 2 0.009661836
92623 CKRIKCSGCEPFCNKRDDTSSLRTGVDIPSFILPGLNLSESTPN Influenza B virus 207 2 0.009661836
81724 ATNPLTVEVPYICTEGEDQITVWGFHSDNEIQMVKLYGDSKPQKFTSSANGVTTHY Influenza B virus 207 2 0.009661836
93241 LVVENLAKNICENLEQSGLPVGGNEKKAKLSNAVAKMLSNCPPGGVSMTVTGDNT Influenza B virus 207 2 0.009661836
93148 IVVENLAKNICENLEQSGLPVGGNEKKAKLSNAVAKMLSNCPPGGISMTVTGDNT Influenza B virus 207 2 0.009661836
81574 ELAVLLSNEGIINSEDEHLLALERKLKKMLGPSAVDIGNGCFETKHKCNQTCLDR Influenza B virus 207 2 0.009661836
93195 IMIGHSQMNDVCFQRSKALKRVGLDPSLISTFAGSTLPRRSGATGVAIKGGGTLVV Influenza B virus 207 2 0.009661836
93223 QYNIIRKFNTSRIEKNPSLRMKWAMCSNFPLALTKGDMANRIPLEYKRIQLKTNA Influenza B virus 207 2 0.009661836
47950 PNGYKSLSTLHRLNAYDQSGRLVAKLVATDDLTVEDEEDGHRILNSLFERFNEGH Influenza B virus 207 2 0.009661836
81599 DETQMVKLYGDSKPQKFTSSANCVTTHYVSQIGGFPNQAEDGGLPQSGRIVVDYMV Influenza B virus 207 2 0.009661836
96096 IMIGHSQMNDVCFQRSKALKRVGLDPSLISTFAGSTVPRRSGATGVAIKGGGTLVA Influenza B virus 207 2 0.009661836
81598 ATNPLTVEVPFICTKGEDQITVWGFHSDDETQMVKLYGPSKPQKFTSSANGVTTHY Influenza B virus 207 2 0.009661836
93072 ASNVQAVNRSATKGMTLLLSEPEWTYPRLSCQGSTFQKALLISPHRFGETRGNSA Influenza B virus 207 2 0.009661836
89351 QGALTLSLPKQQDSLPDTKASGPAHSKEVPALTAVETGATNPLAPSDTVQTRHVV Enterovirus C 185 151 0.816216216
95293 MIDNTVRETVGAATSRDALPNTEASGPAHSKEIPALTAVETGATNPLVPSDTVQT Enterovirus C 185 139 0.751351351
21598 IDNTVRETVGAATSRDALPNTEASGPTHSKEIPALTAVETGATNPLVPSDTVQTRH Enterovirus C 185 138 0.745945946
95497 VAQGALTLSLPKQQDSLPDTKASGPAHSKEVPALTAVETGATNPLAPSDTVQTRHV Enterovirus C 185 138 0.745945946
95330 DALPNTEASGPAHSKEIPALTAVETGATNPLVPSDTVQTRHVVQHRSRSESSIES Enterovirus C 185 134 0.724324324
7243 SNALQLSQPNRPALPPAEQSVPNTNQTTPEHSKEVPALTAVETGATNPLEPGDTV Enterovirus C 185 132 0.713513514
89279 WNALALSLPKPQSNLPDTKASGPAHSKEVPTLTAVETGATNPLVPSDTVQTRHVI Enterovirus C 185 112 0.605405405
89239 IDNTVRETVGAATSRDALPNTEASGPAHSKEIPALTAVETGATNPLVPSDTVQTR Enterovirus C 185 110 0.594594595
37491 TAIKNALRVSQPLRPSQLKQPNGVNSQEVPALTAVETGASGQAIPSDVVETRHVI Enterovirus C 185 107 0.578378378
95329 ALAQGLGQMLESMIDNTVRETVGAATSRDALPNTEASGPAHSKEIPALTAVETGA Enterovirus C 185 106 0.572972973
95356 ITKNALVPPTSTNSLPDTKPSGPAHSKEIPALTAVETGATNPLVPSDTVQTRHVI Enterovirus C 185 103 0.556756757
94986 NTEASGPAHSKEIPALTAVETGATNPLVPSDTVQTRHVVQHRSRSESSIESFFAR Enterovirus C 185 99 0.535135135
24228 EGVTRNALTPLTPANNLPDTQSSGPAHSKETPALTAVETGATNPLVPSDTVQTRHV Enterovirus C 185 95 0.513513514
95378 LPNTEASGPAHSKEIPALTAVETGATNPLVPSPTVQTRHVVQHRSRSESSIESFFA Enterovirus C 185 88 0.475675676
42655 VISNALQLSQPKPQKQLTAQSTPSTSGVNSQEVPALTAVETGVSGQAIPSDVIET Enterovirus C 185 84 0.454054054
95357 IPALTAVETGATNPLVPSDTVQTRHVIQRRTRSESTVESFFARGACVAIIEVDNDA Enterovirus C 185 81 0.437837838
95498 KEVPALTAVETGATNPLAPSDTVQTRHVVQRRSRSESTIESFFARGACVAIIEVDN Enterovirus C 185 77 0.416216216
89352 VPALTAVETGATNPLAPSDTVQTRHVVQRRSRSESTIESFFARGACVAIIEVDNE Enterovirus C 185 73 0.394594595
95377 AQGLGQMLESMIDNTVRETVGAATSRDALPNTEASGPAHSKEIPALTAVETGATN Enterovirus C 185 71 0.383783784
37950 EGVTRNALTPLTPVNNLPDTRSSGPAHSKETPALTAVETGATNPLVPSDTVQTRHV Enterovirus C 185 67 0.362162162
24229 KETPALTAVETGATNPLVPSDTVQTRHVIQKRTRSESTVESFFARGACVAIEEVDN Enterovirus C 185 64 0.345945946
89386 PTKTKLEPSAFHYVFEGVKEPAVLTKNDPRLKTDFEEAIFSKYVGNKITEVDEYMK Enterovirus C 185 59 0.318918919
42656 NSQEVPALTAVETGVSGQAIPSDVIETRHVVNYKTRSESTLESFFGRSACVTMLEV Enterovirus C 185 57 0.308108108
95063 QGPLQYKDLKIPVKTSPPPECINDLLQAVDSQEVRDYCEKKGWIVNITSQVQTER Enterovirus C 185 56 0.302702703
21599 SKEIPALTAVETGATNPLVPSDTVQTRHVVQHRSRSESSIESFFARGACVTLMTVD Enterovirus C 185 56 0.302702703
37471 TINYYKDSASNSATRQDLSQDPSKFTEPVKDLMLKTAPALNSPNVEACGYSDRVR Enterovirus C 185 52 0.281081081
7258 LITAGGNGVVAFADIRDLYVEEEAMEQGITSYIESLGAAFGSGFTSQIGEKISE Enterovirus C 185 47 0.254054054
94985 GLGQMLESMIDNTVRETVGAATSRDALPNTEASGPAHSKEIPALTAVETGATNPLV Enterovirus C 185 45 0.243243243
89280 VPTLTAVETGATNPLVPSDTVQTRHVIQQRSRSESTIESFFARGACVAIIEVDNE Enterovirus C 185 45 0.243243243
37492 VPALTAVETGASGQAIPSDVVETRHVINYKTRSESCLESFFGRAACVTILSLTNS Enterovirus C 185 43 0.232432432
95322 YPIINAPSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLKTNFEEAEFSKYVGNKIT Enterovirus C 185 42 0.227027027
21640 INAPSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLKTDFEEAIFSKYVGNKITEVD Enterovirus C 185 40 0.216216216
89365 VAFSPIRDLYAYEEEAMEQGISNYIESLGAAFGSGFTQQIGDKISELTSMVTSTI Enterovirus C 185 40 0.216216216
89247 EGLVAFTDIRDLYAYEEEAMEQGITNYIESLGAAFGSGFTQQIGDKITELTNMVTS Enterovirus C 185 39 0.210810811
42635 TINYYKDSASNAASKLDFSQDPSKFTEPVKDIMLKSAPALNSPNVEACGYSDRVR Enterovirus C 185 36 0.194594595
24208 TINYYRPSASNAASKQDFAQDPSKFTEPIKDVLIKTAPTLNSPNIEACGYSDRVM Enterovirus C 185 34 0.183783784
95294 HSKEIPALTAVETGATNPLVPSDTVQTRHVVQHRSRSESSIESFFARGACVAIITV Enterovirus C 185 34 0.183783784
95424 NAPSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLRTDFEEAIFSKYVGNKITDVDEY Enterovirus C 185 34 0.183783784
37951 KETPALTAVETGATNPLVPSDTVQTRHVIQKRTRSESTVESFFARGACVAIIEVD Enterovirus C 185 30 0.162162162
95234 YPIINAPSKTKLEPSAFHYVFEGVKEPAVLTKNPPRLRTDFEEAIFSKYVGNKITD Enterovirus C 185 30 0.162162162
7223 TINYYKDSASNAASKQPDSQDPSKFTEPVKDVLIKSAPALNSPNIEACGYSDRVM Enterovirus C 185 30 0.162162162
21578 TINYYRDSASNAASKQPDSQPPSKFTEPIKDVLIKTAPMLNSPNIEACGYSPRVL Enterovirus C 185 30 0.162162162
37992 APSKTKLEPSAFHYVFEGVKEPAVLTKSDPRLKTDFEEAIFSKYVGNKITEVDEYM Enterovirus C 185 30 0.162162162
7244 PEHSKEVPALTAVETGATNPLEPGDTVQTRHVIQTRSRSESTVESFFARGACVTIM Enterovirus C 185 30 0.162162162
95010 IINAPSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLRTDFEEAIFSKYVGNKITDVD Enterovirus C 185 30 0.162162162
95036 EVGYPIINAPSKTKLEPSAPHYVFEGVKEPAVLTKNDPRLRTDFEEAIFSKYVGNK Enterovirus C 185 29 0.156756757
89294 VAFSDIRDLYAYEEEAMEQGISSYVESLGAAFGSGFTQQIGDKIIELTGMVTSTI Enterovirus C 185 29 0.156756757
95006 HYVFEGVKEPAVLTKNDPRLRTDFEEAIFSKYVGNKITDVDEYMKEAVDHYAGQLM Enterovirus C 185 28 0.151351351
89240 SKEIPALTAVETGATNPLVPSDTVQTRHVVQHRSRSESSIESFFARGACVAIITVD Enterovirus C 185 28 0.151351351
95108 PIINAPSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLKTNFEEAIFSKYVGNKITEV Enterovirus C 185 28 0.151351351
24243 LVAFSDIRDLYAYEEEAMEQGVSNYIESLGAAFGSGFTQQIGNKISELTSMVTST Enterovirus C 185 27 0.145945946
89385 KRSYFTQSQGEIQWMRPSKEAGYPIINAPTKTKLEPSAFHYVFEGVKEPAVLTKND Enterovirus C 185 26 0.140540541
21641 KNPPRLKTDFEEAIFSKYVGNKITEVDEYMKEAVDHYAGQLMSLDINTEQMCLEDA Enterovirus C 185 26 0.140540541
95257 KNPPRLRTDFEEAIFSKYVGNKITDVDEYMKEAVDHYAGQLMSLDINTEQMCLEDA Enterovirus C 185 26 0.140540541
95216 PGTGKSVATNLIARAIAEKENTSTYSLPPPPSHFPGYKQQGVVIMDPLNQNPPGAD Enterovirus C 185 25 0.135135135
95211 DLTTSAGYPYVAMGKKKRDILNKQTRPTKEMRRLLD Enterovirus C 185 25 0.135135135
89321 PSKTKLEPSAFHYVFEGVKEPAVLTKNDPRFKTGFEEAIFSKYVGNKITEVDEYMK Enterovirus C 185 24 0.12972973
95143 PAVLTKNDPRLRTDFEEAIFSKYVGNKITDVDEYMKEAVDHYAGQLMSLDINTEQM Enterovirus C 185 24 0.12972973
95492 GYPIINAPSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLRTDFEEAIFSKYVGNKIT Enterovirus C 185 24 0.12972973
37991 LKRSYFTQSQGEIQWMRPSKEVGYPVINAPSKTKLEPSAFHYVFEGVKEPAVLTKS Enterovirus C 185 23 0.124324324
95469 FEEAIFSKYVGNKITEVDEHMKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEA Enterovirus C 185 23 0.124324324
95175 AVLTKNDPRLRTDFEEAIFSKYVGNKITDVDEYMKEAVDHYAGQLMSLDINTEQM Enterovirus C 185 23 0.124324324
89229 TINYYRDSASNAASKQDFSQDPSKFTEPIKDVLIKTSPMLNSPNIEACGYSDRVL Enterovirus C 185 23 0.124324324
89259 TINYYKDSASNAASKQDYSQDPSKFTEPLKDVLIKTAPALNSPNVEACGYSDRVL Enterovirus C 185 23 0.124324324
7222 MGAQVSSQKVGAHENTWATGGSTVNYTTINYYKDSASNAASKQDFSQDPSKFTE Enterovirus C 185 22 0.118918919
95250 NDPRLRTDFEEAIFSKYVGNKITDVDEYMKEAVDHYAGQLMSLDINTEQMCLEDAM Enterovirus C 185 21 0.113513514
95526 LEPSAFHYVFEGVKEPAVLTKNDPRLRTDFEEAIFSKYVGNKITDVDEYMKEAVD Enterovirus C 185 21 0.113513514
89322 PRFKTGFEEAIFSKYVGNKITEVDEYMKEAVDHYAGQLMSLDINTEQMCLEDAMY Enterovirus C 185 21 0.113513514
89278 SVRLLRDTTHISQAAMPQGVDDLITEVAQNALALSLPKPQSNLPDTKASGPAHSK Enterovirus C 185 21 0.113513514
89252 KNDPRLKTNFEEAIFSKYVGNKITEVDEHMKEAVDHYAGQLMSLDINTEQMCLEDA Enterovirus C 185 21 0.113513514
95174 GYPIINAPSKTKLEPSVFHYVFEGVKEPAVLTKNDPRLRTDFEEAIFSKYVGNKIT Enterovirus C 185 21 0.113513514
95238 KKRDILNKQTRDTKEMRRLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEASS Enterovirus C 185 21 0.113513514
7285 VGYPIINAPSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLKTDFEEAIFSKYVGNK Enterovirus C 185 20 0.108108108
37930 TINYYRDSASNAASKQDFAQDPSKFTEPIKDVLIKTAPTLNSPNIEACGYSDRVM Enterovirus C 185 20 0.108108108
95527 DFEEAIFSKYVGNKITDVDEYMKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGL Enterovirus C 185 20 0.108108108
95039 MCLEDAMYGTDGLEALDLTTSAGYPYVAMGKKKRDILNKQTRDTKEMRRLLDTYG Enterovirus C 185 20 0.108108108
95355 RLLRDTTHTSQEAMPQGIGDMIEGAVEGITKNALVPPTSTNSLPDTKPSGPAHSK Enterovirus C 185 20 0.108108108
95025 MEALFQGPLQYKDLKIDVKTSPPPECINDLLQAVDSQEVRDYCEKKGWIVNITSQV Enterovirus C 185 20 0.108108108
37974 SVATNLIARAIAEKENTSTYSLPPDPSHFDGYKQQGVVIMDDLNQNPDGADMKLF Enterovirus C 185 20 0.108108108
95406 KSVATNLIARAIAEKENTSTYSLPPDPSHFDGYKQQGVVIMDDLNQNPDGADMKL Enterovirus C 185 19 0.102702703
95109 LTKNDPRLKTNFEEAIFSKYVGNKITEVDEHMKEAVDHYAGQLMSLDINTEQMCL Enterovirus C 185 19 0.102702703
24252 SVATNLIARAIAEKENTSTYSLPPDPSHFDGYKQQGVVLMDDLNQNPDGADMKLF Enterovirus C 185 19 0.102702703
95134 EALFQGPLQYKDLKIDVKTSPPPECINDLLQAVDSQEVRDYCEKKGWLVNITSQV Enterovirus C 185 19 0.102702703
95467 QSQGEIQWMRPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLKT Enterovirus C 185 18 0.097297297
95470 AGQLMSLDINTEQMCLEDAMYGTDGLEALDLSTSAGYPYVAMGKKKRDILNKQTR Enterovirus C 185 18 0.097297297
95005 IQWMKPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLRTDFEEA Enterovirus C 185 18 0.097297297
21613 EGLVAFSDIRDLYAYEEEAMEQGITNYIESLGAAFGSGFTQQISDKITELTNMVTS Enterovirus C 185 18 0.097297297
95019 SLPPDPSHFDGYKQQGVVIMDDLNQNPDGADMKLFCQMVSTVEFIPPMASLEEKG Enterovirus C 185 18 0.097297297
42697 VGYPVINAPSKTKLEPSVFHHVFEGAKEPAVLTKNDPRLKTDFEEAIFSKYVGNK Enterovirus C 185 17 0.091891892
95425 NDPRLRTDFEEAIFSKYVGNKITDVDEYMKEAVDHYAGQLLSLDINTEQMCLEDAM Enterovirus C 185 17 0.091891892
95013 AMYGTDGLEALDLTTSAGYPYVAMGKKKRDILNKQTRDTKEMRRLLDTDGINL Enterovirus C 185 17 0.091891892
95468 EPSAFHYVFEGVKEPAVLTKNDPRLKTNFEEAIFSKYVGNKITEVDEHMKEAVDHY Enterovirus C 185 17 0.091891892
95428 ILNKQTRDTKEMQKLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEASSLNDSV Enterovirus C 185 17 0.091891892
95208 PSAFHYVFEGVKKPAVLTKNDPRLRTDFEEAIFSKYVGNKITDVDEYMKEAVDHYA Enterovirus C 185 16 0.086486486
95091 DPSHFDGYKQQGVVIMDDLNQNPDGADMKLFCQMVSTVEFIPPMASLEEKGILFTS Enterovirus C 185 16 0.086486486
95145 CLEDAMYGTDGLEALDLTTSAGYPYVAMGKKKRDILNKQTRDTKEMQKLLDTYGI Enterovirus C 185 16 0.086486486
37993 DPRLKTDFEEAIFSKYVGNKITEVDEYMKEAVDHYAGQLMSLDINTEQMCLEPAMY Enterovirus C 185 16 0.086486486
95127 GSPGTGKSVATNLIARAIAEKENTSTYSLPPDPSHFDGYKQQGVVIMDDLNQNPD Enterovirus C 185 16 0.086486486
89371 LEMLENQISTIHQSCPSQEHQEILFNNVRWLSIQSKRFAPLYALEAKRIQKLEHT Enterovirus C 185 16 0.086486486
95525 TQIQGEIQWMKPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLR Enterovirus C 185 15 0.081081081
95508 IARAIAEKENTSTYSLPPDPSHFDGYKQQGVVIMDDLNQNPDGADMKLFCQMVSTV Enterovirus C 185 15 0.081081081
95207 IQGEIQWMKPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLRTD Enterovirus C 185 15 0.081081081
89310 QYKDLKIDIKTTPPPECINDLLQAVDSQEVRDYCEKKGWIVNITSQVQTERNIKRA Enterovirus C 185 15 0.081081081
89350 SVRLLRDTTHISQSALPQGIEDLISEVAQGALTLSLPKQQDSLPDTKASGPAHSK Enterovirus C 185 15 0.081081081
42698 PAVLTKNDPRLKTDFEEAIFSKYVGNKITEVDEYMKEAVDHYAGQLMSLDINTEQM Enterovirus C 185 15 0.081081081
95018 HGSPGTGKSVATNLIARAIAEKENTSTYSLPPDPSHFDGYKQQGVVIMDDLNQNPD Enterovirus C 185 15 0.081081081
95223 LFQGPLQYKDLKIDVKTSPPPECINDLLQAVDSQEVRDYCEKKGWIVNITSQVQT Enterovirus C 185 15 0.081081081
95112 KRDILNKQTRDTKEMQKLLDTYGINLPLVTYVKDELKSKTKVEQGKSRLIEASSL Enterovirus C 185 14 0.075675676
95235 VLTKNDPRLRTDFEEAIFSKYVGNKITDVDEYMKEAVDHYAGQLMSLDINTEQMC Enterovirus C 185 14 0.075675676
95009 SAGYPYVAMGKKKRDILNKQTRDTKEMRRLLDTYGINLPLVTY Enterovirus C 185 14 0.075675676
95507 FKSKHRIEPVCLLVHGSPGTGKSVATNLIARAIAEKENTSTYSLPPDPSHFDGYK Enterovirus C 185 14 0.075675676
24227 SVRLLRDTTHISQEAMPQGLGDLIEGVVEGVTRNALTPLTPANNLPDTQSSGPAHS Enterovirus C 185 14 0.075675676
7286 PAVLTKNDPRLKTDFEEAIFSKYVGNKITEVDEYMKEAVDHYAGQLMSLDINTEQM Enterovirus C 185 13 0.07027027
7288 CLEDAMYGTPGLEALDLSTSAGYPYVAMGKKKRDILNKQTRDTKEMQRLLDTYGI Enterovirus C 185 13 0.07027027
37949 SVRLLRDTRMSQEVMPQGLGDLLEGVVEGVTRNALTPLTPVNNLPDTRSSGPAHS Enterovirus C 185 13 0.07027027
95325 EDAMYGTDGLEALDLSFSAGYPYVAMGKKKRDILNKQTRDTKEMQKLLDTYGINL Enterovirus C 185 12 0.064864865
7268 LPPDPAHFDGYKQQGVVIMDDLNQNPDGLDMKLFCQMVSTVEFIPPMASLEEKGI Enterovirus C 185 12 0.064864865
95529 ALDLTTSAGYPYVAMGKKKRDILNKQTRDTKEMRRLLDTYGINLPLVTYVKDELRS Enterovirus C 185 12 0.064864865
95037 EPAVLTKNDPRLRTDFEEAIFSKYVGNKITDVDEYMKEAVDHYAGQLMSLDINTE Enterovirus C 185 12 0.064864865
24269 LKRSYFTQSQGEIQWMRPSKEVGYPVINAPSKIKLEPSAFHYVFEGVKEPAVLTKS Enterovirus C 185 12 0.064864865
7267 GSPGTGKSVATSLMGRAIADKENTSTYSLPPDPAHFDGYKQQGVVIMDDLNQNPD Enterovirus C 185 12 0.064864865
95107 FAAALKRSYFTQSQGEIQWMRPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKEPA Enterovirus C 185 11 0.059459459
37532 KRSYFTQNQGEIQWMRSSKEVGYPIINAPSKTKLEPSAFHYVFEGVKEPAVLTKND Enterovirus C 185 11 0.059459459
95210 GQLMSLDINTEQMCLEDAMYGTDGLEALDLTTSAGYPYVAMGKKKRDILNKQTRD Enterovirus C 185 11 0.059459459
95090 GTGKSVATNLIARAIAEKENTSTYSLPPDPSHFDGYKQQGVVIMDDLNQNPDGADM Enterovirus C 185 10 0.054054054
51577 MGAQVSSQKVGAHENSNRAYGGSTINYTTINYYRDSASNAASKQDFSQDPSKFTE Enterovirus C 185 10 0.054054054
95274 HGFAAALKRSYFTQSQGEIQWMKPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKE Enterovirus C 185 10 0.054054054
21622 GKSVATNLIARAIAERENTSTYSLPPDPSHFDGYKQQGVVIMDDLNQNPDGAPMK Enterovirus C 185 10 0.054054054
89300 LEMLENQIATIHQSCPSQEHQEILFNNVRWLSIQSKRFAPLYALEAKRIQKLEHT Enterovirus C 185 10 0.054054054
42680 LPPDPTKFDGYKQQGVVIMDDLNQNPDGNDMKLFCQMVSTVEFIPPMASLEEKGI Enterovirus C 185 10 0.054054054
24259 LQYKDLKIDIKTTPPPECINDLLQAVDSQEVRDYCEKKGWIVDITSQVQTERNINR Enterovirus C 185 10 0.054054054
42696 SHGFAAALKRSYFTQSQGEIQWMRPSKEVGYPVINAPSKTKLEPSVFHHVFEGAK Enterovirus C 185 10 0.054054054
95237 EDAMYGTDGLEALDLTTSAGYPYVAMGKKKRDILNKQTRDTKEMRRLLDTYGINL Enterovirus C 185 10 0.054054054
24272 KEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLSTSAGYPYVAMGKKKRD Enterovirus C 185 10 0.054054054
95074 AMYGTDGLEALDLTTSAGYPYVAMGKKKRDILNKQTRDTKEMQKLLDTYGINLPLV Enterovirus C 185 10 0.054054054
95496 DFSVRLLRDTTHISQSALPQGIEDLISEVAQGALTLSLPKQQDSLPDTKASGPAH Enterovirus C 185 10 0.054054054
89390 NKQTRPTKEMQRLLDAYGINLPLVTYVKDELRSKTKVEQGKSRLIEASSLNDSVA Enterovirus C 185 9 0.048648649
95177 LEDAMYGTDGLEALDLTTSAGYPYVAMGKKKRDILKKQTRDTKEMRRLLDTYGIN Enterovirus C 185 9 0.048648649
95157 PPDPSHFDGYKQQGVVIMDDLNQNPDGADMKLFCQMVSTVEFIPPMASLEEKGIL Enterovirus C 185 9 0.048648649
89231 PEMCLAGDSNTTTMHTSYQNANPGEKGGTFTGTFTPDDNQTSPARRFCPVDYLFG Enterovirus C 185 9 0.048648649
95142 VGYPIINAPSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLRTDFEEAIFSKYVGNK Enterovirus C 185 9 0.048648649
21639 AALKRSYFTQSQGEIQWMRPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKEPAVL Enterovirus C 185 9 0.048648649
24270 APSKTKLEPSAFHYVFEGVKEPAVLTKSDPRLKTDFEEAIFSKYVGNKITEVDEYM Enterovirus C 185 8 0.043243243
95178 KKKRDILNKQTRDTKEMRRLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEASS Enterovirus C 185 8 0.043243243
95423 ALKRSYFTQSQGEIQWMKPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKEPAVLT Enterovirus C 185 8 0.043243243
37535 EAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLSTSAGYPYVAMGKKKRDI Enterovirus C 185 8 0.043243243
37534 PRLKTDFEEAIFSKYVGNKITEVDEYMKEAVDHYAGQLMSLDINTEQMCLEDAMY Enterovirus C 185 8 0.043243243
37533 PSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLKTDFEEAIFSKYVGNKITEVPEYM Enterovirus C 185 8 0.043243243
89325 NKQTRDTKEMQRLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEASSLNDSVAM Enterovirus C 185 8 0.043243243
95530 DTKEMRRLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEASSLNDSVAMRMAF Enterovirus C 185 8 0.043243243
95403 KQLEMLENQISTIHQSCPSQEHQEILFNNVRWLSIQSKRFAPLYAHEAKRIQKLE Enterovirus C 185 8 0.043243243
42671 ITSYIESLGAAFGSGFTNQIGEKVSELTSMVTSSITEKLLKTLIKIISTLVIISR Enterovirus C 185 8 0.043243243
95156 SPGTGKSVATNLIARAIAEKEKTSTYSLPPDPSHFDGYKQQGVVIMDDLNQNPDGA Enterovirus C 185 8 0.043243243
42700 CLEDAMYGTDGLEALDLSTSAGYPYVAMGKKKRDILNKQTRDTKEMQRLLDTYGI Enterovirus C 185 8 0.043243243
95326 KKRDILNKQTRDTKEMQKLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEASS Enterovirus C 185 8 0.043243243
37996 LNKQTRDTKEMQRLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEASSLNDSVA Enterovirus C 185 8 0.043243243
95515 KIDVKTSPPPECINDLLQAVDSQEVRDYCEKKGWIVNITSQVQTERNINRAMTIL Enterovirus C 185 8 0.043243243
95449 MEALFQGPLQYKDLKIDVKTSPAPECINDLLQAVDSQEVRDYCEKKGWIVNITSQV Enterovirus C 185 7 0.037837838
21623 SHFDGYKQQGVVIMDDLNQNPDGADMKLFCQMVSTVEFIPPMASLEEKGILFTSNY Enterovirus C 185 7 0.037837838
89258 MGAQVSSQKVGAHENSNRAYGGSTINYTTINYYKDSASNAASKQDYSQDPSKFTE Enterovirus C 185 7 0.037837838
89388 EAVDHYAGQLMSLDISTEQMCLEDAMYGTDGLEALDLSTSAGYPYVAMGKKKRDI Enterovirus C 185 7 0.037837838
42636 VKDIMLKSAPALNSPNVEACGYSDRVRQITLGNSTITTQEAANAVVAYGEWPSYLI Enterovirus C 185 7 0.037837838
95472 TKEMQKLLDTYGINLPLVTYVKDELRSKTKVEQGKS Enterovirus C 185 7 0.037837838
95146 GKKKRDILNKQTRDTKEMQKLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEAS Enterovirus C 185 7 0.037837838
95346 TYVKDELRSKTKVEQGKSRLIEASSLNDSVAMRMAFGNLYAAFHRNPGVVTGSAV Enterovirus C 185 7 0.037837838
95443 QTRDTKEMQKLLDTYGINLPLVTYVKDELRSKTKV Enterovirus C 185 7 0.037837838
21642 YMKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLSTSAGYPYVAMGKKK Enterovirus C 185 7 0.037837838
24271 DPRLKTDFEEAIFSKYVGNKITEVDEYMKEAVDHYAGQLMSLDINTEQMCLEDAMY Enterovirus C 185 7 0.037837838
95321 GFAAALKRSYFTQSQGEIQWMRPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKEPA Enterovirus C 185 7 0.037837838
89303 VATNLIARAIAEKENTSTYSLPPDPSHFDGYKQQGVVIMDDLNQNPDGADMKLFC Enterovirus C 185 7 0.037837838
95056 TGKSVATNLIARALAEKENTSTYSLPPDPSHFDGYKQQGVVIMDPLNQNPDGADMK Enterovirus C 185 7 0.037837838
95413 PLQYKDLKIDIKTSPPPECINDLLQAVDSQEVRDYCEKKGWIVNITSQVQTERNI Enterovirus C 185 7 0.037837838
7995 GTDGLEALDLSTSAGYPYVAMGKKKRDILNKQTRDTKEMQRLLDTYGINLPLVTYV Enterovirus C 185 6 0.032432432
95292 DFSVRLMRDTTHIEQKALAQGLGQMLESMIDNTVRETVGAATSRDALPNTEASGPA Enterovirus C 185 6 0.032432432
95344 AMYGTDGLEALDLTTSAGYPYVAMGKKKRDILNKQTRDTKEMRRLLDTYGINLPLV Enterovirus C 185 6 0.032432432
89387 PRLKTDFEEAIFSKYVGNKITEVDEYMKEAVDHYAGQLMSLDISTEQMCLEDAMY Enterovirus C 185 6 0.032432432
21584 PEMCLAGDSNTTTMHTSYQNANPGEKGGTFTGTFTPDNNQTSPARRFCPVDYLLGN Enterovirus C 185 6 0.032432432
95243 DYLNHSHHLYKNKTYCVKGGMPSGCSGTSIFNSMINNLIIRTLLLKTYKGIDLDH Enterovirus C 185 6 0.032432432
95217 PDPSHFDGYKQQGVVIMDDLNQNPDGADMKLFCQMVSTVEFIPPMASLEEKGILF Enterovirus C 185 6 0.032432432
95323 VLTKNDPRLKTNFEEAIFSKYVGNKITEVDEYMKEAVDHYAGQLMSLDINTEQMC Enterovirus C 185 6 0.032432432
37537 DKQTRDTKEMQRLLDTVGINLPLVTYVKDELRSKTKVEQGKSRLIEASSLNDSVAM Enterovirus C 185 6 0.032432432
95345 RDILNKQTRDTKEMRRLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEASSLN Enterovirus C 185 6 0.032432432
95035 GSHGFAAALKRSYFTQIQGEIQWMKPSKEVGYPIINAPSKTKLEPSAFHYVFEGV Enterovirus C 185 6 0.032432432
37536 TDGLEALDLSTSAGYPYVAMGKKKRDILDKQTRDTKEMQRLLDTYGINLPLVTYV Enterovirus C 185 6 0.032432432
95075 RDILNKQTRDTKEMQKLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEASSLND Enterovirus C 185 6 0.032432432
95057 PSHFDGYKQQGVVIMDDLNQNPDGADMKLFCQMVSTVEFIPPMASLEEKGILFTS Enterovirus C 185 5 0.020727027
95008 SLDISTEQMCLEDAMYGTDGLEALDLTTSAGYPYVAMGKKKRDILNKQTRDTKEM Enterovirus C 185 5 0.020727027
89304 DGYKQQGVVIMDDLNQNPDGADMKLFCQMVSTVEFIPPMASLEEKGILFTSNYVLA Enterovirus C 185 5 0.020727027
89389 TDGLEALDLSTSAGYPYVAMGKKKRDILNKQTRDTKEMQRLLDAYGINLPLVTYV Enterovirus C 185 5 0.020727027
24274 LNKQTRDTKEMQRLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLLEASSLNDSVA Enterovirus C 185 5 0.020727027
95490 KLFAGHQGAYTGLPSKRPNVPTIRTAKVQGPGFDYAVAMAKRNIVTATTSKGEFTM Enterovirus C 185 5 0.020727027
89251 INAPSKTKLEPSAFHYVTEGVKEPAVLTKNDPRLKTNFEEAIFSKYVGNKITEVD Enterovirus C 185 5 0.020727027
7274 EALFQGPLQYKDLRIPIKTSPPPECISDLLQSVDSQEVRPYCEKKGWIVNVSSPV Enterovirus C 185 5 0.020727027
95471 LDLSTSAGYPYVAMGKKKRDILNKQTRDTKEMQKLLDTYGINLPLVTYVKDELRS Enterovirus C 185 5 0.020727027
95111 DAMYGTDGLEALDLSTSAGYPYVAMGKKKRDILNKQTRDTKEMQKLLDTYGINLP Enterovirus C 185 5 0.020727027
89320 KRSYFTQSQGEIQWMRPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKEPAVLTKN Enterovirus C 185 5 0.020727027
42634 MGAQVSSQKVGAHENTNVATGGSTVNYTTINYYKDSASNAASKLDFSQDPSKFTE Enterovirus C 185 5 0.020727027
95011 TKNDPRLRTDFEEAIFSKYVGNKITDVDEYMKEAVDHYAGQLMSLDINTEQMCLED Enterovirus C 185 5 0.020727027
95173 HGFAAALKRSYFTQIQGEIQWMKPSKEVGYPIINAPSKTKLEPSVFHYVFEGVKE Enterovirus C 185 5 0.020727027
95327 LVTYVKDELRSKTKVEQGKSRLIEASSLNDSVAMRMAFGNLYAAFHKNPGVITGS Enterovirus C 185 5 0.020727027
95041 NLPLVTYVKDELRSKTKVEQGKSRLIEASSLNDSVAMRMAFGNLYAAFHKNPGVV Enterovirus C 185 4 0.021621622
42670 VTAGGNGIVAFADIRPLWVYEEEAMEQGITSYIESLGAAFGSGFTNQIGEKVSEL Enterovirus C 185 4 0.021621622
89238 FSVRLMRDTTHIEQKALAQGLGQMLESMIDNTVRETVGAATSRDALPNTEASGPA Enterovirus C 185 4 0.021621622
24273 GTDGLEAEDLSTSAGYPYVAMGKKKRDILNKQTRDTKEMQRLLDTYGINLPLVTY Enterovirus C 185 4 0.021621622
95407 HFDGYKQQGVVIMDDLNQNPDGADMKLFCQMVSTVEFIPPMASLEEKGILFTSNYV Enterovirus C 185 4 0.021621622
42679 GSPGTGKSIATSLIGRAIAEKENTSTYSLPPDPTHFDGYKQQGVVIMDPLNQNPD Enterovirus C 185 4 0.021621622
95144 TDVDEYMKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLTTSAGYPYVAM Enterovirus C 185 4 0.021621622
95012 EYMKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLTTSAGYPYVAMGK Enterovirus C 185 4 0.021621622
37470 MGAQVSTQKTGAHENQNVAANGSTINYTTINYYKDSASNSATRQDLSQDPSKFTE Enterovirus C 185 4 0.021621622
42654 VRLLRDTNHISQRTLFARAQGIEETIDTVISNALQLSQPKPQKQLTAQSTPSTSGV Enterovirus C 185 4 0.021621622
95128 LPPDPSHFPGYKQQGVVIMDDLNQNPDGADMKLFCQMVSTVEFIPPMASLEEKGI Enterovirus C 185 4 0.021621622
37472 VKDLMLKTAPALNSPNVEACGYSDRVRQITLGNSTITTQEAANAIVAYGEWPTYI Enterovirus C 185 4 0.021621622
89323 EAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLSTSAGYPYVTMGKKKRDI Enterovirus C 185 4 0.021621622
95446 HQEILFNNVRWLSIQSKRFAPLYALEAKRIQKLEHTINNYIQFKSKHRIEPVCLLV Enterovirus C 185 3 0.016216216
95491 HGFAAALKRSYFTQIQGEIQWMKPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKE Enterovirus C 185 3 0.016216216
95209 EEAIFSKYVGNKITDVDEYMKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEA Enterovirus C 185 3 0.016216216
37976 QMVSTVEFIPPMASLEEKGILFTSNYVLASTKSSRITPPTVAHSDALARRFAFDM Enterovirus C 185 3 0.016216216
95038 ITDVDEYMKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLTTSAGYPYVA Enterovirus C 185 3 0.016216216
7290 LPLVTYVKDELRSKTKVEQGKSRLIEASSLNPSVAMRMAFGNLYAAFHKNPGVVT Enterovirus C 185 3 0.016216216
95113 VTYVKDELKSKTKVEQGKSRLIEASSLNDSVAMRMAFGNLYAAFHKNPGVITGSA Enterovirus C 185 3 0.016216216
89265 PEFCLAGDSDTQRYTSYANANPGEKGGKFYAQFNKDTAVTSPKREFCPVDYLLGC Enterovirus C 185 3 0.016216216
7287 TEVDEYMKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLSTSAGYPYVAM Enterovirus C 185 3 0.016216216
95163 ALFQGPLQYKDLKIDVKTSPPPECINDLLQAVDSQEVRDYCEKKGWIVNITSQVQ Enterovirus C 185 3 0.016216216
7289 GKKKRDILNKQTRDTKEMQRLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEAS Enterovirus C 185 3 0.016216216
37515 GIASSLIGRAIAERETTSVYSVPLAPSHFDGYKQQGYDMDDLNQNPDGMDMKLFC Enterovirus C 185 3 0.016216216
95236 VDEYMKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLTTSAGYPYVAMG Enterovirus C 185 3 0.016216216
95275 GYPIINAPSKTKLEPSAFHYVFEGVKEPAVLT Enterovirus C 185 3 0.016216216
95097 FQGPLQYKDLKIDIKTSPPPECINDLLQAVDSQEVRDYCEKKGWIVNITSQVQTER Enterovirus C 185 3 0.016216216
37522 RYKDLKIDVKTVPPPECISDLLQAVDSQEVRDYCEKKGWIVNVTSQIQLERNINRA Enterovirus C 185 3 0.016216216
95040 MGKKKRDILNKQTRDTKEMRRLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEA Enterovirus C 185 3 0.016216216
89253 HMKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLSTSAGYPYVAMGKKK Enterovirus C 185 3 0.016216216
95427 YGTDGLEALDLTTSAGYPYVAMGKKKRDILNKQTRDTKEMQKLLDTYGINLPLVTY Enterovirus C 185 3 0.016216216
95251 MKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLSTSAGYPYVAM Enterovirus C 185 3 0.016216216
42701 GKKKRDILNKQTRDTKEMQRLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEAS Enterovirus C 185 3 0.016216216
95510 EFIPPMASLEEKGILFTSNYVLASTNSSRITPPTVAHSDALARRFAFDMDIQVMG Enterovirus C 185 3 0.016216216
24253 FDGYKQQGVVIMDDLNQNPDGADMKLFCQMVSTVEFIPPMASLEEKGILFTSNYV Enterovirus C 185 3 0.016216216
95502 TYVKDELRSKTKVEQGKSRLIEASSLNDSVAMRMAFGNLYAAFHKNPGVVTGSAV Enterovirus C 185 3 0.016216216
21644 DILNKQTRDTKEMQKLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLREASSLNDS Enterovirus C 185 3 0.016216216
95442 GLEALDLTTSAGYPYVAMGKKKRDILNKQTRDTKEMQKLLDTYGINLPLVTYVKD Enterovirus C 185 2 0.010810811
21579 IKDVLIKTAPMLNSPNIEACGYSPRVLQLTLGNSTITTQEAANSVVAYGRWPEYL Enterovirus C 185 2 0.010810811
37975 FDGYKQQGVVIMDDLNQNPDGADMKLFCQMVSTVEFIPPMASLEEKGILFTSNYV Enterovirus C 185 2 0.010810811
95176 DVDEYMKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLTTSAGYPYVAM Enterovirus C 185 2 0.010810811
95233 GFAAALKRSYFTQIQGEIQWMKPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKEPA Enterovirus C 185 2 0.010810811
37990 QCGGVITCTGKVIGMHVGGKGSHGFAAALKRSYFTQSQGELQWMRPSKEVGYPVI Enterovirus C 185 2 0.010810811
37517 MVSTVEFIPPMASLEEKGILFTSDYVLASTNSHSIAPPTVAHSDALTRRFAFDVE Enterovirus C 185 2 0.010810811
95179 PLVTYVKDELRSKTKVEQGKSRLIEASSLNDSVAMRMAFGNLYAAFHKNPGVVTG Enterovirus C 185 2 0.010810811
95166 KLFAGHQGAYTGLPNKRPNVPTIRTAKVQGPGFDYAVAMAKRNIVTATTSKGEFTM Enterovirus C 185 2 0.010810811
21643 MYGTDGLEALDLSTSAGYPYVAMGKKKRDILNKQTRDTKEMQKLLDTYGINLPLV Enterovirus C 185 2 0.010810811
95141 SHGFAAALKRSYFTQIQGEIQWMKPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKI Enterovirus C 185 2 0.010810811
95188 KDPRNTQDHVRSLCLLAWHNGEEEYNKFLAKIRSVPIGRALLLPEYSTLYRRWLD Enterovirus C 185 2 0.010810811
89230 IKDVLIKTSPMLNSPNIEACGYSDRVLQLTLGNSTITTQEAANSVVAYGRWPEYL Enterovirus C 185 2 0.010810811
95047 DHLKMIAYGDDVIASYPHEVDASLLAQSGEDYGLTMTPADKSATFETVTWENVTF Enterovirus C 185 2 0.010810811
89324 TDGLEALDLSTSAGYPYVTMGKKKRDILNKQTRDTKEMQRLLDTYGINLPLVTYVK Enterovirus C 185 2 0.010810811
7299 TKDPRNTQDHVRSLCLLAWHNGEEEYNKFLAKIRSVPIGRALLLPEYSTLYRRWL Enterovirus C 185 2 0.010810811
42699 TEVDEYMKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLSTSAGYPYVAM Enterovirus C 185 2 0.010810811
95459 MGKKKRDILNKQTRDTKEMRRLLDTYGINLPLVTSVKDELRSKTKVEQGKSRLIEA Enterovirus C 185 2 0.010810811
37929 MGAQVSSQKVGAHENSNRAYGGSTINYTTINYYRDSASNAASKQDFAQDPSKFTE Enterovirus C 185 2 0.010810811
95455 KFRDIRPHIPTQITETNDGVLIVNTSKYPNMYVPVGAVTEQGYLNLGGRQTARTLM Enterovirus C 185 2 0.010810811
24207 MGAQVSSQKVGAHENSNRAYGGSTINYTTINYYRDSASKAASKQDFAQDPSKFTE Enterovirus C 185 2 0.010810811
42711 TKDPRNTQDHVRSLCLLAWHNGEEEYNKFLAKVRSVPIGRALLLPEYSTLYRRWLI Enterovirus C 185 2 0.010810811
95465 DHLKMIAYGDDVIASYPHEVDASLLAQSGKDYGLTMTPADKSATFETVTWENVTF Enterovirus C 185 2 0.010810811
89260 LKDVLIKTAPALNSPNVEACGYSDRVLQLTLGNSTITTQEAANSVVAYGRWPEFI Enterovirus C 185 2 0.010810811
37994 KEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLALDLSTSAGYVAMGKKKRD Enterovirus C 185 2 0.010810811
95518 LPNKRPNVPTIRTAKVQGPGFDYAVAMAKRNIVTATTSKGEFTMLGVYDNVAILP Enterovirus C 185 2 0.010810811
22110 ERYLKDQQLLGIWGCSGKLICTTAVPWNASWSNKSLEQIWNNMTWMEWPREINNY Human 146 116 0.794520548
immunodeficiency virus 1
23936 KDQQLLGFWGCSGKLICTTTVPWNASWSNKSLDDIWNNMTWMQWEREIDNYTSLIY Human 146 113 0.773972603
immunodeficiency virus 1
22140 QQLLGIWGCSGKLICTTAVPWNASWSNKSLEDIWDNMTWMQWEREIDNYTNTIYT Human 146 105 0.719178083
immunodeficiency virus 1
76908 YLKDQQLLGIWGCSGKLICTTNVPWNSSWSNKSLDEIWDNMTWMEWDKQINNYTDI Human 146 100 0.684931507
immunodeficiency virus 1
35899 LGIWGCSGKLICTTTVPWNTSWSNKSLDKIWNNMTWMEWEREIDNYTSLIYTLLE Human 146 100 0.684931507
immunodeficiency virus 1
41895 DQQLLGIWGCSGKLICTTTVPWNASWSNKSMDQIWNNMTWMEWEREIDNYTSLIY Human 146 97 0.664383562
immunodeficiency virus 1
23215 LQDQRLLGMWGCSGKHICTTFVPWNSSWSNRSLDDIWNNMTWMQWEKEISNYTGI Human 146 90 0.616438356
immunodeficiency virus 1
23996 DQQLLGIWGCSGKIICPTNVPWNSSWSNKSQSDIWDKMTWLEWDKEVSNYTQVIY Human 146 89 0.609589041
immunodeficiency virus 1
77385 RSEDITKNTKNIIVQLNEAVEINCTRPSNNTRKSIHIGPGRAFYATGPIIGPIRQA Human 146 88 0.602739726
immunodeficiency virus 1
24026 AVESYLKDQQLLGIWGCSGKHICTTTVPWNSSWSNKSLEEIWNNMTWIEWEREIDN Human 146 83 0.568493151
immunodeficiency virus 1
23155 QQLLGIWGCSGKLICTTTVPWNSSWSNRSLNDIWQNMTWMEWEREIDNYTGLIYRI Human 146 83 0.568493151
immunodeficiency virus 1
77250 QLRARILAVERYLKDQQLLGIWGCSGKLICTTNVPWNSSWSNKSWEEIWNNMTWM Human 146 70 0.479452055
immunodeficiency virus 1
31648 ARILAVERYLKDQQLLGIWGCSGKLICTTAVPWNASWSNKSLEEIWDKMTWMEWEI Human 146 70 0.479452055
immunodeficiency virus 1
78242 RYLLDQQLLGIWGCSGKLICTTNVPWNSSWSNKSQEEIWNNMTWMEWEKEISNYSN Human 146 69 0.47260274
immunodeficiency virus 1
77305 IWGCSGKLICPTTVPWNLSWSNKSQDEIWGNMTWMEWEKEIGNYTDTIYRLIESA Human 146 68 0.465753425
immunodeficiency virus 1
23325 KCGKEGHQMKDCTERQANFLGKIWPSHKGRPGNFLQSRPEPTAPPAESFGFGEEIK Human 146 66 0.452054795
immunodeficiency virus 1
78374 QMKDCTERQANFLGKIWPSSKGRPGNFLQSRPEPTAPPAESLGLGHHIPSPKQEPK Human 146 65 0.445205479
immunodeficiency virus 1
77329 QMKDCTERQAKFLGKMWPSNKGRPGNFLQNRPEPTAPPAESFGFGEEIAPSPKQE Human 146 65 0.445205479
immunodeficiency virus 1
23125 VLAVERYLRDQQLLGIWGCSGKLICTTTVPWNASWSNKSLNMIWNNMTWMQWERE Human 146 63 0.431506849
immunodeficiency virus 1
76945 QEGHQMKDCTGRQANFLGKIWPSSKGRPGNFPQKRLEPTAPFAESFGFGEEITPSI Human 146 63 0.431506849
immunodeficiency virus 1
64504 LMGIWGCSGKLICTTSVPWNVSWSNKSVDDIWNNMTWMEWEREIDNYTDYIYDLL Human 146 60 0.410958904
immunodeficiency virus 1
77386 NNTRKSIHIGPGRAFYATGDIIGDIRQAHCNISGGQWNKTVNQVKKELGKHFNKT Human 146 60 0.410958904
immunodeficiency virus 1
36548 QQLLGIWGCSGKLICTTTVPWNASWSNKSLNEIWDNMTWMGWEREIDNYTHLIYT Human 146 58 0.397260274
immunodeficiency virus 1
41865 VERYLKDQQLMGIWGCSGKFICTTAVPWNTSWSNKSFNEIWDNMTWMEWEREINNY Human 146 58 0.397260274
immunodeficiency virus 1
77396 GIWGCSGKLICTTNVPWNSSWSNKSQSEIWENMTWMQWEKEISNHTSTIYRLIEES Human 146 57 0.390410959
immunodeficiency virus 1
77275 CTERQANFLGKIWPSHKGRPGNFLQSRPEPTAPPAESFGFGEEITPSPRQETKDK Human 146 56 0.38356164
immunodeficiency virus 1
23185 LLGIWGCSGKHICTTNVPWNSSWSNRSLNEIWQNMTWMEWEREIDNYTGLIYSLI Human 146 55 0.376712329
immunodeficiency virus 1
78232 ESVQINCTRPNNNTRKGIHLGPGQTFYATGAIIGDIRKAHCNISGTQWNNTLEYVK Human 146 55 0.376712329
immunodeficiency virus 1
42488 KQLQARVLAVERYLRDQQLLGIWGCSGKLICTTTVPWNTSWSNKSLNEIWDNMTWM Human 146 55 0.376712329
immunodeficiency virus 1
64646 NFRVYYRDSRPPIWKGPAKLLWKGEGAVVIQDNSDIKVVPRRKAKIIRDYGKQMA Human 146 54 0.369863014
immunodeficiency virus 1
21869 HQMKDCTERQANFLGKIWPSYKGRPGNFLQSRPEPTAPPFLQSRPEPTAPPEESFR Human 146 51 0.349315068
immunodeficiency virus 1
36414 GCSGKLICTTAVPWNTSWSNKSLDSIWNNMTWMEWEKEIENYTNTIYTLIEESQI Human 146 51 0.349315068
immunodeficiency virus 1
38477 TERQANFLGKIWPSNKGRPGNFPQSRPEFTAPPAEIFGMGEKMTSPAKQELKDRE Human 146 50 0.34265753
immunodeficiency virus 1
78231 NGSLAEEGIVIRSQNISNNAKTIIVHLNESVQINCTRPNNNTRKGIHLGPGQTFYA Human 146 50 0.34265753
immunodeficiency virus 1
35918 TIIVQLKESVEINCTRPNNNTRKSITIGPGRAFYATGDIIGDIRQAHCNISGEKWN Human 146 49 0.335616438
immunodeficiency virus 1
23308 GHQLKDCTERQANFLGRIWPSHKGRPGNFLQSRPEPTAPPAESFGFGEEITPSQK Human 146 46 0.315068493
immunodeficiency virus 1
76897 ITDNTKNHIIQLNEPVQINCTRTGNNTRKSIRIGPGQAFYATGDIIGDIRRAYCN Human 146 46 0.315068493
immunodeficiency virus 1
35777 MKDCTERQANFLGKIWPSHKGRPGNFLQSRPEPTAPPAESFGFGEEITPSQKQEQK Human 146 45 0.308219178
immunodeficiency virus 1
23303 SILDIRQGPKEPFRDYVDRFYKTLRAEQASQDVKNWMTETLLVQNANPDCKTILKA Human 146 43 0.294520548
immunodeficiency virus 1
31723 EIRKTLRQKKIDRLIDRIRERAEDSGNESDGPEEELSALVEMGHHAPWDVTDD Human 146 43 0.294520548
immunodeficiency virus 1
31667 VQLNKSVEINCTRPNNNTKKGIAIGPGRTLYAREKIIGDIRQAHCNISKAKWNDT Human 146 39 0.267123288
immunodeficiency virus 1
17474 WGCSGKLICTTAVPWNSSWSNRSQEDIWNNMTWMQWDREISNYTNTIYRLLEDSQ Human 146 37 0.253424658
immunodeficiency virus 1
77271 VKNWMTDTLLVQNANPDCKTILKALGPGASLEEMMTACQGVGGPSHKARILAEAMS Human 146 37 0.253424658
immunodeficiency virus 1
22048 SILDIRQGPKEPFRDYVDRFYKTLRAEQASQEVKNWMTETLLVQNANPDCKTILKA Human 146 37 0.253424658
immunodeficiency virus 1
32365 RKVLFLDGIDKAQEEHEKYHSNWRAMASDFNLPPIVAKEIVASCDKCQLKGEAMH Human 146 36 0.246575342
immunodeficiency virus 1
24153 ASQEVKNWMTETLLVQNANPDCKTILKALGPAATLEEMMTACQGVGGPGHKARVLA Human 146 35 0.239726027
immunodeficiency virus 1
24121 IRKIRRQRKIDRLIDRIRERAEDSGNESEGDTEELSKLVEMGHDAPWDVDDI Human 146 35 0.239726027
immunodeficiency virus 1
23273 QNFRVYYRDNRDPIWKGPAKLLWKGEGAVVIQDNSDIKVVPRRKAKIIRDYGKQMA Human 146 34 0.232876712
immunodeficiency virus 1
25631 EYRKILRQRKIDRLIDRIREREEDNGNESEGDQEELSALVEMGHHAPWNVDD Human 146 34 0.232876712
immunodeficiency virus 1
35772 DIRQGPKEPFRDYVPRFYKTLRAEQASQDVKNWMTETLLVQNANPDCKTILKALG Human 146 33 0.226027397
immunodeficiency virus 1
22049 ASQEVKNWMTETLLVQNANPDCKTILKAEGPAATLEEMMTACQGVGGPGHKARVLA Human 146 32 0.219178082
immunodeficiency virus 1
24075 SPSSILDIRQGPKEPFRDYVDRFYKTLRAEQASQEVKNWMTETLLVQNANPDCKT Human 146 31 0.212328767
immunodeficiency virus 1
24080 KEGHQMKDCTERQANFLGKIWPSCKGRPGNFPQSRTEPTAPPEESFRFGEETTTPY Human 146 31 0.212328767
immunodeficiency virus 1
31703 EGHQLKDCTERQANFLGKIWPSHKGRPGNFLQSRPEPTAPPAESFGFGEEITPSQK Human 146 31 0.212328767
immunodeficiency virus 1
35793 EYRRIKRQRKIDCLIDRIRERAEDSGNESEGEREELSKLVEMGHHAPWDVDD Human 146 31 0.212328767
immunodeficiency virus 1
23321 TLRAEQATQEVKNWMTETLLVQNANPDCKTILKALGPGATLEEMMTACQGVGGPS Human 146 30 0.205479452
immunodeficiency virus 1
19365 DNAKTIIVHLNESVQINCTRPNNNTRKRISLGPGRVFYTTGEIIGDIRKAHCNVC Human 146 30 0.205479452
immunodeficiency virus 1
22129 TNNAKTIIVQLNESVAINCTRPNNNTRKSIYIGPGRAFHTTGRIIGDIRKAHCNIS Human 146 30 0.205479452
immunodeficiency virus 1
25636 NQSERAEDSGNESPGDKDELSTLVEMGHHAPWPIPDM Human 146 30 0.205479452
immunodeficiency virus 1
64591 QPVKNWMTDTLLVQNANPDCKTILRALGPGASLEEMMTACQGVGGPAHKARVLAEA Human 146 30 0.205479452
immunodeficiency virus 1
27739 TQEVKGWMTDTLLVQNANPDCKTILRALGPGATLEEMMTACQGVGGPSHKARVLA Human 146 30 0.205479452
immunodeficiency virus 1
77325 ATQEVKGWMTETLLVQNANPDCKTILKALGPGATLEEMMTACQGVGGPSHKARILA Human 146 30 0.205479452
immunodeficiency virus 1
21865 ASQEVKNWMTETLLVQNANPDCKTILKALGPAATLEEMMTACQGVGGPGHKARVLA Human 146 30 0.205479452
immunodeficiency virus 1
78369 SILDIRQGPKEPFRDYVDRFFKALRAEQATQDVKWVMTDTLLVQNANPDCKTILKA Human 146 29 0.198630137
immunodeficiency virus 1
24076 AEQASQEVKNWMTETLLVQNANPDCKTILKALGPAATLEEMMTACQGVGGPGHKA Human 146 29 0.198630137
immunodeficiency virus 1
23235 TLRAEQATQEVKNWMTETLLVQNANPDCKTILKALGPGATLEEMMTACQGVGGPSH Human 146 29 0.198630137
immunodeficiency virus 1
19654 QEGHQMKDCKNEGRQANFLGKSWSPFKGRPGNFPQTTTRKEPTAPPLESYGFQEEK Human 146 29 0.198630137
immunodeficiency virus 1
23926 RKRIHIGPGRAFYTTKNIIGTIRQAHCNISRAKWNDTLRQIVSKLKEQFKNKTIV Human 146 29 0.198630137
immunodeficiency virus 1
18234 TQEVKGWMTDTLLVQNANPDCKTILRALGPGATLEEMMTACQGVGGPSHKARVLA Human 146 29 0.198630137
immunodeficiency virus 1
35924 GKEISNTTEIFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTKAKRRVVQREKRAV Human 146 28 0.191780822
immunodeficiency virus 1
31666 QLLLNGSLAEGEVVIRSENFTNNAKTIIVQLNKSVEINCTRPNNNTKKGIAIGPG Human 146 27 0.184931507
immunodeficiency virus 1
42499 EYRKILRQRKIDRLINRITERAEDSGNESDGDQEELSALVERGHLAPWDVDD Human 146 27 0.184931507
immunodeficiency virus 1
77420 CSERQANFLGKFWPLNKERPGNFLQNRPEPTAPPAESFGFGEKITPSLRQEMKDQ Human 146 27 0.184931507
immunodeficiency virus 1
77240 DNTKNIIVQLNETVQINCTRPNNNTRKSIHMGPGKAFYTTGDIIGDIRQAHCNIS Human 146 26 0.178082192
immunodeficiency virus 1
25633 EYKRLLRQRKIDWLIDRIRERAEDSGNESEGDTEELSTLVEMEPDNFRNDNDM Human 146 26 0.178082192
immunodeficiency virus 1
65573 FLEGIDQAQEDHEKYHSNWRALASDFGLPPIVAKEIIASCPKCHIKGEATHGQVDV Human 146 25 0.171232877
immunodeficiency virus 1
24123 EYRRIKKQRRIDCLLDRITERAEDSGNESEGDREKLSKLVEMGHHAPWDIDD Human 146 25 0.171232877
immunodeficiency virus 1
23966 QARILAVERYLKDQQLLGFWGCSGKLICTTAVPWNASWSNKTLDQIWNNMTWMEWI Human 146 24 0.164383562
immunodeficiency virus 1
17469 RQGGTGMHDTEIFRPEGGDMRDNWRSELYKYKVVEIKPLGIAPTKAKRRVVEREKR Human 146 24 0.164383562
immunodeficiency virus 1
23234 RMYSPVSILDIRQGPKEPFRDYVDRFFKTLRAEQATQEVKNWMTETLLVQNANPD Human 146 24 0.164383562
immunodeficiency virus 1
64595 KDCTERQANFLGRLWPSNKGRPGNFLQSRPEPTAPPESLRPEPTAPPPESFRFEEA Human 146 24 0.164383562
immunodeficiency virus 1
77358 KQLQARILAVERYLKDQQLLGIWGCSGKLICTTNVRWNSSWSNKSYDDIWDNMTWM Human 146 24 0.164383562
immunodeficiency virus 1
31721 YRRILRQRKIDRLIDRIRERAEDSGKESEGDQEELSALVEMGHDAPWDIDD Human 146 24 0.164383562
immunodeficiency virus 1
31638 TRPSKTTRRRIHIGPGRAFYTTKQIAGDLRQAHCNINRARWNATLKQIVGKLRKQ Human 146 24 0.164383562
immunodeficiency virus 1
27743 GHQMKECTERQANFLGKIWPSNKGRPGNFLQNRTEPTAPPAESFGFGEEIAPSPK Human 146 23 0.157534247
immunodeficiency virus 1
36516 EYRKILRQRKIDRLIDKIRERAEDSGNESEGDQEELSALVERGHLAPWDIND Human 146 23 0.157534247
immunodeficiency virus 1
31637 EVVIRSENFTDNAKTIIVQLKEPVVINCTRPSKTTRRRIHIGPGRAFYTTKQIAGD Human 146 23 0.157534247
immunodeficiency virus 1
78417 IDKAQEDHEKYHSNWRAMASDFNLPPVVAKEIVASCDKCQLKGEAMHGQVDCSPG Human 146 23 0.157534247
immunodeficiency virus 1
78386 SILDIRQGPKEPFRDYVPRFFKALRAEQATQDVKNWMTDTLLVQNANPDCKTILKA Human 146 23 0.157534247
immunodeficiency virus 1
19349 VKGWMTDTLLVQNANPDCKTILKALGPGATLEEMMTACQGVGGPSHKARVLAEAMS Human 146 23 0.157534247
immunodeficiency virus 1
65616 RARLQALETLIQNQQRLNLWGCKGKLICYTSVKWNTSWSGRYNDDSIWDNLTWQQW Human 146 23 0.157534247
immunodeficiency virus 1
19353 CTLIRQANFLGKIWPSNKGRPGNFIQNRPEPSAPPAESFRFGEETTPSPKQEQKDE Human 146 22 0.150684932
immunodeficiency virus 1
78295 KAQEEHEKYHNNWRAMASDFNLPPIVAKEIVASCDKCQLKGEAMHGQVDCSPGIW Human 146 22 0.150684932
immunodeficiency virus 1
19046 GIKQLQARVLAVERYLRDQQLLGIWGCSGKLICTTNVPWNSSWSNKSQSEIWDNM Human 146 22 0.150684932
immunodeficiency virus 1
19036 LKTPVNITCTRPNNNTRTSIHLGPGRAFYATGDIIGDIRQAHCNISRTDWNKTLH Human 146 22 0.150684932
immunodeficiency virus 1
23304 ASQDVKNWMTETLLVQNANPDCKTILKALGPQATLEEMMTACQGVGGPSHKARVLA Human 146 22 0.150684932
immunodeficiency virus 1
17463 TIIVHLNESVEINCTRPNNNTRKSIRIGPGQAFYATGEIIGDIRQAHCNISRTAWN Human 146 22 0.150684932
immunodeficiency virus 1
31698 YSILDIRQGPKEPFRDYVDRFYKTLRAEQASQEVKGWMTETLLVQNANPDCKTIL Human 146 21 0.143835616
immunodeficiency virus 1
36409 DGGKNESELEIFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTKAKRRVVQREKRA Human 146 21 0.143835616
immunodeficiency virus 1
77324 SILDIKQGPKEPFRDYVDRFFKTLRAEQATQEVKGWMTETLLVQNANPDCKTILKA Human 146 21 0.143835616
immunodeficiency virus 1
64684 IKQLQTRVLAIERHLRDQQLLGIWGCSGKLICTTAVPWNSSWSNKSQEEIWDNMTW Human 146 20 0.136986301
immunodeficiency virus 1
64608 QDVKNWMTDTLLVQNANPDCKTILRALGPGASLEEMMTACQGVGGPAHKARVLAEA Human 146 20 0.136986301
immunodeficiency virus 1
21855 YKLKHIVWASRELERFAVNPGLLETSEGCRQILGQLQPSLQTGSEELRSLYNTVA Human 146 20 0.136986301
immunodeficiency virus 1
65581 VYYRDSRDPIWKGPAQLLWKGEGAVVIQDKGDIKVVPRRKAKIIRDYGKQMAGTDS Human 146 20 0.136986301
immunodeficiency virus 1
24134 EYRKILRQRKIDRLFDRIREKAEDSGNESERDQEELSALVEMGHLAPWDVDD Human 146 20 0.136986301
immunodeficiency virus 1
77270 IRQGPKEPFRDYVDRFFKTLRAEQATQEVKNWMTDTLLVQNANPDCKTILKALGP Human 146 19 0.130136986
immunodeficiency virus 1
20353 SILDIKQGPKEPFRDYVDRFFKTLRAEQATQDVKNWMTETLLVQNANPDCKTILRA Human 146 19 0.130136986
immunodeficiency virus 1
77294 NTKTIIVQFKNPVKINCTRPNNNTRRSIHIGPGRAFYATGEIIGDTRKAHCNISEK Human 146 19 0.130136986
immunodeficiency virus 1
21864 SILDIRQGPKEPFRDYVDRFYKTLRAEQASQEVTCNWMTETLLVQNANPDCKTILKA Human 146 18 0.123287671
immunodeficiency virus 1
65246 TQEVKNWMTETLLVQNANPDCKQILKSLGPGATLEEMMVACQGVGGPTHKARVLAI Human 146 18 0.123287671
immunodeficiency virus 1
24130 EYRKIRRQRKIDKLIDRISERAEDSGNESEGDQEELSALVGMGHDAPWVIND Human 146 18 0.123287671
immunodeficiency virus 1
31719 EYRKLLRQRKIDRLIDRIRERAEDSGNESEGDQEELSALVEMGGHDAPWDIDD Human 146 18 0.123287671
immunodeficiency virus 1
64607 LDIKQGPKEPFRDYVDRFFKTLRAEQATQDVKNWMTDTLLVQNANPDCKTILRAL Human 146 17 0.116438356
immunodeficiency virus 1
27738 ILDIRQGPKEPFRDYVDRFFKTLRAEQATQEVKGWMTDTLLVQNANPDCKTILRA Human 146 17 0.116438356
immunodeficiency virus 1
35929 CSGKLICTTAVPWNASWSNKSLDQIWNNMTWMEWEREIDNYTNLIYTLIEESQNQ Human 146 17 0.116438356
immunodeficiency virus 1
19042 NASAENYTFRPGGGDMRDNWRSELYKYKVVKIEPLGIAPTKTRRRVVEREKRAVGM Human 146 17 0.116438356
immunodeficiency virus 1
38473 VKNWMTETLLVQNANPDCKSILRALGPGATLEEMMTACQGVGGPGHKARVLAEAMS Human 146 17 0.116438356
immunodeficiency virus 1
19025 YKKLVRQKKIDRLIERIGERAEDSGNESDGDTEELSKLMEMGHLNLGYVAD Human 146 17 0.116438356
immunodeficiency virus 1
19375 WGIKQLQARVLAVERYLKDQQLLGLWGCSGKLICTTNVPWNSSWSNKSLEEIWGNM Human 146 16 0.109589041
immunodeficiency virus 1
25637 ERAEPSGNESEGPHEELSALVDMGHDALWDVPDD Human 146 16 0.109589041
immunodeficiency virus 1
64680 EPHSTKEIFRPEGGDMRDNWRSELYKYKVVEIKPLGVAPTKPKRRVVEREKRAAL Human 146 16 0.109589041
immunodeficiency virus 1
23925 NFTPNAKTIIVHLNESVQINCTRPNYNKRKRIHIGPGRAFYTTKNIIGTIRQAHCN Human 146 16 0.109589041
immunodeficiency virus 1
65542 ILDIRQGPKEPFRPYVDRFYKTLRAEQATQEVKNWMTETLLVQNSNPDCKQILKA Human 146 16 0.109589041
immunodeficiency virus 1
41884 AKTIIVHLNESVEINCTRPNNNVRRRHIHIGPGRAFYTGEIRGNIRQAHCNISRAK Human 146 15 0.102739726
immunodeficiency virus 1
41855 KTRKRVTMGPGRVYYTTGEIIGDIRQAHCNISRAEWNKTLEQIANKLRKQFENKT Human 146 15 0.102739726
immunodeficiency virus 1
19047 GKLICTTNVPWNSSWSNKSQSEIWDNMTWMEWDKQISNYTEEIYRLLEVSQTQQEK Human 146 15 0.102739726
immunodeficiency virus 1
64499 LLTRDGGNSTETETEIFRPGGGDMRDNWRSELYKYKVVRIEPIGVAPTRAKRRTV Human 146 15 0.102739726
immunodeficiency virus 1
64590 LDIKQGPKEPFRDYVDRFFKTLRAEQATQDVKNWMTDTLLVQNANPDCKTILRAL Human 146 15 0.102739726
immunodeficiency virus 1
20358 GHQMKDCTERQANFLGKIWPSSKGRPGNFLQSRPEPTAPPAESFGFGEEMTPSPK Human 146 15 0.102739726
immunodeficiency virus 1
77391 RDGGNDNNTRTEETFRPGGGDMRDNWRSELYKYKVVQIEPLGIAPTRARRRVVQR Human 146 14 0.095890411
immunodeficiency virus 1
19007 EYKKLVRQRKINRLYKRISERAEDSGNESEGDAEELAALGEVGPFIPGDINN Human 146 14 0.095890411
immunodeficiency virus 1
78255 YKMKHLIWASRELERFALDPGLLETSEGCQKIIRQLQPSLQTGSEELKSLFNTVA Human 146 14 0.095890411
immunodeficiency virus 1
42478 IVQLNESVVINCTRPNNNTRKSINIGPGRALYTTGEIIGDIRQAHCNLSKTQWENT Human 146 14 0.095890411
immunodeficiency virus 1
22039 YKLKHIVWASRELERFAVNPGLLETSEGCRQILGQLQPSLQTGSEELRSLYNTVA Human 146 14 0.095890411
immunodeficiency virus 1
22818 MGGKWSKSSVVGWPAVRERMRRAEPAADGVGAASRDLEKHGAITSSNTAANNAAC Human 146 13 0.089041096
immunodeficiency virus 1
76940 PVSILDIKQGPKEPFRDYVDRFFRVLRAEQATQDVKNWMTDTLLVQNANPDCRTI Human 146 13 0.089041096
immunodeficiency virus 1
64685 KLICTTAVPWKSSWSNKSQEEIWDNMTWMQWDREISNYTDIIYNLLEVSQNQQDK Human 146 13 0.089041096
immunodeficiency virus 1
35748 GANNSSHETIRPGGGDMRDNWRSELYKYKVVKIEPIGVAPTKARRRVVEREKRAI Human 146 13 0.089041096
immunodeficiency virus 1
42484 TNGTEIFRPGGGPMRDNWRSELYKYKVVKIEPLGVAPTKAKRRVVQREKRAVGLGA Human 146 13 0.089041096
immunodeficiency virus 1
23307 CFNCGKEGHIAKNCRAPRKKGCWRCGKEGHQLKDCTERQANFLGRIWPSHKGRPG Human 146 12 0.082191781
immunodeficiency virus 1
23320 RMYSPVSILPIRQGPKEPFRDYVDRFFKTLRAEQATQEVKNWMTETLLVQNANPD Human 146 12 0.082191781
immunodeficiency virus 1
78394 REALLDTGADDTVLEDIDLPRKWKPKMIGGIGGFIKVRQYNEVPIEIEGKKALGT Human 146 12 0.082191781
immunodeficiency virus 1
22080 NWRAMASPFNLPPVVAKEIVASCDKCQLKGEAMHGQVDCSPGIWQLDCTHLEGK Human 146 12 0.082191781
immunodeficiency virus 1
77274 EGHIARNCRAPRKKGCWKCGKEGHQMKPCTERQANFLGKIWPSHKGRPGNFLQSR Human 146 12 0.082191781
immunodeficiency virus 1
19649 PVSILEIKQGPKEPFRDYVPRFYKTLRAEQATQEVKNWMTETLLVQNANPDCKQL Human 146 12 0.082191781
immunodeficiency virus 1
77328 NCGKEGHIARNCRAPRKRGCWKCGQEGHQMKDCTERQANFLGKMWPSNKGRPGNF Human 146 12 0.082191781
immunodeficiency virus 1
17428 LDIKQGPKEPFRDYVDRFFKTLRAEQATQDVKNWMTDTLLVQNANPDCKTILRAL Human 146 12 0.082191781
immunodeficiency virus 1
21857 LYCVHQRIEIKDTKEALDKIEEEQNKSKKKAQQAAAPTGHSSQVSQNYPIVQNIQ Human 146 12 0.082191781
immunodeficiency virus 1
65525 ILDIRQGPKEPFRDYVDRFYKTLRAEQATQEVKNWMTETLLVQNSNPDCKQILKA Human 146 12 0.082191781
immunodeficiency virus 1
23150 TGLLLTRDGGTNNSSNETFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTKAKRR Human 146 12 0.082191781
immunodeficiency virus 1
77223 MGGKWSKSSIVGWPAIRERMRRARPAADRVGTQPAADGVGAVSQDLARHGAVTSS Human 146 12 0.082191781
immunodeficiency virus 1
24132 LIRKILRQRKIDRLIDRIRERAEDSGNESEGIRKELSALVEMGHDAPGDIDD Human 146 12 0.082191781
immunodeficiency virus 1
76941 EQATQDVKNWMTDTLLVQNANPDCRTILKALGRGASIEEMMTACQGVGGPSHKAR Human 146 12 0.082191781
immunodeficiency virus 1
78375 QSRPEPTAPPAESLGLGEEIPSPKQEPKDKELYPLTSLKSLFGSDPLSC Human 146 11 0.075342466
immunodeficiency virus 1
19650 EQATQEVKNWMTETLLVQNANPDCKQLLKALGPGATLEEMMTACQGVGGPAHKAR Human 146 11 0.075342466
immunodeficiency virus 1
77292 AILKCNNKTFNGTGLCRNVSTVQCTHGIKPVVSTQLLLNGSLAEEKMIIRSENIS Human 146 11 0.075342466
immunodeficiency virus 1
77300 LTIDGGEGNESETLRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTKAKRQVVQRE Human 146 11 0.075342466
immunodeficiency virus 1
23853 MGGKWSKSSVVGWPAVRERMRRAEPAADGVGAASRDLEKHGAITSSNTAANNAAC Human 146 11 0.075342466
immunodeficiency virus 1
23294 YRLKHIVWASRELERYALNPGLLETSEGCKQIIGQLQPAIQTGTEELRSLYNTVA Human 146 11 0.075342466
immunodeficiency virus 1
24069 KKAQQAAADTGNRGNSSQVSQNYPIVQNIQGQMVHQAISPRTLNAWVKVVEEKAF Human 146 11 0.075342466
immunodeficiency virus 1
22196 MGGKWSKRSMGGWSAIRERMRRAEPRAEPAADGVGAVSRDLEKHGAITSSNTAAT Human 146 11 0.075342466
immunodeficiency virus 1
19704 MGKIWSKSSLVGWPEIRERMRRQTQEPAVEPAVGAGAASQDLANRGAITIRNTRD Human 146 11 0.075342466
immunodeficiency virus 1
77304 QLTVWGIKQLQARILAVERYLKDQQLLGIWGCSGKLICPTTVPWNLSWSNKSQDE Human 146 10 0.068493151
immunodeficiency virus 1
27742 CFNCGKEGHLARNCRAPRKKGCWKCGKEGHQMKECTERQANFLGKIWPSNKGRPG Human 146 10 0.068493151
immunodeficiency virus 1
36413 TVWGIKQLQARVLAVERYLKDQQLMGIWGCSGKLICTTAVPWNTSWSNKSLDSIW Human 146 10 0.068493151
immunodeficiency virus 1
22041 LYCVHQRIEIKDTKEALDKIEEEQNKSKKKAQQAAADTGHSSQVSQNYPIVQNIQ Human 146 10 0.068493151
immunodeficiency virus 1
36538 RNRISIGPGRAFHTTKQIIGDIRQAHCNLSRATWEKTLEQIATKLRKQFRNKTIA Human 146 10 0.068493151
immunodeficiency virus 1
19339 YRLKHLVWASRELERFALDPGLLETSEGCRKIIGQLQPSLQTGSEELKSLYNTIA Human 146 10 0.068493151
immunodeficiency virus 1
24160 GQLKEALLDTGADDTVLEEINLPGRWKPKMIGGIGGFIKVRQYDEV Human 146 10 0.068493151
immunodeficiency virus 1
65261 MGNALRKGKFEGWAAVRERMRRTRTFPESEPCAPGVGQISRELAARGGIPSSHTP Human 146 10 0.068493151
immunodeficiency virus 1
23985 NAKIIIVQLVKPVNITCMRPNNNTRKSISIGPGRAFFATGDIIGDIRQAHCNVSRT Human 146 9 0.061643836
immunodeficiency virus 1
35931 EKNEQELLELDKWASLWNWFDISKWLWYIKIFIMIVGGLVGLRIVFTVLSIVNRV Human 146 9 0.061643836
immunodeficiency virus 1
22087 QKQITKIQNFRVYYRDSRNPLWKGPAKLLWKGEGAVVIQDNSDIKVVPRRKAKII Human 146 9 0.061643836
immunodeficiency virus 1
22079 KLVSAGIRKILFLDGIDKAQDEHEKYHSNWRAMASDFNLPPVVAKEIVASCDKCQ Human 146 9 0.061643836
immunodeficiency virus 1
18264 LPGIDKAQEEHERYHSNWRAMASDFNLPPVVAKEIVASCDKCQLKGEAMHGQVDC Human 146 9 0.061643836
immunodeficiency virus 1
23986 SIGPGRAFFATGDIIGDIRQAHCNVSRTEWNPTLSKVAAQLRKHFVNTSTDIIFA Human 146 9 0.061643836
immunodeficiency virus 1
22056 LWQRPLVTIKIGGQLKEALLDTGADDTVLEEMSLPGRWKPKMIGGIGGFIKVRQYD Human 146 9 0.061643836
immunodeficiency virus 1
76944 VKCSNCGKEGHIARNCRAPRKKGCWKCGQEGHQMKDCTGRQANFLGKIWPSSKGR Human 146 9 0.061643836
immunodeficiency virus 1
21871 SGVETTTPPQKQEPIDKELYPLTSLRSLFGNDPSSQ Human 146 9 0.061643836
immunodeficiency virus 1
19376 SGKLICTTNVPWNSSWSNKSLEEIWGNMTWMEWEKEVSNYSKEIYRLIEDSQNQQ Human 146 9 0.061643836
immunodeficiency virus 1
76931 YRLKHLVWASRELERFALNPDLLETADGCQQILGQLQPALKTGTEDLQSLYNTIA Human 146 9 0.061643836
immunodeficiency virus 1
22189 MGGKWSKSSVIGWPAVRERMRRAEPAADGVGAASRDLEKHGAITSSNTAANNAAC Human 146 9 0.061643836
immunodeficiency virus 1
77368 MGGKWSKSSIVGWSTVRERMRKTPPAADGVGAVSQDLDKHGAVTSSNTAFNNPDCA Human 146 9 0.061643836
immunodeficiency virus 1
69776 MGGKWSKRRAEGWQTIRERMRRAEPAEPAADGVGAVSRDLARHGAITSSNTNNAD Human 146 9 0.061643836
immunodeficiency virus 1
17429 QDVKNWMTDTLLVQNANPDCKTILRALGPGASLEEMMTACQGVGGPGHKARVLAEA Human 146 9 0.061643836
immunodeficiency virus 1
19348 IRQGPKEPFRDYVDRFFKTLRAEQATQEVKGWMTDTLLVQNANPDCKTILKALGP Human 146 9 0.061643836
immunodeficiency virus 1
23867 MGGKWSKRSVVGWPTVRERMRKTEPAADGVGAASRDLEKHGAITSSNTPANNADCA Human 146 9 0.061643836
immunodeficiency virus 1
65245 ILDIKQGPKEPFRDYVDRFYKTLRAEQATQEVKNWMTETLLVQNANPDCKQILKS Human 146 9 0.061643836
immunodeficiency virus 1
77406 YRLKHLVWASRELERFALNPNLLETVEGCRQIIRQLQPSLQTGSEELRSLFNTVA Human 146 9 0.061643836
immunodeficiency virus 1
17461 KCNNKTFNGTGPCNNVSTIQCTHGTKPVVSTQLLLNGSLAEEEIIIRSKNLTDNVK Human 146 9 0.061643836
immunodeficiency virus 1
23324 QKRIKCFNCGKEGHLARNCRAPRKKGCWKCGKEGHQMKDCTERQANFLGKIWPSH Human 146 9 0.061643836
immunodeficiency virus 1
18272 YYRDSRDPIWKGPAKLLWKGEGAVVIQDNNEIKVVPRRKAKILKDYGKQMAGGDC Human 146 9 0.061643836
immunodeficiency virus 1
24068 LYCWQKIKIKDTKEALEKIEEEQNKSKKKAQQAAADTGNRGNSSQVSQNYPIVQ Human 146 8 0.054794521
immunodeficiency virus 1
65239 SADAAKEDTSARQAGQNYPIVSNAQGQMVHQAISPRTLNAWVKAVEEKAFNPEID Human 146 8 0.054794521
immunodeficiency virus 1
23225 YRLKHLVWASRELERFALNPGLLETGEGCQQIMEQLQSTLKTGSEEIKSLYNTVA Human 146 8 0.054794521
immunodeficiency virus 1
78294 HKGIGGNEQVDKLVSAGVRKILFLDGIDKAQEEHEKYHNNWRAMASDFNLPPIVA Human 146 8 0.054794521
immunodeficiency virus 1
17433 KDCTERQANFLGKIWPSHRGRPGNLLQNRTEPTAPPEESFRFGEETTTPSRKQET Human 146 8 0.054794521
immunodeficiency virus 1
20354 ATQDVKNWMTETLLVQNANPDCKTILRALGQGASIEEMMTACQGVGGPSHKARVLA Human 146 8 0.054794521
immunodeficiency virus 1
78370 ATQDVKNWMTDTLLVQNANPDCKTILKALGSGATLEEMMTACQGVGGPGHKARVLA Human 146 8 0.054794521
immunodeficiency virus 1
23298 QMVHQAISPRTLNAWVKVIEEKAFSPEVIPMFSALSEGATPQDLNTMLNTVGGHQA Human 146 8 0.054794521
immunodeficiency virus 1
17419 YMMKHLVWASRELERFALDPGLLETSEGCKQIMKQLQPALQTGTKELISLHNTVA Human 146 8 0.054794521
immunodeficiency virus 1
31633 RDKVQKEHALFYKHDVPINNSTKDNIKNDNSTRYRLISCNTSVITQACPKISFE Human 146 8 0.054794521
immunodeficiency virus 1
20344 YRLKHLVWASRELERFALNPGLLETPEGCLQILEQIQPAIKTGTEELKSLFNLVA Human 146 8 0.054794521
immunodeficiency virus 1
23180 LLLTRDGGINNSTNETFRPGGGDMRDNWRSELYKYKVVQIEPLGVAPTRAKRRVV Human 146 8 0.054794521
immunodeficiency virus 1
41854 SENFTDNVKTIIVQLNETVKINCIRPNNKTRKRVTMGPGRVYYTTGEIIGDIRQAH Human 146 8 0.054794521
immunodeficiency virus 1
24079 IKCFNCGKEGHIAKNCRAPRKRGCWKCGKEGHQMKDCTERQANFLGKIWPSCKGR Human 146 8 0.054794521
immunodeficiency virus 1
24119 YRKILRQRKIDRLIDRLIERAEDSGNESEGEISALVEMGVEMGHHAPWDVDD Human 146 8 0.054794521
immunodeficiency virus 1
18306 STEETFRPGGGDMRDNWRSELYKYKTVKIKSLGVAPTRARRRVVEREKRAVGLGAV Human 146 8 0.054794521
immunodeficiency virus 1
23238 QKRIKCFNCGKEGHLARNCRAPRKKGCWKCGKEGHQMKDCTERQANFLRENLAFP Human 146 8 0.054794521
immunodeficiency virus 1
35773 DVKNWMTETLLVQNANPPCKTILKALGPQATLEEMMTACQGVGGPGHKARVLAEAM Human 146 8 0.054794521
immunodeficiency virus 1
17452 DSGNESGGDTEELETMVDMGHLRLLDGNDD Human 146 7 0.047945205
immunodeficiency virus 1
31702 KCFNCGKEGHIAKNCRAPRRKGCWKCGKEGHQLKDCTERQANFLGKIWPSHKGRP Human 146 7 0.047945205
immunodeficiency virus 1
41866 NTSWSNKSFNEIWDNMTWMEWEREINNYTNLIYNLIEESQNQQEKNEQDLLALDKW Human 146 7 0.047945205
immunodeficiency virus 1
19056 MGGKWSKSRMGGWSTIRERMRRAEPVAEGVGAVSRDLDRRGAVTINNTASTNRDAA Human 146 7 0.047945205
immunodeficiency virus 1
23860 MGGKWSKRVTGWPTVRERMRRAEPAELAADGVGAASRDLEKHGALTSSNTAATNA Human 146 7 0.047945205
immunodeficiency virus 1
76898 KSIRIGPGQAFYATGDIIGDIRRAYCNISGKQWNETLHKVITKLGSYFDNKTIIL Human 146 7 0.047945205
immunodeficiency virus 1
23376 MGGKWSKSSIVGWPAIRERIRRTNPAADGVGAVSRDLEKHGAITSSNTASTNADCA Human 146 7 0.047945205
immunodeficiency virus 1
19385 MGGKWSKSSIVGWPAIRERMRRTPPTPPAAEGVGAVSQDLERRGAITSSNTRANN Human 146 7 0.047945205
immunodeficiency virus 1
22112 SLIHSLIEESQNQQEKNEQELLELDKWASLWNWFNITNWLWYIKIFIMIVGGLVG Human 146 7 0.047945205
immunodeficiency virus 1
31645 LLGVAPTKAKRRVVQREKRAVGIGAVFLGFLGAAGSTMGASMTLTVQARLLLSG Human 146 7 0.047945205
immunodeficiency virus 1
23931 ITGLLLTRPGGKDTDTNDTEIFRPGGGPMRDNWRSELYKYKVVTIEPLGVAPTKAK Human 146 7 0.047945205
immunodeficiency virus 1
23229 VQNAQGQMIHQAISPRTLNAWVKVIEEKAFSPEVIPMFSALSEGATPQDLNMMLN Human 146 7 0.047945205
immunodeficiency virus 1
23956 RPNNHTRKRVTLGPGRVWYTTGEILGNIRQAHCNISRAQWNNTLQQIATTLREQF Human 146 7 0.047945205
immunodeficiency virus 1
77261 YKLKHLVWASRELERFALNPGLLETTEGCRQIITQIQPSIQTGSEEIKSLYNTIAV Human 146 7 0.047945205
immunodeficiency virus 1
65249 TIKCFNCGKEGHIARNCRAPRKKGCWKCGQEGHQMKDCRNGKQANFLGKYWPPGG Human 146 7 0.047945205
immunodeficiency virus 1
31613 TRDGGNNNETTDTEIFRPGGGNMRDNWRSELYKYKVVKIEPLGVAPTKAKRRVVQR Human 146 7 0.047945205
immunodeficiency virus 1
24082 QKQEKKQETIDKDLYPLASLKSLFGNDPLS Human 146 7 0.047945205
immunodeficiency virus 1
35766 KKTQQAAADSSQVSQNYPIVQNLQGQMVHQAISPRTLNAWVKVIEEKAFSPEVIPM Human 146 7 0.047945205
immunodeficiency virus 1
31607 VKTIIVQLNESVEINCTRPNNNTRKRITMGPGRVYYTTGQIIGDIRRAHCNLSRSK Human 146 7 0.047945205
immunodeficiency virus 1
65563 KLIRGTKSLTEVVPLSKEAELELEENREKLKEPVHGVYYQPDKDLWVSIQKHGEG Human 146 6 0.04109589
immunodeficiency virus 1
78373 NCGKQGHIAKNCRAPRKKGCWKCGKEGHQMKDCTERQANFLGKIWPSSKGRPGNF Human 146 6 0.04109589
immunodeficiency virus 1
22142 LEESQNQQEKNEQELLELDKWASLWNWFSITNWLWYIKIFIMIVGGLVGLRIVFA Human 146 6 0.04109589
immunodeficiency virus 1
18298 KCRDKEYNGTGPCKNVSTVQCTHGIKPVVSTQLLLNGSLAEEDIRIRSENFTDNTK Human 146 6 0.04109589
immunodeficiency virus 1
23310 MGARASVLSGGKLDAWEKIRLRPGGKKKYRLKHLVWASRELERFALNPGLLETGE Human 146 6 0.04109589
immunodeficiency virus 1
23311 YRLKHLVWASRELERFALNPGLLETGEGCQQIMEQLQSTLKTGSEEIKSLYNTVA Human 146 6 0.04109589
immunodeficiency virus 1
76943 LAEAMSQVTNASAAIMMQKGNFKGPRRTVKCSNCGKEGHIARNCRAPRKKGCWKC Human 146 6 0.04109589
immunodeficiency virus 1
23315 VQNAQGQMIHQAISPRTLNAWVKVIEEKAFSPEVIPMFSALSEGATPQDLNMMLN Human 146 6 0.04109589
immunodeficiency virus 1
18260 TKLGKAGHVTDKGKQKIITLTETTNQKAELHAIQLALQDSRPEVNIVTDSQYALG Human 146 6 0.04109589
immunodeficiency virus 1
35886 AILKCNNKKFSGKGQCTNVSTVQCTHGIKPVVSTQLLLNGSLAEEEVVIRSDNFTN Human 146 6 0.04109589
immunodeficiency virus 1
64412 MGGKWSKSSVIGWPTVRERMRRAEPAADGVGAASQDLEKHGAITSSNTAATNADCA Human 146 6 0.04109589
immunodeficiency virus 1
65551 PKMIGGIGGFIKVKEYNNVTVEVQGKEVQGTVLVGPTPVNILGRNILTGLGCTLN Human 146 6 0.04109589
immunodeficiency virus 1
65248 AMATAQQDLKGGYTAFMQRGQNPIRKGTIKCFNCGKEGHIARNCRAPRKKGCWK Human 146 6 0.04109589
immunodeficiency virus 1
22038 MGARASVLSGGELDRWEKIRLRPGGKKKYKLKHIVWASRELERFAVNPGLLETSE Human 146 6 0.04109589
immunodeficiency virus 1
35863 MGGKWSKRMSGWSAVRERMKRAEPAEPAADGVGAVSRDLEKHGAITSSNTAANNA Human 146 6 0.04109589
immunodeficiency virus 1
77295 HIGPGRAFYATGEIIGDTRKAHCNISEKQWYDTLIKIATEFKDQYNKTVGFQPSA Human 146 6 0.04109589
immunodeficiency virus 1
65533 YRLKHLVWASRELERYACNPGLLETAEGTEQLLQQLEPALKTGSEDLKSLWNAIA Human 146 6 0.04109589
immunodeficiency virus 1
24066 YKLKHVVWASRELERFAINPGLLETSEGCRQILGQLQPSLQTGSEERKSLYNTVA Human 146 6 0.04109589
immunodeficiency virus 1
35928 VWGIKQLQARVLAVERYLKDQQLLGIWGCSGKLICTTAVPWNASWSNKSLDQIWN Human 146 6 0.04109589
immunodeficiency virus 1
22111 ASWSNKSLEQIWNNMTWMEWDREINNYTSLIHSLIEESQNQQEKNEQELLELDKWA Human 146 6 0.04109589
immunodeficiency virus 1
31665 DKKFNGTGPCTNVSTVQCTHGIKPVVSTQLLLNGSLAEGEVVIRSENFTNNAKTI Human 146 6 0.04109589
immunodeficiency virus 1
77241 IHMGPGKAFYTTGDIIGDIRQAHCNISGEKWNMTLSRVKEKLKEHFKNGTITFKP Human 146 6 0.04109589
immunodeficiency virus 1
77277 MGGKWSKSSIVGWPAIRERIRAAEGVGAVSQDLDKRGAITNSNTGATNADLAWLEA Human 146 6 0.04109589
immunodeficiency virus 1
77354 IDGKEILRPIGGDMRDNWRSELYKYKVVRIEPVGVAPTKAKRRVVQRAKRAVGMGA Human 146 6 0.04109589
immunodeficiency virus 1
18233 ILDIRQGPKEPFRDYVDRFFKTLRAEQATQEVKGWMTDTLLVQNANPDCKTILRA Human 146 6 0.04109589
immunodeficiency virus 1
19035 LLNGSLAEEQIIIRTKNISDNTKNIIVQLKTPVNITCTRPNNNTRTSIHLGPGRA Human 146 6 0.04109589
immunodeficiency virus 1
21859 QMVHQAISPRTLNAWVKVVEEKAFSPEVIPMFSALSEGATPQDLNTMLNTVGGHQA Human 146 6 0.04109589
immunodeficiency virus 1
20356 EAMSQVTNTNTAIMMQKGNFKGQRKFVKCFNCGKEGHIARNCRAPRKKGCWKCGR Human 146 6 0.04109589
immunodeficiency virus 1
36543 LLLTRDGGKNTTNGIEIFRPAGGDMRDNWRSELYKYKVVKIEPLGVAPTKARRRVV Human 146 6 0.04109589
immunodeficiency virus 1
76909 WSNKSLDEIWDNMTWMEWDKQINNYTDEIYRLLEVSQNQQEKNEQDLLALDKWAN Human 146 6 0.04109589
immunodeficiency virus 1
23962 EIFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTKAKRRVVQREKRAVGMLGAMF Human 146 6 0.04109589
immunodeficiency virus 1
31689 YRLKHLVWASRELERFALNPGLLETSDGCKQIIGQLQPAIRTGSEELRSLFNTVAV Human 146 6 0.04109589
immunodeficiency virus 1
76934 QRTQQAPAAADKEKDSKISQNYPIVQNAQGQMVHQAISPRTLNAWVKVVEEKAFS Human 146 5 0.034246575
immunodeficiency virus 1
20357 CFNCGKEGHIARNCRAPRKKGCWKCGREGHQMKDCTERQANFLGKIWPSSKGRPG Human 146 5 0.034246575
immunodeficiency virus 1
18320 MGGKWSKSSIVGWPQIRERIRQTPVAAEGVGAVSQDLARHGAITSSNTATNNPDCA Human 146 5 0.034246575
immunodeficiency virus 1
24065 MGARASVLSGGELDRWEKIRLRPGGKKKYKLKHVVWASRELERFAINPGLLETSE Human 146 5 0.034246575
immunodeficiency virus 1
23203 THGIKPVVSTQLLLNGSLAEEEIMIRSENLTDNTKNIIVQLNETVTINCTRPGNNT Human 146 5 0.034246575
immunodeficiency virus 1
64663 DSGNESDGDTEELSTMVDMGNLRLLDVNDD Human 146 5 0.034246575
immunodeficiency virus 1
64674 IIVQLNESVEITCTRPSNNTRESIRIGPGQTFYATGDIIGDIRQAHCNISEEKWNK Human 146 5 0.034246575
immunodeficiency virus 1
22135 LLLTRDGGTNVTNDTEVFRPGGGDMRDNWRSELYKYKVIKIEPLGIAPTKAKRRVV Human 146 5 0.034246575
immunodeficiency virus 1
77246 THNETFRPGGGDMRDNWRSELYKYKVVQIEPLGIAPTRARRRVVQREKRAVGLGAV Human 146 5 0.034246575
immunodeficiency virus 1
77265 QALSPRTLNAWVKVIEEKAFSPEVIPMFTALSEGATPQDLNTMLNTVGGHQAAMQM Human 146 5 0.034246575
immunodeficiency virus 1
41890 TGLLLTRDGGNSSSREEIFRPGGGNMRDNWRSELYKYKVVKIEPLGVAPTKAKRRV Human 146 5 0.034246575
immunodeficiency virus 1
65571 IISQPTQSDSPIVQQIIEELTKKERVYLTWVPAHKGIGGNEKIDKLVSKDIRRV Human 146 5 0.034246575
immunodeficiency virus 1
23115 CTRPNNNTRKSITKGPGRVIYATGQIIGDIRKAHCNLSRAQWNNTLKQVVTKLRE Human 146 5 0.034246575
immunodeficiency virus 1
24145 LYCVHQRIEVRDTKEALDKEEEQNKSKKKAQQAAADTGNSSQVSQNYPIVQNLQ Human 146 5 0.034246575
immunodeficiency virus 1
78238 GNMKPNWRSELYKYKVVEIEPLGVAPTKAKRQVVQREKRAAGLGALFLGFLGDSR Human 146 5 0.034246575
immunodeficiency virus 1
23296 LYCVHKGIDVKDTKEALEKMEEEQNKSKKKAQQAAADTGNNSQVSQNYPIVQNLQ Human 146 5 0.034246575
immunodeficiency virus 1
31632 ATNTTSSGGEKMEKGEMKNCSFNITTSIRDKVQKEHALFYKHDVVPINNSTKDNIK Human 146 5 0.034246575
immunodeficiency virus 1
17421 LYCVHEKIDVRPTKEALDKIKEEQNKSQQKTQQAEAADKGKVSQNYPIVQNLQGQM Human 146 5 0.034246575
immunodeficiency virus 1
65572 LTWVPAHKGIGGNEKIDKLVSKDIRRVLFLEGIDQAQEDHEKYHSNWRALASDFG Human 146 5 0.034246575
immunodeficiency virus 1
19345 LKDTINEEAAEWDRLHPTQAGPIPPGQIREPRGSDIAGTTSTLQEQIQWMTGKPPV Human 146 5 0.034246575
immunodeficiency virus 1
18310 QLQSRVLAIERYLKDQQLLGWGCSGKLICTTNVPWNTSWSNKSYNEIWDNMTWL Human 146 5 0.034246575
immunodeficiency virus 1
78381 QPVHQALSPRTLNAWVKVIEEKAFSPEVIPMFSALSEGATPQDLNTMLNTIGGHQA Human 146 5 0.034246575
immunodeficiency virus 1
31699 QASQEVKGWMTETLLVQNANPDCKTILKALGPQATLEEMMTACQGVGGPSHKARV Human 146 5 0.034246575
immunodeficiency virus 1
65529 PIKCFNCGKEGHIAKNCRAPRKRGCWKCGQEGFHQMKDCKNGRQANFLGKYWPPGG Human 146 5 0.034246575
immunodeficiency virus 1
65543 TQEVKNWMTETLLVQKSNPDCKQILKALGPEATLEEMMVACQGVGGPTHKAKILA Human 146 5 0.034246575
immunodeficiency virus 1
77331 MGGKWSKSSIVGWPNVRERMRAAEGVGKVSQDLDKHGAITSSNTRATNADLAWLE Human 146 5 0.034246575
immunodeficiency virus 1
64598 YMLKHLVWANRELEKFALNPDLLDTSAGCKQIIKQLQPALQTGTEELKSLFNTVA Human 146 5 0.034246575
immunodeficiency virus 1
35925 YKVVKIEPLGVAPTKAKRRVVQREKRAVTLGAMFLGFLGAAGSTMGARSLTLTVQ Human 146 5 0.034246575
immunodeficiency virus 1
64581 YMLKHLVWANRELEKFALNPDLLDTSAGCKQIIKQLQPALQTGTEELKSLFNTVA Human 146 5 0.034246575
immunodeficiency virus 1
22069 IYPGIKVRQLCKLLRGTKALTEVIPLTEEAELELAENREILKEPVHGVYYPPSKDI Human 146 5 0.034246575
immunodeficiency virus 1
78372 EAMSQVTNTNIMMQRGNFRDHKRIVKCFNCGKQGHIAKNCRAPRKKGCWKCGKEG Human 146 4 0.02739726
immunodeficiency virus 1
23202 PAGFAILKCNDKKFNGTEICKNVSTVQCTHGIKPVVSTQLLLNGSLAEEEIMIRS Human 146 4 0.02739726
immunodeficiency virus 1
64694 MGGTMSKCSPVGWPAIRERIRRAAPAAEGVGAASRDLDKYGALTSSNTPANNPDCA Human 146 4 0.02739726
immunodeficiency virus 1
23237 KARVLAEAMSQATNSTAAIMMQRGNFKGQKRIKCFNCGKEGHLARNCRAPRKKGC Human 146 4 0.02739726
immunodeficiency virus 1
23122 APTRAKRRVVQREKRAVGTIGAMFLGFLGAAGSTMGAGSITLTVQARHLLSGIVQ Human 146 4 0.02739726
immunodeficiency virus 1
31688 MGARASVLSGGKLDAWEKIRLRPGGKKKYRLKHLVWASRELERFALNPGLLETSD Human 146 4 0.02739726
immunodeficiency virus 1
77343 DINGTSLKEDQGEIKNCSFNVTTELKDKKRKQQALFYRLDVEPIKNSSNIYKLIS Human 146 4 0.02739726
immunodeficiency virus 1
35913 SSNWKEMDRGEIKNCSFKVTTSIRNKMQKEYALFYKLDVVPIDNDNTSYKLINCN Human 146 4 0.02739726
immunodeficiency virus 1
65546 PIKCFNCGKEGHIAKNCRAPRKRGCWKCGQEGHQMKDCKNGRQANFFREVLASGG Human 146 4 0.02739726
immunodeficiency virus 1
23314 QKTQQAAAAQQAAAATKNSSSVSQNYPIVQNAQGQMIHQAISPRTLNAWVKVIEE Human 146 4 0.02739726
immunodeficiency virus 1
31579 MGGRWSKSSIVGWPAERERIRRTDPAADGVGAVSRDLEKHGAITSSNTRGTNADCA Human 146 4 0.02739726
immunodeficiency virus 1
24101 RAPEDSQTHQVSLPKQPAPQFRGDPTGPKESKKKVERETETHPVD Human 146 4 0.02739726
immunodeficiency virus 1
64493 DNAKTIIVQLNESVVINCTRPNNNTRRRLSIGPGRAFYARRNIIGDIRQAHCNIS Human 146 4 0.02739726
immunodeficiency virus 1
31649 TAVPWNASWSNKSLEEIWDNMTWMEWEREIDNYTSLIYTLIEESQNQQEKNEQEL Human 146 4 0.02739726
immunodeficiency virus 1
19591 MGGKWSKSSIVGWPEVRERIRNTPTAAEGVGAVSQDLDRHGAITSSNTAANNPDCA Human 146 4 0.02739726
immunodeficiency virus 1
31602 SNSGKMMEGGEMKNCSFNITTSIRDKMQKEYALFYKLDIVPIDNDKTNTRYRLIS Human 146 4 0.02739726
immunodeficiency virus 1
19343 QSLSPRTLNAWVKVIEEKAFSPEVIPMFSALSEGATPQDLNTMLNTVGGHQAAMQM Human 146 4 0.02739726
immunodeficiency virus 1
36415 NMTWMEWEKEIENYTNTIYTLIEESQIQQEKNEQELLELDKWASLWNWFGITKWLW Human 146 4 0.02739726
immunodeficiency virus 1
23323 KARVLAEAMSQATNSTAAIMMQRGNFKGQKRIKCFNCGKEGHLARNCRAPRKKGCW Human 146 4 0.02739726
immunodeficiency virus 1
23327 PSQKQEQKDKELYPLASLKSLFGNDQLS Human 146 4 0.02739726
immunodeficiency virus 1
77355 RIEPVGVAPTKAKRRVVQRAKRAVGMGAVLFGFLGAAGSTMGAAAITLTAQARQL Human 146 4 0.02739726
immunodeficiency virus 1
78243 SWSNKSQEEIWNNMTWMEWEKEISNYSNIIYKLIEESQNQQEKNEQELLALDKWA Human 146 4 0.02739726
immunodeficiency virus 1
77348 TKNIIVQFNRSVIIDCRRPNNNTRKGIRIGPGQTFFATGEIIGDIRKAYCNRNRT Human 146 4 0.02739726
immunodeficiency virus 1
23401 ERILGTYLGRSAEPVPLQLPPLERLTLDCNEDCGTSGTQGVGSPQILVESPTYLES Human 146 4 0.02739726
immunodeficiency virus 1
31618 LGIWGCSGKLICTTAPWNASSNKSLSDIWDNMTWMEWEREIDNYTNLIYSLIE Human 146 4 0.02739726
immunodeficiency virus 1
77235 NATSTVVSPAEIKNCSFNITTEIKDKKKKESALFYRLDVLPLNGEGNNSSTEYRL Human 146 4 0.02739726
immunodeficiency virus 1
22141 SLEDIWDNMTWMQWEREIDNYTNTIYTLLEESQNQQEKNEQELLELDKWASLWNW Human 146 4 0.02739726
immunodeficiency virus 1
65536 SAEAAKEETSPRQTSQNYPIVTNAQGQMVHQAISPRTLNAWVKAVEEKAFNPEII Human 146 4 0.02739726
immunodeficiency virus 1
35778 SRPEPTAPPAESFGFGEEITPSQKQEQKDKELYPLASLKSLFGNDPSS Human 146 4 0.02739726
immunodeficiency virus 1
65532 MGARASVLTGSKLDAWERLRLRPGSKKAYRLKHLVWASRELERYACNPGLLETAE Human 146 4 0.02739726
immunodeficiency virus 1
23157 IEESQTQQEKNEQELLELDKWASLWNWFNITQWLWYIKIFIMIVGGLIGLRIVFA Human 146 4 0.02739726
immunodeficiency virus 1
41885 HIGPGRAFYTGEIRGNIRQAHCNISRAKWNNTLKQIVEKLREQFNKTIVFNHSS Human 146 4 0.02739726
immunodeficiency virus 1
35765 LYCVHERIEVKDTKEAVEKMEEEQNKSKKKTQQAAADSSQVSQNYPIVQNLQGQM Human 146 4 0.02739726
immunodeficiency virus 1
31635 IPIHYCAPAGFAIIKCNDKKFNGTGPCTNVSTVQCTHGIKPVVSTQLLLNGSLAE Human 146 4 0.02739726
immunodeficiency virus 1
42473 SSSWETMEKGEIKNCSFNITTSIRDKVQKEYALFYNLDVVPIDNASYRMSCNTS Human 146 4 0.02739726
immunodeficiency virus 1
77319 QMVHQSLSPRTLNAWVKVIEEKAFSPEVIPMFSALSEGATPQDLNTMLNTVGGHQA Human 146 4 0.02739726
immunodeficiency virus 1
78266 ATLEEMMTACQGVGGPSHKARVLAEAMSQANSAIMMQKSNFKGQRRVVKCFNCGK Human 146 4 0.02739726
immunodeficiency virus 1
41867 TNLIYNLIEESQNQQEKNEQDLLALDKWDSLWNWFSITKWLWYIKIFIMIVGGLV Human 146 4 0.02739726
immunodeficiency virus 1
19682 NFSGNGSCTNVSTVQCTHGIKPVISTQLILKGSLNTDGIVIRNDSHSNLLVQWNE Human 146 4 0.02739726
immunodeficiency virus 1
77293 KPVVSTQLLLNGSLAEEKMIIRSENISDNTKTIIVQFKNPVKINCTRPNNNTRRS Human 146 4 0.02739726
immunodeficiency virus 1
19683 ILNGSLNTDGIVIRNDSHSNLLVQWNETVPINCTRPGNNTGGQVQLGPAMTFYNI Human 146 4 0.02739726
immunodeficiency virus 1
77384 VQCTHGIKPVVSTQLLLNGSLAEEEIIIRSEDITKNTKNIIVQLNEAVEINCTRPS Human 146 4 0.02739726
immunodeficiency virus 1
24143 YRLKHIVWASRKLERFAVNPGLLETSKGCRQILGQLQPSLQTGSEELRSLYNTVA Human 146 4 0.02739726
immunodeficiency virus 1
65516 YRLKHLVWASRELERYACNPGLLETAEGTEQLLQQLEPALKTGSEDLKSLWNAIA Human 146 4 0.02739726
immunodeficiency virus 1
77260 MGARASVLSGGKLDAWEKIRLRPGGKKKYKLKHLVWASRELERFALNPGLLETTE Human 146 3 0.020547945
immunodeficiency virus 1
23398 RAPQDSQTHQASLSKQPASQSRGDPTGPTESKKKVERETETDPFD Human 146 3 0.020547945
immunodeficiency virus 1
23262 TNQKTELQAIHLALQDSGSEVNIVTDSQYALGIIQAQPDKSESEIVNQIIEQLIQ Human 146 3 0.020547945
immunodeficiency virus 1
75971 KIKLQEKIEQIRQKIRDRTEDRGKESDGDAEWLAILLSPPKLDNW Human 146 3 0.020547945
immunodeficiency virus 1
23254 KESWTVNDIQKLVGKLNWASQIYPGIKVKQLCKLLRGAKALTDIVPLTAEAELELA Human 146 3 0.020547945
immunodeficiency virus 1
36550 IEESQNQQEKNEQELLELDKWAGLWSWFSITNWLWYIRIFIIIVGGLVGLRIVFA Human 146 3 0.020547945
immunodeficiency virus 1
64489 KVKKEYALFNRLDVVPIENTNNTKYRLISCNTSVITQACPKVSFQPIPIHYCVPA Human 146 3 0.020547945
immunodeficiency virus 1
64662 TIAYIEYRKLLRQRRIDRLIKRTRERAEDSGNESDGDTEELSTMVDMGNLRLLDV Human 146 3 0.020547945
immunodeficiency virus 1
20346 LYCVHRKIDVKDTKEALDKIEEIQNKSQQKTQQAAADKEKDNKVSQNYPIVQNAQ Human 146 3 0.020547945
immunodeficiency virus 1
20350 AMQMLKDTINEEAAEWDRVHPVHAGPIPPGQMREPRGSDIAGTTSTLQEQIAWMT Human 146 3 0.020547945
immunodeficiency virus 1
31691 LYCVHERIEVKDTKEALEKMEEEQNKSKNKKAQQAAADAGNNSQVSQNYPIVQNL Human 146 3 0.020547945
immunodeficiency virus 1
77416 VKNWMTETLLVQNANPDCRTILKALGSGATLEEMMTACQGVGGPGHKARVLAEMS Human 146 3 0.020547945
immunodeficiency virus 1
36537 NFTNNAKIIIVQLNKSVEINCTRPNNNTRNRISIGPGRAFHTTKQIIGDIRQAHC Human 146 3 0.020547945
immunodeficiency virus 1
36398 SSEGMMERGEIKNCSFNITKSIRDKVQKEYALFYKLDVVPIDNKNNTKYRLISCN Human 146 3 0.020547945
immunodeficiency virus 1
18295 ANNTVENKEEIKNCSFKITTERGGKKKEEYALFYKLDVVPISNGNKTSYRLIHCN Human 146 3 0.020547945
immunodeficiency virus 1
77290 KQKKEYALFYKLDVVQINNSNTSYRLINCNTSTLTQACPKVSFDPIPIHYCAPAG Human 146 3 0.020547945
immunodeficiency virus 1
31619 DIWDNMTWMEWEREIDNYTNLIYSLIEDSQIQQEKNEKELLELDKWASLWNWFNI Human 146 3 0.020547945
immunodeficiency virus 1
77289 NNTTLAPNVTISEEMKNCSFNITTEIRDKQKKEYALFYKLDVVQINNSNTSYRLI Human 146 3 0.020547945
immunodeficiency virus 1
31620 SQIQQEKNEKELLELDKWASLWNWFNITNWLWYIKIFIMIVGGLIGLRIVFAVLS Human 146 3 0.020547945
immunodeficiency virus 1
31592 ISNYLGRPAEPVPLQLPPLERLTLDCNEDCGTSGTQGVGSPQILVESPTILESGTK Human 146 3 0.020547945
immunodeficiency virus 1
64594 GKEGHLARNCRAPRKKGCWKCGKEGHQMKDCTERQANFLGRLWPSNKGRPGNFLQ Human 146 3 0.020547945
immunodeficiency virus 1
31636 NVSTVQCTHGIKPVVSTQLLLNGSLAEEEVVIRSENFTDNAKTIIVQLKEPVVIN Human 146 3 0.020547945
immunodeficiency virus 1
23369 MGGKWSKSSIVGWPKIRERIRRTPPTETGVGAVSQDAVSQDLDKCGAAASSSPAA Human 146 3 0.020547945
immunodeficiency virus 1
23322 KTILKALGPGATLEEMMTACQGVGGPSHKARVEAEAMSQATNSTAAIMMQRGNFK Human 146 3 0.020547945
immunodeficiency virus 1
77410 QALSPRTLNAWVKVIEEKAFSPEVIPMFSALSEGATPQDLNTMLNTVGGHQAAMQM Human 146 3 0.020547945
immunodeficiency virus 1
77383 YCAPAGFAILKCNNNTCNGTGPCTNVSTVQCTHGIKPVVSTQLLLNGSLAEEEII Human 146 3 0.020547945
immunodeficiency virus 1
77411 SALSEGATPQDLNTMLNTVGGHQAAMQMLKDTINEEAAEWDRMHPVQAGPIPPGQ Human 146 3 0.020547945
immunodeficiency virus 1
77415 IRQGPKEPFRDYVDRFFRVLRAEQATQEVKNWMTETLLVQNANPDCRTILKALGS Human 146 3 0.020547945
immunodeficiency virus 1
64604 QMLKDTINEEAAEWDRLHPVHAGPVAPGQMRDPRGSDIAGTTSTLQEQIAWMTGN Human 146 3 0.020547945
immunodeficiency virus 1
18255 LKEPVHGVYHDPSKELIAEVQKQGPDQWTYQIYQEPYKNLKTGKYAKRGSAHTNDV Human 146 3 0.020547945
immunodeficiency virus 1
76935 QGQMVHQAISPRTLNAWVTCVVEEKAFSPEVIPMFSALSEGATPQDLNAMLNTVGG Human 146 3 0.020547945
immunodeficiency virus 1
31674 AKAYEKESHKVWATHACVPSDPSPQELVLGNVTENFNMWKNKMVEQMHEDIISLWI Human 146 3 0.020547945
immunodeficiency virus 1
77278 VSQDLDKRGAITNSNTGATNADLAWLEAQEEEVGFPVRPQVPLRPMTYKAALDLS Human 146 3 0.020547945
immunodeficiency virus 1
18237 CFNCGKEGHLARNCRAPRKKGCWKCGKEGHQMKECTERQANFLRENLAFQQGEAR Human 146 3 0.020547945
immunodeficiency virus 1
36520 MGGKWSKCSMKGWPTIRERMKRAELQPPEPAAEGVGAASRDLEKHGAITSSNTAA Human 146 3 0.020547945
immunodeficiency virus 1
23228 QKTQQAAAAQQAAAATKNSSSVSQNYPIVQNAQGQMIHQAISPRTLNAWVKVIEE Human 146 3 0.020547945
immunodeficiency virus 1
23243 GKWKPKMIGGIGGFIKVRQYDQILIEICGKKAIGTILVGPTPVNIIGRNMLTQIG Human 146 3 0.020547945
immunodeficiency virus 1
17422 QKTQQAEAADKGKVSQNYPIVQNLQGQMVHQPISARTLNAWVKVVEEKAFSPEVI Human 146 3 0.020547945
immunodeficiency virus 1
23937 NKSLDDIWNNMTWMQWEREIDNYTSLIYSLLEKSQTQQEKNEQELLELDKWASLW Human 146 3 0.020547945
immunodeficiency virus 1
78215 MGGKWSKSSIVGWPAVGERMRQTPTAAEGVGAVSRDLDRRGAITSSNTRTTNPDLA Human 146 3 0.020547945
immunodeficiency virus 1
78416 PAHKGIGGNEQVDKLVSSGIRKVLFLDGIDKAQEDHEKYHSNWRAMASDFNLPPV Human 146 3 0.020547945
immunodeficiency virus 1
41850 RDKVQKEYALFYKLDVVPIDNDNNSTNTCYRLISCDTSVITQACPKVSFEPIPIHY Human 146 3 0.020547945
immunodeficiency virus 1
23126 VPWNASWSNKSLNMIWNNMTWMQWEREIDNYTGIIYNLLEESQNQQEKNEQELLE Human 146 3 0.020547945
immunodeficiency virus 1
78230 NGTGPCKNVSTVQCTHGIKPVVSTQLLLNGSLAEEGIVIRSQNISNNAKTIIVHL Human 146 3 0.020547945
immunodeficiency virus 1
78389 EAMSQVTNTNIMMQRGNFRDHKRIVKCFNCGKQGHIAKNCRAPRKKGCWKCGKEG Human 146 3 0.020547945
immunodeficiency virus 1
23110 TQKKYALFYKLDVVPIEKGNISPKNNTSNNTSYGNYTLIHCNSSVITQACPKVSF Human 146 3 0.020547945
immunodeficiency virus 1
23109 TSSSGGTMMENGEIKNCSFQVTTSRRDKTQKKYALFYKLDVVPIEKGNISPKNNTS Human 146 3 0.020547945
immunodeficiency virus 1
19357 AKSYEKEAHNVWATHACVPTDPNPQEVVLENVTERFNMWENNMVEQMHTDIISLW Human 146 3 0.020547945
immunodeficiency virus 1
65626 MGNAWSKSKFAGWSEVRDRMRRSSSDPQQPCAPGVGAVSRELATRGGISSSHTPQ Human 146 3 0.020547945
immunodeficiency virus 1
41896 KSMDQIWNNMTWMEWEREIDNYTSLIYNLIEESQNQQEKNEQELLELDKWASLWN Human 146 3 0.020547945
immunodeficiency virus 1
78265 VKGWMTDTLLVQNANPDCKTILKALGTGATLEEMMTACQGVGGPSHKARVLAEAMS Human 146 3 0.020547945
immunodeficiency virus 1
24108 MEPVDPRLEPWKHPGSQPKTACNNCYCKKCCYHCQVCFLTKGLGISYGRKKRRQR Human 146 3 0.020547945
immunodeficiency virus 1
23898 CSEDCGTSGTQGVGSPQILVESPAVLESGTK Human 146 3 0.020547945
immunodeficiency virus 1
19378 KNEQELLALDKWASLWNWFDITQWLWYIKIFIMIVGGLIGLRIVFTVLSIVNRVR Human 146 3 0.020547945
immunodeficiency virus 1
35883 NNSSGGTVEKEEIKNCSFNITTGIRDKVQKAYAYFYKLDYVPIDDDNTNTSYRLI Human 146 3 0.020547945
immunodeficiency virus 1
24147 QMVHQAISPRTLNAWVKVIEEKAFSPEVIPMFAALSEGATPQDLNTMLNTVGGHQA Human 146 3 0.020547945
immunodeficiency virus 1
24067 CRQILGQLQPSLQTGSEERKSLYNTVATLYCVHQKIKIKDTKEALEKIEEEQNKS Human 146 3 0.020547945
immunodeficiency virus 1
78360 YRIKHLVWASRELDRFALNPGLLESAKGCQQILVQLQPALQTGTQEIKSLYNTVA Human 146 3 0.020547945
immunodeficiency virus 1
78272 LLDTGADDTVLEDINLPGKWKPKMIGGIGGFIKVKQYDNILIEICGHKAIGTVLV Human 146 3 0.020547945
immunodeficiency virus 1
35856 MGGKWSKSKMGWPAVRERMKRAEPAADGVGAASRDLEKHGALTSSNTAATNADCA Human 146 3 0.020547945
immunodeficiency virus 1
35857 VGAASRDLEKHGALTSSNTAATNADCAWLEAQEDEEVGFPVKPQVPLRPMTYKAA Human 146 3 0.020547945
immunodeficiency virus 1
35894 TRDGGGDKNSTTEIFRPAGGNMKDNWRSELYKYKVVKIEPLGVAPTKAKRRVVQR Human 146 3 0.020547945
immunodeficiency virus 1
22107 KAKRRVVQREKRAVGIGALFLGFLGAAGSTMGARSMTLTVQARQLLSGIVQQQNN Human 146 3 0.020547945
immunodeficiency virus 1
24104 RAPQDSQTHQVSLPKQPASQARGDPTGPKESKKKVERETETDPVD Human 146 3 0.020547945
immunodeficiency virus 1
35873 CSEDCGTSGTQGVGSPQILVESPAVLESGTK Human 146 3 0.020547945
immunodeficiency virus 1
17434 RTEPTAPPEESFRFGEETTTPSRKQETIDKELPLTSLKSLFGSDPLST Human 146 3 0.020547945
immunodeficiency virus 1
23992 DNWRSELYKYKWKIEPLGVAPTKAKRRVVAREKRAIGMGAFFLGFLGAAGSTMGA Human 146 3 0.020547945
immunodeficiency virus 1
77238 FAILKCKDKRFNGTGPCKNVSTVQCTHGIKPVVSTQLLLNGSLAEEEIIIRSENIT Human 146 3 0.020547945
immunodeficiency virus 1
38463 YRLKHLVWASRELEKFTLNPGLLETAEGCQQILGQLQPALQTGTEELRSLYNTVA Human 146 3 0.020547945
immunodeficiency virus 1
23991 ITGILLTRDGVGNNTSNETFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTKAKR Human 146 3 0.020547945
immunodeficiency virus 1
64681 VVEIKPLGVAPTKPKRRVVEREKRAALGALFLGFLGAAGSTMGAASITLTVQARQ Human 146 3 0.020547945
immunodeficiency virus 1
78424 IDIIATDIQTRELQKQITKIQNFRVYYRDSRDPIWKGPAKLPWKGEGAVVIQPNS Human 146 3 0.020547945
immunodeficiency virus 1
38467 QALSPRTLNAWVKVVEDKAFSPEVIPMFSALSEGATPQDLNMMLNVVGGHQAAMQM Human 146 3 0.020547945
immunodeficiency virus 1
19034 TFNGTGLCTNVSTVQCTHGIRPVVSTQLLLNGSLAEEQIIIRTKNISDNTKNIIV Human 146 3 0.020547945
immunodeficiency virus 1
76892 STDINIGEIQEQRNCSFNVTTAIRDKNQKVHALFYRADIVQIDEGERNKSPNHYR Human 146 3 0.020547945
immunodeficiency virus 1
23156 SLNDIWQNMTWMEWEREIDNYTGLIYRLIEESQTQQEKNEQELLELDKWASLWNW Human 146 3 0.020547945
immunodeficiency virus 1
23151 NWRSELYKYKVVKIEPLGVAPTKVKRRVVEREKRAIGLGAMFLGFLGAAGSTMGA Human 146 3 0.020547945
immunodeficiency virus 1
38475 QVQQTSIMMQRGNFRGPRRIKCFNCGKEGHLAKNCRAPRKKGCWKCGKEGHQMKD Human 146 3 0.020547945
immunodeficiency virus 1
64485 AKAYDTEVHNVWATHACVPTDPNPQEVVLGNVTENFNMWKNNMVDQMHEDIISLWD Human 146 3 0.020547945
immunodeficiency virus 1
27735 MQMLKDTINDEAAEWDRIHPQQAGPIPPGQIREPSGSDIAGTTSTLQEQIRWMTS Human 146 2 0.01369863
immunodeficiency virus 1
27734 PMFSALSEGATPQDLNTMLNTVGGHQAAMQMLKDTINDEAAEWDRIHPQQAGPIP Human 146 2 0.01369863
immunodeficiency virus 1
31700 ALGPQATLEEMMTACQGVGGPSHKARVLAEAMSQATNSAAAVMMQRGNFKGPRKT Human 146 2 0.01369863
immunodeficiency virus 1
21867 EAMSQVTNTATIMMQRGNFRNQRKMVKCFNCGKEGHTARNCRAPRKKGCWKCGKE Human 146 2 0.01369863
immunodeficiency virus 1
77397 IWENMTWMQWEKEISNHTSTIYRLIEESQIQQEKNEQDLLALDKWASLWNWFDIS Human 146 2 0.01369863
immunodeficiency virus 1
77395 LQLTVWGIKQLRARVLAVERYLRDQQLLGIWGCSGKLICTTNVPWNSSWSNKSQS Human 146 2 0.01369863
immunodeficiency virus 1
27729 YKLKHIVWASRELGRFALNRDLLETAEGCVQIMKQLQPALTGTEELRSLFNTVAT Human 146 2 0.01369863
immunodeficiency virus 1
78359 MGARASILSGGKLDDWEKIRLRPGGKKKYRIKHLVWASRELDRFALNPGLLESAK Human 146 2 0.01369863
immunodeficiency virus 1
27741 AMSQASGAAAAAIMMQKSNFKGPRRIIKCFNCGKEGHLARNCRAPRKKGCWKCGK Human 146 2 0.01369863
immunodeficiency virus 1
22088 LWKGEGAVVIQDNSDIKVVPRRKAKIIRDYGKQMAGDDCVASRQDED Human 146 2 0.01369863
immunodeficiency virus 1
77398 QIQQEKNEQDLLALDKWASLWNWFDISNWLWYIKIFIMIVGGLIGLRIVFTVLSV Human 146 2 0.01369863
immunodeficiency virus 1
38469 LKDTINEEAAEWDRLHPVHAGPIPPGQMREPRGSDIAGTTSTVQEQIGWMTGNPP Human 146 2 0.01369863
immunodeficiency virus 1
19639 MGARASVLTGGKLDQWESIYLRPGGKKKYRMKHLVWASRELERFACNPGLMDTAD Human 146 2 0.01369863
immunodeficiency virus 1
22071 IAEIQKQGQGQWTYQIYQEPFKNLKTGKYARMRGAHTNDVKQLTEAVQKITTESI Human 146 2 0.01369863
immunodeficiency virus 1
78364 QPVHQALSPRTLNAWVKVIEEKAFSPEVIPMFSALSEGATPQDLNTMLNTIGGHQA Human 146 2 0.01369863
immunodeficiency virus 1
36396 LENVTEDFKMWKNNMVEQMQEDVINLWDQSLKPCVKLTPLCVTLNCKDVNATNTTS Human 146 2 0.01369863
immunodeficiency virus 1
31693 GQMVHQAISPRTLNAWVKVIEEKAFSPEVIPMFSALSEGATPQDLNTMLNTVGGH Human 146 2 0.01369863
immunodeficiency virus 1
78376 MGARASILSGGKLDDWEKIRLRPGGKKKYRIKHLVWASRELDRFALNPGLLESAK Human 146 2 0.01369863
immunodeficiency virus 1
77301 LYKYKVVKIEPLGVAPTKAKRQVVQREKRAVGMGAMFLGFLGAAGSTMGAASITL Human 146 2 0.01369863
immunodeficiency virus 1
21856 CRQILGQLQPSLQTGSEELRSLYNTVATLYCVHQRIEIKDTKEALDKIEEEQNKS Human 146 2 0.01369863
immunodeficiency virus 1
22042 KKAQQAAADTGHSSQVSQNYPIVQNIQGQMVHQAISPRTLNAWVKVVEEKAFSPE Human 146 2 0.01369863
immunodeficiency virus 1
78387 ATQDVKNWMTDTLLVQNANPDCKTILKALGSGATLEEMMTACQGVGGPGHKARVLA Human 146 2 0.01369863
immunodeficiency virus 1
21858 KKAQQAAADTGHSSQVSQNYPIVQNIQGQMVHQAISPRTLKAWVKVVEEKAFSPE Human 146 2 0.01369863
immunodeficiency virus 1
21870 LQSRPEPTAPPFLQSRPEPTAPPEESFRSGVETTTPPQKQEPIDKELYPLTSLRSL Human 146 2 0.01369863
immunodeficiency virus 1
36410 KYKVVKIEPLGVAPTKAKRRVVQREKRAVGIGALFLGFLGAAGSTMGARSMTLTV Human 146 2 0.01369863
immunodeficiency virus 1
19651 KALGPGATLEEMMTACQGVGGPAHKARVLAEAMSQVQQPTTSVFAQRGNFKGIRK Human 146 2 0.01369863
immunodeficiency virus 1
27774 FDCFSDSAIRKAILGQRVSPRCNYQAGHNKVGSLQYLALTALITPKKIKPPLPSV Human 146 2 0.01369863
immunodeficiency virus 1
77314 MGARASVLSGGKLDAWEKIRLRPGGKKKVRLKHIVWASRELKRFALNPGLLETTE Human 146 2 0.01369863
immunodeficiency virus 1
21868 FNCGKEGHTARNCRAPRKKGCWKCGKEGHQMKDCTERQANFLGKIWPSYKGRPGN Human 146 2 0.01369863
immunodeficiency virus 1
23227 LYCVHQRIDVKDTKEALDKIEEIQNKSRQKTQQAAAAQQAAAATKNSSSVSQNY Human 146 2 0.01369863
immunodeficiency virus 1
18300 VIIVQLNNSIEINCIRPNNNTRKSIPIGPGQAFYATGDIIGDIRQAHCNVSRIKWR Human 146 2 0.01369863
immunodeficiency virus 1
19668 RTPQSSKSHQDLIPEQPLSQQQGDQTGQKKQKEALESKTEADPCD Human 146 2 0.01369863
immunodeficiency virus 1
23402 CNEDCGTSGTQGVGSPQILVESPTVLESGTK Human 146 2 0.01369863
immunodeficiency virus 1
19051 YSPLSFQTLVPNPRGPDRPEGTEEGGGEQDRDRSVRLVNGFLPVVWPDLRSLSLFS Human 146 2 0.01369863
immunodeficiency virus 1
36521 EPAAEGVGAASRDLEKHGAITSSNTAATNADCAWLEAQEDEEVGFPVRPQVPLRPM Human 146 2 0.01369863
immunodeficiency virus 1
77231 NADKLWVTVYYGVPVWKEATPTLFCASDAKAYEKEVHNVWATHACVPTDPNPQEV Human 146 2 0.01369863
immunodeficiency virus 1
77264 RKTQQEAADKGVSQNYPIVQNLQGQMVHQALSPRTLNAWVKVIEEKAFSPEVIPM Human 146 2 0.01369863
immunodeficiency virus 1
19043 VVKIEPLGIAPTKTRRRVVEREKRAVGMGASFLGFLGAAGSTMGAASITLTVQAR Human 146 2 0.01369863
immunodeficiency virus 1
77232 AKAYEKEVHNVWATHACVPTDPNPQEVEMENVTENFNMWKNNMVEQMHTDIISLWD Human 146 2 0.01369863
immunodeficiency virus 1
23261 AANRETKKGKAGYVTDRGRQKVVSLTETTNQKTELQAIHLALQDSGSEVNIVTDS Human 146 2 0.01369863
immunodeficiency virus 1
77239 IKPVVSTQLLLNGSLAEEEIIIRSENITDNTKNIIVQLNETVQINCTRPNNNTRKS Human 146 2 0.01369863
immunodeficiency virus 1
23187 ESQTQQEKNEKELLELDKWASLWNWFSITQWLWYIKIFIMIIGGLIGLRIVFAVL Human 146 2 0.01369863
immunodeficiency virus 1
38476 GHLAKNCRAPRKKGCWKCGKEGHQMKDCTERQANFLGKIWPSNKGRPGNFPQSRP Human 146 2 0.01369863
immunodeficiency virus 1
75977 RPPKSSKDHQDPIPEQPLSRQQPGDQTGQKKQKKALEGKTEADPCD Human 146 2 0.01369863
immunodeficiency virus 1
20359 FLQSRPEPTAPPAESFGFGEEMTPSPKQEQLKDKEPPLASLRSLFGSDPLL Human 146 2 0.01369863
immunodeficiency virus 1
19018 KCCYHCQMCFLKKGLGISYGRKKRSQRHRTPASLQDHQNSISKQPLSRTHGDP TG Human 146 2 0.01369863
immunodeficiency virus 1
23210 ITGLILTRDGGNSSDNSDNETLRPGGGDMRDNWISELYKYKVVRIEPLGVAPTKA Human 146 2 0.01369863
immunodeficiency virus 1
23211 MRDNWISELYKYKVVRIEPLGVAPTKAKRRVVEREKRAIGLGAMFLGFLGAAGST Human 146 2 0.01369863
immunodeficiency virus 1
36559 RAPQDSKTHQVSLSKQPASQPRGDPTGPKESKKKVERETETDPED Human 146 2 0.01369863
immunodeficiency virus 1
23216 SNRSLDDIWNNMTWMQWEKEISNYTGIIYNLIEESQIQQEKNEKELLELDKWASLW Human 146 2 0.01369863
immunodeficiency virus 1
20347 QKTQQAAADKEKDNKVSQNYPIVQNAQGQMVHQAISPRTLNAWVKVVEEKAFSPE Human 146 2 0.01369863
immunodeficiency virus 1
23217 YNLIEESQIQQEKNEKELLELDKWASLWNWFSISKWLWYIRIFIIVVGGLIGLR Human 146 2 0.01369863
immunodeficiency virus 1
76936 EVIPMFSALSEGATPQDLNAMLNTVGGHQAAMQMLKDTINEEAAEWDRLHPVHAG Human 146 2 0.01369863
immunodeficiency virus 1
31614 SELYKYKVVKIEPLGVAPTKAKRRVVQREKRAVGLGALFLGFLGAAGSTMGAASL Human 146 2 0.01369863
immunodeficiency virus 1
19344 SALSEGATPQDLNTMLNTVGGHQAAMQMLKDTINEEAAEWDRLHPTQAGPIPPGQ Human 146 2 0.01369863
immunodeficiency virus 1
19694 IERYLRDQQILSLWGCSGKTICYTTVPWNETWSNNTSYDTIWNNLTWQQWDEKVR Human 146 2 0.01369863
immunodeficiency virus 1
78278 LGIPHPAGLKKKKSVTVLDVGDAYFSVPLDKDFKKYTAFTIPSVNNETPGIRYQY Human 146 2 0.01369863
immunodeficiency virus 1
78276 EICLEMEKEGKISKIGPENPYNTPVFAIKKKDSSKWRKLVDFKELNKRTQDFWEV Human 146 2 0.01369863
immunodeficiency virus 1
78274 PTPVNIIGRNMLTQIGCTLNFPVSPIETVPVKLKPGMDGPKVKQWPLTEEKIKALT Human 146 2 0.01369863
immunodeficiency virus 1
19391 HPMSQHGMEDEDKEVLKWEFDSRLALRHIARERHPEYYQD Human 146 2 0.01369863
immunodeficiency virus 1
31593 DCGTSGTQGVGSPQILVESPTILESGTKE Human 146 2 0.01369863
immunodeficiency virus 1
31589 MGGKWSKRSWGWPAVR Human 146 2 0.01369863
immunodeficiency virus 1
78271 VPSLSFPQITLWQRPLVTIKIGGQIKEALLDTGADDTVLEDINLPGKWKPKMIGG Human 146 2 0.01369863
immunodeficiency virus 1
78267 QANSAIMMQKSNFKGQRRVVKCFNCGKEGHIARNCRAPRKKGCWKCGREGHQMKD Human 146 2 0.01369863
immunodeficiency virus 1
23362 MGGRWSKSSIVGWPAIRERIRRTDPRRTDPAADGVGAASRDLEKHGAITSSNTRD Human 146 2 0.01369863
immunodeficiency virus 1
31601 DQSLKPCVKLTPLCVTLNCHDFNATNATSNSGKMMEGGEMKNCSFNITTSIRPKM Human 146 2 0.01369863
immunodeficiency virus 1
23326 GRPGNFLQSRPEPTAPPAESFGFGEEIKPSQKQEQKDKELYPLASLKSLFGNDQL Human 146 2 0.01369863
immunodeficiency virus 1
77408 LYWVHQSIQVRDTKEALDKLEEEQNRTQQKTQQGKADKGVSQNYPIVQNLQGQMV Human 146 2 0.01369863
immunodeficiency virus 1
77409 QKTQQGKADKGVSQNYPIVQNLQGQMVHQALSPRTLNAWVKVIEEKAFSPEVIPM Human 146 2 0.01369863
immunodeficiency virus 1
78239 AKRQVVQREKRAAGLGALFLGFLGDSREHMGAASITLTVQARQLLSGIVQQQNNL Human 146 2 0.01369863
immunodeficiency virus 1
19352 EGHIAKNCRAPRKKGCWKCGREGHQMKDCTERQANFLGKIWPSNKGRPGNFIQNR Human 146 2 0.01369863
immunodeficiency virus 1
77412 LKDTINEEAAEWDRMHPVQAGPIPPGQIREPRGSDIAGTTSTLQEQITWMTSNPP Human 146 2 0.01369863
immunodeficiency virus 1
23313 LYCVHQRIDVKDTKEALDKIEEIQNKSRQKTQQAAAAQQAAAATKNSSSVSQNY Human 146 2 0.01369863
immunodeficiency virus 1
19350 ATLEEMMTACQGVGGPSHKARVLAEAMSQATNTAIMMQKSNFKGQRRLVKCFNCG Human 146 2 0.01369863
immunodeficiency virus 1
77344 KRKQQALFYRLDVEPIKKSSNIYKLISCNMSTVTQACPKVSFDPIPIHYCAPAGYA Human 146 2 0.01369863
immunodeficiency virus 1
77332 VSQDLDKHGAITSSKTRATNADLAWLEAQEEEVGFPVRPQVPLRPMTYKAAVDLS Human 146 2 0.01369863
immunodeficiency virus 1
76893 KVHALFYRADIVQIDEGERNKSDNHYRLINCNTSVIKQACPKVSFEPIPIHYCAPA Human 146 2 0.01369863
immunodeficiency virus 1
65544 GPEATLEEMMVACQGVGGPTHKAKILAEAMASAQQDLKGGYTAVFMQRGQNPNRK Human 146 2 0.01369863
immunodeficiency virus 1
64584 QKTQQAGAADRGKDSQNYPIVQNMQGQMVHQPISARTLNAWYKVVEEKAFSPEVI Human 146 2 0.01369863
immunodeficiency virus 1
64633 NTPPLVKLWYQLEKEPIAGVETFYVDGAANRETKIGKAGYVTDRGRQKIVSLTET Human 146 2 0.01369863
immunodeficiency virus 1
23917 AKAYDTEVHNVWATQACVPTDPNPQEVELVNVTENFNMWKNNMVEQMHEDIISLWD Human 146 2 0.01369863
immunodeficiency virus 1
17458 TDNMGGEIKNCSFNMTTEVRDKREKVHALFYRLDIVPLKNESSNTSGDYRLINCN Human 146 2 0.01369863
immunodeficiency virus 1
65520 VHQAISPRTLNAWVKAVEEKAFNPEIIPMFMALSEGAVPYDINTMLNAIGGHQGA Human 146 2 0.01369863
immunodeficiency virus 1
24078 VLAEAMSQVTNSATIMMQRGNFRNQRKIIKCFNCGKEGHIAKNCRAPRKRGCWKC Human 146 2 0.01369863
immunodeficiency virus 1
65515 MGARASVLTGSKLDAWERIRLRPCSKKAYRLKHLVWASRELERYACNPGLLETAE Human 146 2 0.01369863
immunodeficiency virus 1
64610 MSQVNNTTIMMQKSNFKGPKRAIKCFNCGKEGHLARNCRAPRKKGCWKCGKEGHQM Human 146 2 0.01369863
immunodeficiency virus 1
41879 KTIIGGGEVKNCSFNITTSIRDKVHKEYALFYKLDVVPIKSNNDSSTYTRYRLIH Human 146 2 0.01369863
immunodeficiency virus 1
23998 LIEESQTQQEINERDLLALDKWANLWNWFDISNWLWYIKIFIMIVGGLIGLRIVF Human 146 2 0.01369863
immunodeficiency virus 1
65251 RPGNYVQRPAHPSAPPMEEEVKGQENQEQKGGPNELYPFASLKSLFGTD Human 146 2 0.01369863
immunodeficiency virus 1
65545 AMASAQQDLKGGYTAVFMQRGQNPNRKGPIKCFNCGKEGHIAKNCRAPRKRGCWK Human 146 2 0.01369863
immunodeficiency virus 1
64505 DDIWKNMTWMEWEREIDNYTDYIYDLLEKSQTQQEKNEKELLELDKWASLWNWFD Human 146 2 0.01369863
immunodeficiency virus 1
41849 NTTNNKSSIEEKMKGEIKNCSFNVTTNIRDKVQKEYALFYKLDVVPIDNDNNSTN Human 146 2 0.01369863
immunodeficiency virus 1
24081 GNFPQSRTEPTAPPEESFRFGEETTTPYQKQEKKQETIDKDLYPLASLKSLFGND Human 146 2 0.01369863
immunodeficiency virus 1
17483 MGNKWSKCSTVGRPAIRERMRRAPAAEGVGPASQDSDKYGALTSSSTPANNADCA Human 146 2 0.01369863
immunodeficiency virus 1
23951 TSIRDKVQREYALFYKLDVEPIDPNKNTTNNTKYRLINCNTSVLTQACPKVSFEP Human 146 2 0.01369863
immunodeficiency virus 1
35762 MGARASVLSGGKLDTWERIRLRPGGKKKYALKHLIWASRELERFTLNPGLLETSE Human 146 2 0.01369863
immunodeficiency virus 1
35901 SQNQQEKNEQELLELDKWASLWNWFSITNWLWYIRIFIMIVGGLIGLRIIFAVLS Human 146 2 0.01369863
immunodeficiency virus 1
17475 NNMTWMQWDREISNYTNTIYRLLEDSQNQQEKNEQDLLALDKWQNLWTWFGITNW Human 146 2 0.01369863
immunodeficiency virus 1
24146 KKAQQAAADTGNSSQVSQNYPIVQNLQGQMVHQAISPRTLNAWVKVIEEKAFSPE Human 146 2 0.01369863
immunodeficiency virus 1
17451 TIAYIEYRKLVRQRRIDWLVKRIKERAEDSGNESGGDTEELETMVDMGHLRLLDG Human 146 2 0.01369863
immunodeficiency virus 1
17431 MSKVNNTNIMMQRSNCKGPKRTIKCFNCGKEGHLARNCRAPRKKGCWKCGKEGHQ Human 146 2 0.01369863
immunodeficiency virus 1
17420 CKQIMKQLQPALQTGTKELISLHNTVATLYCVHEKIDVRDTKEALDKIKEEQNKS Human 146 2 0.01369863
immunodeficiency virus 1
35749 KVVKIEPIGVAPTKARRRVVEREKRAIGLGAVFLGFLGAAGSTMGAASVTLTVQAV Human 146 2 0.01369863
immunodeficiency virus 1
64587 QMLKDTINEEAAEWDRLHPVHAGPVAPGQMRDPRGSDIAGTTSTLQEQIAWMTGN Human 146 2 0.01369863
immunodeficiency virus 1
23997 KSQSDIWDKMTWLEWDKEVSNYTQVIYNLIEESQTQQEINERDLLALDKWANLWNW Human 146 2 0.01369863
immunodeficiency virus 1
24149 AMQMLKETINEEAAEWDRLHPVHAGPIAPGQMREPRGSDIAGTTSTLQEQIGWMT Human 146 2 0.01369863
immunodeficiency virus 1
23963 LGVAPTKAKRRVVQREKRAVGMLGAMFLGFLGAAGSTMGATSMALTVQARQLLS Human 146 2 0.01369863
immunodeficiency virus 1
65537 VHQAISPRTLNAWVKAVEEKAFNPEIIPMFMALSEGAVPYDINTMLNAIGGHQGA Human 146 2 0.01369863
immunodeficiency virus 1
65528 AMASAQQDLKGGYTAVFMQRGQNPNRKGPIKCFNCGKEGHIAKNCRAPRKRGCWK Human 146 2 0.01369863
immunodeficiency virus 1
35895 ELYKYKVVKIEPLGVAPTKAKRRVVQREKRAVGVIGAMFLGFLGAAGSTMGAAS Human 146 2 0.01369863
immunodeficiency virus 1
65582 DKGDIKVVPRRKAKIIRDYGKQMAGTDSMANRQTESESMEQPGEI Human 146 2 0.01369863
immunodeficiency virus 1
17425 QMLKDTINEEAAEWDRLHPVHAGPVAPGQMREPRGSDIAGTTSTLQEQITWMTNN Human 146 2 0.01369863
immunodeficiency virus 1
65526 TQEVKNWMTETLLVQNSNPDCKQILKALGPEATLEEMMVACQGVGGPTHKAKILA Human 146 2 0.01369863
immunodeficiency virus 1
64586 MFTALSEGATPQDLNTMLNTVGGHQAAMQMLKDTINEEAAEWDRLHPVHAGPVSP Human 146 2 0.01369863
immunodeficiency virus 1
76904 DMRDNWRSELYKYKVVKIEPLGVAPTEARRRVVEREKRAVGMGAFFLGFLGAAGS Human 146 2 0.01369863
immunodeficiency virus 1
64669 NNSINSANDEMKNCSFNITTELRDKKRKAYALFYKLDIVPLNNGSTDYRLINCNT Human 146 2 0.01369863
immunodeficiency virus 1
25889 PDPAVAPTSAASRKPDPAVAPTSAASRKPDPAVAPTSAATRKPDPAVAPTSAASR Human herpesvirus 3 144 108 0.75
51732 AVAPTSAATRKPDPAVAPTSAATRKPDPAVAPTSAASRKPDPAVASTSAATRKPD Human herpesvirus 3 144 106 0.736111111
25890 PDPAVAPTSAATRKPDPAVAPTSAASRKPDPAVAPTSAATRKPDPAVAPTSAASR Human herpesvirus 3 144 101 0.701388889
25888 VSITELYTSAATRKPDPAVAPTSAASRKPDPAVAPTSAASRKPDPAVAPTSAASR Human herpesvirus 3 144 82 0.569444444
51736 AVAPTSAASRKPDPAVAPTSAASRKPDPAVAPTSAASRKPDPAVAPTSAASRKPD Human herpesvirus 3 144 79 0.548611111
51733 AVAPTSAASRKPDPAVASTSAATRKPDPAVAPTSAATRKPDPAVAPTSAATRKPD Human herpesvirus 3 144 77 0.534722222
51731 TELYTSAASRKPDPAVAPTSAASRKPDPAVAPTSAATRKPDPAVAPTSAATRKPD Human herpesvirus 3 144 74 0.513888889
51734 AVAPTSAATRKPDPAVAPTSAATRKPDPAVAPTSAAIRKPDPAVAPTSAASRKPD Human herpesvirus 3 144 72 0.5
25891 PDPAVAPTSAATRKPDPAVAPTSAASRKPDPAANTQHSQPPFLYENIQCVHGGIQS Human herpesvirus 3 144 71 0.493055556
61546 QTVQPAQPAQPVQPAQPVQPAQPAQTVQPAQPAQPVQPAQPAQPAQPVQPAQPAQ Human herpesvirus 3 144 65 0.451388889
51735 AVAPTSAALRKPDPAVAPTSAASRKPDPAVAPTSAASRKPDPAVAPTSAASRKPD Human herpesvirus 3 144 54 0.375
61543 QPAQTVQPAQPVQPAQPVQPAQPVQPVQPAQPVQPAQPAQPAQPAQPAQTVQPAQP Human herpesvirus 3 144 53 0.368055556
51846 AQPAQPAQTVQPAQTVQPAQTVQPAQPAQPVQPAQPVQPAQPVQPAQPVQPAQPV Human herpesvirus 3 144 52 0.361111111
26375 AQGVPQSTPPPTQNTPQGGKGQTLSHTGQSGNASRSRRV Human herpesvirus 3 144 50 0.347222222
61545 VQPAQPVQPAQPVQPVQPAQPVQPAQPAQTVQPAQPAQPVQPAQPVQPAQPAQTV Human herpesvirus 3 144 49 0.340277778
51847 QPVQPAQPVQPAQPVQPAQPVQPAQPVQPAQPVQPAQPIEPGTQIVVQNFKKPQSV Human herpesvirus 3 144 42 0.291666667
25937 EKPNATDTPIEEIGDSQNTEPSVNSGFDPDKFREAQEMIKYMTLVSAAERQESKA Human herpesvirus 3 144 42 0.291666667
61547 PAQPAQPVQPAQPAQPAQPVQPAQPAQPAQPVQPAQPVQPAQPVQPAQPVQPAQP Human herpesvirus 3 144 41 0.284722222
26170 VHEGLNLIQAANEADLGEGASVSKRGHNRKTGDLQGGMGNEPMYAQVRKPKSRTD Human herpesvirus 3 144 38 0.263888889
61542 AQPAQTVQPAQPAQTVQPAQPAQPAQPAQPAQTVQPAQPVQPAQPVQPAQPVQPV Human herpesvirus 3 144 32 0.222222222
51845 PLFKSPVQVVRSSKCKKMPVRPAQPAQPAQPAQPAQTVQPAQTVQPAQTVQPAQPA Human herpesvirus 3 144 30 0.208333333
61544 PAQPVQPAQPAQPAQPAQPAQTVQPAQPVQPAQPVQPAQPVQPVQPAQPVQPAQPA Human herpesvirus 3 144 25 0.173611111
51737 AVAPTSAASRKPDPAVAPTSAASRKPDPAVAPTSAATRKPDPAANTQHSQPPFLY Human herpesvirus 3 144 23 0.159722222
26629 TVALNSEFFEDFDFDENVTEDADKSTQRRPRVIDVTPKRKPSGKSSHSKCAK Human herpesvirus 3 144 19 0.131944444
26171 RKTGDLQGGMGNEPMYAQVRKPKSRTDTQTTGRITNRSRARSASRTDTRK Human herpesvirus 3 144 19 0.131944444
25955 RKDYDGFLENAHEHHGVYNQGRGIDSGERLMQPTQMSAQEDLGDDTGIHVIPTLN Human herpesvirus 3 144 18 0.125
61541 PLFKSPVQVVRSSKCKKMPVRPAQPAQPAQPAQTVQPAQPAQTVQPAQPAQPAQPA Human herpesvirus 3 144 15 0.104166667
25938 PDKFREAQEMIKYMTLVSAAERQESKARKKNKTSALLTSRLTGLALRNRRGYSRV Human herpesvirus 3 144 15 0.104166667
25953 RASVLRYDDFHTDEDKLDTNSVYEPYYHSDHAESSWVNRGESSRKAYDHNSPYIW Human herpesvirus 3 144 14 0.097222222
25788 MNDVDATDTFVGQGKFRGAISTSPSHIMQTCGFIQQMFPVEMSPGIESEPDPYDV Human herpesvirus 3 144 14 0.097222222
25954 SDHAESSWVNRGESSRKAYDHNSPYIWPRNDYDGFLENAHEHHGVYNQGRGIDSG Human herpesvirus 3 144 13 0.090277778
25972 AKRMRVKAYRVDKSPYNQSMYYAGLPVDDFEDSESTDTEEEFGNAIGGSHGGSSY Human herpesvirus 3 144 11 0.076388889
25956 RLMQPTQMSAQEDLGDDTGIHVIPTLNGDDRHKIVNVDQRQYGDVFKGDLNPKPQ Human herpesvirus 3 144 11 0.076388889
51815 EEETGTLDIQAVDWMYQARNIIDSHPLSVRIDGTGPLHTYKDRVDKLYALRTKLD Human herpesvirus 3 144 10 0.069444444
25951 RPNTKTRRGIQNATPESPVMLEAAIAQLATIREESPPHSVVNPFVK Human herpesvirus 3 144 9 0.0625
26374 VVSGSSGQQPQQGAQSSTVQPTTGSPPAAQGVPQSTPPPTQNTPQGGKGQTLSHT Human herpesvirus 3 144 8 0.055555556
26829 SRTPIIPPVSGPLMMPDGSPWPGSAPLPSNRVRFGPSGETREGHWEDEAVRAARA Human herpesvirus 3 144 8 0.055555556
26372 NPSMSLGISGPTILPQKTQSADQSALQQPAALAFSGSSPQHPPPQTTSASVGQQQ Human herpesvirus 3 144 7 0.048611111
26166 YENPLSVEKPSRSFTKNAAVKPKLEDSPKRAPPGAGAIASGRPISFSTAPKTATSS Human herpesvirus 3 144 7 0.048611111
25728 DSCEPSHDTTSNVLNISGSNISGSTVPGLKRPPEDDELFDLSGIPIKHGNITMEM Human herpesvirus 3 144 6 0.041666667
25936 LKTSPMKALYPLTTKGLKQLPEGMDPFAEKPNATDTPIEEIGDSQNTEPSVNSGFD Human herpesvirus 3 144 6 0.041666667
26830 SNRVRFGPSGETREGHWEDEAVRAARARYEASTEPVPLYVPELGDPARQYRALIN Human herpesvirus 3 144 5 0.034722222
25957 DDRHKIVNVDQRQYGDVFKGDLNPKPQGQRLIEVSVEENHPFTLRAPIQRLYGVRY Human herpesvirus 3 144 5 0.034722222
26822 VKVPLPARKPGGPVPGPVEQLYHVLSDSVPAKGAKADLPFETDDTRPRKHDARGI Human herpesvirus 3 144 4 0.027777778
26838 TPVADARVADDHVVSKAKRRVSEPVTITSGPVVPPPAVITMPLDGPAPNGGFRRI Human herpesvirus 3 144 4 0.027777778
26628 MGQSSSSGRGGICGLCKRYNELVTCNGETVALNSEFFEDFDFDENVTEDADKSTQ Human herpesvirus 3 144 4 0.027777778
56449 EDAIDDEGEAEEDAIDDEGEAEEDAIDDEGEAEEDYFSVSQVCSRDADEVYFTLD Human herpesvirus 3 144 4 0.027777778
56446 NGSEQNTSTSRHENRIFKLTEREANEEININTDAIDDEGEAEEGEAEEDAIPDEG Human herpesvirus 3 144 4 0.027777778
26358 AQPAQPAQTVQPAQPIEPGTQIVVQNFKKPQSVKTTLSQKDIPLYVETESETAVL Human herpesvirus 3 144 3 0.020833333
26164 PSPVYADLYFEHKNTTPRVHQPNDSSGSEDDFEDIDEVVAAFREARLRHELVEDAV Human herpesvirus 3 144 3 0.020833333
26468 QTPCVNFPDKTDVRRPGKRDFKSMDQRELDSFYSGESQMDGEFPSNIYFPGEPTY Human herpesvirus 3 144 3 0.020833333
26473 TSTPHTDTVGQDVNAVEASSKAPLIQGSTADDADMFANQMMVGR Human herpesvirus 3 144 3 0.020833333
51791 IQSGLQPSIKRRLETRLKEVQTYANEARTTQDTIKSRKQAAYNKLGGLLRPVTGF Human herpesvirus 3 144 3 0.020833333
61548 AQPVQPAQPVQPAQPVQPAQPVQPAQPIEPGQQIVVQNFKKPQSVKTTLSQKDIP Human herpesvirus 3 144 3 0.020833333
25862 KDTGNNAITSALRSLRWDNLHPAVEEESVDCANGTTSLLRATEKPL Human herpesvirus 3 144 3 0.020833333
51996 NDDEKTSIIVSRRAADVVTEDVKADDVPISGEPYSEKQPRRRKKSDHITLSNFVQ Human herpesvirus 3 144 3 0.020833333
56447 NINTDAIDDEGEAEEGEAEEDAIDDEGEAEEGEAEEDAIDDEGEAEEGEAEEDAA Human herpesvirus 3 144 3 0.020833333
26020 NINTDAIDDEGEAEEGEAEEDAIDDEGEAEEGEAEEDAIDDEGEAEEGEAEEDAI Human herpesvirus 3 144 3 0.020833333
26018 LLNSEMDQDSSSDASDDFPGYALHHSTYNGSEQNTSTSRHENRIFKLTEREANEE Human herpesvirus 3 144 3 0.020833333
26819 ASPVGDAAGNDQREDQRSIPRQTTRGNSPGLPSVVHRDRQTQSISGKKPGDEQAG Human herpesvirus 3 144 3 0.020833333
26203 RCTDGPLSRGAKAIMSRAMNHDERGTSDLTRVLLSSNTSCSIKYNKTSETYDSVF Human herpesvirus 3 144 3 0.020833333
26371 ETDPMTWLRPTVGLKRTFNPRIIRPQPPNPSMSLGISGPTILPQKTQSADQSALQ Human herpesvirus 3 144 2 0.013888889
3392 REFDELSRTIKTINTRATQRASAEAELSCFNTLSAAVDQAVKDYETYNNGEVKYP Human herpesvirus 3 144 2 0.013888889
26327 EEETGTLDIQAVDWMYQARNIIDSHPLSVRIDGTGPLHTYKDRVDKLYALRTKLD Human herpesvirus 3 144 2 0.013888889
51848 PAQPVQPAQPIEPGTQIVVQNFKKPQSVKTTLSQKDIPLYVETESETAVLIPKQLT Human herpesvirus 3 144 2 0.013888889
26162 MASSDGDRLCRSNAVRRKTTPSYSGQYRTARRSVVVGPPDDSDDSLGYITTVGADS Human herpesvirus 3 144 2 0.013888889
25947 ARLCDLPATPKGSGTSLFQHMLDLRAGKSLEDNPWLHEDVVTTETKSVVKEGIEN Human herpesvirus 3 144 2 0.013888889
26023 GEAEEDAAEEDAIDDEGEAEEDYFSVSQVCSRDADEVYFTLDPEISYSTDLRIAK Human herpesvirus 3 144 2 0.013888889
26510 DALNGSNDDEKTSIIVSRRAADVVTEDVKADDVPISGEPYSEKQPRRRKKSDHIT Human herpesvirus 3 144 2 0.013888889
25696 NVTAVARGAAHLAFDENHEGAVLPPDITYTYFQSSSSGTTTARGARRNDVNSTSK Human herpesvirus 3 144 2 0.013888889
26083 TELMQNNASPLVVQTRPPAVLIPLVDVPRPRSRRKASAQLKMQMDRLCNVLGVVL Human herpesvirus 3 144 2 0.013888889
56448 AEEGEAEEDAIDDEGEAEEGEAEEDAAEEDAIDDEGEAEEDAIDDEGEAEEDAID Human herpesvirus 3 144 2 0.013888889
26155 DVVASADNTRRLVRAQALARTYAACSRNIECLKQHHFTEDNPGLNAVVRSHMENS Human herpesvirus 3 144 2 0.013888889
61511 EEETGTLDIQAVDWMYQARNIIDSHPLSVRIDGTGPLHTYKDRVDKLYALRTKLD Human herpesvirus 3 144 2 0.013888889
3395 IQSGLQPSIKRRLETRLKEVQTYANEARTTQDTIKSRKQAAYNKLGGLLRPVTGFV Human herpesvirus 3 144 2 0.013888889
26837 PPDDRLRTPRKRKSQPVESRSLLDKIRETPVADARVADDHVVSKAKRRVSEPVTI Human herpesvirus 3 144 2 0.013888889
25960 TCFQDVVVDVDCAENTKEDQLAEISYRFQGKKEADQPWIVVNTSTLFDELELDPPP Human herpesvirus 3 144 2 0.013888889
25760 DDICAYGLYNSQFLALMPTVSSAQVTECSEGFSPIYNNMFSKVTTSGELLRPNLD Human herpesvirus 3 144 2 0.013888889
26357 PLFKSPVQVVRSSKCKKMPVRPAQPAQPAQPAQPAQTVQPAQPIEPGTQIVVQNFK Human herpesvirus 3 144 2 0.013888889
26158 DQTLRMTAESEVVMSDVVLLEKTLVVWAKPQASFDVSHNHELSIAKGENVGLKTS Human herpesvirus 3 144 2 0.013888889
25761 SEGFSPIYNNMFSKVTTSGELLRPNLDLMDELRDMYSCEEKRLEVINILEKNQWS Human herpesvirus 3 144 2 0.013888889
20718 RRAQMAPKRLRLPHIRDDDAPPSHQPLFY Human herpesvirus 2 133 114 0.857142857
76866 TTAMPGTRGTARTPPTDPKTHPHGPTDAPPGSPAPPSPRHRGGPEEFEGAGPGEPP Human herpesvirus 2 133 82 0.616541353
49030 MTSRPADQDSVRSSASVPLYPAASPVPAEAYYSESEDEAANDFLVRMGRQQSVLR Human herpesvirus 2 133 75 0.563909774
80405 PKTHPHGPADAPPGSPAPPPPEHRGGPEEFEGAGDGEPPEDDDSATGLAFRTPNPN Human herpesvirus 2 133 72 0.541353383
32298 TDPKTHPHGPADAPPGSPAPPPPEHRGGPEEFEGAGDGEPPEDDDSATGLAFRTPN Human herpesvirus 2 133 71 0.533834586
76868 TTATPGTRGTARTPPTDPKTHPHGPADAPPGSPAPPPPEHRGGPQEFEGAGDGEPP Human herpesvirus 2 133 66 0.496240602
76867 PPGSPAPPSPRHRGGPEEFEGAGDGEPPEDDDSATGPAFRTP Human herpesvirus 2 133 55 0.413533835
38706 MERTEHKARKKGTSALLSAKVTDAVMRKRARPRYSPLRDTDEEE Human herpesvirus 2 133 55 0.413533835
32299 PEEFEGAGDGEPPEDDDSATGLAFRTPNPNKPPPARPGPIRPTLPPGILGPLAPNT Human herpesvirus 2 133 44 0.330827068
48632 TPPPAASLPQPEAPGAEAGALVNASSAAHVNVDTARAADLFVSQMMGS Human herpesvirus 2 133 42 0.315789474
76869 PPGSPAPPPPEHRGGPQEFEGAGDGEPPEDDHSATGLAFRTP Human herpesvirus 2 133 41 0.308270677
48462 ETPYASVSHHAEIDRYGDSDGDPIYDEVAPDHEAELYARVQRPGPVPDAEPIYDTV Human herpesvirus 2 133 40 0.30075188
48463 APDHKAELYARVQRPGPVPDAEPIYDTVEGYAPRSAGEPVYSTVRRW Human herpesvirus 2 133 37 0.278195489
32317 TAHEFDVVDIESEEEGNFYVPPDVRVVTRAPGPQYRRPSDPPSRHTRRRDPDVAR Human herpesvirus 2 133 36 0.270676692
49045 DPAAGKRGDSGLLRVCAALSIPKPSEAVRPSRIPRAPRVPREPRVPREPREPRVPR Human herpesvirus 2 133 36 0.270676692
48624 GHPGAGPSPHYPPPPAHPYPGMLFAGPSPLEAQIAALVGAIAADRQAGGLPAAAGV Human herpesvirus 2 133 36 0.270676692
32297 APGPSAANVSVAATTATPGTRGTARTPPTDPKTHPHGPADAPPGSPAPPPPEHRGG Human herpesvirus 2 133 35 0.263157895
80406 EFEGAGDGEPPEDDDSATGLAFRTPNPNKPPPARPGPIRPTLPPGILGPLAPNTPR Human herpesvirus 2 133 35 0.263157895
24766 ATTKARKRKTKKPPKRPEATPPPDANATVAAGHATLRAHLREIKVENADAQFYVC Human herpesvirus 2 133 33 0.248120301
48897 PGDAPDSPYIEAENPLYDWGGSALFSPRRATRAPDPGLSLSPMPARPRTNALAND Human herpesvirus 2 133 31 0.233082707
33115 AESTTGTESEGTGPSDDDDDDASDGWLVDTPPRKSKRPRINLRLTSSPDRRAGVV Human herpesvirus 2 133 31 0.233082707
48622 MNPVSASGAPAPPPPGDGSYLWIPASHYNQLVTGQSAPRHPPLTACGLPAAGTVAY Human herpesvirus 2 133 30 0.22556391
40994 LGGHTVRALSPTPPWPGTDDEDDDLADVDYVPPAPRRAPRRGGGGAGATRGTSQPA Human herpesvirus 2 133 29 0.218045113
3352 AESTTGTESEGTGPSPDDDDDDASDGWLVDTPPRKSKRPRINERLTSSPD Human herpesvirus 2 133 28 0.210526316
48953 SVPVTHAGDRSPVRPGPVPPADPTPDPRHRTSAPKRQASSTEAPLLLA Human herpesvirus 2 133 26 0.195488722
20715 ELSDTTNATQPELVPEDPEDSALLEDPAGTVSSQIPPNWHIPSIQDVAPHHAPAA Human herpesvirus 2 133 26 0.195488722
48893 AQREAAGVYDAVRTWGPDAEAEPDQMENTYLLPDDDAAMPAGVGLGATPAADTTAA Human herpesvirus 2 133 26 0.195488722
48895 AAWPAESHAPRAPSEDADSIYESVGEDGGRVYEEIPWVRVYENICPRRRLAGGAA Human herpesvirus 2 133 25 0.187969925
49022 SRASATGPTYIRVADSELYADWSSDSEGERDGSLWQDPPERPDSPSTNGSGFEIL Human herpesvirus 2 133 23 0.172932331
48995 AESTTGTESEGTGPSDDDDDDASDGWLVDTPPRKSKRPRINLRLTSSPPRRAGVV Human herpesvirus 2 133 23 0.172932331
48626 HGIRGSAKRRRHEVEQPEVDCGRDEPDRDFPYYPGEARPEPRPVDSRRAARQASG Human herpesvirus 2 133 22 0.165413534
49046 RPSRIPRAPRVPREPRVPREPREPRVPRSPREPRVPRIPRDPRPPRPPRVPREPRP Human herpesvirus 2 133 22 0.165413534
48625 PLEAQIAALVGAIAADRQAGGLPAAAGDHGIRGSAKRRRHEVEQPEYDCGRDEPD Human herpesvirus 2 133 22 0.165413534
24765 APRASGGVAATVAANGGPASRPPPVPSPATTKARKRKTKKPPKRPEATPPPDANAT Human herpesvirus 2 133 22 0.165413534
32265 IVDAAGAEEEDEADDDAPDDVAYPEDYAEGRFLSMVSAAPLPGASGHPPVPGRAA Human herpesvirus 2 133 22 0.165413534
32316 MGLAFSGARPCCCRHNVITTDGGEVVSLTAHEFDVVDIESEEEGNFYVPPDVRVVT Human herpesvirus 2 133 21 0.157894737
38705 GEDGAEDFDEAKLAQAREMIRYMALVSAMERTEHKARKKGTSALLSAKVTDAVMR Human herpesvirus 2 133 21 0.157894737
24794 AEAREMIRYMALVSAMERTEHKARKKGTSALLSSKVTNMVLRKRKKARYSPLHNE Human herpesvirus 2 133 20 0.150337594
24465 RTTPTPPQPRKATKSKASTAKPAPPPKTGPPKTSSEPVRCNRHDPLARYGSRVQIR Human herpesvirus 2 133 20 0.150337594
27490 TPEPQGPQAVPPPPPPPFPWGHECCARRDARGGAEKDVGAAESWSDGPSSDSETED Human herpesvirus 2 133 18 0.135338346
11456 RVGEDAAAAEGRTPPARQPRAAQEPPIVISDSPPPSPRRPAGPGPLSFVSSSSAQV Human herpesvirus 2 133 18 0.135338346
24803 SSVYTPGASRPTPPRTTTSPSSPRDPTPAPGDTGTPAPASGERAPPNSTRSASESR Human herpesvirus 2 133 18 0.135338346
24807 AAMARLGAELRSHPNTPPKPRRRSSSSTTMPSLTSIAEESEPGPVVLLSVSPRPRS Human herpesvirus 2 133 18 0.135338346
49174 PDRRPAARPGFGWHGGPEENEDEADDAAADADADEAAPASGEAVDEPAADGVVSP Human herpesvirus 2 133 17 0.127819549
49023 ERDGSLWQDPPERPDSPSTNGSGFEILSPTAPSVYPHSEGRKSRRPLTTFGSGSP Human herpesvirus 2 133 17 0.127819549
24464 PGRTITVGPRGNASNAAPSASPRNASAPRTTPTPPQPRKATKSKASTAKPAPPPKT Human herpesvirus 2 133 15 0.112781955
47649 LGDELRLDGEEVDMTPADALDDFDLEMLGDVESPSPGMTHDPVSYGALDVDDFEF Human herpesvirus 2 133 15 0.112781955
48517 TALTEACAAERVVRPHQLSPAAQTALLRRFPALEGPLRHPRPVLQPFDIAAEVAF Human herpesvirus 2 133 14 0.105263158
48689 RSQDDYGAVVVAAAHHSSGAPGPGVAASGPPAPPGRGPARPWHQAVQLFRAPRPG Human herpesvirus 2 133 13 0.097744361
48924 PADPESPRDDFRRGAGPMRARPRGEVRFLHYDEAGYALYRDSSSDDDESRDTARP Human herpesvirus 2 133 13 0.097744361
80396 RTFIRMARPTEDGVLPPHWAPGALDDGPYAPFPPRPRFRRALRTDPEGVDPDVRA Human herpesvirus 2 133 13 0.097744361
48486 LADQEEQLEEAAANASLWGDGDLADGWMSPGDSDLLVMWQLTSAPKVHTPAPSRP Human herpesvirus 2 133 13 0.097744361
48630 KAVYLPPPHIAPPGPPLSGAVPPPSYPPVAVTPGPAPPLHQPSPAHAHPPPPPPGP Human herpesvirus 2 133 13 0.097744361
11452 LGGHTVRALSPTPPWPGTDDEDDDLADADYVPPAPRRAPRRGGGGAGATRGTSQPA Human herpesvirus 2 133 13 0.097744361
3355 TEDASSDSPTSAPEKTPLPVSATAMAPSVDPSAEPTAPATTTPPDEMATQAATVAV Human herpesvirus 2 133 12 0.090225564
49044 DGMQPRGADTLEGHSLPTDGPPHRGGDHDPAAGKRGDSGLLRVCAALSIPKPSEAV Human herpesvirus 2 133 12 0.090225564
27489 ALGGTSGPSATTSVGTQTSGEFLHGNPRTPEPQGPQAVPPPPPPPFPWGHECCARR Human herpesvirus 2 133 11 0.082706767
27487 RISDSSFVQCGSNCSMIIDGPVARGHLRDLEGATSTGAFVAISNVAAGGPGRTAV Human herpesvirus 2 133 10 0.07518797
60082 MKTKPLPTAPMAWAESAVE Human herpesvirus 2 133 10 0.07518797
40953 PADTQETTTRRALYKEIRDALGSRKQAVSHAPVRAGCVNFDYSRTRRCVGRRDLR Human herpesvirus 2 133 10 0.07518797
48950 ADTCMATILQMYMSVGAADKSADVLVSQAIRSMAESDVVMEDVAIAERALGLSTS Human herpesvirus 2 133 10 0.07518797
24477 TATIRSTLPVSYEQTEYICRLAGYPDGIPVLEHHGSHQPPPRDPTERQVIRAVEGA Human herpesvirus 2 133 10 0.07518797
49024 PTAPSVYPHSEGRKSRRPLTTFGSGSPGRRHSQASYPSVLW Human herpesvirus 2 133 9 0.067669173
41000 SSGPGGGGLPQSSGRAARPRAAVAPRVRSPPRAAAAPVVSASADAAGPAPPAVPV Human herpesvirus 2 133 9 0.067669173
40980 DDAEWANSPPSEGGGKAPEAPHAAPAAACPPPPPRKERGPQRPLPPHLALRLRTTT Human herpesvirus 2 133 9 0.067669173
40903 TPRPAARRGADDPPPATTGVWSRLGTRRSASPREPHGGKVARIQPPSTKAPHPRG Human herpesvirus 2 133 9 0.067669173
48996 DTPPRKSKRPRINLRLTSSPDRRAGVVFPEVWRSDRPIRAAQPQAPASLPGIAHA Human herpesvirus 2 133 9 0.067669173
27521 PNTLLLKELERTFGGKRLLDAMDGLEAKQWSVAQALPCLDPAHPLRRFKTAFDYD Human herpesvirus 2 133 8 0.060150376
48487 SPGDSDLLVMWQLTSAPKVHTDAPSRPGSRPTYTPSAAGRPDAQAAPPPETAPSP Human herpesvirus 2 133 8 0.060150376
48621 SVPAPQVAVRARQVASSSSSSSFPAPADMNPVSASGAPAPPPPGDGSYLWIPASH Human herpesvirus 2 133 8 0.060150376
40902 DGGAEAIDAAIPKGPPARPEDAGTPEASTPRPAARRGADDPPPATTGVWSRLGTRR Human herpesvirus 2 133 8 0.060150376
27493 DDDSDSDSRSDDSVQPDVVVRRRWSDGPAPVAFPKPRRPGDSPGNPGLGAGTGPGS Human herpesvirus 2 133 8 0.060150376
32289 RTFIRMARPTEDVGVLPPHWAPGALDDGPYAPFPPRPRFRRALRTDPEGVDPDVRA Human herpesvirus 2 133 8 0.060150376
40987 APHAWGMLNDMQWLASSDSEEETEVGISDDDLHRDSTSEAGSTDTEMFEAGLMDA Human herpesvirus 2 133 8 0.060150376
11445 APHAWGMLNDMQWLASSDSEEETEVGISDDDLHRDSTSEAGSTDTEMFEAGLMDA Human herpesvirus 2 133 8 0.060150376
11451 EAEAAVRSGTAVDFIWTGNPRTAPRSLSLGGHTVRALSPTPPWPGTDDEDDDLADA Human herpesvirus 2 133 8 0.060150376
48951 AIRSMAESDVVMEDVAIAERALGLSTSALAGGTRTAGLGATEAPPGPTRAQAPEVA Human herpesvirus 2 133 7 0.052631579
38704 RLQRNPMKALYPLTTKELKSDGAPLAGGGEDGAEDFDEAKLAQAREMIRYMALVSA Human herpesvirus 2 133 7 0.052631579
33116 DTPPRKSKRPRINLRLTSSPDRRAGVVFPEVWRSPRPIRAAQPQAPAQSSGDRAHA Human herpesvirus 2 133 7 0.052631579
48927 RSHAPPARTPKMTRGAPKASATPATDPARGRRPAQADSAVLLDAPAPTASGRTKT Human herpesvirus 2 133 7 0.052631579
49043 MASGVSPAHPQTPVGAGSRDLSLKGTPSDGMQPRGADTLEGHSLPTDGPPHRGGD Human herpesvirus 2 133 7 0.052631579
48923 MTSRRSVKSCPREAPRGTHEELYYGPVSPADFESPRDDFRRGAGPMRARPRGEVR Human herpesvirus 2 133 7 0.052631579
20706 LADPSLKMADPNRFRGKNLPVLDRLTDPPGVKRVYHIQPSLEDPFQPPSIPITVYY Human herpesvirus 2 133 7 0.052631579
40998 RVGEDAAAAEGRTPPARQPRAAQEPPIVISDSPPPSPRRPAGPGPLSFVSSSSAQV Human herpesvirus 2 133 7 0.052631579
80404 GPSAANVSVAATTATPGTRGTARTPPTDPKTHPHGPADAPPGSPAPPPPEHRGGPE Human herpesvirus 2 133 7 0.052631579
48856 ASQDSRAGPTDSQDSSSEPDAGDRGAPEEEGLEGQARVPPAFPEPPGTKRRHPGA Human herpesvirus 2 133 7 0.052631579
48843 STPEPTTPGPQDTQARAPSTRPAGRETVPWPNTPVEDDEMTPQETPPVHP Human herpesvirus 2 133 7 0.052631579
48842 DGVFRASAFRPSAGPGAPGDLEAQDAGGSTPEPTTPGPQDTQARAPSTRPAGRETV Human herpesvirus 2 133 7 0.052631579
3354 FRRALRTDPEGVDPDVRAPRTGRRLMALTEDASSDSPTSAPEKTPLPVSATAMAPS Human herpesvirus 2 133 7 0.052631579
11460 AHRAPRSRMTQAQTDTQAQSLGRAGATDARGSGGPGAEGGPGVPRGTNTPGAAPHA Human herpesvirus 2 133 7 0.052631579
48627 DFPYYPGEARPEPRPVDSRRAARQASGPHETITALVGAVTSLQQELAHMRARTHA Human herpesvirus 2 133 6 0.045112782
49175 ADADADEAAPASGEAVDEPAADGVVSPRQLALLASMVDEAVRTIPSPPPERDGAQ Human herpesvirus 2 133 6 0.045112782
80399 VSATAMAPSVDPSAEPTAPATTTPPDEMATQAATVAVTPEETAVASPPATASVESS Human herpesvirus 2 133 6 0.045112782
40999 ISDSPPPSPRRPAGPGPLSFVSSSSAQVSSGPGGGGLPQSSGRAARPRAAVAPRV Human herpesvirus 2 133 6 0.045112782
80407 KPPPARPGPIRPTLPPGILGPLAPNTPRPPAQAPAKDMPSGPTPQHIPLFWFLTAS Human herpesvirus 2 133 6 0.045112782
3356 VDPSAEPTAPATTTPPDEMATQAATVAVTPEETAVASPPATASVESSP Human herpesvirus 2 133 6 0.045112782
48971 HGWPAFAPTTPGDDAGGGTAAPQTCGIVKRLLKLAATEQQGTTPPAIAALMQDASV Human herpesvirus 2 133 6 0.045112782
40900 MATDIDMLIDLGLDLSDSELEEDALERDEEGRRPDPESDSSGECSSSDEDMEDPC Human herpesvirus 2 133 6 0.045112782
48898 RATRAPDPGLSLSPMPARPRTNALANDGPTNVAALSALLTKLKRGRHQS Human herpesvirus 2 133 5 0.037593985
27488 DLEGATSTGAFVAISNVAAGGDGRTAVVALGGTSGPSATTSVGTQTSGEFLHGNP Human herpesvirus 2 133 5 0.037593985
48628 HETITALVGAVTSLQQELAHMRARTHAPYGPYPPVGPYHHPHADTETPAQPPRYPA Human herpesvirus 2 133 5 0.037593985
40954 SHAPVRAGCVNFDYSRTRRCVGRRDLRPANTTSTWEPPVSSDDEASSQSKPLATQ Human herpesvirus 2 133 5 0.037593985
51086 TPAPTTPPPTSTHATPRPTTPGPQTTPPGPATPGPV Human herpesvirus 2 133 5 0.037593985
11444 MEPRPGTSSRADPGPERPPRQTPGTQPAAPHAWGMLNPMQWLASSPSEEETEVGIS Human herpesvirus 2 133 5 0.037593985
48511 ENEEILALVQRAVQDVTRRHPVRARPKHAASGVASGLRQGALVHQAVSGGALGAS Human herpesvirus 2 133 5 0.037593985
48892 MAGAPPRLPPRNPAPPEQRPAAAARPLAAQREAAGVYDAVRTWGPDAEAEPDQME Human herpesvirus 2 133 5 0.037593985
55535 MSRDASHAALRRRLAETHLRAEVYRDQTLQLHREGVSTQDPRFVGAFMAAKAAHL Human herpesvirus 2 133 5 0.037593985
49181 ASASSSDDDDDDDAARAPASAADHAAGGTLGADDEEAGVPARAPGAAPRPSPPRA Human herpesvirus 2 133 5 0.037593985
48482 MSRDASHAALRRRLAETHLRAEVYRDQTLQLHREGVSTQPPRFVGAFMAAKAAHL Human herpesvirus 2 133 5 0.037593985
32292 PVSATAMAPSVDPSAEPTAPATTTPPDEMATQAATVAVTPEETAVASPPATASVES Human herpesvirus 2 133 5 0.037593985
37865 MKTKPLPTAPMAWAESAVETTTGPRELAGHAPLRRVLRPPIARRPGPVLLGDRAPR Human herpesvirus 2 133 5 0.037593985
40981 CPPPPPRKERGPQRPLPPHLALRLRTTTEYLARLSLRRRRPPASPPADAPRGKVC Human herpesvirus 2 133 5 0.037593985
41002 AHRAPRSRMTQAQTDTQAQSLGRAGATDARGSGGPGAEGGPGVPRGTNTPGAAPHA Human herpesvirus 2 133 5 0.037593985
47650 GDVESPSPGMTHDPVSYGALDVDDFEFEQMFTDAMGIDDFG Human herpesvirus 2 133 5 0.037593985
40986 MEPRPGTSSRADPGPHRPPRQTPGTQPAAPHAWGMLNDMQWLASSDSEEETEVGIS Human herpesvirus 2 133 5 0.037593985
27492 SDSSDEDTGSGSETLSRSSSIWAAGATDDDDSDSDSRSDDSVQPDVVVRRRWSDG Human herpesvirus 2 133 4 0.030075188
24793 ELKTSDPGGVGGEGEEGAEGGGFDEAKLAEAREMIRYMALVSAMERTEHKARKKG Human herpesvirus 2 133 4 0.030075188
48857 EEGLEGQARVPPAFPEPPGTKRRHPGAEVVPADDATKRPKTGVPAAPTRAESPPLS Human herpesvirus 2 133 4 0.030075188
60325 IPVLEHHGSHQPPPRDPTERQV Human herpesvirus 2 133 4 0.030075188
3353 EDVGVLPPHWAPGALDDGPYAPFPPRPRFRRALRTDPEGVDPDVRAPRTGRRLMA Human herpesvirus 2 133 4 0.030075188
48972 KRLLKLAATEQQGTTPPAIAALMQDASVQTPLPVYRITMSPTGQAFAAAARDDWA Human herpesvirus 2 133 4 0.030075188
49218 TAAGLATPPRREPVDMDAELEDDDDGLFG Human herpesvirus 2 133 4 0.030075188
40993 EAEAAVRAGTAVDFIWTGNPRTAPRSLSLGGHTVRALSPTPPWPGTDDEDDDLADV Human herpesvirus 2 133 4 0.030075188
51084 MTTQAATVAVTPEETAVASPPATASVESSPLPAAAATPGAGHTNTSSAPAAKTPPT Human herpesvirus 2 133 4 0.030075188
72350 PWFLHGLGLARTYWRPTNTGRLWLPNTPDASDPQRGRLAPPGELNLTTASVPMLRW Human herpesvirus 2 133 4 0.030075188
48896 GRVYEEIPWVRVYENICPRRRLAGGAALPGDAPDSPYIEAENPLYDWGGSALFSP Human herpesvirus 2 133 4 0.030075188
48894 TYLLPDDDAAMPAGVGLGATPAADTTAAAAWPAESHAPRAPSEDADSIYFSVGED Human herpesvirus 2 133 3 0.022556391
48952 LAGGTRTAGLGATEAPPGPTRAQAPEVASVPVTHAGDRSPVRPGPVPPADPTPDPR Human herpesvirus 2 133 3 0.022556391
60329 MAFRPSGPAYQPLAP Human herpesvirus 2 133 3 0.022556391
11459 SPPRAAAAPVVSASADAAGPAPPAVPVDAHRAPRSRMTQAQTDTQAQSLGRAGAT Human herpesvirus 2 133 3 0.022556391
48948 LESLDDTRRLVKARALARTYHACMVNLERLARHHPGLEGSTIDGAVAAHRDKMRR Human herpesvirus 2 133 3 0.022556391
32318 RAPGPQYRRPSDPPSRHTRRRDPDVARPPATLTPPLSDSE Human herpesvirus 2 133 3 0.022556391
41005 APRSPLAPQGVGAKRAAPRRAPDSDSGDRGHGPLAPASAGAAPPSASPSSQAAVA Human herpesvirus 2 133 3 0.022556391
3351 SEDEAGDLRGGRRRSPRELGGRYFLDLSAESTTGTESEGTGPSDDDDDDDASDGW Human herpesvirus 2 133 3 0.022556391
20716 GTVSSQIPPNWHIPSIQPVAPHHAPAAPSNPGLIIGALAGSTLAVLVIGGIAFWV Human herpesvirus 2 133 3 0.022556391
40984 ADRDRFRRRVAAAEAVIGPCLEPEARARARARARAHEDGGPAEEEEAAAAARGSS Human herpesvirus 2 133 3 0.022556391
32294 SPLPAAAAATPGAGHTNTSSASAAKTPPTTPAPTTPPPTSTHATPRPTTPGPQTTP Human herpesvirus 2 133 3 0.022556391
60023 ANSRSLESMPTLTAAPVGLETRISWTEILAQQIAGEDDYEEDPPLQPPDVAGGPRD Human herpesvirus 2 133 3 0.022556391
33114 SEDEVGDLRGGRRRPPRELGGRYFLDLSAESTTGTESEGTGPSDDDDDDASDGWL Human herpesvirus 2 133 3 0.022556391
41001 SPPRAAAAPVVSASADAAGPAPPAVPVDAHRAPRSRMTQAQTDTQAQSLGRAGAT Human herpesvirus 2 133 3 0.022556391
32264 RPPSPGEAARLCQLQEILAQMHSDEDYPIVDAAGAEEEDEADDDAPDDVAYPEDYA Human herpesvirus 2 133 3 0.022556391
48785 ATTGEPVPPRMWAWIHGLEELASDDAGGPTPNPAPALLPPPATDQSVPTSQYAPR Human herpesvirus 2 133 3 0.022556391
24795 SALLSSKVTNMVLRKRNKARYSPLHNEDEAGDHDE Human herpesvirus 2 133 3 0.022556391
60114 RPWKSSAPTRVPWSKSMLPTGVIQRLFHSDAGGV Human herpesvirus 2 133 3 0.022556391
48932 QRANELVNPDAAQDVDATAAARGRPAGRAAATARAPARSASRPRRPL Human herpesvirus 2 133 3 0.022556391
25258 KVKLSSYKLNAVAEAVLKDKKKDLSYRDIPAYYASGPAQRGVIGEYCVQDSLLVG Human herpesvirus 2 133 3 0.022556391
24771 NAKGVCRSTAKYVRNNMETTAFHRDDHETDMELKPAKVATRTSRGWHTTDLKYNPS Human herpesvirus 2 133 3 0.022556391
40901 EEGRRDDPESDSSGECSSSDEDMEDPCGDGGAEAIDAAIPKGPPARPEDAGTPEAS Human herpesvirus 2 133 3 0.022556391
24780 PLLSNTLAELYVREYMREQDRKPRNATPAPLREAPSANASVERIKTTSSIEFARL Human herpesvirus 2 133 3 0.022556391
27510 DLFFKRLIRHLDGEKNVTWSLFDRDTSMSLADFHGEEFEKLYEHLEAMGFGETI Human herpesvirus 2 133 3 0.022556391
27511 SLADFHGEEFEKLYEHLEAMGFGETIPIQDLAYAIVRSAATTGSPFIMFKDAVNR Human herpesvirus 2 133 3 0.022556391
48994 SEDEAGDLRGGRRRSPRELGGRYFLDLSAESTTGTESEGTGPSDDDDDDASDGWL Human herpesvirus 2 133 3 0.022556391
51085 SPLPAAAATPGAGHTNTSSAPAAKTPPTTPAPTTPPPTSTHATPRPTTPGPQTTPP Human herpesvirus 2 133 3 0.022556391
49182 TLGADPEEAGVPARAPGAAPRPSPPRAEPAPARTPAATAGRLERRRARAAVAGRDA Human herpesvirus 2 133 2 0.015037594
51080 GSFIRMARPTEDVGVLPPHWAPGALDDGPYAPFPPRPRFRRALRTDPEGVDPDVRA Human herpesvirus 2 133 2 0.015037594
48797 IRARSVPQPPLPQPPLPQPPLPQPPLPQPPLPQPPLPQPPLPQPPLPQPPLPQPPL Human herpesvirus 2 133 2 0.015037594
18351 MASHAGQQHAPAFGQAARASGPTDGRAASRPSHRQGASEARGDPELPTLLRVYID Human herpesvirus 2 133 2 0.015037594
48548 NGLFRDALAAGTVAEQLLMFDLLPPKDVPVGSDARADSAALLRFVDSQRLTPGGS Human herpesvirus 2 133 2 0.015037594
49217 PPQIRWASAAGRAGTVLAAAGGCVEWGTAAGLATPPRREPVDMDAELEPDDDGL Human herpesvirus 2 133 2 0.015037594
3349 MADIPPDPPALNTTPANHAPPSPPPGSRKRRRPVLPSSSESEGKPDTESESSSTES Human herpesvirus 2 133 2 0.015037594
49202 PRPAALTRRPAEGPDPQGGWRRQPPGPSHTPAPSAAALEAYCAPRAVAELTDHPL Human herpesvirus 2 133 2 0.015037594
11466 VASASGAGERRETSLGPRAAAPRGPRKCARKTRHAEGGPEPGARDPAPGLTRYLP Human herpesvirus 2 133 2 0.015037594
43022 MDTKPKTTTTVKVPPGPMGYVYGRACPAEGLELLSLLSARSGDADVAVAPLIVGLT Human herpesvirus 2 133 2 0.015037594
48787 IGPAATARETRPSVPPQQNTGRVPVAPRDDPRPSPPTPSPPADAALPPPAFSGSAA Human herpesvirus 2 133 2 0.015037594
48815 DRGAVVPPPLLAQFQHTVREIDPAIMIPPLEATKMVRSREEVRVSTALSRVSPRSA Human herpesvirus 2 133 2 0.015037594
60022 ASVEDVLRECHWTAPSRSQARRAARRERANSRSLESMPTLTAAPVGLETRISWT Human herpesvirus 2 133 2 0.015037594
48541 APRQPLDARDRRTDVVITGTRAPRPMAGTGAGGAGAKRATVSEFVQVKHIDRVVS Human herpesvirus 2 133 2 0.015037594
40908 PPHADGRAPVPERKAPSADTIDPAVRAVLRSISERAAVERISESFGRSALVMQDP Human herpesvirus 2 133 2 0.015037594
20714 QRTVALYSLKIAGWHGPKPPYTSTLLPPELSDTTNATQPELVPEDPEDSALLEDPA Human herpesvirus 2 133 2 0.015037594
40906 NAHNQGGRHPASARTDGPGATHGEARRGGEQLDVSGGPRPRGTRQAPPPLMALSL Human herpesvirus 2 133 2 0.015037594
11463 APRSPLAPQGVGAKRAAPRRAPDSDSGGRGHGPLAPASAGAAPPSASPSSQAAVA Human herpesvirus 2 133 2 0.015037594
11465 AAASSSSSSSASSSSSSASSSAGGAGGSVASASGAGERRETSLGPRAAAPRGPRK Human herpesvirus 2 133 2 0.015037594
49026 PPLVREARAVVTPRPPIRPSSGKASSDDADVGDELIAIADARGDPPETLPPGACGA Human herpesvirus 2 133 2 0.015037594
49192 DARGKPAAAAAPLPSAAASPADERAVPAGYGAAGVLAALGRLSAAPASAPAGADD Human herpesvirus 2 133 2 0.015037594
48891 DLPEPPHVDAADRGPEPCAGRPATYYTHMAGAPPRLPPRNPAPPEQRPAAAARPLA Human herpesvirus 2 133 2 0.015037594
48593 AQRTAAAAALENAALQAAELPVDIERRIRPIEQQVHHIADALEALETAAAAAEEA Human herpesvirus 2 133 2 0.015037594
24802 NGTFVYNGSDYGSCDPAQLPFSAPRLGPSSVYTPGASRPTPPRTTTSPSSPRDPT Human herpesvirus 2 133 2 0.015037594
80400 ATQAATVAVTPEETAVASPPATASVESSPPPAAAATPGAGHTNTSSASAAKTPPTT Human herpesvirus 2 133 2 0.015037594
27496 SQPTVGTDPGYPVPLELTPENAEAVARFLGDAVDREPALMLEYFCRCAREESKRV Human herpesvirus 2 133 2 0.015037594
27495 ATDPRASADSDSAAHAAAPQADVAPVLDSQPTVGTDPGYPVPLELTPENAEAVAR Human herpesvirus 2 133 2 0.015037594
37855 INQTLLFLGPPTAPPGGAWTPHARVCYANIIEGRAVSLPAIPGAMSRRVMNVHEAV Human herpesvirus 2 133 2 0.015037594
17982 HWTAPSRSQARRAARRERANSRSLESMPTLTAAPVGLETRISWTEILAQQIAGED Human herpesvirus 2 133 2 0.015037594
27486 PPGGDHVFCRKVSGVMVLSSDPPGPAAYRISDSSFVQCGSNCSMIIDGDVARGHL Human herpesvirus 2 133 2 0.015037594
49011 SVVGLSDEARQVASVVLVVEPAPVPTPTPDDYDEEDDAGVTNARRSAFPPQPPPR Human herpesvirus 2 133 2 0.015037594
60115 MASHAGQQHAPAFGQAARASGPTDGRAASRPSHRQGASEARGDPELPTLLRVYID Human herpesvirus 2 133 2 0.015037594
48877 PESLIVDGLASDPHYDYIRHYASAAKQALGEVELSGGQLSRAILAQYWKYLQTVV Human herpesvirus 2 133 2 0.015037594
48851 AKPTTFELGPNGKFSVTNARTCVTFAAREEGASSSTSAQVQILTSALKKAGQAAA Human herpesvirus 2 133 2 0.015037594
48623 NQLVTGQSAPRHPPLTACGLPAAGTVAYGHPGAGPSPHYPPPPAHPYPGMLFAGPS Human herpesvirus 2 133 2 0.015037594
41009 RETSLGPRAAAPRGPRKCARKTRHAEGGPEPGARDPAPGLTRYLPIAGVSSVVALA Human herpesvirus 2 133 2 0.015037594
47646 LIRAKLDSYSSVATSEGESVMREHAYSRGRTRNNYGSTIEGLLDLPDDDDAPAEA Human herpesvirus 2 133 2 0.015037594
40979 APAASSLLRRWLLVPQADDSDDADYAGNDDAEWANSPPSEGGGKAPEAPHAAPAA Human herpesvirus 2 133 2 0.015037594
51083 PVSATAMAPSVDPSAEPTAPATTTPPDEMTTQAATVAVTPEETAVASPPATASVES Human herpesvirus 2 133 2 0.015037594
48979 DDGDGPWFPDAGGPGDEEWEEDTDPMDTTHGPLPDDEAAYLDLLHEQIPAATPSE Human herpesvirus 2 133 2 0.015037594
41008 SSASSSSASSSAGGAGGSVASASGAGERRETSLGPRAAAPRGPRKCARKTRHAEG Human herpesvirus 2 133 2 0.015037594
47648 LVAPRMSFLSAGQRPRRLSTTAPITDVSLGDELRLDGEEVDMTPADALDDFDLEM Human herpesvirus 2 133 2 0.015037594
48488 SRPTYTPSAAGRPDAQAAPPPETAPSPEPAPGPAADPASGSGFARDCPDG Human herpesvirus 2 133 2 0.015037594
32300 PNKPPPARPGPIRPTLPPGILGPLAPNTPRPPAQAPAKDMPSGPTPQHIPLFWFLT Human herpesvirus 2 133 2 0.015037594
48707 DAAEEAEDLRVLEVGAVPVGRHRARYSTGLPKRRRPTWTPPSSVEDLTSGERPAPK Human herpesvirus 2 133 2 0.015037594
22849 PMTYWQVLGASETLTNIYNTQHRLDRGEISAGEAAVVMTSAQITMSTPYAATDAV Human herpesvirus 2 133 2 0.015037594
80403 PATPGPVGASAAPTADSPLTALPPATAPGPSAANVSVAATTATPGTRGTARTPPTD Human herpesvirus 2 133 2 0.015037594
54317 PNNGIESLVDKMSRWKTYAQDHRDEPRILGATSRPSRRRQRHPRQMGLVWDDEDSA Human adenovirus B 133 94 0.706766917
54386 TMQLMVPKRQRLEDVLEKMKVDPDIQPEVKVRPIKQVAPGLGVQTVDIKIPTESM Human adenovirus B 133 63 0.473684211
8004 PTMQLMVPKRQKLEDVLEKVKVDPDIQPEVKVRPIKQVAPGLGVQTVDIKIPTESM Human adenovirus B 133 58 0.436090226
54387 VKVRPIKQVAPGLGVQTVDIKLPTESMEVQTEPAKPTTTSIEVQTDPWMTAPVTTP Human adenovirus B 133 54 0.406015038
8005 EVKVRPIKQVAPGLGVQTVDIKIPTESMEVQTEPAKPTATSTEVQTDPWMPMPITT Human adenovirus B 133 50 0.37593985
22976 IIEMDVASENGQRAMKENPDRAKITQNRWGRNVVQLANNDARCCVNDANCATNQF Human adenovirus B 133 39 0.293233083
54276 TPGEMEVEEELPPLEKRGDKRPRPELEQTLVTRADEPPSYEEAVKLGMPTTRPVAH Human adenovirus B 133 39 0.293233083
7094 TLVTRVPEPPSYEEATKLGMPTTRPIAPMATGVMKPSQLHRPVTLDLPPPPAATAV Human adenovirus B 133 33 0.248120301
54318 LGATSRPSRRRQRHDRQMGLVWDDEDSADDSSVLDLGGKGVGNPFAHLRPRFGRM Human adenovirus B 133 27 0.203007519
58373 MSKEIPTPYMWSYQPNRLAAGASRTTTPLVLLSAGPSMISRVNDIELIETSSPRTV Human adenovirus B 133 24 0.180451128
54316 GRINRPRLMGEDEYLNDSLLRPEREKNFPNNGIESLVDKMSRWKTYAQDHRDEPR Human adenovirus B 133 23 0.172932331
57035 AEEVEEATAAKQLSSAAETSKSPDSSTATISAPGRGAQRRPNSRWDETGRFPNPT Human adenovirus B 133 22 0.165413534
54835 SLKPVTLQQVLPVPPRRGNKREGEDLYPTMQLMVPKRQRLEDVLEKMKVDPDIQP Human adenovirus B 133 20 0.15037594
8027 QIIEMDVASENGQRALKENPERTKITQNRWGRSVVQIANNDARCCVNDAGCAANQ Human adenovirus B 133 18 0.135338346
54277 TLVTRADEPPSYEEAVKLGMPTTRPVAHMATGVMKPSQSHRPATLDLPPPPASAA Human adenovirus B 133 18 0.135338346
55557 AEEVEEATAAKQLSSAAETSKSPDSSTATISAPGRGAQRRPNSRWDETGRFPNPT Human adenovirus B 133 16 0.120300752
12640 APGEMEVEEELPPLEKRGDKRPRPDMEETLVTRGDEPPPYEEAIKLGMPTTRPIAP Human adenovirus B 133 14 0.105263158
56242 EEVTADKQLSSAAETSNSATISAPSRGTRRRPSSRWDETGRFPNPTSASKTAPTIA Human adenovirus B 133 13 0.097744361
57036 TISAPGRGAQRRPNSRWDETGRFPNPTTASKTGKKERQGYKSWRGHKNAIISCLH Human adenovirus B 133 13 0.097744361
12641 TLVTRGDEPPPYEEAIKLGMPTTRPIAPMATGVMKPSQSHRPATLDLPPAPAAAAP Human adenovirus B 133 13 0.097744361
58458 HDRQMGLVWDDEDSADDSSVLDLGGRGGGNPFAHLRPRFGRM Human adenovirus B 133 13 0.097744361
57033 MSHRRGSKKLKVQLSPPEDMKEHWDSQAEEEMEDWDSQAEEVDSLEEDSLEEEDE Human adenovirus B 133 10 0.07518797
54363 MGDDPEPPVQPFDPPTLHDLYDLEVDGPEDPKEEAVNGFFTDSMLLAADEGLDIN Human adenovirus B 133 9 0.067669173
54282 YSELSPQYDTTKLYLVDNKSADIASLNYQNDHSNFLTTVVQNNDFTPTEASTQTI Human adenovirus B 133 9 0.067669173
56417 MGDDPEPPVQPFDPPTLHDLYDLEVPGPQDPNEEAVNGFFTDSMLLAADEGLDIN Human adenovirus B 133 9 0.067669173
57034 EEEMEDWDSQAEEVDSLEEDSLEEEDEEAEEVEEATAAKQLSSAAETSKSPDSST Human adenovirus B 133 9 0.067669173
54281 AAMIQPPLEAPFVPPRYLAPTEGRNSIRYSELSPQYDTTKLYLVDNKSADIASLNY Human adenovirus B 133 9 0.067669173
12638 KAWNSSTGQALRNKLKEQNFQQKVVDGIASGINGVVDLANQAVQKQINSRLDPPP Human adenovirus B 133 8 0.060150376
8035 MSKEIPTPYMWSYQPQMGLAAGASQDYSTRMNWLSAGPSMISRVNDIRAYRNQIL Human adenovirus B 133 8 0.060150376
55555 MSHRRGSKKLKVQLSPPEDMKEDWDSQAEEEMEDWDSQAEEVDSLEEDSLEEEDE Human adenovirus B 133 7 0.052631579
23004 NTPLTKSNHSINLPIGNGLQIEQNKLCSKLGNGLTFDSSNSIALKNNTLWTGPKP Human adenovirus B 133 7 0.052631579
7968 MGDDPEPPVQLFEPPTLQELYDLEVEGSEDSNEEAVNGFFTDSMLLAANEGLELD Human adenovirus B 133 7 0.052631579
16652 KDITADNKPIYADKTYQPEPQVGEESWTGIDGTNEKFGGRALKPATKMKPCYGSFA Human adenovirus B 133 7 0.052631579
54301 AILEAVVPSRSNPTHEKVLAIVNALVENKAIRPDEAGLVYNALLERVARYNSSNV Human adenovirus B 133 7 0.052631579
21384 IQDVNRRVVAHASLLRAQYQNLPARGADVPLPAMPPGPEPPLPPGARPRHR Human adenovirus B 133 7 0.052631579
54274 KAWNSSTGQALRNKLKEQNFQQKVVDGIASGINGVVDLANQAVQKQINSRLDPPPA Human adenovirus B 133 7 0.052631579
21273 MGDDPEPPVQPFDPPTLHDLYDLEVDGPEDPNEGAVNGFFTDSMLLAADEGLDIN Human adenovirus B 133 7 0.052631579
23001 MAKRARLSTSFNPVYPYEDESSSQHPFINPGFISPDGFTQSPNGVLSLKCVNPLT Human adenovirus B 133 7 0.052631579
7977 MGDDPEPPVQLFEPPTLQELYPLEVEGSEDSNEEAVNGFFTDSMLLAANEGLELD Human adenovirus B 133 7 0.052631579
7093 TPGEIQVEEEIPPPEKRGPKRPRPDLEETLVTRVPEPPSYEEATKLGMPTTRPIAP Human adenovirus B 133 6 0.045112782
7997 SGASAGRSRRQAAAVAAATIADMAQTRRGNVYWVRDAATGQRVPVRTRPPR Human adenovirus B 133 6 0.045112782
54513 EEEMEDWDSQAEEVDSLEEDSLEEEDEEAEEVEEATAAKQLSSAAETSKSPDSST Human adenovirus B 133 6 0.045112782
56234 MSQRRESKKLKVQPPPPEDMEEDWDSQAEEAEEEDSLEDSLEEDSLEEENEEAEE Human adenovirus B 133 6 0.045112782
54291 TGEKAVVKTTTVAVAEETSEDDNITRGDTYITEKQKREAAAAELLLMSEVKKELK Human adenovirus B 133 6 0.045112782
54512 MSHRRGSKKLKVQLSPPEDMKEDWDSQAEEEMEDWDSQAEEVDSLEEDSLEEEDE Human adenovirus B 133 6 0.045112782
55556 EEEMEDWDSQAEEVDSLEEDSLEEEDEEAEEVEEATAAKQLSSAAETSKSPDSST Human adenovirus B 133 6 0.045112782
9359 PYLTGRLPSWAGVRQNVMGSTVDGRPVQPANSSTLTYATLSSSPLDPAAAAAAAS Human adenovirus B 133 6 0.045112782
54410 TVSENVPALTDHGTLPLRSSIRGVQRVTVTDARRRTCPYVYKALGIVAPRVLSSRT Human adenovirus B 133 5 0.037593985
54394 RYSELAPLYDTTRLYLVDNKSADIASLNYQNDHSNFLTTVVQNNDFTPTEASTQT Human adenovirus B 133 5 0.037593985
8001 ERSSATFKRSYDEVYGDDDILEQAADRLGEFAYGKRSRINPKDETVSIPLDHGNP Human adenovirus B 133 5 0.037593985
7993 STQHPVRVRGHFRAPWGALKGRTRVRTTVDDVIDEVVADARNYTPTAPTSTYDAV Human adenovirus B 133 5 0.037593985
56244 SKSRQSRQIKTAAATSNRKPAAAVRKYTTSAATGGLKITANEPAQTRELRNRIFP Human adenovirus B 133 5 0.037593985
54313 PPPGFYTGEYDMPDPNDGFLWDDVDSSIFSPPPGYTVWKKEGGDRRHSSVSLPGTA Human adenovirus B 133 5 0.037593985
58326 NGVLSLKCVNPLTTASGSLQLKVGSGLTVDTTDGSLEENIKVNTPLTKSNHSINL Human adenovirus B 133 5 0.037593985
54392 MMRRTVLGGAVVYPEGPPPSYESVMQQAAAATMQPPLEAPFVPPRYLAPTEGRNS Human adenovirus B 133 5 0.037593985
54515 TISAPGRGAQRRPNSRWDETGRFPNPTTASKTGKKERQGYKSWPPTAVSKSRQPR Human adenovirus B 133 5 0.037593985
7091 KAWNSSTGQALRNKLKDQNFQQKVVDGIASGINGVVPLANQAVQKKINSRLDPPP Human adenovirus B 133 5 0.037593985
72034 MAKRARLSSSFNPVYPYEDESSSQHPFINPGFISSNGFAQSPDGVLTLKCVNPLT Human adenovirus B 133 4 0.030075188
33292 FNPVYPYEDESTSQHPFINPGFISPNGFTQSPDGVLTLKCLTPLTTTGGSLQLKV Human adenovirus B 133 4 0.030075188
54519 QEQELKVKNRSLRSLTRSCLYHKSEDQLQRTLEDAEALFNKYCALTLK Human adenovirus B 133 4 0.030075188
7073 DEDNLRLLASAAFGCSGNPEASTGHASGSGGGTARGQPESRPGPSSGGGGVADLS Human adenovirus B 133 4 0.030075188
31192 QPRSGGIGTLQFVEEFTPSVYFNPFSGSPGQYPDEFIPNFDAISESVDGYD Human adenovirus B 133 4 0.030075188
54331 QDNVKAEEIEADVEQDPGYVTPAEHEEELKRFLDREDDDRPEHQADGDHQEAGIG Human adenovirus B 133 4 0.030075188
56236 EEVTADKQLSSAAETSNSATISAPSRGTRRRPSSRWDETGRFPNPTSASKTGKKD Human adenovirus B 133 4 0.030075188
8003 PSLKPVTLQQVLPVTPRTGVKREGEDLYPTMQLMVPKRQKLEDVLEKVKVDPDIQ Human adenovirus B 133 4 0.030075188
31160 PNALGYPQEPDEHIPLQHIQQPLALVQYENEPQPSLPPAISYFNLTGGDD Human adenovirus B 133 4 0.030075188
22968 SSIESQVVLVSETSRSSLSPERSNSPPPIPPKKKPRKTKHVPLQDISQDSEEERE Human adenovirus B 133 4 0.030075188
23002 NPGFISPDGFTQSPNGVLSLKCVNPLTTASGSLQLKVGSGLTVDTTDGSLEENIK Human adenovirus B 133 4 0.030075188
7066 MGDDPEPPVQLFEPPTLQELYDLEVEGSEDSNEEAVNGFFTDSMLLAANEGLELD Human adenovirus B 133 4 0.030075188
44490 YKYTPPNITLPTNTNTYEYMNGRVVSPSLVDSYINIGARWSLDPMDNVNPFNHHR Human adenovirus B 133 3 0.022556391
11492 ASGPLQLKVGSSLTVDTIDGSLEENITAAAPLTKTNHSIGLSIGSGLQTKDDKLC Human adenovirus B 133 3 0.022556391
6071 DPDVRIIENHGIEDELPNYCFPLNGIGPGHTYQGIKVKTDDTNGWEKDANVAPAN Human adenovirus B 133 3 0.022556391
56247 CLYHKSEDQLQRTLEDAEALFNKYCALTLK Human adenovirus B 133 3 0.022556391
7095 MATGVMKPSQLHRPVTLDLPPPPAATAVPASKPVAAPKPVAVARSRPGGAPRPNA Human adenovirus B 133 3 0.022556391
56243 RRRPSSRWDETGRFPNPTSASKTAPTIASKSRQSRQIKTAAATSNRKPAAAVRKY Human adenovirus B 133 3 0.022556391
56248 METQPLLSTSPRVPSHLVLSDEEKEQSLSIPPPSPATTSTLEDKEVDASHDMQNKK Human adenovirus B 133 3 0.022556391
7074 SGGGTARGQPESRPGPSSGGGGVADLSPELQRVLTGSTSTGRDRGVKRERASSGT Human adenovirus B 133 3 0.022556391
54393 AAATMQPPLEAPFVPPRYLAPTEGRNSIRYSELAPLYDTTRLYLVDNKSADIASL Human adenovirus B 133 3 0.022556391
54280 MRRRAVLGGAVVYPEGPPPSYESVMQQQAAMIQPPLEAPFVPPRYLAPTEGRNSIR Human adenovirus B 133 3 0.022556391
54514 AEEVEEATAAKQLSSAAETSKSPDSSTATISAPGRGAQRRPNSRWDETGRFPNPT Human adenovirus B 133 3 0.022556391
9260 VYKYTPPNITLPTNTNTYEYMNGRVVSPSLVDSYINTGARWSLDPMDNV Human adenovirus B 133 3 0.022556391
56240 MSQRRESKKLKVQPPPPEDMEEDWDSQAEEAEEEDSLEDSLEEDSLEEENEEAEE Human adenovirus B 133 3 0.022556391
44564 STSGTDTVIYADKTFQPEPQVGNASWVDANGTEEKYGGRALKDTTKMKPCYGSFAK Human adenovirus B 133 3 0.022556391
58301 LTPLTTTGGSLQLKVGGGLTIDDTDGFLKENISAATPLVKTGHSIGLSLGPGLGT Human adenovirus B 133 3 0.022556391
33293 TQSPDGVLTLKCLTPLTTTGGSLQLKVGGGLTIDDTDGFLKENISAATPLVKTGHS Human adenovirus B 133 3 0.022556391
55558 TISAPGRGAQRRPNSRWDETGRFPNPTTASKTGKKERQGYKSWRGHKNAIISCLH Human adenovirus B 133 3 0.022556391
56237 RRRPSSRWDETGRFPNPTSASKTGKKDRQGYKSWRGHKNAIISCLHECGGNISFT Human adenovirus B 133 3 0.022556391
8006 EVQTEPAKPTATSTEVQTDPWMPMPITTDAAGPTRRSRRKYGPASLLMPNYVVHPS Human adenovirus B 133 3 0.022556391
54297 THVFNRFPENQILIRPPAPTITTISENVPALTDHGTLPLRSSIRGVQRVTVTDARR Human adenovirus B 133 2 0.015037594
31190 QSIKRLVIRGRGIQLNDESVSSSLGLRPDGVFQIAGCGRSSFTPRQAVLTLESSS Human adenovirus B 133 2 0.015037594
55563 GQEQELKVKNRSLRSLTRSCLYHKSEDQLQRTLEDAEALFNKYCALTLK Human adenovirus B 133 2 0.015037594
8037 EQSALTTTPRQHLNPRNWPAALVYQESPAPTTVLLPRDAQAEVQMTNAGAQLAGGS Human adenovirus B 133 2 0.015037594
31189 RDAQAEVQMTNAGVQLAGGSALCRHRPQQSIKRLVIRGRGIQLNDESVSSSLGLR Human adenovirus B 133 2 0.015037594
54371 TGGPLQLKVGGGLIVDDTDGTLQENIRATAPITKNNHSVELSIGNGLETQNNKLCA Human adenovirus B 133 2 0.015037594
54340 VMDHLLIKRARPLSENQNMQDPDASDEGKPVVSDEQLSRWLGTNSPRDLEERRKLM Human adenovirus B 133 2 0.015037594
56249 SIPPPSPATTSTLEDKEVDASHDMQNKKAKESEPDIEQDPGYVTPVEHEEELKRF Human adenovirus B 133 2 0.015037594
23714 NSGNRGPVMTSTSSINSSKSWSGTLLPSLIPRCAMQPKHTLSQWRRDAVPTRQSI Human adenovirus B 133 2 0.015037594
47923 MSGSASFEGGVFSPYLTGRLPPWAGVRQNVMGSTVDGRPVQPANSSTLTYATLSS Human adenovirus B 133 2 0.015037594
7969 EDSNEEAVNGFFTDSMLLAANEGLELDPPLDTFDTPGVIVESGTGVRKLPDLGSV Human adenovirus B 133 2 0.015037594
11491 NPGFISSNGFAQSPDGVLTLKCVNPLTTASGPLQLKVGSSLTVDTIDGSLEENITA Human adenovirus B 133 2 0.015037594
16651 SMWNQAVDSYDPDVRIIENHGIEDELPNYCFPLDGIGPGHRYQGIKVKTDDTNGW Human adenovirus B 133 2 0.015037594
54332 LKRFLDREDDDRPEHQADGDHQEAGIGDQVADYLTGLGGEDVLLKHLARQSNIVK Human adenovirus B 133 2 0.015037594
23715 LIPRCAMQPKHTLSQWRRDAVPTRQSISSTCWALTVQKKTGFPSKSTGRITKNTFS Human adenovirus B 133 2 0.015037594
7068 PLDTFDTPGVIVESGTGVRKLPDLGSVDCDLHCYEDGFPLSDEEDHEKEQFMQTAA Human adenovirus B 133 2 0.015037594
54369 MTKRVRLSDSFNPVYPYEDESTSQHPFINPGFISPNGFTQSPDGVLTLNCLTPLTT Human adenovirus B 133 2 0.015037594
22979 YPGITPDQARMMLIPIHCDCNHKPGCAPVMGRQTCKMTPFGMANAEDLDVATISD Human adenovirus B 133 2 0.015037594
66221 TTDRSQRLMLRFVPVDREDNTYSYKVRYTLAVGDNRVLDMASTFFDIRGVLDRGPS Human adenovirus B 133 2 0.015037594
44477 FKPYSGTAYNSLAPKGAPNTSQWIVTTNGDNAVTTTTNTFGIASMKGGNITKEGL Human adenovirus B 133 2 0.015037594
33294 GGLTIDDTDGFLKENISAATPLVKTGHSIGLSLGPGLGTNENKLCAKLGEGLTFN Human adenovirus B 133 2 0.015037594
54290 YEDLEGGNIPALLDVTAYEESKKDTTTETGEKAVVKTTTVAVAEETSEDDNITRGD Human adenovirus B 133 2 0.015037594
7979 PLDTFDTPGVIVESGTGVRKLPDLGSVDCDLHCYEDGFPLSDEEDREKEQFMQTAA Human adenovirus B 133 2 0.015037594
12234 TSQWIVTTNRDNAVTTTTNTFGIASMKGDNITKEGLQIGKDITTTEGEEKPIYADK Human adenovirus B 133 2 0.015037594
54388 VQTEPAKPTTTSIEVQTDPWMTAPVTTPAAVNTTRRSRRKYGPASLLMPNYALHPS Human adenovirus B 133 2 0.015037594
54384 EFAYGKRSRSSPKEEAVSIPLDNGNPTPSLKPVTLQQVLPVPPRRGNKREGEDLY Human adenovirus B 133 2 0.015037594
21224 SAGGAAGGQSESRPGPSGGGVADLFPELRRVLTRSTTSGQNRGIKRERNPSGNNS Human adenovirus B 133 2 0.015037594
8009 NRSRRRRRTSKPTPGALVRQVYRNSSAEPLTLPRARYHPSII Human adenovirus B 133 2 0.015037594
58300 LPTPLYNPGFISPNGFTQSPDGVLTLKCLTPLTTTGGSLQLKVGGGLTIDDTDGF Human adenovirus B 133 2 0.015037594
69684 RARRQAARQAAAAIASMAQPRRGNIYWVRDASGVRVPVRSRPPRS Human adenovirus F 119 95 0.798319328
31225 EGVLRCYHGLEMIQKEQLVEMDVASENAQRALKEHPSRAKVVQNRWGRSVVQLKN Human adenovirus F 119 89 0.74789916
12396 LPGETDYLNDPLLQPVRNKNFPNNGVESLVDKMNRWKTYAQEQREWEESQSRPLA Human adenovirus F 119 46 0.386554622
31241 EEGVLRCFHGREMIQKEQVVEVDVGSENGQRALKEQPSKTKVVQNRWGRSVVQIK Human adenovirus F 119 36 0.302521008
5571 LQPTMQLMVPKRQKLEEVLENMKVDPSVEPEVKVRPIKEIGPGLGVQTVDIQIPVR Human adenovirus F 119 21 0.176470588
5572 EPEVKVRPIKEIGPGLGVQTVDIQIPVRTTPAVAMAEAMETQTDQPAAVTTREIG Human adenovirus F 119 15 0.12605042
32852 NGALTLKLGTGLNIDENGDLSSDASVEVSAPITKTNKIVGLNYTKPLALRSNALT Human adenovirus F 119 12 0.100840336
44839 PSVEPEVKVRPIKEIGPGLGVQTVDIQIPVRASSSTVSTAVEAMETQPELPEAVAR Human adenovirus F 119 11 0.092436975
44747 PPVALQQRPPPKVEEVEVEEKLPPLEVAPPLPSKGEKRPRPDLEETLVVESREPPS Human adenovirus F 119 8 0.06726891
15376 ELAPLYDTTRVYLVDNKSADIASLNYQNDHSNFQTTVVQNNDFTPAEAGTQTRKF Human adenovirus F 119 8 0.06726891
12397 LVDKMNRWKTYAQEQREWEESQSRPLAGPFSRWRRREDDQDDSADDNSVLDLGGT Human adenovirus F 119 8 0.06726891
69680 SQHPVRVRGHYRAPWGAYTRGVISRRTTVDDVIDSVVADAQRYTRPVATSTVDSV Human adenovirus F 119 7 0.058823529
31335 MSKDIPTPYMWSYQPQMGLAAGASQDYSSRMNWLSAGPHMIGRVNGIRATRNQIL Human adenovirus F 119 7 0.058823529
44748 PPLPSKGEKRPRPDLEETLVVESREPPSYEQALKEGASPYPMTKPIGSMARPVYGK Human adenovirus F 119 6 0.050420168
44840 PVRASSSTVSTAVEAMETQPELPEAVARAVAATREMGLQTDPWYEFVAPTSRPRS Human adenovirus F 119 6 0.050420168
15374 MRRAVGVPPVMAYAEGPPPSYESVMGSADSPATLEALYVPPRYLGPTEGRNSIRYS Human adenovirus F 119 6 0.050420168
44838 KDELQPTMQLMVPKRQKLEEVLENMKVDPSVEPEVKVRPIKEIGPGLGVQTVDIQ Human adenovirus F 119 6 0.050420168
31218 KKKLRKNVQVPDRVPVLPPSPEVVPDSEEEEEEVVYTGFSHPGVQVVQKASGKRYV Human adenovirus F 119 6 0.050420168
31273 TLAVGDNRVLDMASTYFDIRGVLDRGPSFKPYSGTAYNSLAPKGAPNPSQWTNQN Human adenovirus F 119 5 0.042016807
5569 AQQIGEFAYGKRGRYGEVGLLLDQSNPTPSLKPATQQQILPVTETKRGVKRENKD Human adenovirus F 119 4 0.033613445
44753 RQSTAGAAPTATRAPRRRAATASPGEPPSTTASGRPPAANNVSLTPNSRERGTIVA Human adenovirus F 119 4 0.033613445
32851 PPFASSNGLQEKPPGVLSLKYTDPLTTKNGALTLKLGTGLNIDENGDLSSDASVEV Human adenovirus F 119 3 0.025210084
31210 MPPKGNKHPIAQRQSQQKLQKQWDEEETWDDSQAEEVSDEEAEEQMESWDSLDEE Human adenovirus F 119 3 0.025210084
14617 TAPNPCEWKDKNNKIKVRGQAPLIGTNIDKDNGIQIGTDATKPIYADKTYQPEPQV Human adenovirus F 119 3 0.025210084
31274 FKPYSGTAYNSLAPKGAPNPSQWTNQNKTNSFGQAPYIGQKITNQGVQVGSDSNN Human adenovirus F 119 3 0.025210084
31217 MAGRQQELPTITPYLQETSPERAPSLPPKKKLRKNVQVPDRVPVLPPSPEVVPDS Human adenovirus F 119 3 0.025210084
12393 ILNPHWMPPSGFYTGEFPMPEGDDGFLWDDVSDSIFAPVRYRKKEGGDELPLPLV Human adenovirus F 119 3 0.025210084
44793 RTLRPWKDITLAPLDAHRLVPYSQSRPNPRNQEVCWIEM Human adenovirus F 119 2 0.016806723
69681 VDDVIDSVVADAQRYTRPVATSTVDSVIDSVVANARRYAQRKRRLQRRRRRPTAA Human adenovirus F 119 2 0.016806723
15375 DSPATLEALYVPPRYLGPTEGRNSIRYSELAPLYDTTRVYLVDNKSADIASLNYQ Human adenovirus F 119 2 0.016806723
15196 KVRGQAPLIGTNIDKDNGIQIGTDATKPIYADKTYQPEPQVGQTQWNSEVGATDKV Human adenovirus F 119 2 0.016806723
15383 NLLGIRKRLPFQEGFQIMYEDLEGGNIPALLDVTKYEASIQKAKEEGKEIGDDTFA Human adenovirus F 119 2 0.016806723
44749 YEQALKEGASPYPMTKPIGSMARPVYGKESKPVTLELPPPVPTVPPMPAPTLGTAV Human adenovirus F 119 2 0.016806723
5536 TLRPWKDITLAPLDAHRLVPYSQSRPNPRNQEVCWIEM Human adenovirus F 119 2 0.016806723
58439 VVFTPGERSVTRALKRDYDEVYADEDILEQAAQQVGE Human adenovirus F 119 2 0.016806723
51258 DALGDRSRYFSMWNQAVPSYDPDVRIIENHGVEDELPNYCFPLNGQGISNSYQGV Human adenovirus F 119 2 0.016806723
12400 YALVGTNLSLDSMKTPQIDELTSLSWIKQEDNPNKNLQSFFFIGQKLCEVTKDKI Human adenovirus F 119 2 0.016806723
5542 TKVNLQKAGKGGRQALMKLNFKGGVGGSVNSVEETLSSGGYNGSSEAE Human adenovirus F 119 2 0.016806723
31345 SEPNYLGGEDDVLLKHIARQSTIVREALKECTQTPLTVEELSRAYEANLFSPRVP Human adenovirus F 119 2 0.016806723
44835 VVFTPGERSVTRALKRDYDEVYADEDILEQAAQQVGEFAYGKRGRYGELGLLLDQ Human adenovirus F 119 2 0.016806723
30952 EEAVDGMFPNWMLSEDHSADSGAASGDSGVGEDLVEVNLDLKCYEEGLPPSGSEA Human adenovirus F 119 2 0.016806723
44841 AVAATREMGLQTDPWYEFVAPTSRPRSRKYTTANSILPEYALHPSITPTPGYRGTT Human adenovirus F 119 2 0.016806723
44826 EQNYDVSHPDNIFAKAASQGPIAIIMDECMENLGGHKGVSKFFHAFPSKLHDKFP Human adenovirus F 119 2 0.016806723
5568 TPGERSATRALKREYDEVYADEDILEQAAQQIGEFAYGKRGRYGEVGLLLDQSNP Human adenovirus F 119 2 0.016806723
30951 PEPSQAFEEISLHNLFDVELDESEGDPNEEAVDGMFPNWMLSEDHSADSGAASGD Human adenovirus F 119 2 0.016806723
44836 EQAAQQVGEFAYGKRGRYGELGLLLDQSNPTPSLKPATAQQILPVTEIKRGVKRE Human adenovirus F 119 2 0.016806723
54664 AAAAPPTPAFAAALGSAALCDDDRAPQGRGAAPLSAEVGRPPRAPREPRTPREPR Papiine herpesvirus 2 106 63 0.594339623
54169 MEPPRPPDADSLLSDATSVIPLTPPAQGAEAYYTESDDETAADFLMRMGRQQTAL Papiine herpesvirus 2 106 61 0.575471698
55205 ALVNASAATHVDVDVGRAADLFVSQMMGG Papiine herpesvirus 2 106 44 0.41509434
55197 PPHPGGVYHPGVLFPGPSPLEAQIAALVGAIAADRQPPPAAPGKRRRYETERECD Papiine herpesvirus 2 106 37 0.349056604
53343 AAAGPPTPAFAAAPGPAARCDDDRVPQGRGDAPPSAEVGRPPRAPREPRTPREPRV Papiine herpesvirus 2 106 30 0.283018868
55015 RARRAARHAASPFARGTGGDDQTRPAAPAPASTPAPTPAPGSTPAPPSTPASAPAS Papiine herpesvirus 2 106 20 0.188679245
55204 SGATGAVSGVAAPGAAAPAEAGDPEAHAALVNASAATHVDVDVGRAADLFVSQMM Papiine herpesvirus 2 106 17 0.160377358
55018 AQPRPPETPLPTPTPDSGESPAPPPEPQPPRPAADAAEPAPDDATRKALDALRERR Papiine herpesvirus 2 106 17 0.160377358
54668 EPRCPREPRRPRDPRQPREPRTPRHYVQPPAPRGPRG Papiine herpesvirus 2 106 11 0.103773585
55099 PTRRAARPAVGSLTSLADPPPPEPEPRPATPATPATPATPATPATPATPATPATPA Papiine herpesvirus 2 106 9 0.08490566
55100 ATPATPATPATPATPATPATPATPATPATPATPATPATPATPATPATPATPATPPS Papiine herpesvirus 2 106 8 0.075471698
54681 KRPPESPRRGKRRLSQTMVPSLTAISEETDAVAVPELSRSPRRPGPADA Papiine herpesvirus 2 106 8 0.075471698
54192 APTYIRLADDELYADLSSDGASDDSEYPSEDDRLPGTDRPPKRGSGFQILSGTKS Papiine herpesvirus 2 106 7 0.066037736
75631 LGDDDDDDRAGVPDDAAYASLDMADFEFEQMFTDALGIDEFG Papiine herpesvirus 2 106 6 0.056603774
55468 KYYTRSSDGRISPAVPVFVHEFVSNAPVYVHRDNVIAPAAPAPPRYRVPTRLADPK Papiine herpesvirus 2 106 6 0.056603774
54630 RAAVAGRDATGRFTAARPRPVPLDADEASGAFYARFRDGYASGEPWPGAEPPPPG Papiine herpesvirus 2 106 5 0.047169811
55195 GAAAPTPAPPGDGSYLWIPAAHYNQLVASHPPGPAFGAPAAYAPLAGVVGAPAAFA Papiine herpesvirus 2 106 5 0.047169811
54680 RIYRPPSPVAPSISAVNEAALARLGDELKRPPESPRRGKRRLSQTMVPSLTAISE Papiine herpesvirus 2 106 5 0.047169811
55000 RGLKTGMYYCKVRKATNSGVFGGDDNIVCTSCVD Papiine herpesvirus 2 106 4 0.037735849
55412 PVYAEIKYAGESDVGRDDDDSEYTEGEPIYDEVASDVEEVTYARIQHRPRVVEEP Papiine herpesvirus 2 106 4 0.037735849
54657 PRLGRGANVRYRVRTRLGPDTAVPLPPREYRRAVLPALDGRAADSPARAAAAAGA Papiine herpesvirus 2 106 4 0.037735849
55198 GAIAADRQPPPAAPGKRRRYETERECDHDDRDDAAYYPGEARALPRFAPDAAGRA Papiine herpesvirus 2 106 3 0.028301887
55471 PEFRRRFLVGDAWRPLLEPELANPLTARLMAEYERRCRAEEVLPPREDVFSWTRY Papiine herpesvirus 2 106 3 0.028301887
54870 MSARRRRASASSRTPPAEDAEDEEVMDYDSDDGPGAGGTGIVGYLRSVFGGGPPD Papiine herpesvirus 2 106 3 0.028301887
55196 SHPPGPAFGAPAAYAPLAGVVGAPAAFAPPHPGGVYHPGVLFPGPSPLEAQIAAL Papiine herpesvirus 2 106 3 0.028301887
54689 AAGPGVGPRSPPGPASSPPSARAAGAPGAPCRPVAPAAPLWRSVPAAWVSAANPL Papiine herpesvirus 2 106 3 0.028301887
54701 DPSPAADATPPGPKPGTGDGPYPPPPRRPAVTLPPPHLGPLTLRPPSPPTEPAPPS Papiine herpesvirus 2 106 3 0.028301887
54850 PAFLCSAPGAKRPRRTEPGAPHANPWLGREPAAQARRGSFVTYTGELREEAPGAD Papiine herpesvirus 2 106 3 0.028301887
55049 TRRRADELEAAAADLAEKIAARDARAGRERWAAPVEAALDRVETRAEFDAVELRR Papiine herpesvirus 2 106 3 0.028301887
55101 TPATPATPATPATPATPATPATPATPPSAAAAADRASAPPATTTPPAGSSAAVATA Papiine herpesvirus 2 106 3 0.028301887
54970 PAAPAPTPTPGPTPAPDSGEEAPDARPSSVPGGPAAAGGPDDEPADDEPPRPPSA Papiine herpesvirus 2 106 3 0.028301887
54819 AMAPRGQAFAALARDDWERITRDARLPAADVAAAVGAFPRDPGALGLRLTWRVHA Papiine herpesvirus 2 106 2 0.018867925
55483 LEDLSHALFPDNALETATRRALYKEVRLAVASRSGASSGTPVPPGCVNSEYSRTR Papiine herpesvirus 2 106 2 0.018867925
55253 AGSLAGARGAKRTTVSEFVQVKHIDRVRRPDAPPGPPPPPAALPPAATPDDLWTV Papiine herpesvirus 2 106 2 0.018867925
55415 GSPPAGAAEALLDDLPIAEGDLARYASSVSLARMLYGGDLAEWVPRVHPRVTIER Papiine herpesvirus 2 106 2 0.018867925
54969 EVAVVSFVAPPVRPGAMVSIATQTDPLPPAAPAPTPTPGPTPAPDSGEEAPDARPS Papiine herpesvirus 2 106 2 0.018867925
54841 DTCLATILQMYMSVGAADKSADVLVAQAIRSMAESDVVMEDVAIAERALGLSGEP Papiine herpesvirus 2 106 2 0.018867925
55227 RTFVLGSVVDPRNRSAIEALRQAARYPHEDAGPEYHLSRAYAEIFGEAAPTEPGP Papiine herpesvirus 2 106 2 0.018867925
55226 AAEALALIGPPEMSEPLVLPGPPPGKRYRTFVLGSVVDPRNRSAIEALRQAARVP Papiine herpesvirus 2 106 2 0.018867925
55194 ASDGAPRARPLDSAAPERLEADMNPAAPGAAAPTPAPPGDGSYLWIPAAHYNQLV Papiine herpesvirus 2 106 2 0.018867925
54733 GTASDALPAANAPGSLASRLEREFAAFDWTSEEGSQPWLSSVVADTSSAERRRGD Papiine herpesvirus 2 106 2 0.018867925
54912 QNPSPAAGGATSAYYTRMDGPAAPHPPPRSRRTETLRSAPPAAAPPEDDPYLAPCD Papiine herpesvirus 2 106 2 0.018867925
54665 RGAAPLSAEVGRPPRAPREPRTPREPRTPREPRVPRRPREPRDPREPRQPREPRTP Papiine herpesvirus 2 106 2 0.018867925
55160 LCDLETRHACAHTTLMRLRGRHPRFASATRGPIGVFGTMNSAYSDCDVLGNYAAF Papiine herpesvirus 2 106 2 0.018867925
5 RPRGPSRSRVRYTRLAASEA Papiine herpesvirus 2 106 2 0.018867925
54950 DEGEQTPGETAASDISDAAVSPGTKRAPATVSVGASAPKKAREHPGDLGRVNPGP Papiine herpesvirus 2 106 2 0.018867925
55183 DFGAAFGAEDDDAPAFGGFAAPAAGARKRAGAADDLFGDAPPDKRELTLDT Papiine herpesvirus 2 106 2 0.018867925
55221 LRSRAWVTHAPVWNPRSLVRPPVDPSGGAAPDAAPRPPAVPPPDAAPADAGPGTPV Papiine herpesvirus 2 106 2 0.018867925
55159 DGGVIVGRQELDVLRYVADSSQTDVPCDLCDLETRHACAHTTLMRLRGRHPRFAS Papiine herpesvirus 2 106 2 0.018867925
5888 SLLQPPRVKNAMANNGIESLVDKLNRWKTYAQDHREPAPAPRRQRHDRQRGLVWDI Human adenovirus D 78 38 0.487179487
5889 TYAQDHREPAPAPRRQRHDRQRGLVWDDEDSADDSSVLDLGGSGGVNPFAHLQPK Human adenovirus D 78 34 0.435897436
12155 AATVVEMEDASAHPPPRGEKRPRPDAEETTLQVDEPPSYEEAVKAGMPTTRIIAPD Human adenovirus D 78 27 0.346153846
758 KQVAPGLGVQTVDIQIPTDMDVDKKPSTSIEVQTDPWLPASTATVSTSTAATATE Human adenovirus D 78 20 0.256410256
757 MVPKRRRVEDVLDTVKMDVEPEVKVRPIKQVAPGLGVQTVDIQIPTDMDVDKKPST Human adenovirus D 78 17 0.217948718
12156 TTLQVDEPPSYEEAVKAGMPTTRIIAPLATGVMKPATLDLPPPPAPAPPKAAPVVQ Human adenovirus D 78 16 0.205128205
76577 PPRYMAPTEGRNSIRYSELAPLYDTTRVYLVDNKSADIASLNYQNDHSNFLTTVV Human adenovirus D 78 13 0.166666667
16138 KDHVVEMDVTSENGQRALKEQPSKAKVTQNRWGRSVVQLTSHDARCCVQDAGCGN Human adenovirus D 78 12 0.153846154
16146 MPRKKPLVEEEVMEEEWDSQAEEDDWEEEESTEEEELEEVEEEQATEQPVAAPSA Human adenovirus D 78 12 0.153846154
6656 TIKNPQIKHSCDQQNLTLLNADKSHERTYLGYRHDSKGKVDYKVTVIPPPPATRK Human adenovirus D 78 12 0.153846154
7207 SCNQQNLTLLNADKSHERTYLGYRHDSKGKVDYKVTVIPPPSTTRKPLSQPHYVTV Human adenovirus D 78 11 0.141025641
788 MSKEIPTPYNFVVSYQPQMGLAAGASQDYSTRMNWLSAGPSMISRVNGVRSHRNQIL Human adenovirus D 78 11 0.141025641
66269 SCDQQNLTLLNADKSHERTYLGYRHDSKGKVDYKVTVIPPPPTTRKPLSEPHYVTV Human adenovirus D 78 9 0.115384615
756 QQVLPQAVLLPSRGVKREGESMYPTMQIMVPKRRRVEDVLDTVKMDVEPEVKVRP Human adenovirus D 78 9 0.115384615
4474 SQQHPVRVRGHFRAPWGAYKRGRTSAPAAVRTTVDDVIDSVVADARNYTPAPSTVD Human adenovirus D 78 8 0.102564103
16152 MPRKKPLVEEEVMEEEWDSQAEEDDWEEEESTEEEELEEVEEEQATEQPVAAPSA Human adenovirus D 78 7 0.08974359
7206 LDLPVTWYDGKGMQFCDGNTIKNPQIKHSCNQQNLTLLNADKSHERTYLGYRHDS Human adenovirus D 78 7 0.08974359
6657 YLGYRHDSKGKVDYKVTVIPPPPATRKPLSEPHYVTVSMGDNITLVGPSPLPVTWY Human adenovirus D 78 7 0.08974359
67719 APNSSQWLTKQTNAGNETTKTHTYGVAAMGGADITIKGLQIGVDKTENKNEPIYA Human adenovirus D 78 7 0.08974359
13144 QEGQKETSQKKANDKQKATHRRPSKLKPHTPEAKLITVSSGSNLTLLGPDGKVTWY Human adenovirus D 78 7 0.08974359
17016 PPRYMAPTEGRNSIRYSELAPLYDTTRVYLVDKKSADIASLNYQNDHSNFLTTVV Human adenovirus D 78 6 0.076923077
56966 TDTTNGKQDPIYANKLYQPEPQVGEENWQETEAFYGGRALKKETKMKPCYGSFAR Human adenovirus D 78 5 0.064102564
66268 LDLPVTWYDKKGMQFCIGNTIKNPQIKHSCDQQNLTLLNADKSHERTYLGYRHPS Human adenovirus D 78 5 0.064102564
4478 RAATAPTPAGRTRRRAAAAAAAAISSMTRPRRGNVYWVRPSVTGVRVPVRTRPPR Human adenovirus D 78 5 0.064102564
77119 APNSSQWLAKDTNAGDQALKTHTHGVAAMGGTDITAKGLQIGVDTTENKNEPIYA Human adenovirus D 78 4 0.051282051
16147 EESTEEEELEEVEEEQATEQPVAAPSAPAAPAVTDTTSAPAKPPRRWDRVKGDAKK Human adenovirus D 78 4 0.051282051
6141 TFDKKGDLVAWNKENDRRTLWTTPDPSPNCKVSEEKDSKLTLVLTKCGSQILASVS Human adenovirus D 78 4 0.051282051
44442 TPPFVSSDGFQNFPPGVLSLKLADPIAIANGNVSLKMGGGLTLQEGTGNLTVNTE Human adenovirus D 78 4 0.051282051
6137 TNGNVSLKVGGGLTVEQNSGNLKVKPKAPLQVATDNQLEISLADPFEVKNKKLSL Human adenovirus D 78 4 0.051282051
14595 VHRPTPVRPSGERRAAVEKIEDLLHDMGGDEPLDLSLKRPR Human adenovirus D 78 4 0.051282051
44529 NSSQWLAKDTNAGDQALKTHTHGVAAMGGTDITAKGLQIGVDTTENKNEPIYANE Human adenovirus D 78 4 0.051282051
16153 EESTEEEELEEVEEEQATEQPVAAPSAPAAPAVTDTTSAPAKPPRRWDRVKGDGK Human adenovirus D 78 4 0.051282051
4442 EDELHPSPFELGPTLQDLYDLEVDAHDDDPNEEAVNLIFPESLILQADIASEAVP Human adenovirus D 78 3 0.038461538
6676 WQKYDKVRKRIHYNANRGSVELAPPSSISQGPFTT Human adenovirus D 78 3 0.038461538
64858 TPPFVSSNGFQNFPPGVLSLKLADPITINNQNVSLKVGGGLTLQEETGKLTVNTE Human adenovirus D 78 3 0.038461538
5873 ILEAVVPSRTNPTHEKVLAIVNALAENKAIRPDEAGLVYNALLERVGRYNSTNVQ Human adenovirus D 78 3 0.038461538
6136 TPPFVSSDGFQNFPPGVLSLKLADPIAITNGNVSLKVGGGLTVEQNSGNLKVNPKA Human adenovirus D 78 3 0.038461538
15369 DLTDDTLLQVYRPTPVRPSGERRAAVDKIEDLLQDMGGDEPLDLSLKRPR Human adenovirus D 78 3 0.038461538
44443 ANGNVSLKMGGGLTLQEGTGNLTVNTEPPLQLTNNRIGIALDAPFDVIGGKLTLLA Human adenovirus D 78 3 0.038461538
16131 EEDVVPVDTPPKLPKKQARKTKHVTKVDPDEEMPQEEDAVIVGVGFSQPPVLLKE Human adenovirus D 78 3 0.038461538
5887 SLHSLPGSVNSGRVSRPRLLGEDEYLNDSLLQPPRVKNAMANNGIESLVPKLNRW Human adenovirus D 78 3 0.038461538
12154 ASGINGVVDIANQAVQREINSRLDPRPPAATVVEMEDASAHPPPRGEKRPRPDAE Human adenovirus D 78 3 0.038461538
59452 FDIRGVLDRGPSFKPYSGTAYNSLAPKGAPNSSQWEQKKANAGDQKETHTYGVAPM Human adenovirus D 78 3 0.038461538
18591 ANGDVSLKVGGGLTLQEGSLTVDPKAPLQLANNKKLELVYVPPFEVSANKLSLKV Human adenovirus D 78 3 0.038461538
6610 EDELHLSPFELGPTLQDLYDLEVNAQENDPNEEAVNLIFPESMILQADIASEAVP Human adenovirus D 78 2 0.025641026
6661 VKTLFQNGAGQSKVEQSNIGQGNKGKTTTAQSGGKKTKTEHRNQSPKRKSTNNLQ Human adenovirus D 78 2 0.025641026
12153 KAWNSSTGQMLREKLADQNFQQKVVDGLASGINGVVDIANQAVQREINSRLPPRP Human adenovirus D 78 2 0.025641026
16145 ETFPETPVPKLVIPEFKWQPKYQYRNVALPSAAHNDERENPFD Human adenovirus D 78 2 0.025641026
15373 HPSPPDLTDDTLLQVYRPTPVRPSGERRAAVDKIEDLLQDMGGDEPLDLSLKRPR Human adenovirus D 78 2 0.025641026
44431 NNQNVSLKVGGGLTLQEETGKLTVNTEPPLHLTNNKLGIALDAPFDVIDNKLTLLA Human adenovirus D 78 2 0.025641026
4493 WQKYPKVRKRIHYNANRDSIQLAPPSSISQGPFTT Human adenovirus D 78 2 0.025641026
16173 PYIYNKEGTDREQYEVSVLDLMPIAGQGLDSKIKKEQKSLPKRKPKDKVKEVNK Human adenovirus D 78 2 0.025641026
64859 NNQNVSLKVGGGLTLQEETGKLTVNTEPPLHLTNNKLGIALDAPFDVIDNKLTLLA Human adenovirus D 78 2 0.025641026
754 RSKRSYDEVYGDDDILDQAAERAGEFAYGKRSREEELISLPLDESNPTPSLKPVT Human adenovirus D 78 2 0.025641026
67609 NNQNVSLKVGGGLTLQEETGKLTVNTEPPLHLTNNKLGIALDAPFDVIDNKLTLLA Human adenovirus D 78 2 0.025641026
13171 NRRVVAHASALRAQHRPLPERHADVPLPPLPAGPEPPLPPGARPRHR Human adenovirus D 78 2 0.025641026
5892 KMYVSVPVPRYPGLGKSSNGERVRALDPALPLFIPWLPAVSGGRHPAGRWQESH Human adenovirus D 78 2 0.025641026
58337 APNSSQWEQKKANAGDQKETHTYGVAPMGGENITISGLQIGTDTTNGKQDPIYANK Human adenovirus D 78 2 0.025641026
59455 LYQPEPQVGEENWQETEAFYGGRALKKETKMKPCYGSFARPTNEKGGQAKLRDPEK Human adenovirus D 78 2 0.025641026
769 NALKETAEEEGHTSALVELEGDNARLAVLKRSVELTHFAYPAVNLPPKVMRRIMD Human adenovirus D 78 2 0.025641026
56965 AGDQKETHTYGVAPMGGENITISGLQIGTDTTNGKQDPIYANKLYQPEPQVGEENW Human adenovirus D 78 2 0.025641026
91648 VNGNVSLKVGGGLTLQDGTGKLTVNADPPLQLTNNKLGIALDAPFDVIDNKLTLLA Human adenovirus D 78 2 0.025641026
751 MSKRKIKEEMLQVVAPEIYGPPQADQKPRKIKRVKKKDEVDEGAVEFVREFAPRR Human adenovirus D 78 2 0.025641026
66274 KVEQGNTAQSGGKKTKTEHRNPISAKTKSTNNLQPTQLYVRPFTNVSLTGPPNGKV Human adenovirus D 78 2 0.025641026
7191 ETSQKKTNDTQKPSRRRPSKLKPNTPDTKLITATSGSNVTLVGPAGKVTWYDDDLK Human adenovirus D 78 2 0.025641026
76576 MRRAVVSSSPPPSYESVMAQATLEVPFVPPRYMAPTEGRNSIRYSELAPLYDTTRV Human adenovirus D 78 2 0.025641026
4451 EDELHPSPFELGPTLQDLYDLEVPAHDDDPNEEAVNLIFPESLILQADIASEAVP Human adenovirus D 78 2 0.025641026
17015 MRRAVVSSSPPPSYESVMAQATLEVPFVPPRYMAPTEGRNSIRYSELAPLYDTTRV Human adenovirus D 78 2 0.025641026
5871 MSQQQAPDPAIRAALQSQPSGLASDDWEAAMQRIMALTTRNPESFRQQPQANRLSA Human adenovirus D 78 2 0.025641026
66289 TNSGVQLTGGASRCPLRPQSGIKIPVIRGKGTQLNDELGSSAIGLRPDGVFQLAGA Human adenovirus D 78 2 0.025641026
77106 APNPSQWVAKENGQGTDKTHTYGSAAMGGSNITIEGLVIGTDEKAEDGKKDIFANK Human adenovirus D 78 2 0.025641026
789 TRMNWLSAGPSMISRVNGVRSHRNQILLEQAAVTSTPRAKLNPRNWPSTLVYQEI Human adenovirus D 78 2 0.025641026
88995 SAIGNTIEALFQGPPKFRPIRISLEEKPAPDAISDLLASVDSEEVRQYCRDDQGWI Enterovirus A 74 53 0.71216216
58526 YAIGNTIEALFQGPPKFRPIRISLEEKPAPDAISPLLASVDSEEVRQYCRDQGWI Enterovirus A 74 52 0.702702703
58496 QVEPTAANTNASEHRLGTGLVPALQAAETGASSNAQDENLIETRCVLNHHSTQET Enterovirus A 74 49 0.62162162
77511 SAIGNTIEALFQGPLKFKPIRISLEEKPAPDAISDLLASVDSEEVRQYCREQGW Enterovirus A 74 43 0.581081081
77481 QVLPTAADTEASSHRLGTGVVPALQAAETGASSNASDKNLIETRCVLNHHSTQET Enterovirus A 74 25 0.337837838
58537 VKPNKETGRLNINGPTRTKLEPSVFHDVFEGNKEPAVLHSRDPRLEVDFEQALFSK Enterovirus A 74 24 0.324324324
88968 LPAPTGPDTQVSSHRLPTGKVPALQAAEIGASSNASDESMIETRCVLNSHSTAET Enterovirus A 74 23 0.310810811
58538 FEGNKEPAVLHSRDPRLEVDFEQALFSKYVGNTLHEPDEYIKEAALHYANQLKQL Enterovirus A 74 18 0.243243243
89041 GVVGIASTGGNGLVGFADVRDLLWLDEEAMEQGVSDYIKGLGDAFGTGFTDAVSR Enterovirus A 74 16 0.216216216
89004 MKPNRETGRLNINGPTRTKLEPSVFHDVFEGNKEPAVLTSKDPRLEVDFEQALFSK Enterovirus A 74 16 0.216216216
88967 TATIQGDRVADVIESSIGDSVSKALTPALPAPTGPDTQVSSHRLDTGKVPALQAA Enterovirus A 74 15 0.202702703
77522 MKPNKETGRLNINGPTRTKLEPSVFHDVFEGNKEPAVLTSKDPRLEVDFEQALFSK Enterovirus A 74 15 0.202702703
58511 AMEQGVSDYIKGLGDAFGVGFTDAVSREVEALKNHLIGSEGAVEKILKNLIKLIS Enterovirus A 74 13 0.175675676
89063 VKSNKETGRLNINGPTRTKLEPSVFHDVFEANKEPAVLTSKDPRLEVPFEQALFS Enterovirus A 74 12 0.162162162
77523 FEGNKEPAVLTSKDPRLEVDFEQALFSKYVGNTLHEPDEYVTQAALHYANQLKQL Enterovirus A 74 9 0.121621622
77496 AMEQGVSDYIKGLGDAFGVGFTDAVSREVEALKNHLIGSEGAVEKILKNLVKLIS Enterovirus A 74 8 0.108108108
88983 AMEQGVSDYIKGLGRAFGTGFTDAVSREVEALKNHLIGSEGAVEKILKNLVKLIS Enterovirus A 74 8 0.108108108
89067 YPYSALGIKKRDILDPATRDVSKMKSYMDKYGLDLPYSTYVKDELRSLDKIKKGK Enterovirus A 74 8 0.108108108
89064 FEANKEPAVLTSKDPRLEVDFEQALFSKYVGNVLHEPDEYVHQAALHYANQLKQL Enterovirus A 74 7 0.094594595
58541 YPYSALGIKKRDILDPTTRDVSKMKFYMDKYGLDLPYSTYVKDELRSIDKIKKGKS Enterovirus A 74 6 0.081081081
89042 AMEQGVSDYIKGLGDAFGTGFTDAVSREVEALRNHLIGSDGAVEKILKNLIKLIS Enterovirus A 74 6 0.081081081
77505 YHSSVYSLPPDPDHFDGYKQQVVTVMDDLCQNPDGKDMSLFCQMVSTVDFIPPMAS Enterovirus A 74 6 0.081081081
58510 GVVGIVSTGGNGLVGFADVRDLLWLDEEAMEQGVSDYIKGLGDAFGTGFTDAVSR Enterovirus A 74 5 0.067567568
89008 DKYGLDLPNSTYVKDELSSLDKIRKGESRLIEASSLNDPVYPRLTFGHLYEVFHA Enterovirus A 74 5 0.067567568
58478 LTIGNSTITTQEAANIIIAYGEWPEYCKDADATAVDKPTRPDVSVNRFFTLDTKSW Enterovirus A 74 5 0.067567568
88950 LTIGNSTITTQEAANIIVGYGEWPSYCSDNDATAVDKPTRPDVSVNRFYTLDTKLW Enterovirus A 74 4 0.054054054
58495 SANIQGDGIADMIDQAVTSRVGRALTSLQVEPTAANTNASEHRLGTGLVPALQAA Enterovirus A 74 4 0.054054054
77526 YPYSALGVKKRDILDPITRDTTKMKFYMDKYGLDLPYSTYVKDELRSLDKIKKGKS Enterovirus A 74 4 0.054054054
89026 TASIQGPRVADVIESSIGDSVSRALTQALPAPTGQNTQVSSHRLDTGEVTALQAA Enterovirus A 74 4 0.054054054
77519 NTEHMPSMFVPVGDVVQYGFLNLSGKPTHRTMMYNFPTKAGQCGGVVTSVGKIIG Enterovirus A 74 4 0.054054054
77510 IQLRDRKSKVRYSIDTVVSELIREYNNRSAIGNTIEALFQGPLKFKPIRISLEEK Enterovirus A 74 4 0.054054054
89007 YPYSALGIKKRDILDPVTRDTSRMKLYMDKYGLDLPNSTYVKDELSSLDKIRKGES Enterovirus A 74 4 0.054054054
77480 TANIQGDPIADMIDQTVNNQVNRSLTALQVLPTAADTEASSHRLGTGVVPALQAA Enterovirus A 74 4 0.054054054
77495 GVVGIVSTGGNGLVGFADVRDLLWLDEEAMEQGVSDYIKGLGDAFGVGFTDAVSR Enterovirus A 74 3 0.040540541
89054 IQLRDRKSKVRYSVDTVVSELIREYNSRSAIGNTIEALFQGPPKFRPIRISLEEK Enterovirus A 74 3 0.040540541
88994 IQLRDRKSKVRYSVPTVVSELIREYNNRSAIGNTIEALFQGPPKFRPIRISLEEK Enterovirus A 74 3 0.040540541
89068 DKYGLDLPYSTYVKDELRSLDKIKKGKSRLIEASSLNPSVYLRMTFGHLYEVFHA Enterovirus A 74 3 0.040540541
88982 GVVGIVSTGGSGLVGFADYRDLLWLDEEAMEQGVSDYIKGLGRAFGTGFTDAVSR Enterovirus A 74 3 0.040540541
89076 GKDEYEKFVSTIRSVPVGKALAIPNFENLRRNWLEL Enterovirus A 74 3 0.040540541
89053 DAGRAAKLCSENNTANFKRCSPLVCGKAIQLRDRKSKVRYSVDTVVSELIREYNS Enterovirus A 74 3 0.040540541
58525 IQLRDRKSKVRYSVDTVVSELIREYNNRYAIGNTIEALFQGPPKFRPIRISLEEK Enterovirus A 74 2 0.027027027
89066 INTKKMSMEEACYGTDNLEAIDLHTSAGYPYSALGIKKRDILDPATRDVSKMKSYM Enterovirus A 74 2 0.027027027
89018 DDDATAVDKPTRPDVSVNRFYTLDTKLWEKSSKGWYWKFPDVLTETGVFGQNAQF Enterovirus A 74 2 0.027027027
89000 LDTNEKFRDITKCIPEVITGASDATLVINTEHIPSMFVPVGDVVQYGFLNLSGKPT Enterovirus A 74 2 0.027027027
58527 APDAISDLLASVDSEEVRQYCRDQGWIIPETPTNVERHLNRAVLIMQSIATVVAVV Enterovirus A 74 2 0.027027027
77479 TTAYIVALAAAQDNFTMKLCKDTEDIEQTANIQGDPIADMIDQTVNNQVNRSLTA Enterovirus A 74 2 0.027027027
89027 LPAPTGQNTQVSSHRLDTGEVPALQAAEIGASSNTSDESMIETRCVLNSHSTAET Enterovirus A 74 2 0.027027027
88993 DAGRAAKLCTENNTANFKRCSPLVCGKAIQLRDRKSKVRYSVDTVVSELIREYNN Enterovirus A 74 2 0.027027027
58552 GKQEYEKFVSTIRSVPVGKALAIPNYENLRRNWLEL Enterovirus A 74 2 0.027027027
71771 TETDTESEEDEDEDDEADRFDLHSSYGSKPEDDDESNRVTLLSTLINQGMTVERA Mamastrovirus 1 69 28 0.405797101
76018 SDFESTEDENDEVDRFDLHPSSESDDDDVENDRATLLSTLLNQGISVERATRITN Mamastrovirus 1 69 24 0.347826087
56685 DSDFESTEDETDEVDRFDLHLSSESDDDDVENNRVTLLSTLINQGMSVERATRIT Mamastrovirus 1 69 22 0.31884058
17535 EDIETDTDIESTEDEDEADRFDIIDTSDEEDENETDRVTLLSTLVNQGMTMTRATR Mamastrovirus 1 69 19 0.275362319
68589 FDLHSPYSSEPEDSDENNRVTLLSTLINQGMTVERATRITKRAPPTCAEKLKRSVY Mamastrovirus 1 69 14 0.202898551
3341 DFADQLREDIETDTDIESTEDEDDEADRFDIIDTSDEEDENETDRVTLLSTLVNQ Mamastrovirus 1 69 14 0.202898551
56686 DVENNRVTLLSTLINQGMSVERATRITSNAFPTRAARLRRSVYNDLLVSGLGPDA Mamastrovirus 1 69 13 0.188405797
53735 SPSSISWSGLGGRKHMDVTVGRNAVFKLRPSD Mamastrovirus 1 69 12 0.173913043
2464 DDDDVENDRATLLSTLLNQGISVERATRITNGATPARAARMRRSVYNDLLVSGLS Mamastrovirus 1 69 11 0.15942029
17734 DEADRFDLCYTSDSEDDIENNRVTLLSTLINQGMTVDRATMITNRAFPTPNHRSR Mamastrovirus 1 69 11 0.15942029
17517 TSTSWSGLGARKHLDVTVGKNATFKLKPSDLGGPRDGWWLTNTNDNASDTLGPSI Mamastrovirus 1 69 11 0.15942029
11336 TPSSTSWSGLGARKHLDVTVGKNAVFKLKPADLGGPRDGWWLH Mamastrovirus 1 69 11 0.15942029
78510 SDSRVFLEETDYEPEEDEDEDDEADRFDLHSSYGSEPFDDDENNRVTLLSTLINQ Mamastrovirus 1 69 11 0.15942029
68588 DEDDCENVSEETETEDEEDEDEDDEADRFDLHSPYSSEPEDSDENNRVTLLSTLI Mamastrovirus 1 69 10 0.144927536
56282 NVRLTSMVGASAVDGTVVRISLNPTSTPSSTSWSGLGARKHLDVTVGKNAVFKLK Mamastrovirus 1 69 10 0.144927536
78511 LHSSYGSEPEDDDENNRVTLLSTLINQGMTVERATRITKRAFPTSADKTKRSVYMD Mamastrovirus 1 69 10 0.144927536
59475 NVRLTSMVGASAVNGTVVKVSLNPTSTPSSTSWSGLGARKHLDVTVGKNAIFKLK Mamastrovirus 1 69 10 0.144927536
17516 NVKLTSMVGASAVNGTVSGVSLNPTTTPTSTSWSGLGARKHLDVTVGKNATFKLK Mamastrovirus 1 69 9 0.130434783
52680 DLHSPYGSEPEDSDENNRVTLLSTLINQGMTVERATRITKRAFPTCADKMKRSVYM Mamastrovirus 1 69 9 0.130434783
59476 SSTSWSGLGARKHLDYTVGKNAIFKLKPSDLGGPRDGWWLTNTNDNASDTLGPSV Mamastrovirus 1 69 9 0.130434783
7114 NVKLTSMVGASAVNGTVLRVSLNPTSTPSSTSWSGLGARKHLDVTVGKNATF Mamastrovirus 1 69 9 0.130434783
3342 FDIIDTSDEEDENETDRVTLLSTLVNQGMTMTRATRIARRAFPTLTDKIKRGVYMD Mamastrovirus 1 69 9 0.130434783
68570 SSTSWSGLGARKHMDVTVGRNAVFKLRPSDLGGPRDGWWLTNTNDNASDTLGPSI Mamastrovirus 1 69 8 0.115942029
52633 NVRLTSMVGASAVNGTVVRISLNPTSTPSSTSWSGLGARKHLDVTVGKNALFKLK Mamastrovirus 1 69 8 0.115942029
71754 SPYGSEPEDSDENNRVTLLSTLINQGMTVERATRITKRAFPTCAEKTKRSIYMDLI Mamastrovirus 1 69 8 0.115942029
2463 EETDSDFESTEDENDEVDRFDLHPSSESDDDDVENDRATLLSTLLNQGISVERAT Mamastrovirus 1 69 8 0.115942029
59494 EEETEYETESDEDETDEVDRFDLCCTSDSEDDIENNRVTLLSTLINQGVTVDRATM Mamastrovirus 1 69 8 0.115942029
71768 LHLSSESDDDDVENNRVTLLSTLINQGMSVERATRITSNAFPTRAARLRRSVYND Mamastrovirus 1 69 8 0.115942029
52660 NVKLTSMVGASAVNGTVLRISLNPTSTPSSTSWSGLGARKHMDVTVGRNALFKLR Mamastrovirus 1 69 8 0.115942029
70298 TLINQGMAVERATRITNNAFPTRATRLRRSVYNDLLVSGPGPDAAWSHACEQARK Mamastrovirus 1 69 8 0.115942029
76000 SSTSWSGLGARKHLDVTVGKNAVFKLKPSDLGGPRDGWWLTNTNDNASDTLGPSI Mamastrovirus 1 69 8 0.115942029
71753 TEYVSEETETEDEEDEDEDDEADRFDLHSPYGSEPEDSDENNRVTLLSTLINQGMT Mamastrovirus 1 69 7 0.101449275
72004 STSWSGLGARKHLDVTVGKNAVFKLKPADLGGPRDGWWLT Mamastrovirus 1 69 7 0.101449275
68569 NVKLTSMVGASAVNGTVLRISLNPTSTPSSTSWSGLGARKHMDVTVGRNAVFKLR Mamastrovirus 1 69 7 0.101449275
56667 STSWSGLGARKHLDVTVGKNAVFKLKPADLGGPRDGWWLTNTNDNASDTLGPSIE Mamastrovirus 1 69 7 0.101449275
72010 NVRLTSMVGASAVNGTVVRISLNPTSTPSSTSWSGSGARKHLDVTVGKNAAFKLK Mamastrovirus 1 69 7 0.101449275
56666 VKLTSMVGSSAVNGTVVRVSLNPTSTPSSTSWSGLGARKHLDVTVGKNAVFKLKP Mamastrovirus 1 69 7 0.101449275
6940 AVNGTVLRVSLNPTSTPSSTSWSGLGARKHLDVTVGKNATFKLKPSDLGGPRDGWW Mamastrovirus 1 69 7 0.101449275
78492 TPSSTSWSGSGARKHLDVTVGKNAVFKLKPADLGGPRDGWWLTNTNDNASDTLGP Mamastrovirus 1 69 7 0.101449275
72471 PSSTSWSGLGARKHLDVTVGKNAVFRLKPADLGGPRDGWWLTNTNDNASDTLGPS Mamastrovirus 1 69 7 0.101449275
52605 NVRLTSMVGASAVNGTVVRVSLNPTSTPSSTSWSGLGARKHLDVTVGKNAIFKLK Mamastrovirus 1 69 6 0.086956522
59495 SEDDIENNRVTLLSTLINQGVTVDRATMITNRAFPTPNYKPRREPSNDLLAPSDC Mamastrovirus 1 69 6 0.086956522
3323 SSTSWSGLGARKHLDVTVGKNATFKLKPSAIGGDQLLLQGGHHPDLGLSFYTNLF Mamastrovirus 1 69 6 0.086956522
3322 NVKLTSMVGASAVNGTVLRVSLNPTSTPSSTSWSGLGARKHLDVTVGKNATFKLK Mamastrovirus 1 69 6 0.086956522
56283 SSTSWSGSGARKHLDVTVGKNAVFKLKPSDLGGPRDGWWLTNTNDNASDTLGPSI Mamastrovirus 1 69 6 0.086956522
53738 YLKVKRTSMVGAHAVNGTVLRVSLNPTSTPSSTSWPGLGARNHLDVTGGKNATFK Mamastrovirus 1 69 6 0.086956522
52661 SSTSWSGLGARKHMDVTVGRNALFKLRPSDFGGPRDGWWLTNTNDNASDPLGPSI Mamastrovirus 1 69 6 0.086956522
53739 TPSSTSWPGLGARNHLDVTGGKNATFKLKPSD Mamastrovirus 1 69 6 0.086956522
72490 SYGSEPEDDDENNRVTLLSTLINQGMTVERATMITKRAFPTCADKQKRSVHMDLLA Mamastrovirus 1 69 6 0.086956522
75999 NVRLTSMVGASAVNGTVVRISLNPTSTPSSTSWSGLGARKHLDVTVGKNAVFKLK Mamastrovirus 1 69 6 0.086956522
72003 VKLTSMVGSSAVNGTVVRVSLNPTSTPSSTSWSGLGARKHLDVTVGKNAVFKLKP Mamastrovirus 1 69 6 0.086956522
72489 WELPTETDTSEEDEEDDEDRFDLHSSYGSEPEDDDENNRVTLLSTLINQGMTV Mamastrovirus 1 69 6 0.086956522
72011 SSTSWSGLGARKHLDVTVGKNAAFKLKPSDLGGPRDGWWLT Mamastrovirus 1 69 5 0.072463768
71772 EPEDDDESNRVTLLSTLINQGMTVERATMITKRAFPTCADKQKRSVHMDLLASGLS Mamastrovirus 1 69 5 0.072463768
72494 LLSTLLNQGISVERATRITNGAFPTRAARMRRSVYNDLLVSGLSPGAAWSHACEQ Mamastrovirus 1 69 5 0.072463768
71767 GQALFSAEETDSDFESTEDETDEVDRFDLHLSSESDDDDVENNRVTLLSTLINQGM Mamastrovirus 1 69 5 0.072463768
71769 SVERATRITSNAFPTRAARLRRSVYNDLLVSGHGPDTAWSHVCEQARKVGDNHDL Mamastrovirus 1 69 4 0.057971014
56687 NAFPTRAARLRRSVYNDLLVSGLGPDAAWSHACEQARKVGDNHDLQASGSRGHA Mamastrovirus 1 69 4 0.057971014
52606 SSTSWSGLGARKHLDVTVGKNALFKLKPPDLGGPRDGWWLTNTIDNASDTLGPSI Mamastrovirus 1 69 4 0.057971014
52634 SSTSWSGLGARKHLDVTVGKNALFKLKPPDLGGPRDGWWLTNTIDNASDTLGPSI Mamastrovirus 1 69 4 0.057971014
71764 EDEDDEADRFDIIDTSDEEDENETDRVTLLSTLINQGMTMTRATKIARRAFPTLSD Mamastrovirus 1 69 4 0.057971014
3340 YEMLTSIPRSRAAGYGYDSDNTEYLDAPDFADQLREDIETDTDIESTEDEDDEAD Mamastrovirus 1 69 3 0.043478261
11335 YLNVKLTSMVGASAVNGTVVRVSLNPTSTPSSTSWSGLGARKHLDVTVGKNAVFK Mamastrovirus 1 69 3 0.043478261
76019 VENDRATLLSTLLNQGISVERATRITNGAFPTRAARVRRSVYNDLLVSGLSPGAA Mamastrovirus 1 69 3 0.043478261
17534 PRSRASGHGYESDNTEYLDAPDSADQFKEDIETDTDIESTEDEDEADRFDIIDTSD Mamastrovirus 1 69 3 0.043478261
76017 PQARSEEPETYVDAPLPEEPPIEEEETDSDFESTEDENDEVDRFDLHPSSESDDDD Mamastrovirus 1 69 3 0.043478261
75996 SNQRVRKIVNKQLRKQGVTGPKPAICQTATATLGTIGSNTTGATEIEACILLNPV Mamastrovirus 1 69 3 0.043478261
76011 TMQGFTPVESVSWYTADFQPSDEPSPIPGLYARVNNTKKADVYGVQQFKSSHTNN Mamastrovirus 1 69 3 0.043478261
52609 WCFTGYAANPNLVNLVTSSDKQVNVTFEGSAGTPLVMNVPAASHFARTVAQRSTL Mamastrovirus 1 69 3 0.043478261
17528 TMQGFTSIASVDWYTIDFQPSEAPAPIQGLQVLVNSSKKADVYAIKQFVTAQTNN Mamastrovirus 1 69 3 0.043478261
17536 EEDENETDRVTLLSTLVNQGMTMTRATRIARRAFPTLSPDRIKRGVYMDLLVSGAS Mamastrovirus 1 69 3 0.043478261
72470 LNVKLTSMVGSSAVNGTAVRISLNPTSTPSSTSWSGLGARKHLDVTVGKNAVFRL Mamastrovirus 1 69 3 0.043478261
56279 SNQRVRKIVNKQLRKQGVTGPKPAICQTATATLGTIGSNTTGATEIEACILLNPV Mamastrovirus 1 69 3 0.043478261
76063 PPALFKHIKEIRWNFINKDQREKYRHVHEWYVDNLLNRHVLLPSGEVTLQTRGNPS Mamastrovirus 1 69 3 0.043478261
52679 EDDDAYVSEGTETEDEEDEDEDDEADRFDLHSPYGSEPEPSDENNRVTLLSTLIN Mamastrovirus 1 69 3 0.043478261
2462 HTVLPQARSEEPETYVDALLPVEPSIEEEETDSPFESTEDENDEVDRFDLHPSSES Mamastrovirus 1 69 3 0.043478261
71763 DNIEYLDALDSADQFEENIETDIDTESTEDEDPEADRFDIIDTSDEEPENETDRVT Mamastrovirus 1 69 3 0.043478261
76064 EWYVDNLLNRHVLLPSGEVTLQTRGNPSGQFSTPMDNNMVNFWLQAFEFAYFNGP Mamastrovirus 1 69 3 0.043478261
52625 RFDLCCTSDSEDDISDENNRVTLLSTLINQGMTVDRATMITNRAFPTPNYKPRRE Mamastrovirus 1 69 3 0.043478261
52630 SNQRVRKIVNKQLRKPSFTGPKPCICETATATLGTIGSNTTGATEIEACILLNPV Mamastrovirus 1 69 3 0.043478261
56300 PQSRARSIGLEEPQTPNWQEPDEDLQTSTEESDYETDSLEDESDDEDSNTCRELV Mamastrovirus 1 69 3 0.043478261
71770 LVSGHGPDTAWSHVCEQARKVGDNHDLQVSGSRGHA Mamastrovirus 1 69 2 0.028985507
78501 ATLGRAIPSPGDTFNVVLTIGQPLAPNTLTKQSWLNKTTVSPQNHHVVKIAKDVN Mamastrovirus 1 69 2 0.028985507
71758 QEPDEDLTSTEESDYETDSLEDESDDEDTNTCRELVINTLVNQGISRERAMYIGM Mamastrovirus 1 69 2 0.028985507
8384 RKKPTPAPRIFKPKLAPAPVTEVQPLDLSCKQQVQSEPEQQPEPIKTQKNEPQPYS Mamastrovirus 1 69 2 0.028985507
76047 YYDEDDDGWGMVGDDVEFDYTEVINFDQAKPTPAPRTTKPKPCPEPKIEAQPLDLS Mamastrovirus 1 69 2 0.028985507
56683 DDQGMKHLMTTPPVSSQLYFEMLTSLPQAMAEHFDQGDQAVVAHDSPGQALFSAEE Mamastrovirus 1 69 2 0.028985507
59432 IVKLRTIIETAIKTQNYSALPEAVFELDKAAYEAGLEGFLQRVKSKNKAPEKQGP Mamastrovirus 1 69 2 0.028985507
8383 YDDDDDGWGLVGDDVEFDYTEVINFDQHRKKPTPAPRIFKPKLAPAPVTEVQPLD Mamastrovirus 1 69 2 0.028985507
76042 KAPSQVELLKEEIERLKAQLNSAAENPVTVVTQQPIVTLEQKSVSDSDVVDLVRTA Mamastrovirus 1 69 2 0.028985507
76035 RDANGKVVATVPTRIKNVAFDFFQKLKQSGVRVGVNDFVVIKPGALCIIDTPEGK Mamastrovirus 1 69 2 0.028985507
52602 SNQRVRNIVNKQLELPGFTGPKPAIWQSATATLGTVGSNTRGTTEIEACILLNPV Mamastrovirus 1 69 2 0.028985507
59427 YDEDDDGWGMVGDDVEFDYTEVINFDQAKPIPAPRTTKQKICPEPEVESQPLDLS Mamastrovirus 1 69 2 0.028985507
58836 IEQKQLLQGDVEEAVNRAVARVADTLPTGPRNSESIPALTAAETGHTSQVVPGDTM Entervirus B 68 61 0.897058824
41245 FIETQALLQGDVVEAVENAVARVADTIGSGPSNSAVPALTAVETGHTSQVTPSD Entervirus B 68 61 0.897058824
58992 PFIQQEAKLQGEPGKAIESAISRVADTISSGPTNSEQVPALTAAETGHTSQVVPGD Entervirus B 68 60 0.882352941
58754 VTQTAFYQNDVQNAVERSIVRVADTLPSGPSNSESIPALTAAETGHTSQVVPSDT Entervirus B 68 59 0.867647059
49774 IKQDSFYQGPPGEAVERAIARVADTISSGPVNSESIPALTAAETGHTSQVVPADTM Entervirus B 68 57 0.838235294
85684 PFISQQNFFQGPVEDAITAAIGRVADTVGTGPTNSEAIPALTAAETGHTSQVVPSD Entervirus B 68 56 0.823529412
79240 PFVEQEADLQGDSEHAVESAVSRVADTIMSGPSNSQQVPALTAVETGHTSQVVPSI Entervirus B 68 56 0.823529412
85739 IKQDTFYQGPTEESVERAMGRVADTIARGPSNSEQIPALTAVETGHTSQVDPSDTM Entervirus B 68 56 0.823529412
395 FSVRMLKDTPRIEQSNELQGDVKEAVENAMGRVADTIRSGPTNSEAIPALTAVET Entervirus B 68 54 0.794117647
58993 SSGPTNSEQVPALTAAETGHTSQVVPGDTIQTRHVKNYHSRSESTIENFLCRSACV Entervirus B 68 50 0.735294118
79162 TRFIKQTAFYQSPVEESIERSIGRVADTIGSGPSNSEAIPVLTAVETGHTSQVTPS Entervirus B 68 49 0.720588235
85870 ISQTAFYQSPVEGAIERAIARVADTMPSGPTNSEAVPALTAVETGHTSQVVPSDNM Entervirus B 68 47 0.691176471
63910 NSQQVPALTAVETGHTSQVVPSDTIQTRHVHNYHSRTESTLENFLGRSACVHIDSY Entervirus B 68 45 0.661764706
63940 RHSVGTTLEALFQGPPVYREIKISVAPETPPPPAIADLLKSVDSEAVREYCKEKGW Entervirus B 68 45 0.661764706
85617 SSKPTNSESIPALTAAETGHTSQVVPSDTMQTRHVKNYHSRSESSIENFLCRSAC Entervirus B 68 45 0.661764706
87017 FIEQTTELQSDVREAVEGAIGRVADTIRSGPSNSEAVPALTAAETGHTSQVVPSD Entervirus B 68 44 0.647058824
41246 SGPSNSQAVPALTAVETGHTSQVVTPSDTMQTRHVKNYHSRSESSIENFLSRSACV Entervirus B 68 42 0.617647059
58915 SGPSNSEAVPALTAAETHTSQVVPSDTMQTRHVKNYHSRSESTIENFLCRSACV Entervirus B 68 42 0.617647059
396 AMGRVADTIRSGPTNSEAIPALTAVETGHTSQVVPSDTMQTRHVKNYHSRTESSI Entervirus B 68 40 0.588235294
21752 PFISQQNFFQGPVEDAITAAIGRVADTVGTGPTNSEAIPALTAAETGHTSQVVPGD Entervirus B 68 40 0.588235294
78696 ITQQALYQNDPEGALNKAVGRVADTIASGPVNTEQIPALTAVETGHTSQVVPSDTM Entervirus B 68 39 0.573529412
85806 IKQTNFYQGPTEESVERAMGRVADTIARGPSNSEQIPALTAVETGHTSQVDPSDTM Entervirus B 68 38 0.558823529
85616 PFIRQDNFYQGPVEESVERAMVRVADTVSSKPTNSESIPALTAAETGHTSQVVPSD Entervirus B 68 37 0.544117647
37254 ISQDNKLQGDVEEAIERARCTVADTMRTGPSNASVPALTAVETGHTSQVTPSDTM Entervirus B 68 37 0.544117647
58837 GPRNSESIPALTAAETGHTSQVVPGDTMQTRHVKNYHSRTSSVENFLCRAACVY Entervirus B 68 33 0.485294118
37255 GPSNSASVPALTAVETGHTSQVTPSDTMQTRHVKNYHSRSSTVENFLGRSACVYM Entervirus B 68 32 0.470588235
79241 MSGPSNSQQVPALTAVETGHTSQVVPSDTIQTRHVQNFHSTSESTIENFLSRSACV Entervirus B 68 32 0.470588235
21753 GTGPTNSEAIPALTAAETGHTSQVVPGDTMQTRHVKNYHSRSESTIENFLCRSACV Entervirus B 68 31 0.455882353
79193 LFQGPPIYREIKISVAPETPPPPAIADLLKSVDSEVVREYCKEKGWLVPEVNSTL Entervirus B 68 30 0.441176471
85770 PPIYREIRISVAPETPPPPAIADLLRSVDSEAVREYCKEKGWLVPEISSTLQIEK Entervirus B 68 30 0.441176471
79163 IGSGPSNSEAIPVLTAVETGHTSQVTPSDTMQTRHVHNYHSRSESSVENFLARSA Entervirus B 68 29 0.426470588
58755 GPSNSESIPALTAAETGHTSQVVPSDTIQTRHVRNFHVRSESSVENFLSRSACVY Entervirus B 68 29 0.426470588
78697 GPVNTEQIPALTAVETGHTSQVVPSDTMQTRHVVNFHTRSESSLENFMGRAACAY Entervirus B 68 28 0.411764706
87043 GTTLEALFQGPPIYREIKISVAPETPPPPAIADLLKSVDSEAVREYCKEKGWL Entervirus B 68 28 0.411764706
41276 SVGATLEALFQGPPIYREIKISVAPETPPPPAIADLLKSVDSEAVREYCKEKGWL Entervirus B 68 27 0.397058824
58914 FIEQAAELQNDVRQAVEGAIGRVADTIRSGPSNSEAVPALTAAETGHTSQVVPSD Entervirus B 68 26 0.382352941
63909 FISQEGKLQGDEVKHEPTVANTTASGPSNSQQPALTAVETGHTSQVVPSDTIQTR Entervirus B 68 26 0.382352941
49755 NINYYKDAASNSANRQEFAQDPGKFTEPVKDIMIKSMPALNSPSAEECGYSDRVR Entervirus B 68 24 0.352941176
19771 TSATNSERVPNLTAVETGHTSQAVPGDTMQTRHVINNHVRSESTIENFLARSACV Entervirus B 68 23 0.338235294
85871 GPTNSEAVPALTAVETGHTSQVVPSDNMQTRHVKNYHSRSETSVENFLCRSACVY Entervirus B 68 23 0.338235294
49775 GPVNSESIPALTAAETGHTSQVVPADTMQTRHVKNYHSRSESTVENFLCRSACVY Entervirus B 68 23 0.338235294
49773 DTQSDCKILCFVSACNDFSVRMLKDDTPFIKQDSFYQGPPGEAVERAIARVADTIS Entervirus B 68 21 0.308823529
85740 GPSNSEQIPALTAVETGHTSQVDPSDTMQTRHVHNYHSRSESSIENFLCRSACVIY Entervirus B 68 20 0.294117647
37285 EYNHRHSVGATLEALFQGPPIYREIKISVAPETPPPPVIADLLKSVDSEDVREYCK Entervirus B 68 19 0.27941765
58895 NINYYKDSASNSANRQDFTQDPSKFTEPVKDVMIKTLPALNSPSAEECGFSDRVR Entervirus B 68 18 0.264705882
19770 FIEQTSFYQGDVQNAVEGAMVRVADTVQTSTNSERVPNLTAVETGHTSQAVPGDT Entervirus B 68 18 0.264705882
85647 PIYREIKISIAPETPPPPAIADLLKSVDSEAVREYCKEKGWLVPEINSTLQIEKHV Entervirus B 68 17 0.25
87030 GIVTMGGEGVVGFADVRDLLWLEDDAMEQGVKDYVEQLGNAFGSGFTNQICEQVN Entervirus B 68 17 0.25
85705 QGPPVYREIKISVAPETPPPPRIADLLKSVDSEAVREYCKEKGWLVPEVNSTLQI Entervirus B 68 16 0.235294118
85685 GTGPTNSEAIPALTAAETGHTSQVVPSDTMQTRHVKNYHSRSESTIENFLCRSACV Entervirus B 68 16 0.235294118
54646 DMLVTEMFREYNHRHSVGATLEALFQGPPIYREIKISIAPETPPPPAIADLLKSVD Entervirus B 68 16 0.235294118
63924 HGVIGIVTMGGEGIVGFADVRDLLWLEDDAMEQGVKDYVEQLGNAFGTGFTNQIC Entervirus B 68 16 0.235294118
58973 NINYYKDAASNSANRQDFSQDPSKFTEPVKDIMIKSMPALNSPSAEECGYSDRVR Entervirus B 68 16 0.235294118
85817 VGFADVRDLLWLEDDAMEQGVKDYVEQLGNAFGSGFTNQICEQVNLLKESLVGQD Entervirus B 68 15 0.220588235
85781 VINTPNKTKLEPSVFHHIFEGNKEPAVLRNGDTRLKVNFEEAIFSKYIGNVNTHV Entervirus B 68 14 0.205882353
78711 IGLVTMGGEGWGFADVRDLLWLEDDAMEQGVKDYVEQLGNAFGSGFTNQICEQVN Entervirus B 68 14 0.205882353
49816 LPVINTPSKTKLEPSVFHQVFEGNKEPAVLRNGDPRLKAKFEEAIFSKYIGNVNT Entervirus B 68 14 0.205882353
87001 NINYYKDSASNSANRQDFTQDPSKFTEPVKDVMIKSLPALNSPSAEECGFSDRVR Entervirus B 68 13 0.191176471
87052 IESSKEAGFPVINTPSKTKLEPSVFHQVFEGNKEPAVLRNGDPRLKANFEEALFS Entervirus B 68 13 0.191176471
58735 NINYYKDAASNSANRQDFTQDPGKFTEPVKDIMAKTLPALNSPSAEECGYSDRVR Entervirus B 68 13 0.191176471
21733 NINYYKDAASNSANRQDFTQDPGKFTEPVKDIMIKSLPALNSPTVEECGYSDRAR Entervirus B 68 13 0.191176471
85674 NINYYKDAASNSANRQDFTQDPSKFTEPVKDIMIKSLPALNSPTVEECGYSDRVR Entervirus B 68 12 0.176470588
79177 GEGVVGFADVRDLLWLEDDAMEQGVKDYVEQLGNAFSGSFTNQICEQVNLLKESLV Entervirus B 68 12 0.176470588
58769 VTMGGEGVVGFADVRDLLWLEDDAMEQGVKDYVEQLGNAFGSGFTNQICEQVNLLV Entervirus B 68 12 0.176470588
58957 KLEPSVFHQVFEGNKEPAVLRNGDPRLKADFEEAIFSKYIGNVNTHVDEYMQEVV Entervirus B 68 12 0.176470588
85631 GFADVRDLLWLEDDAMEQGVKDYVEQLGNAFGSGFTNQVCEQVNLLKESLVGQDS Entervirus B 68 12 0.176470588
79143 KINYYKDAASNSANRQDFTQDPGKFTEPFKDIMIKSMPALNSPSAEECGYSDRVRS Entervirus B 68 11 0.161764706
19751 NINYYKDAASNSANRQDFTQDPGKFTEPMKDVMIKTLPALNSPTVEECGYSDRVRS Entervirus B 68 11 0.161764706
58930 LLWLEDDAMEQGVKDYVEQLGNAFGSGFTNQICEQVNLLKESLIGQDSVLEKSLK Entervirus B 68 11 0.161764706
58835 GAPATCGVLCLASACNDFSVRMLRDTPFIEQKQLLQGDVEEAVNRAVARVADTLP Entervirus B 68 10 0.147058824
79271 HSVGATLEALFQGPPLYREIKISVAPETPPPPAIADLLKSVDSEAVREYCKEKGW Entervirus B 68 10 0.147058824
21783 QGPPVYREIKISVAPETPPPPAIADLLKSVDSEAVREYCKEKGWLVPEINSTLQI Entervirus B 68 9 0.132352941
19812 PVINTPSKTKLEPSVFHQVFEGNKEPAVLRNGDPRLKVNFEEAIFSKYIGNVNTHV Entervirus B 68 9 0.132352941
58867 GATLEALFQGPPVIREIKISVAPETPPPPAIADLLKSVDSEAVREYCKEKGWLVP Entervirus B 68 9 0.132352941
49789 GVVGFADVRDLLWLEDDAMEQGVKDYVEQLGNAFGSGFTNQICEQVNLLKESLVG Entervirus B 68 9 0.132352941
58585 VVGFADVRDLLWLEDDAMEQGVRDYVEQLGNAFGSGFTNQICEQVNLLKESLVGQ Entervirus B 68 9 0.132352941
49805 QGPPIYREIKISVAPDTPPPPAIADLLKSVDSEAVREYCREKGWLVPEINSTLQI Entervirus B 68 9 0.132352941
85658 INTPSKTKLEPSVFHQVFEGNKEPAVLRNGDPRLRANFEEAIFSKYIGNVNTHVD Entervirus B 68 9 0.132352941
19785 VVGFADVRDLLWLEDDAMEQGVKDYVEQLGNAFGSGFTNQICEEQVNLLKESLVGQ Entervirus B 68 9 0.132352941
58817 NINYYKDAASNSANRQDFTQDPGKFTEPVKDIMIKSMPALNSPTAEECGYSDRVRS Entervirus B 68 9 0.132352941
37270 WLEDDAMEQGVKDYVEQLGNAFGSGFTNQICEQVNLLKESLVGQDSILEKSLKAL Entervirus B 68 9 0.132352941
58851 GLVTMGGEGVVGFADVRDLLWLEDDAMEQGVKDYVEQLGNAFGSGFTNQICEQVN Entervirus B 68 8 0.117647059
41226 NINYYKDAASNSANRQEFSQDPGKFTEPVKDIMVKSLPALNSPSAEECGYSDRVR Entervirus B 68 8 0.117647059
87053 FEGNKEPAVLRNGDPRLKANFEEALFSKYIGNVNTHVDEYMLEAVDHYAGQLATL Entervirus B 68 8 0.117647059
58945 FREYNHRHSVGATLEALFQGPPVYREIKISVAPETPPPPAIADLLKSVDSEAVREY Entervirus B 68 8 0.117647059
79203 HQGFSAALLKHYFNDEQGEIEFIESSKDAGFPVINAPSRTKLEPSVFHQVFEGNK Entervirus B 68 8 0.117647059
58785 TLEALFQGPPVYREIKISVAPEIPPPPAIADLLKSVDSEAVRDYCKEKGWLVPEV Entervirus B 68 8 0.117647059
21767 GVVGFADIRDLLWLEDDAMEQGVKDYVEQLGNAFGSGFTNQICEQVNLLKESLVG Entervirus B 68 8 0.117647059
85754 VGFADVRDLLWLEDDAMEQGVKDYVEELGNSFGSGFTNQICEQVNLLKESLVGQD Entervirus B 68 8 0.117647059
85710 FPIINTPSKTKLEPSVFHQVFEGDKEPAVLRNGDPRLKVNFEEAIFSKYIGNVNT Entervirus B 68 8 0.117647059
63908 PETPTHCDILGFISACNDFSVRMLKDTPFISQEGKLQGDEVKHEPTVANTTASGPS Entervirus B 68 7 0.102941176
79221 NINYYKDAASNSANRQDFSQDPGKFTEPVKDLMIKSMPALNSPSAEECGFSDRVR Entervirus B 68 7 0.102941176
58796 SSKDAGYPVINTPSRTKLEPSVFHQVFEGSKEPAVLRNGDPRLKANFEEAIFSKY Entervirus B 68 7 0.102941176
78712 EQGVKDYVEQLGNAFGSGFTNQICEQVNLLKESLIGQDSILEKSLKALVKIISAL Entervirus B 68 7 0.102941176
85905 PIINTPSKTKLEPSVFHQVFEGNKEPAVLRNGDPRLKANFEEAIFSKYIGNVNTHV Entervirus B 68 7 0.102941176
85826 PPVYREIKISVTPETPPPPVIADLLKSVDRQAIREYCKEKGWLVPEIDSILQIEKH Entervirus B 68 7 0.102941176
37235 NINYYKDAASNSANRQDFTQDPSKFTEPVKDVMIKSLPALNSPTVEECGYSDRVRS Entervirus B 68 7 0.102941176
19813 LRNGDPRLKVNFEEAIFSKYIGNVNTHVDEYMQEAVDHYAGQLATLDISTEPMKL Entervirus B 68 7 0.102941176
78743 MDKYGLNLPMVTYVKDLRSAEKVAKGKSRLIEASSLNDSVAMRQTFGNLYKTFHM Entervirus B 68 6 0.088235294
79204 AGFPVINAPSRTKLEPSVFHQVFEGNKEPAVLRNGDPRLKANFEEAIFSKYIGNV Entervirus B 68 6 0.088235294
63952 FHQVFEGNKEPAVLRNGDPRLKANFEEAIFSKYIGNVNTHVDEYMLEAVDHYAGQ Entervirus B 68 6 0.088235294
79256 AMEQGVKDYVEQLGNAFGSGFTNQICEQVNLLKESLVGQDSILEKSLKALVKIIS Entervirus B 68 6 0.088235294
79239 PPDTPTDCIVLCFVSACNDFSVRMLKDTPFVEQEADLQGDSEHAVESAVSRVADT Entervirus B 68 6 0.088235294
58991 PPDTPSQCYMLCLASACNDFSVRMLKDTPFIQQEAKLQGEPGKAIESAISRVADT Entervirus B 68 6 0.088235294
21794 FPVINTPSKTKLEPSVFHQVFEGNKEPAVLRSGDPRLKANFEEAIFSKYIGNVNT Entervirus B 68 6 0.088235294
79222 VKDLMIKSMPALKSPSAEECGFSDRVRSLTLGNSTITTQESANVVVGYGRWPDYLA Entervirus B 68 5 0.073529412
21795 VLRSGDPRLKANFEEAIFSKYIGNVNTHVDEYMLEAVDHYAGQLATLDISTEPMK Entervirus B 68 5 0.073529412
49820 KKRDILSKKTKDLTKLKECMDKYGLNLPMVTYVKDELRSAEKVAKGKSRLIEASS Entervirus B 68 5 0.073529412
49817 VLRNGDPRLKANFEEAIFSKYIGNVNTHVDEYMLEAVDHYAGQLATLDISTEPMK Entervirus B 68 5 0.073529412
85711 VLRNGDPRLKVNFEEAIFSKYIGNVNTHVDEYMMEAVDHYAGQLATLDISTEPMK Entervirus B 68 5 0.073529412
85615 PADVQSTCDILCFVSACNDFSVRMLKDTPFIRQDNFYQGPVEESVERAMVRVADTV Entervirus B 68 5 0.073529412
79283 HQVFEGNKEPAVLRSGDPRLKANFEEAIFSKYLGNVNTHVDEYMMEAVDHYAGQLA Entervirus B 68 5 0.073529412
87031 QGVKDYVEQLGNAFGSGFTNQICEQVNLLKESLVGQDSILEKSLKALVKIISALV Entervirus B 68 5 0.073529412
85909 KRDILSKKSKDLTKLKECMDKYGLNLPMVTYVKDELRSAEKVAKGKSRLIEASSL Entervirus B 68 4 0.058823529
85657 AALLKHYFNDEQGEIEFIESSKEAGFPVINTPSKTKLEPSVFHQVFEGNKEPAVL Entervirus B 68 4 0.058823529
58878 IESSKDAGFPVINTPSKTKLEPSVFHQVFEGNKEPAVLRNGDPRLKVNFEEAIFS Entervirus B 68 4 0.058823529
37286 VAPETPPPPVIADLLKSVDSEDVREYCKEKGWLIPEVNSTLQIEKYVSRAFICLQA Entervirus B 68 4 0.058823529
58879 FEGNKEPAVLRNGDPRLKVNFEEAIFSKYIGNINTHVDEYMLEAVDHYAGQLATL Entervirus B 68 4 0.058823529
37297 EPSVFHQVFEGVKEPAVLRNGDPRLKANFEEAIFSKYIGNVNTHVDEYMLEAVDH Entervirus B 68 4 0.058823529
21773 RLKQLPLESQIATIEQSAPSQSDQEQLFSNVQYFAHYCRKYAPLYAAEAKRVFS Entervirus B 68 4 0.058823529
95 NINYYKDAASNSANRQDFTQDPSKFTEPVKDVMIKTLPALNSPSAEECGYSDRVRS Entervirus B 68 4 0.058823529
79144 VKDIMIKSMPALNSPSAEECGYSDRVRSITLGNSTITTQECANVVVGYGTWPRYLS Entervirus B 68 4 0.058823529
85714 KKRDILSKKTRDLTKLKECMDKYGLNLPMVTYVKDELRSAEKVAKGKSRLIEASS Entervirus B 68 4 0.058823529
85906 LRNGDPRLKANFEEAIFSKYIGNVNTHVDEYMLEAVDHYAGQLATLDINTEPMKL Entervirus B 68 4 0.058823529
41261 MEQGVKDYVEQLGNAFGSGFTNQICEQVNLLKESLVGQDSILEKSLKALVKIISA Entervirus B 68 4 0.058823529
63956 KECMDKYGLNLPMVTYVKDELRPAEDVAKGKSRLIEASSLNDSVAMRQTFGNLYK Entervirus B 68 4 0.058823529
79209 LPMVTYVKDELRSAEKVAKGKSRLIEASSLNDSVAMRQTFGNLYKAFHLNPGIVT Entervirus B 68 3 0.044117647
78739 VFEGNKEPAVLRNGDPRLKANFEEAIFSKYIGNVNTHVDEYMMEAVDHYAGQLAT Entervirus B 68 3 0.044117647
19811 FSAALLRHYFNEEQGEIEFIESSKDAGFPVINTPSKTKLEPSVFHQVFEGNKEPA Entervirus B 68 3 0.044117647
79207 KLEDAVYGTEGEEALDLTTSAGYPYVALGIKKRDILSKKTKDLTKLKECMDKYGL Entervirus B 68 3 0.044117647
85597 MGAQVSTQKTGAHETGLNASGNSIIHYTNINYYKDAASNSANRQDFTQDPGKFTE Entervirus B 68 3 0.044117647
85786 TYVKDELRSAEKVAKGKSRLIEASSLNDSVAMRQTFGNLYKTFHLNPGIVTGSAV Entervirus B 68 3 0.044117647
85785 RDILSKKTKDLTKLKECMDKYGLNLPMVTYVKDELRSAEKVAKGKSRLIEASSLN Entervirus B 68 3 0.044117647
85663 YVKDELRSAEKVAKGKSRLIEASSLNDSVAMRQTFGNLYKTFHLNPGIVTGSAVG Entervirus B 68 3 0.044117647
63951 EIEFIESSKDAGFPIINTPSKTKLEPSVFHQVFEGNKEPAVLRNGDPRLKANFEEA Entervirus B 68 3 0.044117647
63925 DAMEQGVKDYVEQLGNAFGTGFTNQICEQVNLLKESLVGQDSILEKSLKALVKI Entervirus B 68 3 0.044117647
58797 GSKEPAVLRNGDPRLKANFEEAIFSKYIGNVNTHVDEYMLEAIDHYAGQLATLD Entervirus B 68 3 0.044117647
85648 SEAVREYCKEKGWLVPEINSTLQIEKHVSRAPICLQALTTFVSVAGIIYIIYKLFA Entervirus B 68 3 0.044117647
21798 KKRDILSKKTKDLTKLKECMDKYGLNLPMVTYVKDELRSIEKVAKGKSRLIEASS Entervirus B 68 3 0.044117647
78738 FIESSKEAGFPVINTPSKTKLEPSVFHHVFEGNKEPAVLRNGDPRLKANFEEAIFS Entervirus B 68 3 0.044117647
58959 HYAGQLATLDISTEPMKLEDAVYGTEGLEALDLTTSAGYPYVALGIKKRDLLSKR Entervirus B 68 3 0.044117647
58883 DKYGLNLPMVTYVKDELRSSEKVAKGKSRLIEASSLNDSVAMRQTFGNLYKTFHL Entervirus B 68 3 0.044117647
58961 KDLTKLKECMDKYGLNLPMVTYVKDELRSAEKSPRGKSRLIEASSLNDSVAMRQT Entervirus B 68 3 0.044117647
58868 PAIADLLKSVDSEAVREYCKEKGWLVPEVNSTLQIEKHVSRAFICLQALTTFVSV Entervirus B 68 3 0.044117647
37302 EKVAKGKSRLIEASSLNDSVAMRQTFGNLYKTFHLNPGIVTGSAVGCPPPLFWSK Entervirus B 68 3 0.044117647
58974 VKDIMIKSMPALNSPSAEECGYSDRVRSITLGNSTITTQESANVVVAYGRWPKYL Entervirus B 68 3 0.044117647
79287 ECMDKYGLNLPMVTYVKDELRSAEKVAKGKSRLIEASSLNDSVAMRQTFGNLYKT Entervirus B 68 3 0.044117647
19817 VTYVKDELRSAEKVAKGKSRLIEASSLNDSVAMRQTFGNLYKTFHLNPGIVTGSA Entervirus B 68 2 0.029411765
41292 CMDKYGLNLPMVTYVKDELRSADKVAKGKSRLIEASSLNDSVAMRQTFGNLYRTF Entervirus B 68 2 0.029411765
19816 KRDILSKKTKDLTKLKECMDKYGLNLPMVTYVKDELRSAEKVAKGKSRLIEASSL Entervirus B 68 2 0.029411765
85805 EAQKSCYIMCFVSACNDFSVRMLRDTQFIKQTNFYQGPTEESVERAMGRVADTIA Entervirus B 68 2 0.029411765
41291 AGYPYVALGIKKRDILSRRTRDLTKLKECMDKYGLNLPMVTYVKDELRSADKVAK Entervirus B 68 2 0.029411765
85897 VDSEAVREYCKEKGWLVPEINSTLQIEKHVSRAFICLQALTTFVSVAGIIYIIYK Entervirus B 68 2 0.029411765
85738 EAQKSCYIMCFVSACNDFSVRMLRDTQFIKQDTFYQGPTEESVERAMGRVADTIA Entervirus B 68 2 0.029411765
58956 FNEEQGEIEFIESSKDAGFPVINTPSKTKLEPSVFHQVFEGNKEPAVLRNGDPRL Entervirus B 68 2 0.029411765
79282 IEFIESSKDAGFPIINTPSKTKLEPSVFHQVFEGNKEPAVLRSGDPRLKANFEEA Entervirus B 68 2 0.029411765
78695 DIPTTSTILCFVSACNDFSVRLLRDTPFITQQALYQNDPEGALNKAVGRVADTIAS Entervirus B 68 2 0.029411765
58818 VKDIMIKSMPALNSPTAEECGYSDRVRSITLGNSTITTQECANVVVGYGTWPDYL Entervirus B 68 2 0.029411765
49815 GFSAALLKHYFNDEQGEIEFIESSKEAGLPVINTPSKTKLEPSVFHQVTEGNKEPA Entervirus B 68 2 0.029411765
19801 GPPVYREIKISVAPETPPPPAIADLLKSVDSEAVREYCKEKGWLVPEISSTLQIEK Entervirus B 68 2 0.029411765
79205 PAVLRNGDPRLKANFEEAIFSKYIGNVKTRVDEYMLEAVDHYAGQLATLDISTEPM Entervirus B 68 2 0.029411765
37267 CTTGVYFCASKNKHYPVSFEGPGLVEVQESEYYPKRYQSHVLLAAGFSEPGDCGG Entervirus B 68 2 0.029411765
78677 NINYYKDSASNSLKRQDFTQDPSRFTEPVQDVLIKTLPALNSPTVEECGYSDRVRS Entervirus B 68 2 0.029411765
41244 AGTPTSCSIMCFVSACNDFSVRLLKDTPFIEQTALLQGDVVEAVENAVARVADTI Entervirus B 68 2 0.029411765
58939 GRSLAEKLNSSVYSLPPDPDHFDGYKQQAVVIMDDLCQNPDGKDVSLFCQMVSSV Entervirus B 68 2 0.029411765
85662 DILSKKTRDLTKLKECMDKYGLNLPMVTYVKDELRSAEKVAKGKSRLIEASSLND Entervirus B 68 2 0.029411765
85659 NGDPRLRANFEEAIFSKYIGNVNTHVDEYMLEAVDHYAGQLATLDISTEPMRLEDA Entervirus B 68 2 0.029411765
19769 ASNQPKCYMMCMVSACNDFSVRMLRPTKFIEQTSFYQGDVQNAVEGAMVRVADTV Entervirus B 68 2 0.029411765
37301 LTKLKECMDKYGLNLPMITYVKDQLRSAEKVAKGKSRLIEASSLNDSVAMRQTFG Entervirus B 68 2 0.029411765
37298 FEEAIFSKYIGNVNTHVDEYMLEAVDHYAGQLATLDISTEPMKLEDAVYGTEGLEA Entervirus B 68 2 0.029411765
37296 DEQGEIEFIESSKDAGFPIINTPSKTKLEPSVFHQVFEGVKEPAVLRNGPPRLKA Entervirus B 68 2 0.029411765
63890 NINYYKDAASNSSNRQTLEQDPSKFTEPVLDVMVKSLPALNSPSAEECGYSDRVR Entervirus B 68 2 0.029411765
85837 VINTPSRTKLEPSVFHHVFEGNKEPAVLRNGDPRLKVNFEEAIFFKYIGNVNTHV Entervirus B 68 2 0.029411765
58958 ADFEEAIFSKYIGNVNTHVDEYMQEAVDHYAGQLATLDISTEPMKLEDAVYGTEG Entervirus B 68 2 0.029411765
85836 SAGLLKHYFNDEQGEIEFIESSKDAGFPVINTPSRTKLEPSVFHHVFEGNKEPAV Entervirus B 68 2 0.029411765
58972 MGAQVSTQKTGAHETLLEAAQGATINYTNINYYKDAASNSANRQDFSQDPSKFTE Entervirus B 68 2 0.029411765
85780 SASLLRHYFNDEQGEIEFIESSKEAGFPVINTPNKTKLEPSVFHHIFEGNKEPAV Entervirus B 68 2 0.029411765
78717 VKEKHEFLNRLKQLPLLESQIATIEQSAPSQSDQEQLFSNVQYFAHYCRKYAPLY Entervirus B 68 2 0.029411765
58881 ISTEPMKLEDAVYGTEGLEALDLTTSAGYPYVAIGIKKRDILSKKTKDLTKLKECM Entervirus B 68 2 0.029411765
41300 TWTNVTFLKRYTRADEQYPFLVHPVMPMKDIHESIRWTKDPKNTQDHVRSLCLLAW Entervirus B 68 2 0.029411765
79208 GIKKRDILSKKTKDLTKLKECMDKYGLNLPMVTYVKDELRSAEKVAKGKSRLIEA Entervirus B 68 2 0.029411765
87016 PETPSDCVVLCFVSACNDFSVRMLKDTPFIEQTTELQSDVREAVEGAIGRVADTI Entervirus B 68 2 0.029411765
49756 VKDIMIKSMPALNSPSAEECGYSDRVRSITLGNSTITTQECANVVVGYGTWPTYLK Entervirus B 68 2 0.029411765
85713 EDAVYGTEGLEALDLTTSAGYPYVALGIKKRDILSKKTRDLTKLKECMDKYGLNL Entervirus B 68 2 0.029411765
85598 VKDIMIKSMPALNSPSAEECGYSDRVRSITLGNSTITTQECANWVGYGVWPEYLK Entervirus B 68 2 0.029411765
78744 SRLIEASSLNDSVAMRQTFGNLYKTFHMNPGIVTGSAVGCDPDLFWSKIPVMLDG Entervirus B 68 2 0.029411765
94565 LSSMAITFKRALGARPKQPPPREILQRPPRPPTPELVKKIPPPPPNGEDELVVSYS Norwalk virus 56 49 0.875
94564 MKMASNDASAAAVANSNNDTAKSSSDGVLSSMAITFKRALGARPKQPPPREILQR Norwalk virus 56 42 0.75
47325 LSSMAVTFKRALGGRAKQPPPRETPQRPPRPPTPELVKKIPPPPPNGEDELVVSYS Norwalk virus 56 40 0.714285714
47324 MKMASNDASAAAVVNSNNDTAKSSSDGVLSSMAVTFKRALGGRAKQPPPRETPQR Norwalk virus 56 20 0.357142857
47356 LSDEEYDEYKRIREERNGKYSIEEYLQDRDKYYEEVAIARATEEDFCEEEEAKIR Norwalk virus 56 18 0.321428571
47326 PRPPTPELVKKIPPPPPNGEDELVVSYSVKDGVSGLPELSTVRQPDEANTAFSVPP Norwalk virus 56 17 0.303571429
94575 ITTNLANPAPLDYVNFEACSRRIDFLVYADAPEVEKAKRDFPGQPDMVVKNAFSPD Norwalk virus 56 14 0.25
47345 ITTNLANPAPLDYVNFEACSRRIDFLVYAEAPEVEKAKRDFPGQPDMWKNAFSPD Norwalk virus 56 11 0.196428571
47355 SDDIKTEGKKGKNKTGRGKKHTAFSSKGLSDEEYDEYKRIREERNGKYSIEEYLQD Norwalk virus 56 10 0.178571429
50141 FSRRGLNDEEYEEYKKIREEKGGNYSIQEYLEDRQRYEEELAEVQAGGDGGIGET Norwalk virus 56 8 0.142857143
94576 ADAPEVTEKAKRDFPGQPDMWKNAFSPDFSHIKLTLAPQGGFDKNGNTPHGKGVMK Norwalk virus 56 8 0.142857143
93325 SRRGLSDEEYEEYKKIREEKNGNYSIQEYLEDRQRYEEELAEVQAGGDGGIGETEM Norwalk virus 56 5 0.089285714
94584 RIFRPTRKQRKEERASLGLVTGSEIRKRNPDDFKPKGKLWADDDRSVDYNERLSF Norwalk virus 56 4 0.071428571
68678 TKSGNTVVCAVQAGEGETALEGGDKGHYAGHEIVRYGSGPALSTKTKFWRSSPEP Norwalk virus 56 4 0.071428571
70607 SRRGLSDEEYEEYKKIREEKNGNYSIQEYLEDRQRYEEEMAEVQAGGDGGIGETEM Norwalk virus 56 4 0.071428571
47346 AEAPEVEKAKRDFPGQPDMWKNAFSPDFSHIKLALAPQGGFDKNGNTPHGKGVMK Norwalk virus 56 4 0.071428571
47347 SHIKLALAPQGGFDKKGNTPHGKGVMKTLTTGSLIARASGLLHERLDEYELQGPA Norwalk virus 56 4 0.071428571
94600 KLDPEKLTAKLEYGLKPTRPDKTEGPLTISEDLNGLTFLRRTVTRDPAGWFGKL Norwalk virus 56 3 0.053571429
50156 PYHRRKNDDWNGTTFVRELGEQAAHANNMYEQAKSMKPMYTGALKDELVKPEKVY Norwalk virus 56 3 0.053571429
94577 SHIKLTLAPQGGFDKNGNTPHGKGVMKTLTTGSLIARASGLLHERLDEYELQGPT Norwalk virus 56 2 0.035714286
47343 WDAYKGERVVLWDDYGMSNPIHDALRLQELADTCPLTLNCDRIENKGKVFDSDA Norwalk virus 56 2 0.035714286
94572 MTSLLKDKDSLATYMRTLKLEEEKARKLSTKSASPDIVGTINALLARIAAARSLV Norwalk virus 56 2 0.035714286
47358 RIFRPTRKQRKEERASLGLVTGSEIRKRNPDDFKPKGKLWADDDRSVDYNEKLDF Norwalk virus 56 2 0.035714286
47359 NPDDFKPKGKLWADDDRSVDYNEKLDFEAPPSIWSRIVNFGSGWGFWVSPSLFIT Norwalk virus 56 2 0.035714286
50153 PGVYEPAYLGGRDPRVTVGPSLQQVLRDQLKPFAEPRGRMPEPGLLEAAVETVTSS Norwalk virus 56 2 0.035714286
47327 VKDGVSGLPELSTVRQPDEANTAFSVPPLNQRENRDAKEPLTGTILEMWDGEIYHY Norwalk virus 56 2 0.035714286
8344 VEMSNKLLAKNLNTRYSLLQAGGLSPSDAARAVAGAPVTRLVDWGGVRVAAPQSS Norwalk virus 56 2 0.035714286
47357 RDKYYEEVAIARATEEDFCEEEEAKIRQRIFRPTRKQRKEERASLGLVTGSEIRK Norwalk virus 56 2 0.035714286
68683 YPHHKRKNDDWNGTTFVGELGEQAAHANNMYENAKHMKPIYTAALKDELVKPEKIY Norwalk virus 56 2 0.035714286
50171 VQASNALLAKNLNTRYSMLIAGGLSSADASRAVAGAPVTRLIDWNGTRVAAPRSS Norwalk virus 56 2 0.035714286
68716 VEASNQLLAKNLATRYSLLRAGLTSADAARSVAGAPVTRIVDWNGVRSAPESS Norwalk virus 56 2 0.035714286
43209 EAMDELQPTMQLMVPKRQKLEDVLEHMKVDPSVQPDVKVRPIKKVAPGLGVQTVD Human adenovirus A 49 27 0.551020408
10807 DELQPTMQLMVPKKQKLEDVLEHIEVPPSIQPDVKIRPIKKVAPGLGVQTVDIQI Human adenovirus A 49 22 0.448979592
9159 REAMNDLQPTMQLMVPKRQKLEDVLEYMKVDPNIQPDVKIRPIKKVAPGLGVQTVD Human adenovirus A 49 18 0.367346939
10800 PTGRARRRAAAAAASAIANLAAPRRGNVYWVRDSVTGMRVPVRTRPPH Human adenovirus A 49 18 0.367346939
43210 VDPSVQPDVKVRPIKKVAPGLGVQTVDIQIPVQTALGETMEIQTSPIKTTVNASV Human adenovirus A 49 17 0.346938776
10808 SIQPDVKIRPIKKVAPGLGVQTVDIQIPVKTAFGEPMETQTSPMETQTSPIKTVAD Human adenovirus A 49 15 0.306122449
9152 INRRVVAHASQLRAQHLPLPERQADIRLPQAPAEAEVPVPARRR Human adenovirus A 49 13 0.265306122
43187 PYVPPRYLGPTEGRNSIRYSELSPLYDTTRVYLVDNKSSDIASLNYQNPHSNFLT Human adenovirus A 49 10 0.204081633
43135 TGESEYLNDPILFPVRDKNFPNNGIESLVDKMSRWKTYAQERREWEERQPRPVRP Human adenovirus A 49 10 0.204081633
43088 MQRDRRYRYRLAPYNKYQLPPCEEQSKATLSTSENSLWPECNSLTLHNVSEVRGI Human adenovirus A 49 9 0.183673469
10822 LVEMDVTSENGQRALKENPSKAKVVQNRWGRNVVQIKNDDARCCFHDVGCGSNSF Human adenovirus A 49 8 0.163265306
9160 KVDPNIQPDVKIRPIKKVAPGLGVQTVDIQIPVQAAQSKTMETQTSPIKTAVDSGM Human adenovirus A 49 7 0.142857143
9158 NPTPSLKAVTLQQVLPVLATSEEKRGIKREAMNDLQPTMQLMVPKRQKLEDVLEYM Human adenovirus A 49 6 0.12244898
43118 MQRPAIIAERAPNLDPAVLAAMQSQPSGVTASDDWTAAMDRIMALTARSPDAFRQ Human adenovirus A 49 5 0.102040816
43099 TSDVPFVTPPFTSSNGLQEKPPGVLALNYKDPIVTENGTLTLKLGDGIKLNAQGQI Human adenovirus A 49 5 0.102040816
23000 PPRLVIPEFKWHQRLQYRNISLPTNHGDCREEPFD Human adenovirus A 49 5 0.102040816
10905 YKDPIVTENGTLTLKLGDGIKLNAQGQLTASNTAKVEEPLTNTTQGIKLSWSAPLA Human adenovirus A 49 5 0.102040816
43186 MRRAVELQTVAFPETPPPSYETVMAAAPPYVPPRYLGPTEGRNSIRYSELSPLYDT Human adenovirus A 49 4 0.081632653
10904 TTIVPFITPPFTTSNGLQEKPPGVLALSYKDPIVTENGTLTLKLGDGIKLNAQGQ Human adenovirus A 49 4 0.081632653
16521 INLQANLWRSFLYSNVGLYLPDDLKYTPGNIKLPENKNTYEVMNGRVTVPGLVDTY Human adenovirus A 49 4 0.081632653
42629 EMVEEKLPPLETVPGSVPTKGEKRPRPDAEETLVTHTTEPPSYEEAIKQGAALS Human adenovirus A 49 4 0.081632653
10796 SQHPVRVRGHYRAPWGAHTRGRTGRTTVDDVIDSVVADARKYRRPATSAGSTVDAV Human adenovirus A 49 4 0.081632653
12266 LYSNVGLYLPDDLKYTPGNIKLPDNKNTY Human adenovirus A 49 4 0.081632653
24714 YLAEAQGEDTRFSTSRLSLKRTLASAQPGAHPFTVTETTLTRTLRPWKDKTLVHL Human adenovirus A 49 3 0.06122449
42627 KAWNSQTGQMLRDKLKDQQNFQQKVVDGLASGINGVVDIANQAVQKKIANRLEPRP Human adenovirus A 49 3 0.06122449
9165 MSPKTAKQAIAQQRSKKQLQQQEIWEEDSWDSQAQEDQDLEEWEEESLDEDPEED Human adenovirus A 49 3 0.06122449
10864 SLTRSCLYLKSEDQLQRTLEDAEALFNKYCALSLK Human adenovirus A 49 3 0.06122449
13085 MEINLQANLWRSFLYSNVGLYLPDDLKYTPGNIKLPDNKNTYEYMNGRVTAPGLV Human adenovirus A 49 3 0.06122449
9178 MSKDIPTPYMWSFQPQMGLAAGAAQDYSTKMNWLSAGPHMISQVNGIRARRNQML Human adenovirus A 49 3 0.06122449
21281 MRTEMTPLVLSYQEADDILEHLVDNFFNEVPSDDDLYVPSLYELYDLDVESAGED Human adenovirus A 49 3 0.06122449
44454 MKRSRTQYAEEPEENDDFNPVYPFDPYDTAHVPFVTPPFTSSNAFQEKPPGVLSL Human adenovirus A 49 3 0.06122449
61259 EVPSDDDFYVPSLHELYDIDVESAGEDSNEQAVNDFFPESFILAAAEGVILPEPP Human adenovirus A 49 2 0.040816327
31759 DSVELSFRFKTTGPVVFTQRRQIQDINRRVVAHASQLRAQHLPLPERQADIPLPP Human adenovirus A 49 2 0.040816327
9166 SWDSQAQEDQDLEEWEEESLDEDPEEDGSKDGATAAKPSLSTEPSPVKHTVNKSQ Human adenovirus A 49 2 0.040816327
9172 MSPKTAKQAIAQQRSKKQLQQQEIWEEDSWDSQAQEDQDLEEWEEESLDEDPEED Human adenovirus A 49 2 0.040816327
24713 HCGSTSKGKIRAKGHATEALSYDLMLKCYLAEAQGEDTRFSTSRLSLKRTLASAQ Human adenovirus A 49 2 0.040816327
10898 MIEADLEVDGRITEQRLLTNRARQRQQEQKHKELLDLQTVHQCKKGLFCLVKQAT Human adenovirus A 49 2 0.040816327
43138 MSKDIPTPYMWSFQPQMGLAAGAAQDYSSKMNWLSAGPHMISRVNGVRARRNQIL Human adenovirus A 49 2 0.040816327
43120 PQANRFSAILEAVVPSRTNPTHEKVLTIVNALLDSKAIRKDEAGLIYNALLERVA Human adenovirus A 49 2 0.040816327
43208 PTPSLKAVTLQQVLPVLGPSEEKRGIKREAMDELQPTMQLMVPKRQKLEDVLEHMK Human adenovirus A 49 2 0.040816327
44596 FASSANDNQNPPTVVMYSEDVNLEAPDTHIVYKPAVTADTISSELLHGQQAAPNR Human adenovirus A 49 2 0.040816327
10794 QIQDINRRVVARASQLRAQHLPLPERQADIPLPQLYAGPEPPLPPGARPRRR Human adenovirus A 49 2 0.040816327
48091 DFDNNVYTVKDKNYTNAVIEYPVVCNFRRYSESDSDSDVDDRAELHKRNNDSDSD Cowpox virus 45 14 0.311111111
19141 KNATVDNNTINNNITVNNTKVDDETSDNNTLHGNIGFLEINNCYNVSVSDASFRI Cowpox virus 45 5 0.111111111
48090 LYDEVTNMLVCSNMDPDLIDRYYAKICLDFDNNVYTVKDKNYTNAVIEYPVVCNF Cowpox virus 45 4 0.088888889
61625 TRDQQDNNNKGFSKFVSPRRCRRSTSGVVCGMIQSRPNDDTYSLLQRPKIEPEYA Cowpox virus 45 4 0.088888889
15935 IDYDDNKDDDKDDDKDDNKDDDKDDNKDDDKDDKDDNKDDDSDSDSDSDSDSDSD Cowpox virus 45 3 0.066666667
19151 SPFQNVKSRASLLAEKIMPRVPTTATEEQLYATVNKQTKLPAGVKSTPFTEALVST Cowpox virus 45 3 0.066666667
61619 EVVAEYKQKYGGASRGRTSSSSSSDFEDIDEVVAEYRQKYGNAMTKGRGSPKPDP Cowpox virus 45 3 0.066666667
61620 IDEVVAEYRQKYGNAMTKGRGSPKPDPLYSTVKKTPKSIASGVDIVSKQSPYSLL Cowpox virus 45 3 0.066666667
15725 IHSDKRISFPMYDDLIEQCHLSMKYKSKLVDKALNKLETTIDGQTRLSYLPPEIM Cowpox virus 45 3 0.066666667
15936 DDKDDKDDNKDDDSSSDSDSDSDSDSDDSDSDDSDSDDSDSDDSDSDSDDEDEDS Cowpox virus 45 3 0.066666667
15837 NLLAQIGGPAAVKGGNNNLNSQTDVTAGACDTKSKSSKCITCKPKSKSSSSSTST Cowpox virus 45 3 0.066666667
15845 FYDETQDQSTQLVGYDIKLKTNEDDFVDEFYGYDRSVGVHDYIDESIKKVVYGRE Cowpox virus 45 3 0.066666667
15849 DVSTQTWEKKSELDRYMEMYPRHRYSKHSVFKGFSDKVRKNDLDMNVVKELLSKG Cowpox virus 45 3 0.066666667
33603 NHAKYIDEINSKKTRISDLERQLAACKSNGGSNGDMPQYKREIESLKRELAECRR Cowpox virus 45 3 0.066666667
61614 SPFQNVKSRASLLAEKIMPRVPTTATEEQLYATINRQAKLPAGVKSTPFTEALVS Cowpox virus 45 3 0.066666667
61613 SIDSVIPRGTTHFQVGASGASGGVVGDSSPFQNVKSRASLLAEKIMPRVPTTATE Cowpox virus 45 3 0.066666667
15995 TEYENEYEFYDETQPQSTQLVGYDIKLKTNEDDFVDEFYGYDRSVGVHDYIDESI Cowpox virus 45 3 0.066666667
61676 SNCDLSILLNKASKNVMDRQLSKTPTRQKRSTEMTGNHFCLHKNYGMDTIDDCNSY Cowpox virus 45 3 0.066666667
49964 ADVFWISNGMYYEEDDEDGDGRISVANKIYTTDKRRVITSRLKINPVKEEDATTFT Cowpox virus 45 2 0.044444444
58588 YDDDVDNGFIGLDKLKLNIVHDIVEPCMPVRRPVAKVLCKEMVNKYFENPLHIIGK Cowpox virus 45 2 0.044444444
16734 RTLERDSVYKNERIEQLTNEIKELRDMGGGSNNCSALAEIDKKTIKELRESLDRE Cowpox virus 45 2 0.044444444
15815 EDIYNVMTMIEENIANEIETLYKDVRFKQLISSDSMFDIMKCDYLDVKEDAVID Cowpox virus 45 2 0.044444444
58580 SSMKIDKKRTKFQNRAKMVKEINQTIRAAQTHYETLKQGYLKFKRMIRTATLKDIA Cowpox virus 45 2 0.044444444
15899 IRTNNRNGYPYVEFNKKGIAKVTEDKPDNDKRIHAIRLINDSSDVQHIHFGFRNMV Cowpox virus 45 2 0.044444444
58579 MSGSQCPMINDDLFRVTLKRMHPLNSEESSMKIDKKRTKFQNRAKMVKEINQTIRA Cowpox virus 45 2 0.044444444
61626 VRNLTIDDMGPIFKEFTTYEDLAIEKYGKPFIRDACVTVLDVQEDRYDYDSDYDSD Cowpox virus 45 2 0.044444444
15804 VRNLTIDDMGPIFKEFTTYEDLAIEKYGKPFIRDACVTVLDVQEDRYDYDSDYDSD Cowpox virus 45 2 0.044444444
15702 TYLEAIHSDKRISFPMYDELIEQCHLSMERKSKLVDKALNKLESTIDGQSRLSYL Cowpox virus 45 2 0.044444444
61688 GHQKKIDELTYSEYKDIVMDYHRRNGHQSGTYDDVRLSPSSRSGTYDDVRLSSRS Cowpox virus 45 2 0.044444444
15991 MDDDKIRLSKYLYFTDRERINVNTVKQLCETSDPNACYRCGCTALHEYFYNYRSV Cowpox virus 45 2 0.044444444
8625 IRTNNKNGYDYVEFNKKGIAKVTEAKPDNDKRIHAIRLINDSTDVQHIHFGFRNMV Cowpox virus 45 2 0.044444444
61611 NGEFEFSTSKELDCLYESYGVSDDVSHCFSSPRRRRSDDKQEYTEMKLLDHAKKD Cowpox virus 45 2 0.044444444
33599 QRLRDRIMDLDRQLNECKRDGNGTSSEEVNRLKTRIRDLERSLEICSKDESELYSA Cowpox virus 45 2 0.044444444
15918 FKQLISSDSMFDIMNCDYLDVKEDAVIDIILDWLTEFPEDKDLIRVIRWNNVSQD Cowpox virus 45 2 0.044444444
19156 TVVREIKQQKYGGASRVRTSSSSSDFEDIDTVVREYRQKYGNAMAKGRSSSPKSD Cowpox virus 45 2 0.044444444
69956 STSSGIVTTKSTTDDADLYDTYNDNEPSTVSPTTVENITKSIGKYSTKDYVEVFG Cowpox virus 45 2 0.044444444
15917 EMEDIYDVMTMIEENIANKIETLWKDARFKQLISSDSMFDIMNCDYLDVKEDAVI Cowpox virus 45 2 0.044444444
19157 IDTVVREYRQKYGNAMAKGRSSSPKSDPLYSTVKKTTKSLSGGVDIVTKQSDYSL Cowpox virus 45 2 0.044444444
21478 RLNKRLNDKKKQGSQPSTNPTNRTNQDEIDDLFNAFGS Human parainfluenza 40 20 0.5
virus 3
82055 KSEKAHESLLQDINNEFMEITEKIQMASDNTNDLIQSGVNTRLLTIQSHVQNYIP Human parainfluenza 40 15 0.35
virus 3
82077 MEYWKHTNHGKDAGNELETSMATHGNKLTNKITYILWTIILVLLSIVFIIVLINS Human parainfluenza 40 10 0.25
virus 3
82066 KSEKAHESLLRDINNEFMEITGKIQMASDNTNDLIQSGVNTRLLTIQSHVQVYIP Human parainfluenza 40 10 0.25
virus 3
24177 AEGNRSDDRTEQATESDNIKTEQQNIRDRLNKRLNDKKKQGSQPSTNPTNRTNQD Human parainfluenza 40 9 0.225
virus 3
24176 DEEPEQFEHRADQEQDGEPQSSIIQYAWAEGNRSDDRTEQATESDNIKTEQQNIRD Human parainfluenza 40 6 0.15
virus 3
82079 KSEKAHKSLLQDINNEFMEITEKIQMASDNTNDLIQSGVNTRLLTIQSHVQNYIP Human parainfluenza 40 6 0.15
virus 3
24197 LMEAQGIDKNIPDLYRHAGNTLNDVQVKSEILSSYNESNATRLIPRKVSSTMRS Human parainfluenza 40 6 0.15
virus 3
82053 MEYWKHTNHRKDAGNELETSMATHGNKLTNKITYILWTIILVLLSIVLIIVLINS Human parainfluenza 40 5 0.125
virus 3
25498 KSEKAHESLLQDVNNEFMEVTEKIQMASDNINDLIQSGVNTRLLTIQSHVQNYIP Human parainfluenza 40 5 0.125
virus 3
82040 KSEKAHESLLRDINNEFIGITEKIQMASDNTNDLIQSGVNTRLLTIQSHVQNYIP Human parainfluenza 40 4 0.1
virus 3
54190 NNTDRTEQTSTTPPTTTPRSTRTKESIRTNSESKPKTQKTIGKERKDTEESNRFTE Human parainfluenza 40 3 0.075
virus 3
24185 SEISGSDVIFTTEQSRNSDHGRSLEPISTPDTRSMSVVTAATPDDEEEILMKNSRM Human parainfluenza 40 3 0.075
virus 3
24196 DQNESNERVSMIKTKLKEEKIKKTRFDPLMEAQGIDKNIPDLYRHAGNTLENPVQV Human parainfluenza 40 3 0.075
virus 3
24198 KSEILSSYNESNATRLIPRKVSSTMRSLVAVINNSNLPQSTKQSYINELKHCKSD Human parainfluenza 40 3 0.075
virus 3
24174 QAVARDAEAQMSSTLEDELGVTHEAKESLKRHIRNINSSETSFHKPTGGSAIEMA Human parainfluenza 40 2 0.05
virus 3
24186 TPDTRSMSVVTAATPDDEEEILMKNSRMKKSSSTHQEDDKRIKKGGGGKGKDWFKK Human parainfluenza 40 2 0.05
virus 3
82050 VYTDAYPLNPTGSIVSSVILDSQKSRVNPVITYSTATERVNELAIRNRTLSAGYT Human parainfluenza 40 2 0.05
virus 3
24183 SSSDSRAETVVSGGISGSITDSKNGTQNTENIDLNEIRKMDKDSIERKMRQSADV Human parainfluenza 40 2 0.05
virus 3
82064 MEYWKHTNHGKDAGNELETSMATHGNKLTNKIIYILWTIILVLLSIVFIIVLINS Human parainfluenza 40 2 0.05
virus 3
72404 QEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELE Human herpesvirus 8 40 21 0.525
78077 QEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQEQELEEVEEQEQEQEEQ Human herpesvirus 8 40 18 0.45
18189 EEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQE Human herpesvirus 8 40 17 0.425
18191 EEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQE Human herpesvirus 8 40 16 0.4
75466 EQQQDEQQQDEQEQQDEQQQDEQQQQDEQEQQEEQEQQEEQEQELEEQEQELEEQ Human herpesvirus 8 40 16 0.4
65054 EQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQEL Human herpesvirus 8 40 14 0.35
65056 EQEVEEQEQEVEEQEQEQEEQELEEVEEQEQEQEEQEEQELEEVEEQEEQELEEV Human herpesvirus 8 40 14 0.35
18192 EEQEQELEEQEQELEEQEQELEEQEQEQELEEVEEQEQEQEEQELEEVEEQEQEQ Human herpesvirus 8 40 14 0.35
65043 QQQEPLQEPQQQEPQQQEPLQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQ Human herpesvirus 8 40 13 0.325
18197 TPDDDPQPGPSREYRYVLRTSPPHRPGVMRRVPVTHPKKPHPRYQQPVPYRQID Human herpesvirus 8 40 13 0.325
65053 EEQEQQEEQEQELEEQEQELEDQEQELEEQEQELEEQEQELEEQEQELEEQEQEL Human herpesvirus 8 40 13 0.325
78068 QQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQ Human herpesvirus 8 40 13 0.325
72398 PQQQEPLQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQDEQQQDDEQQQDE Human herpesvirus 8 40 12 0.3
18183 QREPQQREPQQREPQQREPQQQEPQQREPQQQEPQQQEPQQQEPQQQEPQQQEPQQ Human herpesvirus 8 40 12 0.3
78069 PQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQDEQQQDEQQQDEQQQDEQQQD Human herpesvirus 8 40 12 0.3
72406 QEQELEEQEQELEEQEQELEEQEQEQELEEVEEQEQEQEEQELEEVEEQEQEQEE Human herpesvirus 8 40 12 0.3
75515 PDDDPQPGPSREYRYVLRTSPPHRPGMRMRRVPVTHPKKPHPRYQQPPVPYRQIDD Human herpesvirus 8 40 12 0.3
65055 EQEQELEEQEQELEEQEQELEEQEQELEEQEVEEQEQEVEEQEQEQEEQELEEVE Human herpesvirus 8 40 12 0.3
18181 PQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPLQEPQQQEPQQQEPQQREPQQREPQ Human herpesvirus 8 40 11 0.275
78082 HEQIASSPPGDNTPDDDPQPGPSREYRYVLRTSPPHRPGVRMRRVPVTHPKKPHPR Human herpesvirus 8 40 11 0.275
72402 QEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELE Human herpesvirus 8 40 11 0.275
75507 QQDEQEQQEEQEQQEEQEQQEEQEQELEEQEQELEEQEQELEEQEQELEEQEQEL Human herpesvirus 8 40 11 0.275
75465 QDEQQQDEQQQDEQQQDEQQQQDEQQQDEQQQDEQQQDEQEQQDEQQQDEEQQQQD Human herpesvirus 8 40 11 0.275
72410 SEDEMEVDYPVVSHEQIASSPPGDNTPDDDPQPGPSREYRYVLRTSPPHRPGVRM Human herpesvirus 8 40 11 0.275
65060 PVVSTHEQIASSPPGDNTPDDDPQPGPSREYRYVLRTSPPHRPGVRMRRVPVTHPK Human herpesvirus 8 40 10 0.25
75462 QSSQQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPLQEPQQQEPQQQEPQQQEPQQ Human herpesvirus 8 40 10 0.25
75508 EQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQEL Human herpesvirus 8 40 10 0.25
72400 QQDEQQQDEQEQQDEQQQDEQQQDEQQQQDEQEQQEEQEQQEEQEQQEEQEQELE Human herpesvirus 8 40 10 0.25
72401 QDEQEQQEEQEQQEEQEQQEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELE Human herpesvirus 8 40 10 0.25
78081 QETVEEPIILHGSSSEDEMEVDYPVVSTHEQIASSPPGDNTPDDDPQPGPSREYRY Human herpesvirus 8 40 9 0.225
75514 SSEDEMEVDYPWSTHEQIASSPPGDNTPDDDPQPGPSREYRYVLRTSPPHRPGVR Human herpesvirus 8 40 9 0.225
18196 SSSEDEMEVDYPWSTHEQIASSPPGDNTPDDDPQPGPSREYRYVLRTSPPHRPGV Human herpesvirus 8 40 9 0.225
65052 QQQQDEQQQQDEQQQQDEQQQQDEQEQQEEQEQQEEQEQELEEQEQELEDQEQEL Human herpesvirus 8 40 9 0.225
78066 QQREPQQREPQQREPQQREPQQREPQQREPQQREPQQREPQQREPQQREPQQREPQ Human herpesvirus 8 40 9 0.225
72405 QEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQEQE Human herpesvirus 8 40 9 0.225
78074 QEEQEQQEEQEQQEEQEQQEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELE Human herpesvirus 8 40 9 0.225
75475 LHGSSSEDEMEVDYPVVSTHEQIASSPPGDNTPDDDPQPGPSREYRYVLRTSPPHR Human herpesvirus 8 40 9 0.225
78065 QEPQQQEPQQQEPQQQEPQQQEPQQREPQQREPQQREPQQREPQQREPQQREPQQR Human herpesvirus 8 40 9 0.225
18180 EDEEDGGDGNKTLSIQSSQQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQ Human herpesvirus 8 40 8 0.2
72403 QEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELE Human herpesvirus 8 40 8 0.2
19838 PTYRSHLGFWQEGWSGQVYQDWLGRMNCSYENMTALEAVSLNGTRLAAGSPSRSY Human herpesvirus 8 40 8 0.2
75471 QELEEQEQELEEQEQELEEQEQELEEQEQEQELEEVEEQEQEQEEQELEEVEEQE Human herpesvirus 8 40 8 0.2
18193 ELEEVEEQEQEQEEQELEEVEEQEQEQEEQEEQELEEVEEQEEQELEEVEEQEEQ Human herpesvirus 8 40 8 0.2
72411 DDDPQPGPSREYRYVLRTSPPHRPGVRMRRVPVTHPKKPHPRYQQPPVPYRQIDDC Human herpesvirus 8 40 8 0.2
72407 EEVEEQEQEQEEQELEEVEEQEQEQEEQEEQELEEVEEQEEQELEEVEEQEEQEL Human herpesvirus 8 40 7 0.175
65050 DEQQQDEQQQDEQQQDEQQQDEQQQDEQEQQDEQEQQDEQEQQDEQQQDEQQQQD Human herpesvirus 8 40 7 0.175
54087 IKSITVYAPVEEKQRMHVLLDEVKKQRANTETALELEAAATHGDDARLLQRAVDE Human herpesvirus 8 40 7 0.175
72397 KTLSIQSSQQQQEPQQQEPQQQEPQQQEPQQQEPLQEPQQQEPQQQEPQQQEPQQ Human herpesvirus 8 40 7 0.175
65045 EPQQQEPQQQEPQQQEPQQREPQQREPQQREPQQREPQQREPQQREPQQREPQQRE Human herpesvirus 8 40 7 0.175
75503 QQEPQQQEPQQQEPLQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQ Human herpesvirus 8 40 7 0.175
15115 DPIRVSEKGMLLEQSQSPYPALKKKKKNKEAIY Human herpesvirus 8 40 7 0.175
65044 QQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQREPQQREPQ Human herpesvirus 8 40 7 0.175
18159 PTYRSHLGFWQEGWSGQVYQDWLGRMNCSYENMTALEAVSLNGTRLAAGSPSSEY Human herpesvirus 8 40 7 0.175
18195 LEEVEEQEQQGVEQQEQETVEEPHLHGSSSEDEMEVDYPVVSTHEQIASSPPGD Human herpesvirus 8 40 6 0.15
75511 LEEVEEQEQEQEEQELEEVEEQEQEQEEQEEQELEEVEEQEEQELEEVEEQEEQE Human herpesvirus 8 40 6 0.15
65051 EQQDEQEQQDEQEQQDEQQQDEQQQQDEQQQQDEQQQQDEQQQQDEQQQQDEQEQ Human herpesvirus 8 40 6 0.15
78075 QEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELE Human herpesvirus 8 40 6 0.15
65059 VEQQEQETVEEPIILHGSSSEDEMEVDYPVVSTHEQIASSPPGDNTPDDDPQPGPS Human herpesvirus 8 40 6 0.15
10030 PTYRSHLGFWQEGWSGQVYQDWLGRINCSYENMTIEAVSLNGRTLAAGSPSSEY Human herpesvirus 8 40 6 0.15
78067 EPQQREPQQREPQQREPQQREPQQREPQQQEPQQQEPQQQEPQQQEPQQQEPQQQE Human herpesvirus 8 40 6 0.15
18186 QQQDEQQQDEQQQDEQEQQDEQQQDEQQQQDEQEQQEEQEQQEEQEQQEEQEQEQ Human herpesvirus 8 40 6 0.15
18194 EQEEQELEEVEEQEEQELEEVEEQEEQELEEVEEQEQQGVEQQEETVEEPIILH Human herpesvirus 8 40 6 0.15
78071 QQQDEQQQDEQQQDEQEQQDEQQQDEQQQQDEQEQQEEQEQQEEQQQDEQQQDEQ Human herpesvirus 8 40 6 0.15
65057 QEQEQEEQEEQELEEVEEQEEQELEEVEEQEEQELEEVEEQEQQELEEVEEQEQQ Human herpesvirus 8 40 5 0.125
75467 QEQQEEQEQQEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQEQELEEQ Human herpesvirus 8 40 5 0.125
75506 QQDEQEQQDEQEQQDEQQQDEQQQDEQQQQDEQEQQEEQEQQEEQEQQEEQEQEL Human herpesvirus 8 40 5 0.125
10032 NVSVSVEDMSASGSGEDAIDESGSGEEERPMTSHVTFMTQSVQATTELTDALISA Human herpesvirus 8 40 5 0.125
78072 QQDEQEQQEEQEQQEEQQQDEQQQDEQQQDEQQQDEQEQQDEQQQDEQQQQDEQE Human herpesvirus 8 40 5 0.125
72409 EVEEQEQQGVEQQEQETVEEPIILHGSSSEDEMEVDYPVVSTHEQIASSPPGDNT Human herpesvirus 8 40 5 0.125
75502 DGNKTLSIQSSQQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPLQEPQQQEPQQQE Human herpesvirus 8 40 5 0.125
78064 GNKTLSIQSSQQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQRE Human herpesvirus 8 40 5 0.125
75476 GDNTPDDDPQPGPSREYRYVLRTSPPHRPGVRMRRVPVTHPKKPHPRYQQPPVPYR Human herpesvirus 8 40 5 0.125
12739 SDILTTLSSTTETAAPAVADARKPPSGKKK Human herpesvirus 8 40 5 0.125
18184 PQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQEPQQQDEQQQDEQQQDEQQQD Human herpesvirus 8 40 5 0.125
75463 PQQQEPLQEPQQQEPQQQEPQQQEPQQQEPLQEPQQQEPQQQEPQQQEPQQQEPQQ Human herpesvirus 8 40 5 0.125
75464 EPLQEPQQQEPQQQEPQQQEPQQQEPQQQDEQQQDEQQQDEQQQDEQQQQDEQQQD Human herpesvirus 8 40 4 0.1
65049 QQQDEQQQDEQQQDEQQQDEQQQDEQQQDEQQQDEQQQDEQQQDEQQQDEQQQDE Human herpesvirus 8 40 4 0.1
18185 QEPQQQEPQQQDEQQQDEQQQDEQQQDEQQQDEQQQDEQQQDEQEQQDEQQQDEQ Human herpesvirus 8 40 4 0.1
18182 QEPLQEPQQQEPQQQEPQQREPQQRHPQQREPQQREPQQREPQQRHPQQQEPQQRE Human herpesvirus 8 40 4 0.1
65061 REYRYVLRTSPPHRPGVRMRRVPVTHPKKPHPRYQQPPVPYRQIDDCPAKARPQH Human herpesvirus 8 40 4 0.1
75473 EQEEQEEQELEEVEEQEEQELEEVEEQEEQELEEVEEQEQQGVEQQEQETVEEP Human herpesvirus 8 40 4 0.1
75472 QEQELEEVEEQEQEQEEQELEEVEEQEQEQEEQEEQELEEVEEQEEQELEEVEEQ Human herpesvirus 8 40 4 0.1
75512 QEEQELEEVEEQEEQELEEVECQEEQELEEVEEQEQQGVEQQEQETVEEPIILHGS Human herpesvirus 8 40 4 0.1
65047 PQQREPQQQQEQQQDEQQQDEQQQDEQQQDEQQQDEQQQDEQQQDEQQQDEQQQD Human herpesvirus 8 40 4 0.1
75477 PGVRMRRVPVTHPKKPHPRYQQPPVPYRQIDDCPAKARPQHIFYRRELGKDGRRD Human herpesvirus 8 40 3 0.075
54116 HALPVISPPAHRPSPIPHLPAPQVTEPKGVLQSKRGTLVLRPAAVIDPRKPVSAP Human herpesvirus 8 40 3 0.075
72399 EPQQQEPQQQEPQQQDEQQQDEQQQDEQQQDEQQQDEQEQQDEQQQDEQQQDEQQ Human herpesvirus 8 40 3 0.075
65058 EQEEQELEEVEEQEQQELEEVEEQEQQGVEQQEQETVEEPIILHGSSSEDEMEVDY Human herpesvirus 8 40 3 0.075
78078 QEQELEEQEQEQELEEVEEQEQEQEEQEEEEVEEQEQEQEEQEEQELEEVEEQEE Human herpesvirus 8 40 3 0.075
78080 ELEEVEEQEEQELEEVEEQEQQGVEQQEQETVEEPIILHGSSSEDEMEVDYPVVST Human herpesvirus 8 40 3 0.075
78079 LEEVEEQEQEQNEQREQELEEVEEQEEQELEEVEEQEEQELEEVEEQEQQGVEQQ Human herpesvirus 8 40 3 0.075
8729 TTGGLYLVWQPMSAINLTHAQGDSGNPTSSPPPSASPMTTSASRRKRRSASTAAA Human herpesvirus 8 40 3 0.075
54047 TSVTETPGPEPNPPARPDREPPPTPPATPGATALLSDLTATRGQKRKFSSLKESYP Human herpesvirus 8 40 3 0.075
72408 EEQELEEVEEQEEQELEEVEEQEEQELEEVEEQEQQGVEQQEQETVEEPIILHGSS Human herpesvirus 8 40 3 0.075
65042 QQEPQQQEPQQQEPLQEPQQQEPQQQEPQQQEPLQEPQQQEPQQQEPLQEPQQQEP Human herpesvirus 8 40 3 0.075
18145 PETTHTPCAAVEKDAPTPNPTSNRVEASSRSSPKSKIRKMFCEELLNK Human herpesvirus 8 40 3 0.075
12738 TPGGQDSLGVSGSSITTLSSGPHSLSPASDILTTLSSTTETAAPAVADARKPPSG Human herpesvirus 8 40 2 0.05
18108 KLITGPLSKRHTLFPSPPNVTLAQCFEQQGMLPHQKMMVSEMIWPSIEPKDWIEP Human herpesvirus 8 40 2 0.05
14919 KRRTRLLMEHKTEIPLAKRVALRAGKGLCP Human herpesvirus 8 40 2 0.05
8761 KLSLSDYKLDTVAKQCLGRQKDDISYKDIPPLFKSGPDRGRAKVGNYCVIDSVLVM Human herpesvirus 8 40 2 0.05
75505 DEQQQDEQQQDEQQQDEQQQDEQQQDEQQQDEQEQQDEQEQQDEQQQDEQQQDEQ Human herpesvirus 8 40 2 0.05
75504 QQQEPQQQEPQQQEPQQQEPQQQEPQQQDEQQQDEQQQDEQQQDEQQQDEQQQDE Human herpesvirus 8 40 2 0.05
65046 QREPQQREPQQREPQQREPQQRFPQQREPQQREPQQQDEQQQDEQQQPEQQQDEQ Human herpesvirus 8 40 2 0.05
8902 VYERGGRQEDDWLPIPLSFPEEPVPPPPSLVFMDDLFINTKQCDFVDTLEAACRT Human herpesvirus 8 40 2 0.05
72385 PVAPIPSPAPATPLPPPALLPPVTTSSSPIPPSHPVSPGTTDTHSPSPALPPTQSP Human herpesvirus 8 40 2 0.05
65048 QDEQQQDEQQQPEQQQDEQQQDEQQQDEQQQPEQQQDEQQQDEQQQDEQQQDEQQ Human herpesvirus 8 40 2 0.05
15104 YSFYAHGVKQGHEEFLRDLRELPVSQELISEMSSEDVLGQEGDTDAFYLTASLPP Human herpesvirus 8 40 2 0.05
78073 QDEQQQDEQEQQDEQQQDEQQQQDEQEQQEEQEQQEEQEQQEEQEQQEEQEQELE Human herpesvirus 8 40 2 0.05
49169 RRPRRPTANEDNIELTVLVGPAGGTDEEPTDESSEGDVASGDKERDGSSGDEPDG Human herpesvirus 8 40 2 0.05
46164 INLEKEFSALSDTESEEELQLEKPLLNKQDSSVSLTQKKLENQS Human herpesvirus 7 39 33 0.846153846
47078 TDVSMATFNDNNLKNLLNSRKRDPLFQNFSFTEKMQPVRSPFFLPNAEIQDFDS Human herpesvirus 7 39 22 0.564102564
47079 NFSFTEKMQPVRSPFFLPNAEIQDFDSGSLLTGKETQNTIFGASKAQENGDKDLI Human herpesvirus 7 39 21 0.538461538
46163 MGSKCCKTIHGGIFSKAEDTLVDYKGKYINLEKEFSALSDTESEEELQLEKPLLN Human herpesvirus 7 39 20 0.512820513
47080 SLLTGKETQNTIFGASKAQENGDKDLIDLENSVQKDDDIVMKLVSHLTHSEEDV Human herpesvirus 7 39 19 0.487179487
47070 LSKLDLHNSNKVIDIVSSPKVNVVQLPKNKIDYHSTFFLPENEVNRQNGVQSRDQ Human herpesvirus 7 39 15 0.384615385
47077 VKKLLTDFTDTISLEERSLKDVLEPPKKTDVSNIATFNDNNLKNLLNSRKRDPLF Human herpesvirus 7 39 5 0.128205128
47073 FKLPSEKRRKEIVHENLQSFDDEHNEMSLPPQDQKSIKQKNGNKANSSTKTLNMI Human herpesvirus 7 39 5 0.128205128
45990 MGVDPHNESEARKSLYDHSRVDSDAFVATTNPWASQEGSLSDVLYNINHRDQLGY Human herpesvirus 7 39 4 0.102564103
46061 TEPQGDDITHTNEYSQVEALKMLKAIKLLDESYKKAEIAEAKKSQRPSLLERIQY Human herpesvirus 7 39 4 0.102564103
47071 NKIDYHSTFFLPENEVKRQNGVQSRDQLSKNSTNDLQKILELRERIKTIKQNKED Human herpesvirus 7 39 4 0.102564103
18517 SLYNLKRNEETYQDKNSLNFSNEFPHTTFSRRDKKTDNQAGILMERSVTEEICVN Human herpesvirus 7 39 4 0.102564103
18518 FSRRDKKTDNQAGILMERSVTEEICVNNSLTFSNEFPPTFSRTDKKTNSPAGILM Human herpesvirus 7 39 3 0.076923077
47067 NNTLSKDLFVGSEDGLLSSVKKDSMILDEPRNSTSINNSKKMHRILQTEILDLTD Human herpesvirus 7 39 3 0.076923077
18466 SPLPLTPKPDVQESNQRAPTKLINFKRLLEKNDKDISASDIEFIKQSSRCTVSTA Human herpesvirus 7 39 3 0.076923077
46062 LDESYKKAEIAEAKKSQRPSLLERIQYRGYQKLSTEE Human herpesvirus 7 39 3 0.076923077
18961 KHTRVSSAIPTFPLSLRETPPEARSPAVLAAATQSHKTRAISTHNATTTIRLPRL Human herpesvirus 7 39 3 0.076923077
47180 NLMFLENKTKVTKPTAIPNAVTSEPTKFFPSTRGTSSMQASQQTSSFPTTFFTTN Human herpesvirus 7 39 2 0.051282051
46665 QVKDDPKFERQAKTEEKGEKNHKVEEGNNFFCKQETQHKITSYMVPTKNGGTGTN Human herpesvirus 7 39 2 0.051282051
47074 LPPQDQKSIKQKNGNKANSSTKTLNMIGTKDVNASMKEKESASSAKKNQLVKDVK Human herpesvirus 7 39 2 0.051282051
18433 NVKPENAFSEIALMPISHDKIIDVNNSNIQVLETELAHTNLFVYSAIAQKYDLPL Human herpesvirus 7 39 2 0.051282051
18432 DDEYDEDKPPRQVDPDRVDNILMESDFFNVKPENAFSEIALMPISHDKIIDVNNS Human herpesvirus 7 39 2 0.051282051
18523 DGKDLIIPDKFPNETFYIRDKKKDISTNRAVERSTADVPTESDVEKVAAEGLILL Human herpesvirus 7 39 2 0.051282051
47224 ICHDNGKLHLTYITVLKSGLDCDIKDQKLEKLFEKEHAERKKQDDDYKKKALKQK Human herpesvirus 7 39 2 0.051282051
18531 KNCLWFLRKTHKVNIPDTGMKKDENKELTKQASYCFNNHFIPIRSNDEEYRRENVS Human herpesvirus 7 39 2 0.051282051
46060 VLQATQSVQAQVKEPLDSSPPYLKTNKDTEPQGDDITHTNEYSQVEALKMLKAIK Human herpesvirus 7 39 2 0.051282051
1250 QHFRKLLLLDEEAGPLEEELPRLADEGLNRRVAEDLNLGNLNVSIPWTHKVGNFT Hepatitis B virus 38 9 0.236842105
70035 HQDIINKCEQFVGPLTVNKRRLNLVMPARFFPISTKYLTPEKGIKPYYPENVVH Hepatitis B virus 38 6 0.157894737
79741 GTVGVEPSSSGHTHNCANSSSSCLHQSAVRKEAYSPVSTSKRHSSSGNAVELHHV Hepatitis B virus 38 6 0.157894737
71178 HQDIITKCEQFVGPLTVNEKRRLKLVMPARFFPNSTKYLPLDKGIKPYYPENVVN Hepatitis B virus 38 4 0.105263158
71817 LQPQQGSLAKGKSGQSGSIRARVHPTTLQSFGVEPSGSGHIDNGASSTSSCLLQS Hepatitis B virus 38 4 0.105263158
60771 HQDIINKCEQFVGPLTVNEKRRLNLVMPARFFPISTKYLPLEKGIKPYYPDNVVN Hepatitis B virus 38 4 0.105263158
71511 LHSKPTQKIQIGTSIRTRTTGRTPTRWEWEHSGQGSSLPMGDCWGGALRLRAYSQ Hepatitis B virus 38 3 0.078947368
67616 ADEGLNRRVAEDLNLGNPNVSIPWTHKVGNFTGLYSSTVPCFNPTWQTPSFPDIH Hepatitis B virus 38 3 0.078947368
505 MGGWSSKPRKGMGTNLSVPNPLGFFPDHQLDPAFGANSNNPDWDFNPIKDHWPAA Hepatitis B virus 38 3 0.078947368
71483 MGGWSSKPRKGMGTNLSVPNPLGFFPDHQLDPAFGANSNNPDWDFNPIKDHWPAA Hepatitis B virus 38 3 0.078947368
78763 MGGWSPKPRKGMGTNLSVPNPLGFFPDHQLATNRQSGRQPTPISPPLRDSHPQAM Hepatitis B virus 38 3 0.078947368
70007 HLHEDIANKCQQFVGPLTVNEKRRLKLIMPARFYPNSTKYLPLDKGIKPYYPDHVV Hepatitis B virus 38 2 0.052631579
70006 KVGNFTGLYSSTVPIFNPEWQTPAFPKIHLHEDIANKCQQFVGPLTVNEKRRLKL Hepatitis B virus 38 2 0.052631579
71497 MGGWSSKPRKGMGTNLSVPNPLGFFPDHQLDPAFGANSNNPDWDFNPHKDNWPA Hepatitis B virus 38 2 0.052631579
14742 KVGNFTGLYSSTVPIFNPEWQTPSFPKIHLQEDIINRCQQFVGPLTVNEKRRLKL Hepatitis B virus 38 2 0.052631579
3470 MGGWSSKPRKGMGTNLSVPNPLGFFPDHQLDPAFKANSENPDWDLNPHKDNWPDA Hepatitis B virus 38 2 0.052631579
56633 KVGNFTGLYSHTVPIFNPEWQTPSFPKIHLQEDIIDRCQQFVGPLTVNEKRRLKL Hepatitis B virus 38 2 0.052631579
56634 HLQEDIIDRCQQFVGPLTVNEKRRLKLIMPARFYPNSTKYLPLDKGIKPYYPEHVV Hepatitis B virus 38 2 0.052631579
518 RLADADLNRRVAEDLNLGNLNVSIPWTHKVGNFTGLYSSTVPIFNPEWQTPSFPK Hepatitis B virus 38 2 0.052631579
78818 MGGWSSKPRKGMGTNLSVPNPLGFFPDHQLDPAFGANSNNPDWDFNPIKDNWPAA Hepatitis B virus 38 2 0.052631579
520 HLQEDIINRCQQFVGPLTVNEKRRLKLIMPARFYPTHTKYLPLDKGIKPYYPDQVV Hepatitis B virus 38 2 0.052631579
71506 MGGWSSKPRKGMGTNLSVPNPLGFFPDHQLDPAFGANSNNPDWDFNPVKDDVVPAA Hepatitis B virus 38 2 0.052631579
71509 IDHSVNNSSSCLQQSAIRKAAYSHLSNSKRQSSS Hepatitis B virus 38 2 0.052631579
70033 ADEDLNRRVAEDLNLQLPNVSIPWTHKVGNFTGLYSSTIPVFNPNWKTPSFPDIH Hepatitis B virus 38 2 0.052631579
5821 MGGWSSKPRKGMGTNLSVPNPLGFFPDHQLDLAFRANSNNPDWDFNPNKDPWPQA Hepatitis B virus 38 2 0.052631579
14743 HLQEDIINRCQQFVGPLTVNEKRRLKLIMPARFYPTHTKYLPLDKGIKPYYPDQVV Hepatitis B virus 38 2 0.052631579
3576 FCSQSSGILSRSPVGPGVQSQLKQSRLGLQPQQGSLARGKSGHAVELHNIPPSSA Hepatitis B virus 38 2 0.052631579
480 HLQGDIINRCQQFVGPLTVNEKRRLKLIMPARFYPTHTKYLPLDKGIKPYYPDQVV Hepatitis B virus 38 2 0.052631579
71139 LYKRETSRSASFCGSPYTWEQDLQHGAFLDGPSRVGKEPFHQQSSRIPSRSPVGP Hepatitis B virus 38 2 0.052631579
9968 MGGWSSKPRKGMGTNLSVPNPLGFFPDHQLDPAFKANSENPDWGSPQAQGILTTV Hepatitis B virus 38 2 0.052631579
9507 MGGWYSKPRKGMGTNLSVPNPLGFFPDHQLDPAFKAKSDNPDWDLNPHKDNWPDS Hepatitis B virus 38 2 0.052631579
79797 ADEGLNRRVAEDLNLGDLNVSIPWTHKVGNFTGLYSSTVPCFNPQWQTPSFPSIH Hepatitis B virus 38 2 0.052631579
1044 IPLHPAAMPHLLVGSSGLSGYVARLSSNSRILNHQHGIMPNLHDSCSRNLYVSLL Hepatitis B virus 38 2 0.052631579
79680 KVGNFTGLYSSTVPIFNPEWQTPSFPKIHLHEDIANRCQQFVGPLTVNEKRRLKL Hepatitis B virus 38 2 0.052631579
70642 KVGNFTGLYSSTVPIFNPEWQTPSFPKIHLQEDIINRCQQFVGPLTVNEKRRLKL Hepatitis B virus 38 2 0.052631579
14648 TKGMGTNLSVPNPLGFFPDHQLDPAFEANSDNPDWDLNPHKDNWPDAKKVGVGA Hepatitis B virus 38 2 0.052631579
5789 MGQNHSVTNPLGFFPEHQLDPLFRANSKHPDWDFNPSKDNWPEATKVGVGAFGPG Hepatitis B virus 38 2 0.052631579
20668 HLQEDIINRCQQFVGPLTVNEKRRLKLIMPARFYPTHTKYLPLDKGIKPYYPDQVV Hepatitis B virus 38 2 0.052631579
11013 MAARVCCQLDPARDVLCLRPVGAESRGRPVSGPFGALPSPSSSAVPADHGAHLSL Hepatitis B virus 38 2 0.052631579
50417 VREKANPSLSTSKRHTSTGNAVELNPVPPSSVGSQGKGSVLPCWWLQFRDTEPCS Hepatitis B virus 38 2 0.052631579
75593 NEVGAGAFGPGLTPPHGGLLGWSPQAQGKLITMPANPPPASNKRQSGRQPTPLSP Hepatitis B virus 38 2 0.052631579
80760 MGGYSSKPRKGMGTNLSVPNPLGFLPDHQLDPAFGANSNNPDWDFNPNKDPWPEAW Hepatitis B virus 38 2 0.052631579
79666 KVGNFTGLYSSTAPIFNPEWQTPSFPKIHLQEDIINRCQQFVGPLTVNEKRRLKL Hepatitis B virus 38 2 0.052631579
79715 HLHEDIINRCQQFVGPLNVNEKRRLKLIMPARFYPNSTKYLPLDKGIKPYYPGHVV Hepatitis B virus 38 2 0.052631579
79815 ADEGLNHRVAEDLNLGNPNVDIPWTHKVGNFTGLYSSTVPVFNPEWQTPSFPDIH Hepatitis B virus 38 2 0.052631579
2971 ADQDLNHRVAEDLNLGNPNVSIPWTHKVGNFTGLYSSTVPVFNPEWQTPSFPNIH Hepatitis B virus 38 2 0.052631579
79894 LQPQQGSLARGKSGRSGSIWSRVHPTTRRPFGVEPSGSGHIDNTASSTSSCLHQSA Hepatitis B virus 38 2 0.052631579
79706 KVGNFTGLYSSTVPIFNPEWQTPSFPNIHLQEDIINRCQQFVGPLTVNEKRRLKL Hepatitis B virus 38 2 0.052631579
79705 RLADADLNRRVAEDLNLGNLNVSIPWTHKVGNFTGLYSSTVPIFNPEWQTPSFPN Hepatitis B virus 38 2 0.052631579
80672 MGGWSSKPRKGMGTNLSVPNPLGFFPDHQLDPVFGANSNNPDWDFNPIKDHWPAA Hepatitis B virus 38 2 0.052631579
9803 MQSRLGRQTRSIPLAVGPSSRSAFGVDPFRPSTIDSFAVEPSCCRHIDKSASHAS Hepatitis B virus 38 2 0.052631579
4529 MGGWSSKPRKGMGTNLSVPNPLGFFPPHQLDPAFGANSNKPDWDFNPIKPHVVPAA Hepatitis B virus 38 2 0.052631579
5901 MDIDKYKEFGASVE Hepatitis B virus 38 2 0.052631579
9788 MGGWSSKHGQGMGTNLSNPNPRGFYPDHQLDPAVKANSNNPDGDFNTNKDHGPEA Hepatitis B virus 38 2 0.052631579
67554 MPSLYQRFRKLLLLDGDAGPLEEELPRLADEGLNRRVAEDLNLGNPNVSIPWTHK Hepatitis B virus 38 2 0.052631579
71136 DWQTPSFPNIHLHQDIITKCEQFVGPLTVNEKRRLKLVMPARFFPNSTKYLPLDK Hepatitis B virus 38 2 0.052631579
19729 CGSPYSWEQELQHGRLVFQTSKRHGDEFCSQSSGILSRSPVGPCIRSQLKQSRL Hepatitis B virus 38 2 0.052631579
9814 MGGWSSKPRKGMGTNLSVPNPLGFFPDHQLDPAFKANSENPDWDLNPHKDNWPDA Hepatitis B virus 38 2 0.052631579
5846 MGGYSSKPRKGMGTNLSVPNPLGFLPDHQLDPAFGANSNNPDWDSGSGHIDNSAS Hepatitis B virus 38 2 0.052631579
19724 ADEGLNRRVAEDLNLGDLNVNIPWTHKVGNFTGLYSSTVPVFNPEWQTPSFPNIH Hepatitis B virus 38 2 0.052631579
79665 RLADADLNRRVAEDLNLGNLNVSIPWTHKVGNFTGLYSSTAPIFNPEWQTPSFPK Hepatitis B virus 38 2 0.052631579
3358 LDPAFRANTRNPDWDHNPNKDHWTEANKVGVGAFGPGFTPPHGGLLGWSPQAQGM Hepatitis B virus 38 2 0.052631579
78772 KVGNFTGLYSSTVPIFNPEWQTPSFPKIHLQEDIINRCQQFVGPLTVNEKRRLKL Hepatitis B virus 38 2 0.052631579
78835 KVGNFTGLYSSTVPVFNPEWQTPSFPKIHLQEDIINRCQQFVGPLTVNEKRRLKL Hepatitis B virus 38 2 0.052631579
8502 MDELVDAIVTRLDRSTGVSNSLASLIKRQGNRVIDAEPREIPLEYADDLLEAMAH Aichivirus A 37 20 0.540540541
8446 QYDEQNEVLSPESLCGEGAEPCWKCSQDKPRRKYNTVPPEEWLYDSDVQSWFYPE Aichivirus A 37 20 0.540540541
8485 GIRRQGLLTLSADTETNQTLNKITESVNQAAQVVSQFDLSGPANSVSFAASPIRE Aichivirus A 37 15 0.405405405
8452 THTVSGSSNKVGSRFSKWWEPAAARALERATDSAIDGIDAAGKAASKAITRKLDR Aichivirus A 37 14 0.37837878
8451 VSTGLGDGPVSASADSLPGRSGGASSEKTHTVSGSSNKVGSRFSKWWEPAAARAL Aichivirus A 37 14 0.37837878
8503 QGNRVIDAEPREIPLEYADDLLEAMAHHRPVPCSLGLSQAIANNTPLQQIIDTFW Aichivirus A 37 11 0.297297297
16401 LFDEPEPGVFVPKPELQVEIDRTLEDPDYVYSTFLKDELRPTAKVKDGLTRIVEAA Aichivirus A 37 10 0.27027027
8447 KPRRKYNTVPPEEWLYDSDVQSWFYPETYYSDLQQKFFDKLALLSLPGAYQAKTP Aichivirus A 37 9 0.243243243
8453 RATDSAIDGIDAAGKAASKAITRKLDRPAAPSSTANPQPSLIALNPSATQSGNAS Aichivirus A 37 9 0.243243243
8519 PKPELQAEINQTLEDPDYVYSTFLKDELRPTNKVEQGLTRIVEAAPIHAIVAGRM Aichivirus A 37 7 0.189189189
16333 TVSVGVGDAPVSASADQLPGRPGGASSDKAHSSPSSKTTIETGNRVGSRFSKWWE Aichivirus A 37 6 0.162162162
16329 PRRKYNIVPPEDWLLDSNVQDWFEPPTYLSDFQQRVFDKIALLSLPGPFQAKTPE Aichivirus A 37 5 0.135135135
16334 KAHSSPSSKTTIETGNRVGSRFSKWWEPAAARALERATDAACDGIEGAGKLAGKA Aichivirus A 37 5 0.135135135
8454 AAPSSTANPQPSLIALNPSATQSGNASILTGSTAPSFLAYPTATPVPLPNPDEPS Aichivirus A 37 5 0.135135135
16328 CDEEHGFLSPESLCGEGFEPCHRCTNPPPRRKYNIVPPEDWLLDSNVQDWFEPPTY Aichivirus A 37 5 0.135135135
16336 SRKLAGPTPASSTATPQPGLAALNPSATQAGNAAILTGSTAPSFLAYPTASSVPL Aichivirus A 37 4 0.108108108
16337 QAGNAAILTGSTAPSFLAYPTASSVPLPNPDEPSMPGPSGDRTWLLDTVTWEQSQ Aichivirus A 37 4 0.108108108
8506 WKSRQDTPQETQAAYSAIPHQKSKPKSQKPVPTRHIQRQGISPAVPGISNNVVHV Aichivirus A 37 3 0.081081081
8448 YYSDLQQKFFDKLALLSLPGAYQAKTPEERALAGALTQLLNFPTTPQLSIPTTNL Aichivirus A 37 3 0.081081081
8455 LTGSTAPSFLAYPTATPVPLPNPDEPSQPGPSGDRTWLLDTVTWSQEFTRGWNIA Aichivirus A 37 3 0.081081081
16368 NRTLTRISESVTQATQAVTNFDLQGPANSVTLAASDIREAATRVASSLDGFTDVL Aichivirus A 37 2 0.054054054
8515 SPAYGAFPIKKQPAPLRRNDRRLQEGVDLDTQLFLKHFKGDVTEPWPGLEAAADL Aichivirus A 37 2 0.054054054
8514 ATTQQSLIVPTAEVRPGVNVNRMSRLHPSPAYGAFPIKKQPAPLRRNDRRLQEGV Aichivirus A 37 2 0.054054054
8518 GQAAGYPWNTLGRSRRSLFDETEPGVFVPKPELQAEINQTLEDPDYVYSTFLKDE Aichivirus A 37 2 0.054054054
87662 MSTLPKPQRKTKRNTNRRPMDVKFPGGGQIVGGVYLLPRKGPRLGVRATRKTSERS Hepatitis C virus 34 28 0.823529412
88061 MSTNPKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKASERS Hepatitis C virus 34 28 0.823529412
88229 MSTNPKPQRKTKRNTNRRPEDVKFPGGGQIVGGVYLLPRRGPRLGVRTTRKTSERS Hepatitis C virus 34 28 0.823529412
88422 MSTNPKPQRKTKRNTYRRPQDVKFPGGGQIVGGVYVLPRRGPTLGVRATRKTSERS Hepatitis C virus 34 27 0.794117647
20184 MSTLPKPQRKTKRNTNRRPMDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 27 0.794117647
68056 MSTNPKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRVGVRATRKTSERS Hepatitis C virus 34 27 0.794117647
76983 MSTNPKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 27 0.794117647
17752 MSTNPKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPKLGVRATRKNSERS Hepatitis C virus 34 26 0.764705882
20077 MSTLPKPQRKTKRNTNRRPMDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 26 0.764705882
56982 MSTNPKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 26 0.764705882
87962 MSTIPKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 26 0.764705882
39188 MSTNPKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 26 0.764705882
59620 MSTNPKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRAARKTSERS Hepatitis C virus 34 25 0.735294118
40815 MSTNPKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 25 0.735294118
39404 MSTNPKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRAPRKTSERS Hepatitis C virus 34 25 0.735294118
39511 MSTNPKPQKKNKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 25 0.735294118
59731 MSTNPKPQRQTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 24 0.705882353
17859 MSTNPKPQRKTKRNTNRRPMDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 24 0.705882353
88779 MSTNGKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTWERS Hepatitis C virus 34 24 0.705882353
19970 MSTLPKPQKRNQRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 23 0.676470588
19863 MSTLPKPQRKTKRNTNRRPMDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 23 0.676470588
39296 MSTNPKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 21 0.617647059
40789 MSTNPKPQRKTKRNTNRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 21 0.617647059
88499 MSTLPKPQRKTKRNTIRRPQDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 21 0.617647059
17860 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKARRPEGRSWAQPGYPW Hepatitis C virus 34 21 0.617647059
87567 QPRGRRQPIPKARQPEGRAWAQPGYPWPLYGNEGLGWAGWLLSPRGSRPSWGPTD Hepatitis C virus 34 18 0.529411765
68058 QPRGRRQPIPKARRPEGRSWAQPGYPWPLYGNEGCGWAGWLLSPRGSRPSWGPSD Hepatitis C virus 34 18 0.529411765
88062 QIVGGVYLLPRRGPRLGVRATRKASERSQPRGRRQPIPKARRPEGRAWAQPGYPW Hepatitis C virus 34 18 0.529411765
88570 TDDVEPSVAAECFKKPPKYPPALPIWARPDYNPPLLDRWKAPDYVPPTVHGCALP Hepatitis C virus 34 18 0.529411765
67843 QIVGEVYVLPRRGPQLGVREVRKTSERSQPRGRRQPTPKARPREGRSWAQPGYPW Hepatitis C virus 34 18 0.529411765
67842 MSTLPKPKRQTKRNTLRRPKNVKFPAGGQIVGEVYVLPRRGPQLGVREVRKTSERS Hepatitis C virus 34 18 0.529411765
20185 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKARQPIGRSWGQPGYPW Hepatitis C virus 34 17 0.5
17861 QPRGRRQPIPKARRPEGRSWAQPGYPWPLYGNEGCGWAGWLLSPRGSRPSWGPND Hepatitis C virus 34 17 0.5
88400 SVPSEYLTRRRKFPPALPPWARPDYNPPVIETWKRPDYEPPTVLGCALPPTPQAPV Hepatitis C virus 34 16 0.470588235
88209 SVPAEILRKPRKFPPALPIWARPDYNPPLLESWKDPDYVPPVVHGCPLPSTKAPP Hepatitis C virus 34 16 0.470588235
68030 TDDAELSAAAECFKKPPKYPPALPIWARPDYNPPLLDRWKSPDYVPPTVHGCALP Hepatitis C virus 34 16 0.470588235
59838 MSTLPKPQRITKRNINRRPQDVKFPGGGQIVGGVYVLPRRGPKLGVRAVRKTSERS Hepatitis C virus 34 16 0.470588235
68057 QIVGGVYLLPRRGPRVGVRATRKTSERSQPRGRRQPIPKARRPEGRSWAQPGYPW Hepatitis C virus 34 16 0.470588235
39189 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKPRRSTGKSWGKPGYPW Hepatitis C virus 34 16 0.470588235
88660 SVAAEILRKTKRFPPAMPIWARPDYNPPLLESWKDPDYVPPVVHGCPLPPTKAPP Hepatitis C virus 34 16 0.470588235
87868 MSTNPKPQRKTKRNTNRRPQNVKFPGGGQIVGGVCLLPRRGPRVGVRATRKTSERS Hepatitis C virus 34 16 0.470588235
88658 ATCTTHHSSPDVDLIEANLLWRQEMGGNITRVESENKVVILDSFPPLRAEEPERE Hepatitis C virus 34 16 0.470588235
88594 QPRGRRQPIPKARQPEGRAWAQPGYPWPLYGNEGMGWAGWLLSPRGSRPSWGPTD Hepatitis C virus 34 16 0.470588235
88854 SVPAEILRKSRKFPPALPVWARPDYNPPLLEPWKDPDYVPPVVHGCPLPPVKAPP Hepatitis C virus 34 16 0.470588235
39482 TAKRRLARGSPPSEASSSASQLSAPSLKATCTTHHVSPDADLIEANLLWRQEMGG Hepatitis C virus 34 16 0.470588235
39483 ATCTTHHVSPDADLIEANLLWRQEMGGNITRVESENKVVVLDSFDPLRAEEDERE Hepatitis C virus 34 16 0.470588235
39590 ATCTANHDSPDAELIEANLLWRQEMGGNITRVESENKVVILDSFPPLVAEEDERE Hepatitis C virus 34 16 0.470588235
39592 SVPAEILRKSRRFAQALPVWARPDYNPPLVETWKKPDYEPPVVHGCPLPPPKSPPV Hepatitis C virus 34 16 0.470588235
88781 QPRGRRQPIPKARQPEGRAWAQPGYPWPLYGNEGLGWAGWLVSPRGSRPNWGPTD Hepatitis C virus 34 16 0.470588235
88853 ITRVESENKVVILDSFDPLRAEEDEREVSVPAEILRKSRKFPPALPVWARPDYNP Hepatitis C virus 34 16 0.470588235
88501 QPRGRRQPIPKARRSEGRSWAQPGYPWPLYGNEGCGWAGWLLSPRGSRPSWGPND Hepatitis C virus 34 16 0.470588235
20263 KATCTMHGAHPDAELIEANLLWRQEMGGNITRVESENKVVILDSFDPLVPEFEER Hepatitis C virus 34 16 0.470588235
87939 ITRVESENKIVVLDSFDPLVAEEDDREISIPAEILRKFKQFPPAMPIWARPDYNP Hepatitis C virus 34 16 0.470588235
87940 SIPAEILRKFKQFPPAMPIWARPDYNPPLVEPWKRPPYEPPLVHGCPLPPPKPTPV Hepatitis C virus 34 16 0.470588235
87938 ATCTTHHDSPDADLIEANLLWRQEMGGNITRVESENKIVVLDSFDPLVAEEDDRE Hepatitis C virus 34 16 0.470588235
87937 TAARRLKRGSPPSLASSSASQLSAPSLKATCTTHHDSPDADLIEANLLWRQEMGG Hepatitis C virus 34 15 0.441176471
88484 ITRVESENKVVILDSFDPLRAEEDEREVSVAAEILRKSKKFPPALPIWARPDYNP Hepatitis C virus 34 15 0.441176471
20156 LKATCTTHCAHPDADLIEANLLWRQEVGGNITRVESENKVIVLDSFDPLVPEYDD Hepatitis C virus 34 15 0.441176471
67923 AEEDDTELSIPAECFKKPPKYPPALPIWARPDYNPPLLPSWKDPTYEPPAVHGCA Hepatitis C virus 34 15 0.441176471
57187 APSLKATCTTSKDHPDMELIEANLLWRQEMGGNITRVESENKVVVLDSFEPLTAEY Hepatitis C virus 34 15 0.441176471
87834 ITRVESEKKVVILDSFDPLVAEEDEREVSVPAEILRKSRRFAPALPVWARPDYNP Hepatitis C virus 34 15 0.441176471
39591 ITRVESENKVVILDSFDPLVAEEDEREISVPAEILRKSRRFAQALPVWARPDYNP Hepatitis C virus 34 15 0.441176471
40790 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKDRRSTGKSWGKPGYPW Hepatitis C virus 34 15 0.441176471
88657 TAKRRLARGSPPSLASSSASQLSAPSLKATCTTHHDSPDVDLIEANLLWRQEMGG Hepatitis C virus 34 15 0.441176471
88046 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKARRPEGRAWAQPGYPW Hepatitis C virus 34 15 0.441176471
88028 SVPAEILRKSRRFTQALPIWARPDYNPPLIETWKKPNYEPPVVHGCPLPPPQSPPV Hepatitis C virus 34 15 0.441176471
87632 ATCTTRHDSPDADLFFIANLLWRQEMGGNLTRVESENKVVILDSFEPLQAEEDEREV Hepatitis C virus 34 15 0.441176471
68136 ITRVESENKIVILDSFDPLVAEEDDREISVPAEILLKSKKFPPAMPIWARPDYNP Hepatitis C virus 34 15 0.441176471
39269 SIPSEYMLPKKRRPPALPAWARPDYNPPLVESWKRPDYQPATVAGCALPPPKKTPT Hepatitis C virus 34 15 0.441176471
68135 ATCTTHHDSPDADLITANLLWRQEMGGNITRVESENKIVTLDSFDPLVAEEDDRE Hepatitis C virus 34 15 0.441176471
88834 VIVGRIILSGKPAVVPDREVLYQEFDEMEECASHLPYIEQGMQLAEQFKQKALGL Hepatitis C virus 34 15 0.441176471
88230 QIVGGVYLLPRRGPRLGVRTTRKTSERSQPRGRRQPIPKDRRSTGKAWGKPGRPW Hepatitis C virus 34 15 0.441176471
88659 ITRVESENKVVILDSFDPLRAEEDEREPSVAAEILRKTKRFPPAMPIWARPDYNP Hepatitis C virus 34 15 0.441176471
87833 ATCTAKHDSPDAELIEANLLWRQEMGGNITRVESENKVVILDSFDPLVAEEDEREV Hepatitis C virus 34 15 0.441176471
68137 SVPAEILLKSKKFPPAMPIWARPDYNPPLVEPWKRPDYEPPLVHGCPLPPPKPTPV Hepatitis C virus 34 14 0.411764706
87835 SVPAEILRKSRRFAPALPVWARPDYNPLLVETWKKPDYEPPVVHGCPLPPPRSPPV Hepatitis C virus 34 14 0.411764706
39512 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKARRPEGRTWAQPGYPW Hepatitis C virus 34 14 0.411764706
88306 SIPSECMLPRSGFPRALPAWARPDYNPPLVESWRRPDYQPPTVAGCALPPPKKAPT Hepatitis C virus 34 14 0.411764706
59919 DEDELSVAAECFKKPPKYPPALPIWARPDYNPPLVEPWKDPDYVPPTVHGCALPP Hepatitis C virus 34 14 0.411764706
17936 GSQLPCEPEPDVAVLTSMLTDPSHITAESARRRLARGSRPSLASSSASQLSPRLL Hepatitis C virus 34 14 0.411764706
20049 CTTAGKHDAELIEANLLWRQEVGGNITRVESENKIIVLDSFDPLIAETDDREISV Hepatitis C virus 34 14 0.411764706
88208 ITRVESENKVVILDSFDPIRAVEDEREISVPAEILRKPRKFPPALPIWARPDYKP Hepatitis C virus 34 14 0.411764706
87964 QPRGRRQPIPKVRRPEGRTWAQPGYPWPLYGNEGCGWAGWLLSPRGSRPSWGPTD Hepatitis C virus 34 14 0.411764706
88026 ATCTINHDSPDAELIEANLLWRRQEMGGNITRVESENKVVILDSFDPLVAEEDERE Hepatitis C virus 34 14 0.411764706
88851 TAKRRLARGSPPSLASSSASQLSALSLKAACTTRHTPPDADLIEANLLWRQEMGG Hepatitis C virus 34 14 0.411764706
88126 SVAAEILRKSRKFPSALPIWARPDYNPPLLESWKDPDYVPPWHGCPLPPTKAPP Hepatitis C virus 34 14 0.411764706
39376 VTRIESDSKVIVLDSLDSMTEVEDDREPSVPSEYLIKRRKFPPALPPWARPDYNP Hepatitis C virus 34 13 0.382352941
87963 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKVRRPEGRTWAQPGYPW Hepatitis C virus 34 13 0.382352941
68134 TAARRLNRGSPPSLASSSASQLSAPSLKATCTTHHDSPDADLITANLLWRQEMGG Hepatitis C virus 34 13 0.382352941
88027 ITRVESENKVVILDSFDPLVAEEDEREISVPAEILRKSRRFTQALPIWARPDYNP Hepatitis C virus 34 13 0.382352941
87631 TAKRRLARGSPPSLASSSASQLSAPSLKATCTTRHDSPDADLIEANLLWRQEMGG Hepatitis C virus 34 13 0.382352941
39484 ITRVESENKVVVLDSFDPLRAEEDEREVSVPAEILRKSKKFPAAMPIWARPDYNP Hepatitis C virus 34 13 0.382352941
67844 QPRGRRQPTPKARPREGRSWAQPGYPWPLYGNEGCGWAGWLLPPRGSRPSWGQND Hepatitis C virus 34 13 0.382352941
88125 ITRVESENKVVILDSFEPLHAEGDEREISVAAEILRKSRKFPSALPIWARPDYNP Hepatitis C virus 34 13 0.382352941
40765 VDATTYTTGGNAARTTQALTSFFSPGAKQDIQLINTNGSWHINRTALNCNASLDT Hepatitis C virus 34 13 0.382352941
19865 QPRGRRQPIPKARPSQGRTWGQPGYPWPLYGNEGCGWAGWLMSPRGSRPSWGPND Hepatitis C virus 34 13 0.382352941
59810 PSLKATCTTHADHPDAELVEANLLWRQEMGGNITRVESENKIVILDSFEPLKAEF Hepatitis C virus 34 13 0.382352941
39513 QPRGRRQPIPKARRPEGRTWAQPGYPWPLYGNEGCGWAGWLLSPRGSRPSWGPTD Hepatitis C virus 34 13 0.382352941
88680 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKARQPTGRSWGQPGYPW Hepatitis C virus 34 13 0.382352941
67921 QLSAPSLKATCQTHRPHPDAELIDANLLWRQEMGSNITRVESETKVVILDSFEPL Hepatitis C virus 34 13 0.382352941
88855 LLEPWKDPDYVPPVVHGCPLPPVKAPPIPPPRRKRTVVLTESTVSSALAELATKT Hepatitis C virus 34 13 0.382352941
88500 QIVGGVYVLPRRGPRLGVRATRKTSERSQPRGRRQPIPKARRSEGRSWAQPGYPW Hepatitis C virus 34 12 0.352941176
68026 LNSYAIGSQLPCEPEPDVSVLTSMLRDPSHITAETAARRLARGSPPSEASSSASQ Hepatitis C virus 34 12 0.352941176
77064 SVPSEYLLPKKKFPQALPVWARPDYNPPVVETWKRPDYDPPTVSGCALPPRVTAPT Hepatitis C virus 34 12 0.352941176
17831 KATCTIQGHHPDADLIKANLLWRQCMGGNITRVEAENKVEILDCFKPLKEEEDDR Hepatitis C virus 34 12 0.352941176
20050 RVESENKIIVLDSFDPLIAETDDREISVGAECFNPPRPKFPPALPVWARPDYNPP Hepatitis C virus 34 12 0.352941176
19944 DDREISVSAECHRPPRPKFPPALPIWARPDYNPPLLQKWQMPGYEPPVVSGCALP Hepatitis C virus 34 12 0.352941176
88752 ETAKRRLDRGSPPSLASSSASQLSAPSLKATCTTQGHHPDADLIEANLLWRQCMG Hepatitis C virus 34 12 0.352941176
88568 SAPSLKATCQTHRPHPDAELVDANLLWRQEMGSNITRVESETKVVVLDSFEPLRA Hepatitis C virus 34 11 0.323529412
88852 AACTTRHTPPDADLIEANLLWRQEMGGNITRVESENKVVILDSFDPLRAEEDERE Hepatitis C virus 34 11 0.323529412
88111 VIVGRIILSGKPAVVPDREVLYQEFDEMEECASQLPYIEQGMQLAEQFKQKALGL Hepatitis C virus 34 11 0.323529412
19972 QPRGRRQPIPKARRQTGRTWAQPGYPWPLYGNEGCGWMGWLLSPRGSRPHWGPND Hepatitis C virus 34 11 0.323529412
39297 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKDRRSTGKSWGKPGYPW Hepatitis C virus 34 11 0.323529412
20262 EAAARRLARGSPPSLASSSASQLSAPSLKATCTMHGAHPDAELIEANLLWRQEMG Hepatitis C virus 34 11 0.323529412
88644 VIVGRIILSGRPAVIPDREVLYREFDEMEECASHLPYIEQGMQLAEQFKQKALGL Hepatitis C virus 34 11 0.323529412
88567 LHSYTIGSQLPCEPEPDVSVLTSMLRDPSHITAETAARRLARGSPPSEASSSASQ Hepatitis C virus 34 11 0.323529412
39381 TAASEAGSLSSMPPLEGEPGDPDLEFEPVGSAPPSEGECEVIDSDSKSWSTVSDQ Hepatitis C virus 34 11 0.323529412
88753 KATCTTQGHHPDADLIEANLLWRQCMGGNITRVEAENKVVILDSFEPLKADDDDR Hepatitis C virus 34 11 0.323529412
20158 EPSVPAECHRPNRPKFPPALPIWARPDYNPPLLETWKKPDYAPPLVHGCALPSPV Hepatitis C virus 34 11 0.323529412
39406 QPRGRRQPIPKARRPEGRTWAQPGYPWPLYGNEGLGWAGWLLSPRGSRPSWGPTD Hepatitis C virus 34 11 0.323529412
20159 NPPLLETWKKPDYAPPLVHGCALPSPVQPPVPPPRRKSVVHLDDSTVATALAELA Hepatitis C virus 34 11 0.323529412
88399 VTRIESPSKVIVLPSLDSMTEVEDDREPSVPSEYLTRRRKFPPALPPWARPDYNP Hepatitis C virus 34 11 0.323529412
40816 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKDRRSTGKSWGKPGYPW Hepatitis C virus 34 11 0.323529412
39485 SVPAEILRKSKKFPAAMPIWARPDYNPPLLESWKDPDYVPPVVHGCPLPPIKAPP Hepatitis C virus 34 11 0.323529412
17833 ISVSADCFKKGPAFPPALPVWARPGYDPPLLETWKRPDYDPPQVWGCPIPPAGPP Hepatitis C virus 34 11 0.323529412
59918 EMGSNITRVESESKVVILPSFEPLRACDDEDELSVAAECFKKPPKYPPALPIWAR Hepatitis C virus 34 11 0.323529412
17832 NITRVEAENKVEILDCFKPLKEEEDDREISVSADCFKKGPAFPPALPVWARPGYD Hepatitis C virus 34 11 0.323529412
39571 VIVGRVVLSGKPAIIPDREVLYREFDEMEECSQHLPYIEQGMMLAEQFKQKALGL Hepatitis C virus 34 10 0.294117647
88656 RLHRYAPACKPLLREEVTFQVGLNQYLVGSQLPCEPEPDVAVLTSMLTDPSHITA Hepatitis C virus 34 10 0.294117647
17935 RIHRHAPKCKPLLRDEVSFSVGLNSFVVGSQLPCEPEPDVAVLTSMLTDPSHITA Hepatitis C virus 34 10 0.294117647
17754 QPRGRRQPIPKARRPTGRSWGQPGYPWPLYANEGLGWAGWLLSPRSSRPNWGPND Hepatitis C virus 34 10 0.294117647
68138 LVEPWKRPDYEPPLVHGCPLPPPKPTPVPPPRRKRTVVLDESTVSSALAELATKT Hepatitis C virus 34 10 0.294117647
87920 VIVGRIILGGKPAVIPDREVLYREFDEMEECAAHVPYLEQGMHLAGQFKQKALGL Hepatitis C virus 34 10 0.294117647
39268 VTRIESESKVVVLDSLDPMVEERSDLEPSIPSEYMLPKKRFPPALPAWARPDYNP Hepatitis C virus 34 10 0.294117647
20265 MSVPAECHRPRRPKFPPALPIWATPGYNPPVLETWKSPTYEPPVVHGCALPPSGPP Hepatitis C virus 34 10 0.294117647
88754 NITRVEAEKKVVILDSFEPLKADDDDREISVSADCFRRGPAFPPALPIWARPGYD Hepatitis C virus 34 10 0.294117647
49413 QPRGRRQPIPKARRPEGRAWAQPGYPWPLYGNEGLGWAGWLLSPRGSRPSWGPTD Hepatitis C virus 34 10 0.294117647
39265 SFVVGSQLPCDPEPDTDVLTSMLTDPSHITAETAARRLARGSPPSEASSSASQLSA Hepatitis C virus 34 10 0.294117647
87635 LLESWKDPDYVPPVVHGCPLPPAKAPPIPPPRRKRTVVLSESTVSSALAELATKT Hepatitis C virus 34 10 0.294117647
59705 PPDEPDDSEAGSVSSMPPLEGEPGDPDLEPEQVEHPAPPQEGGAAPGSDSGSWST Hepatitis C virus 34 10 0.294117647
68028 SAPSLKATCQTHRPHPDAELVDANLLWRQEMGSNITRVESETKVVILPSFEPLRA Hepatitis C virus 34 10 0.294117647
88231 QPRGRRQPIPKDRRSTGKAWGKPGRPWPLYGNEGLGWAGWLLSPRGSRPSWGPTD Hepatitis C virus 34 10 0.294117647
59622 QPRGRRQPIPKDRRSTGKSWGRPGYPWPLYRNEGLGWAGWLLSPRGSRPSWGPSD Hepatitis C virus 34 10 0.294117647
59621 QIVGGVYLLPRRGPRLGVRAARKTSERSQPRGRRQPIPKPRRSTGKSWGRPGYPW Hepatitis C virus 34 10 0.294117647
88569 QEMGSNITRVESETKVVVLDSFEPLRAETDDVEPSVAAECFKKPPKYPPALPIWA Hepatitis C virus 34 10 0.294117647
87633 ITRVESEKKVVILDSFEPLQAEEDEREVSVPAEILRRSRKFPRAMPIWARPDYNP Hepatitis C virus 34 10 0.294117647
20052 LQPWKAPDYEPPLVHGCALPPKGLPPVPPPRKKRVVQLDEGSAKRALAELAQTSF Hepatitis C virus 34 10 0.294117647
17943 EPSSDRDTDLTTPTETTPSGPIVVDDASDDGSYSSMPPLEGEPGDPDLTSDSWST Hepatitis C virus 34 9 0.264705882
67910 ICAAVLRRHVGPGEGAVQWMNRLIAFASRGNHVSPTHYVPESDAAAKVTALLSSL Hepatitis C virus 34 9 0.264705882
40800 YPGAITGHRMAWPMMMNWSPTATMILAYAMRVPEVIIDIISGAHWGVMFGLAYFSM Hepatitis C virus 34 9 0.264705882
57110 QPRGRRQPIPKARQPQGRHWAQPGYPWPLYGNEGCGWAGWLLSPRGSRPHWGPND Hepatitis C virus 34 9 0.264705882
68034 SKVLPSPGEESDSESCSSMPPLEGEPGDPDLSCDSWSTVSDSEEQSVVCCSMSYS Hepatitis C virus 34 9 0.264705882
20264 NITRVESENKVVILDSFDPLVPEFEEREMSVPAECHRPRRPKFPPALPIWATPGY Hepatitis C virus 34 9 0.264705882
56984 PRGRRQPIPKARRPKGRNWAQPGYPWPLYGNEGCGWAGWLPSPRGSRPSWGPND Hepatitis C virus 34 9 0.264705882
68141 EAESYSSMPPLEGEPGDPDLSDGSWSTVSSDGGTEDVVCCSMSYSWTGALITPCAA Hepatitis C virus 34 9 0.264705882
20157 GNITRVESENKVIVLDSFDPLVPEYDDREPSVPAECHRPNRPKFPPALPIWARPDY Hepatitis C virus 34 9 0.264705882
39190 QPRGRRQPIPKDRRSTGKSWGKPGYPWPLYGNEGLGWAGWLLSPRGSRPSWGPND Hepatitis C virus 34 9 0.264705882
88759 KRDDDSDAASYSSMPPLEGEPGDPDLSSGSWSTVSDEDSVVCCSMSYSWTGALIT Hepatitis C virus 34 9 0.264705882
40791 QPRGRRQPIPKDRRSTGKSWGKPGYPWPLYGNEGLGWAGWLLSPRGSRPSWGPND Hepatitis C virus 34 9 0.264705882
88213 DVESYSSMPPLEGEPGDPDLSDGSWSTVSGEAGEDVVCCSMSYTWTGALITPCAA Hepatitis C virus 34 9 0.264705882
57188 EMGGNITRVESENKVVVLDSFEPLTAEYDEREISVSAECHRPPRHKFPPALPIWA Hepatitis C virus 34 9 0.264705882
88849 RLHRYAPACKPLLREEVSFQVGLNQYVVGSQLPCEPEPDVAVLTSMLTDPSHITA Hepatitis C virus 34 9 0.264705882
88122 GSQLPCEPEPDVTVLTSMLTDPSHITAETAKRRLARGSPPSLASSSASQLSAPSL Hepatitis C virus 34 9 0.264705882
59812 DREISVAAECHRPPRFKYPPALPVWARPDYNPPLLETVVKAPDYDPPVVSGCALPP Hepatitis C virus 34 9 0.264705882
87921 EECAAHVPYLEQGMHLAGQFKQKALGLLQTASKQAETITPTVRTNWQKLESFWAK Hepatitis C virus 34 9 0.264705882
20186 QPRGRRQPIPKARQPIGRSWGQPGYPWPLYGNEGCGWAGWLLSPRGSRPNWGPND Hepatitis C virus 34 9 0.264705882
88023 RLHRFAPPCKPLLREEVSFRVGLHDYPVGSQLPCEPEPDVAVLTSMLTDPSHITAA Hepatitis C virus 34 9 0.264705882
67927 AESGDSPETGEESDVESYSSMPPLEGEPGDPDLDADSWSTVSDSEEQSVVCCSMS Hepatitis C virus 34 9 0.264705882
87566 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKARQPEGRAWAQPGYPW Hepatitis C virus 34 9 0.264705882
39377 SVPEYLIKRRKFPPALPPWARPDYNPVLIETWKRPGYEPPTVLGCALPPTPQTPV Hepatitis C virus 34 9 0.264705882
17830 ETAKRRLNRGSPPSLANSSASQLSAPSLKATCTLQGHHPDADLIKANLLWRQCMG Hepatitis C virus 34 8 0.235294118
17834 PLLETWKRPDYDPPQVWGCPIPPAGPPPVPLPRRKRKPMELSDSTVSQVMADLADA Hepatitis C virus 34 8 0.235294118
19942 APSLKATCTANGDHPDAELIEANLLWRQEMGSNITRVESETKVVILDSFDPLVAE Hepatitis C virus 34 8 0.235294118
87816 VIVGRIVLSGKPAIIPDREVLYQEFDEMEECSQHLPYIEQGMMLAEQFKQKALGL Hepatitis C virus 34 8 0.235294118
88210 LLESWKDPDYVPPVVHGCPLPSTKAPPIPPPRRKRTVVLTESTVSSALAELATKT Hepatitis C virus 34 8 0.235294118
87935 RLHRYAPPCKPLLREEVTFSIGLNEYLVGSQLPCEPEPDVAVLTSMLTDPSHITA Hepatitis C virus 34 8 0.235294118
68140 GSSTTSGVTSGHAAESSPAPSCDGELDSEAESYSSMPPLEGEPGDPDLSDGSWST Hepatitis C virus 34 8 0.235294118
59733 QPRGRRQPIPKARRQTGRAWGQPGYAWPLYGKEGCGWAGWLLSPRGSRPTWGPND Hepatitis C virus 34 8 0.235294118
88121 RLHRYAPACKPLLREDVTFQVGLNQYLVGSQLPCEPEPDVTVLTSMLTDPSHITA Hepatitis C virus 34 8 0.235294118
57185 SNYAIGSQLPCEPEPDVTVVTSMLTDPTHITAETASRRLKRGSPPSLASSSASQLS Hepatitis C virus 34 8 0.235294118
59701 EREPSIPSEYLLPKSRFPPALPPWARPDYNPPLLETWKRPDYQPPVVAGCALPPP Hepatitis C virus 34 8 0.235294118
88423 QIVGGVYVLPRRGPTLGVRATRKTSERSQPRGRRQPIPKARRPEGRAWAQPGYPW Hepatitis C virus 34 8 0.235294118
88835 EECASHLPYIEQGMQLAEQFKQKALGLLQTATKQAEAAAPVVESKWRTLEAFWAN Hepatitis C virus 34 8 0.235294118
87832 AAGRRLARGSPPSMASSSASQLSAPSLKATCTANHDSPDAELIEANLLWRQEMGG Hepatitis C virus 34 8 0.235294118
39489 DVESYSSMPPLEGEPGDPDLSDGSWSTVSEEASEDVVCCSMSYTWTGALITPCAA Hepatitis C virus 34 8 0.235294118
88397 SLVVGSQLPCDPEPDTEVLASMLTDPSHITAETAARRLARGSPPSQASSSASQLS Hepatitis C virus 34 8 0.235294118
20054 PSTATLSEDSGRETSTLSSDMTPPREEADRASDDGSYSSMPPLEGEPGDPDLSSGS Hepatitis C virus 34 8 0.235294118
39380 SPLQDNNDSGHSTGADTGGDIVQQPSDETAASEAGSLSSMPPLEGEPGDPDLEFE Hepatitis C virus 34 8 0.235294118
87839 DVESYSSMPPLEGEPGDPDLSDGSWSTVSSGADTEDVVCCSMSYSWTGALVTPCAA Hepatitis C virus 34 8 0.235294118
76985 QPRGRRQPIPKDRRSAGKSWGRPGYPWPLYGNEGLGWAGWLLSPRGSRPSWGPTD Hepatitis C virus 34 8 0.235294118
88032 DAESYSSMPPLEGEPGDPDLSDGSWSTVSSEAGTEDVVCCSMSYTWTGALITPCAA Hepatitis C virus 34 8 0.235294118
17919 VIVGRVVLSGQPAVIPDREVLYQQFDEMEECSKHLPLVEHGLQLAEQFKQKALGL Hepatitis C virus 34 8 0.235294118
88661 LLESWKDPDYVPPVVHGCPLPPTKAPPIPPPRRKRTVVLTESTVSSALAELATKT Hepatitis C virus 34 8 0.235294118
88310 PAPSETGSASSMPPLEGEPGDPDLESDQVELQPPPQGGGVAPGSGSGSWSTCSEE Hepatitis C virus 34 8 0.235294118
59816 PSAEDDDASDADSYSSMPPLEGEPGDPDLSDGGGSGSWSTVSSEETSVVCCSMSY Hepatitis C virus 34 7 0.205882353
88574 SKVPPSPGGESDSESCSSMPPLEGEPGDPDLSCDSWSTVSDSEEQSVVCCSMSYSW Hepatitis C virus 34 7 0.205882353
59811 MGGMTRVESENKIVILDSFEPLKAEFDDREISVAAECHRPPRFKYPPALPVWAR Hepatitis C virus 34 7 0.205882353
39593 LVETWKKPDYEPPVVHGCPLPPPKSPPVPPPRKKRTVVLTESTLSTALAELATRS Hepatitis C virus 34 7 0.205882353
19941 HITAETASRRLKRGSPPSLASSSASQLSAPSLKATCTANGDHPDAELEANLLWR Hepatitis C virus 34 7 0.205882353
19943 EMGSNITRVESETKVVILDSFDPLVAEYDDREISVSAECHRPPRPKFPPALPIWA Hepatitis C virus 34 7 0.205882353
59917 APSRKATCTTHGRFIPDAELITANLLWRQEMGSNITRVESESKVVILDSFEPLRAC Hepatitis C virus 34 7 0.205882353
88403 SPLQDTNDSGHSTGADTGGDSVQQPSGETAASDAGSLSSMPPLEGEPGDPDLEFE Hepatitis C virus 34 7 0.205882353
77068 STDSEAGSDSSMPPLEGEPGDPDLESGSVEYHPSSQEGEAAPDLDSGSWSTCSEE Hepatitis C virus 34 7 0.205882353
88755 ISVSADCFRRGPAFPPALPIWARPGYDPPLLETWKQPDYDPPQVSGCPLPPAGLP Hepatitis C virus 34 7 0.205882353
77060 SFVVGSQLPCEPEPDTEVLASMLTDPSHITAEAAARRLARGSPPSEASSSASQLSA Hepatitis C virus 34 7 0.205882353
88025 AAGRRLARGSPPSEASSSASQLSAPSLKATCTINHDSPDAELIEANLLWRQEMGG Hepatitis C virus 34 7 0.205882353
87634 SVPAEILRRSRKFPRAMPIWARPDYNPPLLESWKDPDYVPPVVHGCPLPPAKAPP Hepatitis C virus 34 7 0.205882353
87619 VIVGRIILSGKPAIIPDREVLYREFDEMEECASHLPYIEQGMQLAEQFKQKAIGL Hepatitis C virus 34 7 0.205882353
57177 HVSPTHYVPETDASKNVTQILTSLTITSLLRRLHQWVNEPTATPCATSWLRDVWDW Hepatitis C virus 34 7 0.205882353
39273 LALSETGSISSMPPLEGEPGDPDLEPEQVELQPPPQGGVVTPGSGSGSWSTCSEE Hepatitis C virus 34 7 0.205882353
59697 SYVVGSQLPCEPEPDTEVLASMLTDPSHITAEAAARRLARGSPPSAASSSASQLS Hepatitis C virus 34 7 0.205882353
39587 RLHRFAPPCKPLLREEVSFRVGLHEYPVGSQLPCEPEPDVAVLTSMLTDPSHITA Hepatitis C virus 34 7 0.205882353
87637 GSSESSAVDSGTATASPDQPSDDGDAGSDVESYSSMPPLEGEPGDPDLSDGSWST Hepatitis C virus 34 7 0.205882353
17837 KRDDNSDAASYSSMPPLEGEPGDPDLSSGSWSTVSGEDNVVCCSMSYTWTGALIT Hepatitis C virus 34 7 0.205882353
68132 RLHRYAPPCKPLLRDEVTFSIGLNEYLVGSQLPCEPEPDVAVLTSMLTDPSHITA Hepatitis C virus 34 7 0.205882353
59920 DYNPPLVEPWKDPPYVPPTVHGCALPPQKLPPVPPPRRKRTIVLSESTVSKALASD Hepatitis C virus 34 7 0.205882353
57189 DEREISVSAECHRPPRHKFPPALPIWARPDYNPPLLQAWQMPGYEPPVVSGCAVA Hepatitis C virus 34 7 0.205882353
55758 RFKADTQSIEGQDSAVGTSSQPDSGPEEKRDDDSDAASYSSMPPLEGEPGDPDLS Hepatitis C virus 34 7 0.205882353
59700 MGGNMTRIESESKVLMVDSFPPVVDKEPEREPSIPSEYLLPKSRFPPALPPWARPD Hepatitis C virus 34 7 0.205882353
39199 YPGTITGHRMAWDMMMNWSPTATMILAYAMRVPEVIIDIIGGAHWGVMFGLAYFSM Hepatitis C virus 34 7 0.205882353
87836 LVETWKKPDYEPPVVHGCPLPPPRSPPVPPPRKKRTVVLTESTLPTALAELATKS Hepatitis C virus 34 7 0.205882353
39405 QIVGGVYLLPRRGPRLGVRAPRKTSERSQPRGRRQPIPKARRPEGRTWAQPGYPW Hepatitis C virus 34 7 0.205882353
20154 AIGSQLPCEPEPDVTVVTSMLVDPSHLTAEAAARRLARGSPPSCASSLASQLSAP Hepatitis C virus 34 7 0.205882353
88232 LYGNEGLGWAGWLLSPRGSRPSWGPTDPRHRSRNVGKVIDTLTCGFAPLMGYIPVV Hepatitis C virus 34 7 0.205882353
59702 YNPPLLETWKRPDYQPPVVAGCALPPPGTTPVPPPRRRRAVVLPQSNVGEALKELA Hepatitis C virus 34 7 0.205882353
87746 DPTTPEDAGSEAESYSSMPPLEGEPGDPDLSSGSWSTVSDEDDVVCCSMSYSWTGA Hepatitis C virus 34 7 0.205882353
68031 PDYNPPLLDRWKSPDYVPPTVHGCALPPKGVPPVPPPRRKRTIQLDGSNVSAALAA Hepatitis C virus 34 6 0.176470588
88112 EECASQLPYIEQGMQLAEQFKQKALGLLQTATKQAEAAAPVVESKWRALETFWAK Hepatitis C virus 34 6 0.176470588
20268 TFETPSSPTTGYGSDQPDHSTESSEHDRDDGVASEAESYSSMPPLEGEPGDPDLSS Hepatitis C virus 34 6 0.176470588
88841 HVDPGEGAVQWMNRLIAFASRGNHVSPTHYVPESDAAARVTQILSGLTITQLLRR Hepatitis C virus 34 6 0.176470588
88780 QIVGGVYLLPRRGPRLGVRATRKTWERSQPRGRRQPIPKARQPEGRAWAQPGYPW Hepatitis C virus 34 6 0.176470588
59839 QIVGGVYVLPRRGPKLGVRAVRKTSERSQPRSRRQPIPRARRTEGRSWAQPGYPW Hepatitis C virus 34 6 0.176470588
39480 RLHRYAPACRPLLREEVTFQVGLNQYLVGSQLPCEPEPDVAVLTSMLTDPSHITA Hepatitis C virus 34 6 0.176470588
88613 NWTRGERCNLEDRDRLELSPLLLSTTEWQVLPCSFTTLPALSTGLIHLHQNIVDV Hepatitis C virus 34 6 0.176470588
17939 ETDEKVIILDSFESCVAEQNDDREVSVAAEILRPTKKFPPALPIWARPDYNPPLT Hepatitis C virus 34 6 0.176470588
39407 LYGNEGLGWAGWLLSPRGSRPSWGPTDPRRRSRNLGKVIDTLTCGFADLMGYIPLV Hepatitis C virus 34 6 0.176470588
88127 LLESWKDPDYVPPVVHGCPLPPTKAPPIPPPRRKRTVVLTESNVSSALAELATKT Hepatitis C virus 34 6 0.176470588
17940 AEILRPTKKFPPALPIWARPDYNPPLTETWKQQDYQAPTVHGCALPPAKQPPVPSP Hepatitis C virus 34 6 0.176470588
87740 PSLRATCTTSQKHPEMELLQANLLWKHEMGSHIPRVQSENKVVVLDSFELYPLEY Hepatitis C virus 34 6 0.176470588
88487 PPPRKKRTVVLTESTVSSALAELATKTFGSSGSSAVDSGTATAPPDQTSDDGDKES Hepatitis C virus 34 6 0.176470588
88485 SVAAEILRKSKKFPPALPIWARPDYNPPLLESWKSPDYVPPAVHGCPLPPTTGPP Hepatitis C virus 34 6 0.176470588
19940 LEFVVGSQLPCEPEPPVTVVTSMLTDPSHITAETASRRLKRGSPPSLASSSASQL Hepatitis C virus 34 6 0.176470588
39596 DAESYSSMPPLEGEPGDPDLSDGSWSTVSSEANAEDVVCCSMSYSWTGALVTPCAA Hepatitis C virus 34 6 0.176470588
59808 TYVVGSQLPCEPEPDVLVVTSMLRDPDHITAEEASRRLKRGSPPSLASSSASQLSA Hepatitis C virus 34 6 0.176470588
39588 GSQLPCEPEPDVAVLTSMLTDPSHITAEAAGRRLARGSPPSVASSSASQLSAPSL Hepatitis C virus 34 6 0.176470588
88483 ATCTTHHDSPDADLIEANLLWRQEMGGNITRVESENKVVILDSFDPLRAEEDERE Hepatitis C virus 34 6 0.176470588
88744 RHIGPGEGAVQWMNRLIAFASRGNHVSPTHYVPETDASAKVTQLLSSLTVTSLLK Hepatitis C virus 34 6 0.176470588
88199 VIVGRIILSGRPAVIPDREVLYQEFDEMEECASHLPYIEQGMQLAEQFKQKALGL Hepatitis C virus 34 6 0.176470588
19948 PDPTTADDTCSDAGSFSSMPPLEGEPGDPDLSTGSWSTVSEEDDVVCCSMSYTWT Hepatitis C virus 34 6 0.176470588
39373 SFVVGSQLPCDPEPDTEVLASMLTDPSHITAEAAARRLARGSPPSQASSSASQLSA Hepatitis C virus 34 6 0.176470588
88054 YPGHLSGHRMAWDMMMNWSPTTALVVSQLLRIPQTVVDMVTGAHWGVLAGLAYYSM Hepatitis C virus 34 6 0.176470588
87943 EAESYSSMPPLEGEPGDPDLSDGSWSTVSSDGGTEDVVCCSMSYSWTGALITPCA Hepatitis C virus 34 6 0.176470588
57118 CGSLFLAGQLFTFQPRRHWTVQECNCSIYTGHVTGHRMAWDMMMSWSPTTTLVLSS Hepatitis C virus 34 6 0.176470588
40826 YQGHITGHRMAWDMMLNWSPTLTMILAYAARVPELVLEVVFGGHWGVVFGLAYFSM Hepatitis C virus 34 6 0.176470588
87837 PPPRKKRTVVLTESTLPTALAELATKSFGSSSTSGITGDNTTTSSEPAPSGCPPDS Hepatitis C virus 34 6 0.176470588
57169 QFDEMEECSRHIPYLAEGQQIAEQFRQKVLGLLQASAKQAEELKPAVHSAWPRME Hepatitis C virus 34 6 0.176470588
68116 VIVGRIILSGKPAVIPDREVLYREFDEMEECAAHIPYLEQGMHLAEQFKQKALGL Hepatitis C virus 34 6 0.176470588
20162 EGEDTPSEAGSYSSMPPLEGEPGDPDLSSGSWSTVSEEGDSVVCCSMSYSWTGAL Hepatitis C virus 34 6 0.176470588
20048 ARRLARGSPPSLASSSASQLSAPSLKATCTTAGKHPDAELIEANLLWRQEVGGN Hepatitis C virus 34 6 0.176470588
20161 KSFPTQPASTPDSDSGHPTTSKSSDQADEGEDTPSEAGSYSSMPPLEGEPGDPDLS Hepatitis C virus 34 6 0.176470588
88681 QPRGRRQPIPKARQPTGRSWGQPGYPWPLYANEGLGWAGWLLSPRGSRPNWGPND Hepatitis C virus 34 5 0.147058824
59849 YPGHLTGHRMAWDMMMNWSPAMTLIVSQVLRLPQTMFDLVIGAHWGVMAGVAYYSM Hepatitis C virus 34 5 0.147058824
88024 GSQLPCEPEPDVAVLTSMLTDPSHITAAAAGRRLARGSPPSEASSSASQLSAPSL Hepatitis C virus 34 5 0.147058824
39298 QPRGRRQPIPKDRRSTGKSWGKPGYPWPLYGNEGCGWAGWLLSPRGSRPTWGPTD Hepatitis C virus 34 5 0.147058824
77063 VTRIESETKVLILDSLDPSVEEEDEREPSVPSEYLLPKKKFPQALPVWARPDYNP Hepatitis C virus 34 5 0.147058824
88801 NWTRGERCDLEDRDRSELSPLLLSTTEWQILPCSFTGLPALSTGLIHLHQNVVDV Hepatitis C virus 34 5 0.147058824
39594 PPPRKKRTVVLTESTLSTALAELATRSFGSSSTSGITGDNTTTSSEPAPSGCPPDS Hepatitis C virus 34 5 0.147058824
57186 HITAETASRRLKRGSPPSLASSSASQLSAPSLKATCTTSKDHPDMELIEANLLWR Hepatitis C virus 34 5 0.147058824
39487 PPPRRKRTVVLTESSVSSALAELATKTFGSSESSAVDSGTATALPDQASDDGDKG Hepatitis C virus 34 5 0.147058824
88601 YPGHVSGHRMAWDMMMNWSPTTALVVSQLLRIPQAIVDMVAGAHWGVLAGLAYYSM Hepatitis C virus 34 5 0.147058824
88029 LIETWKKPNYEPPVVHGCPLPPPQSPPVPPPRKKRTVVLTESTLSTALAELAAKS Hepatitis C virus 34 5 0.147058824
57191 PKPAPIPPPRRKRLVHLDESTVSRALAQLADKVFVEGSSDPGPSSDSGLSITSPD Hepatitis C virus 34 5 0.147058824
17944 DDGSYSSMPPLEGEPGDPDLTSDSWSTVSGSEDVVCCSMSYSWTGALVTPCAAEE Hepatitis C virus 34 5 0.147058824
88440 NWTRGERCDLEDRDRSELSPLLLSTTEWQTLPCSFTTLPALSTGLIHLHQNIVDV Hepatitis C virus 34 5 0.147058824
19873 CGAVFLAGQLATFSPRIHDITQDCNCSVYTGHVTGHRMAWDMMMNWSPTTTLVLSS Hepatitis C virus 34 5 0.147058824
39414 CGSVTLVSQLFTFSPRRHVTLQDCNCSIYPGHVSGHRMAWDMMMNWSPTTALVVS Hepatitis C virus 34 5 0.147058824
19864 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKARPSQGRTWGQPGYPW Hepatitis C virus 34 5 0.147058824
88571 PDYNPPLLDRWKAPDYVPPTVHGCALPPRGAPPVPPPRRKRTIQLDGSNVSAALAA Hepatitis C virus 34 5 0.147058824
88489 DVESYSSMPPLEGEPGDPDLSDGSWSTVSGEASDDIVCCSMSYTWTGALITPCAA Hepatitis C virus 34 5 0.147058824
57193 PAPTTPDDACSEAESYSSMPPLEGEPGDPDLSSGSWSTVSDQDDVVCCSMSYSWT Hepatitis C virus 34 5 0.147058824
88206 RLHRYAPVCKPLLREEVVFQVGLNQYLVGSQLPCEPEPDVAVLTSMLTDPSHITA Hepatitis C virus 34 5 0.147058824
87974 HINSTALNCNESLNTGWLAGLIYQHKFNSSGCPERLASCRRLTDFDQGWGPISHA Hepatitis C virus 34 5 0.147058824
40777 TGIVRFFAPGPKQNVHLINTNGSWHINSTALNCNDSLNTGW Hepatitis C virus 34 5 0.147058824
68071 HINRTALNCNESLDTGWLAGLLYYHKFNSSGCPERMASCQPLTAFDQGWGPITHE Hepatitis C virus 34 5 0.147058824
39526 HLNSTALNCNDSLNTGWLAGLFYHHKKNSSGCPERLASCRPLTDFDQGWGPISYA Hepatitis C virus 34 5 0.147058824
88756 PLLETWKQPDYDPPQVSGCPLPPAGLPPWPPRRKRKPVVLSDSNVSQVLADLAHA Hepatitis C virus 34 5 0.147058824
57168 SVGCVVICGRITLTGKPAVVPDREILYQQFDEMEECSRHIPYLAEGQQIAEQFRQK Hepatitis C virus 34 5 0.147058824
87663 QIVGGVYLLPRKGPRLGVRATRKTSERSQPRGRRQPIPKARQPQGRHWAQPGYPW Hepatitis C virus 34 5 0.147058824
67951 QPRGRRKPIPKARRSEGRSWAQPGYPWPLYGNEGCGWAGWLLSPRGSRPNWAPND Hepatitis C virus 34 5 0.147058824
20266 PPVLETWKSPTYEPPVVHGCALPPSGPPPIPPPRRKKVVQLDSSNVSAALAQLAAK Hepatitis C virus 34 5 0.147058824
59921 KLPPVPPPRRKRTIVLSESTVSKALASLAEKSFPQPTCSAEDESTSGVGTQSGSL Hepatitis C virus 34 5 0.147058824
87636 PPPRRKRTVVLSESTVSSALAELATKTFGSSESSAVDSGTATASPDQPSDDGDAG Hepatitis C virus 34 5 0.147058824
39534 NWTRGERCDLEDRDRSELSPLLLTTTQWQVLPCSFTTLPALSTGLIHLHQNIVDV Hepatitis C virus 34 5 0.147058824
20079 QPRGRRQPIPKARQSQGRHWAQPGYPWPLYGNEGCGWAGWLLSPRGSRPNWGPND Hepatitis C virus 34 5 0.147058824
59809 ITAEEASRRLKRGSPPSLASSSASQLSAPSLKATCTTHADHPDAELVEANLLWRQ Hepatitis C virus 34 5 0.147058824
87738 NYAVGSQLPCEPEPDVTVVTSMLTDPTHITAETAARRLKKGSPPSLASSSANQLSA Hepatitis C virus 34 5 0.147058824
68027 SHITAETAARRLARGSPPSEASSSASQLSAPSLKATCQTHRPHPDAELVDANLLW Hepatitis C virus 34 5 0.147058824
87862 CGSVFLVSQLFTFSPRRYETVQDCNCSIYPGHVSGHRMAWDMMMNWSPTAALVVS Hepatitis C virus 34 4 0.117647059
88079 NWTRGERCNLEDRDRSELSPLLLSTTEWQILPCAFTTLPALSTGLMLHQNIVDV Hepatitis C virus 34 4 0.117647059
39586 YVTGMTTDNLKCPCQVPSPEFFTELDGVRLHRFAPPCKPLLREEVSFRVGLHEYPV Hepatitis C virus 34 4 0.117647059
39427 NWTRGERCDLEDRDRPELSPLLLSTTEWQVLPCSFTTLPALSTGLIHLHQNIVDV Hepatitis C virus 34 4 0.117647059
19923 TVGCVVICGRIVTSGKPAVVPDREVLYQQFDEMEECSKHIPYLVEGQQIAEQFKQK Hepatitis C virus 34 4 0.117647059
88030 PPPRKKRTVVLTESTLSTALAELAAKSFGSSSTSGITGDNTTTSSEPAPSGCSPDS Hepatitis C virus 34 4 0.117647059
88751 VGSQLPCEPEPDVTVLTSMLSDPAHITAETAKRRLDRGSPPSLASSSASQLSAPS Hepatitis C virus 34 4 0.117647059
87817 EECSQHLPYIEQGMMLAEQFKQKALGLLQTASRHAEVITPAVQTNWQKLEVFWAK Hepatitis C virus 34 4 0.117647059
39488 GSSESSAVDSGTATALPDQASDDGDKGSDVESYSSMPPLEGEPGDPDLSDGSWST Hepatitis C virus 34 4 0.117647059
88471 VIVGRIILSGRPAVVPDREVLYREFDEMEECASHLPYIEQGMQLAEQFKQKALGL Hepatitis C virus 34 4 0.117647059
59916 HITVETAKRRLDRGSPPSLASSSASQLSAPSRKATCTTHGRHPDAELITANLLWR Hepatitis C virus 34 4 0.117647059
39522 YPGHITGHRMAWDMMMNWSPTTALVMAQLLRIPQAILDMIAGAHWGVLAGIAYFSM Hepatitis C virus 34 4 0.117647059
20261 VGSQLPCEPEPDVTVVTSMLIDPSHVTAEAAARRLARGSPPSLASSSASQLSAPS Hepatitis C virus 34 4 0.117647059
39415 YPGHVSGHRMAWDMMMNWSPTTALVVSQLLRIPQAVVDMVAGAHWGVLAGLAYYSM Hepatitis C virus 34 4 0.117647059
40818 LYGNEGCGWAGWLLSPRGSRPTWGPTDPRHRSRNLGKVIDTLTCGFADLMGYIPVV Hepatitis C virus 34 4 0.117647059
59732 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKARRQTGRAWGQPGYAW Hepatitis C virus 34 4 0.117647059
40766 QDIQLINTNGSWHINRTALNCNASLDTGW Hepatitis C virus 34 4 0.117647059
88401 VIETWKRPDYEPPTVLGCALPPTPQAPVPPPRRRRARVLTQDNVEGVLREMADKV Hepatitis C virus 34 4 0.117647059
67920 DPAHITAATAARRLARGSPPSEASSSASQLSAPSLKATCQTHRPHPDAELIDANL Hepatitis C virus 34 4 0.117647059
68029 QEMGSNITRVESETKVVILDSFEPLRAETDDAELSAAAECFKKPPKYPPALPIWA Hepatitis C virus 34 4 0.117647059
88693 AQGARGLASLFTPGPQQNLQLINTNGSWHINRTALNCNDSLQTGFVAGLLYYHKF Hepatitis C virus 34 4 0.117647059
39191 LYGNEGLGWAGWLLSPRGSRPSWGPNDPRHRSRNVGKVIDTLTCGFADLMGYIPVV Hepatitis C virus 34 4 0.117647059
67924 ARPDYNPPLLPSWKDPTYEPPAVHGCALPPTRPAPVPPPRRKRTIKLDGSNVSAA Hepatitis C virus 34 4 0.117647059
39211 TAACNFTRGDRCNLEDRDRSQLSPLLHSTTEWAILPCTYSDLPALSTGLLHLHQN Hepatitis C virus 34 4 0.117647059
88690 YSGHITGHRMAVVDMMMNWSPTTALVMAQLLRIPQVVIDIIAGAHWGVLFAAAYYAS Hepatitis C virus 34 4 0.117647059
20078 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKARQSQGRHWAQPGYPW Hepatitis C virus 34 4 0.117647059
88662 PPPRRKRTVVLTESTVSSALAELATKTFGSSGSSAVDSGTATAPPDQASDDGDQG Hepatitis C virus 34 4 0.117647059
57119 YTGHVTGHRMAWDMMMSWSPTTTLVLSSILRVPEICASVIFGGHWGILLAVAYFGM Hepatitis C virus 34 4 0.117647059
87630 RLHRYAPACKPLLREEVTFLVGLNQYLVGSQLPCEPEPDVAVLTSMLTDPSHITA Hepatitis C virus 34 4 0.117647059
20047 QLPCEPEPDVVILTSMLTDPDHITAETAARRLARGSPPSLASSSASQLSAPSLKA Hepatitis C virus 34 4 0.117647059
87620 EECASHLPYIEQGMQLAEQFKQKAIGLLQTATKQAEAAAPVVESKWRTLEAFWAK Hepatitis C virus 34 4 0.117647059
49421 CGSVFLVSQLITFSPRRYETVQDCNCSLYPGHVSGHRMAWDMMMNWSPTAALVVS Hepatitis C virus 34 4 0.117647059
20137 CVVVCGRISTTGKPVLIPDREVLYQQFDEMEECSRHIPYLVEGQHLAEQFKQKVL Hepatitis C virus 34 4 0.117647059
59840 QPRSRRQPIPRARRTEGRSWAQPGYPWPLYGNEGCGWAGWLLSPRGSRPSWGPND Hepatitis C virus 34 4 0.117647059
17775 CNWTYGERCDLEDRDRAELSPLLHTTTQWAILPCSFTPTPALSTGHHLHQNIVD Hepatitis C virus 34 4 0.117647059
59861 FNAACNWTRGERCNLEDRDRSEMYPLLHSTTEQALLPCSFVPIPALSTGLIHLHQ Hepatitis C virus 34 4 0.117647059
88600 CGSVFLVSQLFTFSPRRHETIQDCNCSIYPGHVSGHRMAWDMMMNWSPTTALVVS Hepatitis C virus 34 4 0.117647059
39378 LIETWKRPGYEPPTYEGCALPPTPQTPVPPPRRRRAKVLTQDNVEGVLREMADKV Hepatitis C virus 34 4 0.117647059
87838 GSSSTSGITGDNTTTSSEPAPSGCPPDSDVESYSSMPPLEGEPGDPDLSDGSWSTV Hepatitis C virus 34 4 0.117647059
17941 TWKQQDYQAPTVHGCALPPAKQPPVPSPRRKRTVQLTESVVSTALAELAAKTFGQS Hepatitis C virus 34 4 0.117647059
88240 YPGTITGHRMAWDMMMNWSPTATMILAYVMRVPEVIIDIVSGAHWGVMFGLAYFSM Hepatitis C virus 34 4 0.117647059
68079 NWTRGERCDLDDRDRAELSPLLLSTTQWQVLPCSFTTLPALSTGLIHLHQNIVDV Hepatitis C virus 34 4 0.117647059
68059 LYGNEGCGWAGWLLSPRGSRPSWGPSDPRRRSRNLGKVIDTLTCGFADLMGYIPL Hepatitis C virus 34 4 0.117647059
68139 PPPRRKRTVVLDESTVSSALAELATKTFGSSTTSGVTSGEAAESSPAPSCDGELD Hepatitis C virus 34 4 0.117647059
17753 QIVGGVYLLPRRGPKLGVRATRKNSERSQPRGRRQPIPKARRPTGRSWGQPGYPW Hepatitis C virus 34 4 0.117647059
88856 PPPRRKRTVVLTESTVSSALAELATKTFGSSESSAAGSGTATAPPDQPSDDGDAGS Hepatitis C virus 34 4 0.117647059
87936 GSQLPCEPEPDVAVLTSMLTDPSHITAETAARRLKRGSPPSLASSSASQLSAPSL Hepatitis C virus 34 4 0.117647059
88858 DVESCSSMPPLEGEPGDPDLSDGSWSTVSEEDGEGVICCSMSYTWTGALITPCAA Hepatitis C virus 34 4 0.117647059
87941 PPPRRKRTVVLDESTVSSALAELATKTFGSSTTSGVTSGEATESSPAPSCGGELDS Hepatitis C virus 34 4 0.117647059
88404 TAASDAGSLSSMPPLEGEPGDPDLEFEPARSAPPSEGECEVIDSDSKSWSTVSDQ Hepatitis C virus 34 4 0.117647059
87845 DSVTPIDTTIMAKNEVFCVQPEKGGRKPARLIVTPDLGVRVCEKMALYDVVSKLP Hepatitis C virus 34 3 0.08235294
19924 QRDEMEECSKHIPYLVEGQQLAEQFKQKVLGLLQAGTKHAEELKPAIHSTWPRVE Hepatitis C virus 34 3 0.08235294
87777 HINSTALNCNESLNTGWLAGLFYQHKFNSSGCPERLASCRRLTDFAQGWGPISYA Hepatitis C virus 34 3 0.08235294
20269 DDGVASEAESYSSMPPLEGEPGDPDLSSGSWSTVSEEGDSVVCCSYSYSWTGALV Hepatitis C virus 34 3 0.08235294
20055 DRASDDGSYSSMPPLEGEPGDPDLSSGSWSTVSEDHDSVVCCSMSYSWTGALITP Hepatitis C virus 34 3 0.08235294
20053 PPRKKRVVQLDEGSAKRALAELAQTSFPPSTATLSEDSGRETSTLSSDMTPPREEA Hepatitis C virus 34 3 0.08235294
88789 CGSVFLVSQLFTFSPRRYETVQDCNCSIYPGHVTGHRMAWDMMMNWSPTTALVVS Hepatitis C virus 34 3 0.08235294
88488 GSSGSSAVDSGTATAPPDQTSDDGDKESDVESYSSMPPLEGEPGDPDLSDGSWST Hepatitis C virus 34 3 0.08235294
67852 AFGAVSLVGQAFTFRPRQHKTVQTCNCSIYPGHVSGHRMAWDMMMNWSPAIGLVI Hepatitis C virus 34 3 0.08235294
39272 GQPPPSGDSGLSTGADAADSGSRTPPDELALSETGSISSMPPLEGEPGDPDLEPE Hepatitis C virus 34 3 0.08235294
88857 GSSESSAAGSGTATAPPDQPSDDGDAGSDVESCSSMPPLEGEPGPPPLSDGSVVST Hepatitis C virus 34 3 0.08235294
59815 AEKSFPATPDQPQTNSDSGHGTNGAASLPSAEDDDASDADSYSSMPPLEGEPGDP Hepatitis C virus 34 3 0.08235294
40817 QPRGRRQPIPKDRRSTGKSWGKPGYPWPLYGNEGCGWAGWLLSPRGSRPTWGPTD Hepatitis C virus 34 3 0.08235294
68067 YPGHVTGHRMAWDMMMNWSPTGALVVAQLLRIPQAIVDMIAGAHWGVLAGLAYYSM Hepatitis C virus 34 3 0.08235294
87753 SKGGRKPARLIVYPDLGVRVCEKMALYDVTQKLPQAVMGPAYGFQYSPNQRVEYL Hepatitis C virus 34 3 0.08235294
89513 DYNPPLLETWKAPDYDPPVVSGCALPPQGLPPVPPPRRKKLVQLDDSVVGHVLAQI Hepatitis C virus 34 3 0.08235294
88764 RSKYGYGAKEVRSLDKKALNHIKGVWQDLLDDSDTPLPTTIMAKNEVFAVEPSKG Hepatitis C virus 34 3 0.08235294
88067 CGSIFLVSQLFTFSPRRHETVQDCNCSIYPGHVSGHRMAWDMMMNWSPTTALVVS Hepatitis C virus 34 3 0.08235294
88702 CNWTRGERCDLEDRDRAELSPLLHTTTQWAILPCSFTPTPALSTGLIHLHQNIVD Hepatitis C virus 34 3 0.08235294
88167 NWTRGERCDLEDRDRSELSPLLLSTTEWQILPCSFTTLPALSTGLIHLHRNIVDV Hepatitis C virus 34 3 0.08235294
59791 VGSVVICGRITTSSRPAVIPDREVMYQQYDEMEECSRHLPYVEGQQLAEQFKQNV Hepatitis C virus 34 3 0.08235294
59792 YDEMEECSRHLPYLVEGQQLAEQFKQNVLGLIQVTTKQAEELKPAVHSAWPKLEQ Hepatitis C virus 34 3 0.08235294
87877 CGSIFLVGQLFTLSPRRHWTTQDCNCISIYPGHVTGHRMAWDMMMNWSPTGALVVA Hepatitis C virus 34 3 0.08235294
88579 VDPAKGGRKPARLIVYPDLGVRVCEKRALYDVIQKLSIETMGPAYGFQYSPQQRV Hepatitis C virus 34 3 0.08235294
39478 SPAPNYSRALWRVAAEEYVEVTRVGDFHYVTGMTTDNVKCPCQVPAPEFFSEVDGV Hepatitis C virus 34 3 0.08235294
59915 NSYVIGSQLPCEPEPDVAVVTSMLQDPSHITVETAKRRLDRGSPPSLASSSASQL Hepatitis C virus 34 3 0.08235294
88155 CGSVFLVSQLFTFSPRRYETVQDCNCSIYPGHVSGHRMAWDMMMNWSPTTALVVS Hepatitis C virus 34 3 0.08235294
67922 WRQFMGSNITRVESETKVVILDSFEPLRAEEDDTELSIPAKCFKKPPKYPPALPIW Hepatitis C virus 34 3 0.08235294
20260 VRLHRYAPRCKPLLRDEVSFSVGLSSYAVGSQLPCEPEPDVTVVTSMLIDPSHVTA Hepatitis C virus 34 3 0.08235294
88036 DSVTPIQTTIMAKNEVFCVQPEKGGRKPARLIVFPDLGVRVCEKMALYDVVSKLP Hepatitis C virus 34 3 0.08235294
87643 TETPIDTTIMAKNEVFCVQPEKGGRKPARLIVFPDLGVRVCEKMALYDVVSTLPQA Hepatitis C virus 34 3 0.08235294
19971 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKARRQTGRTWAQPGYPW Hepatitis C virus 34 3 0.08235294
88480 SPAPNYSRALWRVAAEEYVEITRVGDFHYVTGMTTDNVKCPCQVPAPEFFTELDGV Hepatitis C virus 34 3 0.08235294
87639 ETKLPINALSNSLLRHHNLVYATTSRSASLRQKKVTFDRLQVLDDHYRDVLKEMK Hepatitis C virus 34 3 0.08235294
88482 RLHRYAPACRPLLREDVTFQVGLNQYLVGSQLPCEPEPDVAVLTSMLTDPSHITA Hepatitis C virus 34 3 0.08235294
57200 PSKGGRKPARLIVYPDLGVRVCEKMALYDVTRKLPQAVMGSAYGFQYSPNQRVEY Hepatitis C virus 34 3 0.08235294
88302 SYAVGSQLPCEPEPDADVLRSMLTPPPHITAETAARRLARGSPPSEASSSVSQLSA Hepatitis C virus 34 3 0.08235294
59704 IKSFGCPPPSGDPGHSTGGGTTGETSKSPPDEPDDSEAGSVSSMPPLEGEPGDPD Hepatitis C virus 34 3 0.08235294
88612 HYPCTANFTIFKVRMYVGGVEHRLDAACNWTRGERCNLEDRDRLELSPLLLSTTEW Hepatitis C virus 34 3 0.08235294
88472 EECASHLPYIEQGMQLAEQFKQKALGLLQTATKQAEAAAPVVESRWRALEAFWAK Hepatitis C virus 34 3 0.08235294
88124 ATCTTHHDSPDADLIEANLLWRQEMGGNITRVESENKVVILDSFEPLHAEGDERE Hepatitis C virus 34 3 0.08235294
19946 AKPTPIPPPRRKRLIQLDESAVSQALQQLADKVFVEDTSTSEPSSGLGGSIAGPSS Hepatitis C virus 34 3 0.08235294
87745 ADKVFVESSNDPGPSSDSGLSITSPVPPDPTTPEDAGSEAESYSSMPPLEGEPGD Hepatitis C virus 34 3 0.08235294
87744 KPAPVPPPRRKRLVHLDESTVSHALAQLADKVFVESSNDPGPSSDSGLSITSPVP Hepatitis C virus 34 3 0.08235294
39307 YQGHITGHRMAWDMMLSWSPTLTMILAYAARVPELVLEIIFGGHWGVVFGLAYFSM Hepatitis C virus 34 3 0.08235294
88129 GSSGSSAVDSGTATALPDLASDDGDKGSDVESYSSMPPLEGEPGDPDLSDGSWST Hepatitis C virus 34 3 0.08235294
87721 VGCVVICGRITLTGKPAVVPDREILYQQFDEMEECSRHIPYLAEGQQIAEQFRQKV Hepatitis C virus 34 3 0.08235294
87743 DNNPPFIQAWQMPGYEPPVVSGCAVAPPKPAPVPPPRRKRLVHLDESTVSHALAQ Hepatitis C virus 34 3 0.08235294
68147 DNTTPIDTTIMAKNEVFCVKPEKGGRKPARLIVYPDLGVRVCEKRALYDVVKQLP Hepatitis C virus 34 3 0.08235294
56997 HVNRTALNCNDSLNTGWIAGLFYYHGFNSSGCSERLASCRSLTDFDQGWGPISYA Hepatitis C virus 34 3 0.08235294
19945 PDYNPPLLQKWQMPGYEPPVVSGCALPPAKPTPIPPPRRKRLIQLDESAVSQALQ Hepatitis C virus 34 3 0.08235294
67959 CGPVFLVGQAFTFRPRRHRTVQTCNCSLYPGHLSGQRMAWDMMMNWSPAVGMVVA Hepatitis C virus 34 3 0.08235294
20244 VVICGRISTSGKPVLIPDREVLYQQFDEMEECSRHIPYLAEGHLIAEQFKQKVLG Hepatitis C virus 34 3 0.08235294
88128 PPPRRKRTVVLTESNVSSALAELATKTFGSSGSSAVDSGTATALPDLASDDGDKG Hepatitis C virus 34 3 0.08235294
19955 PSKGGRKPARLIVYPDLSVRVCEKMALYDVTQKLPKTVMGSAYGFQYSPSQRVEY Hepatitis C virus 34 3 0.08235294
57005 NWTRGERCDLEDRDRSELSPLLLSTTQWQVLPCSFTTLPALSTGLIHLHQNIVDV Hepatitis C virus 34 3 0.08235294
88847 SPAPNYSRALWRVAAEEYVEVRRVGDFHYVTGMTTDNVKCPCQVPAPEFFTEVDGV Hepatitis C virus 34 2 0.58823529
39311 HINRTALNCNDSLQTGFLASLFYTHKFNSSGCPERLSSCRGLDDFRIGWGTLEYE Hepatitis C virus 34 2 0.58823529
68048 MTRYSAPPGDAPQPTYDLELITSCSSNVSVARDDKGKRYYYLTRDATTPLARAAW Hepatitis C virus 34 2 0.58823529
87642 GYGAKDVRNLSSKAVNHIRSVWKDLLEDTETPIDTTIMAKNEVFCVQPEKGGRKPA Hepatitis C virus 34 2 0.58823529
39493 KASTVKAKLLSVEEACKLTPPHSAKSKFGYGAKDVRNLSSKAVNHIHSVWKDLLE Hepatitis C virus 34 2 0.58823529
67929 SWTGAIITPCSAEEEKLPISPLSNSLLRHHNLVYSTSSRSAAARQKKVTFDRLQV Hepatitis C virus 34 2 0.58823529
88040 QCCDLDPQARVAIRSLTERLYVGGPLTNSRGENCGYRRCRASGVLTTSCGNTLTCY Hepatitis C virus 34 2 0.58823529
88035 FGYGAKDVRCHARKAVNHINSVWKDLLEDSVTPIQTTIMAKNEVFCVQPEKGGRK Hepatitis C virus 34 2 0.58823529
39494 GYGAKDVRNLSSKAVNHIHSVWKDLLEDTVTPIDTTIMAKNEVFCVQPEKGGRKPA Hepatitis C virus 34 2 0.58823529
39495 TVTPIDTTIMAKNEVFCVQPEKGGRKPARLIVFPDLGVRVCEKMALYDVVSTLPQV Hepatitis C virus 34 2 0.58823529
87638 SEEASEDVVCCSMSYTWTGALITPCAAEETKLPINALSNSLLRHHNLVYATTSRSA Hepatitis C virus 34 2 0.58823529
57004 HYPCTINHSIFKVRMYVGGVEHRLDAACNWTRGERCDLEDRDRSELSPLLLSTTQW Hepatitis C virus 34 2 0.58823529
20274 ARSKFGYGAKDVRSHASKAINHINSVWADLLEDTQTPIPTTIMAKNEVFCVDASK Hepatitis C virus 34 2 0.58823529
39319 SAACNFTRGDRCRLEDRDRGQQSPLLHSTTEWAVLPCSFSDLPALSTGLLHLHQ Hepatitis C virus 34 2 0.58823529
17882 NWTRGEVCGLEHRDRVELSPLLLTTTAWQILPCSFTTLPALSTGLIHLHQNIVDV Hepatitis C virus 34 2 0.58823529
20060 SKFGYGAKEVRGLASKAVNHINSVWEDLLEDNSTPIPTTIMAKNEVFCVDAQKGG Hepatitis C virus 34 2 0.58823529
59623 LYRNEGLGWAGWLLSPRGSRPSWGPSDPRHKSRNLGKVIDTLTCGFADLMGYIPVV Hepatitis C virus 34 2 0.58823529
67925 PPTRPAPVPPPRRKRTIKLDGSNVSAALLALAERSFPSTKPEGTGTSSSGVGTEST Hepatitis C virus 34 2 0.58823529
39464 VIVGRIILSGRPAIVPDRELLYQEFDEMEECASHLPYIEQGMQLAEQFKQKALGL Hepatitis C virus 34 2 0.58823529
87586 NWTRGERCNLEDRDRSELSPLLLESTTEWQVLPCSFTTLPALSTGLIHLHQNTVVDV Hepatitis C virus 34 2 0.58823529
19886 FDAACKWTRGDRCDLYDRDRIEMSPLLFSTTQLAILPCSFTTMPALSTGLIHLHQN Hepatitis C virus 34 2 0.58823529
57198 PSHSARSKYGYGAQDVRSHASKAINHIRSVWEDLLEDSDTPIPTTIMAKNEVFCV Hepatitis C virus 34 2 0.58823529
87824 RVGPGEGAVQWMNRLIAFASRGNHVSPTHYVPESDAAARVTAILSSLTVTQLLRR Hepatitis C virus 34 2 0.58823529
39228 TKSLEPCTCGAVDLYLVTRNADVIPARRRGDKRGALLSPRPLSTLKGSSGGPVLC Hepatitis C virus 34 2 0.58823529
88506 CGAVFLVGQAFTFRPRRHQTVQTCNCSLYPGHLSGHRMAWDMMMNWSPAVGMVVA Hepatitis C virus 34 2 0.58823529
20275 DLLEDTQTPIPTTIMAKNEVFCVDASKGGRKSARLIVYPDLGVRVCEKRALFDVT Hepatitis C virus 34 2 0.58823529
77066 PPPRRRRALVLSQSNVGEALQALAIKSFGQLPPSCDSGRSTGMDTTDATDQPALK Hepatitis C virus 34 2 0.58823529
67930 HHNLVYSTSSRSAAARQKKVTFDRLQVLDDHVKNVLKEVKERASGVKGRLLSFEE Hepatitis C virus 34 2 0.58823529
59643 QAACNFTRGDRCNLEDRDRSQLSPLLHSTTEWAILPCSYTDLPALSTGLLHLHQN Hepatitis C virus 34 2 0.58823529
68142 SSDGGTEDVVCCSMSYSWTGALITPCAAEETKLPINALSNSLLRHHNLVYSTTSR Hepatitis C virus 34 2 0.58823529
20030 CGRIVTSGKPVPLPDREVLYRQFDEMEECSRHIPYLAEGQQIAEQFKQKILGLLQN Hepatitis C virus 34 2 0.58823529
39276 INPLSNSLLRYHNKVYCTTSKSASLRAKKVTFDRMQALDAHYDSVLKDIKLAASK Hepatitis C virus 34 2 0.58823529
68133 GSQLPCEPEPDVAVLTSMLTDPSHITAETAARRLNRGSPPSLASSSASQLSAPSL Hepatitis C virus 34 2 0.58823529
88131 ESKLPINPLSNSLLRHHNMVYATTSRSASLRQKKVTFDRLQVLDDHYRDVLKEMKA Hepatitis C virus 34 2 0.58823529
17948 SRVKPRLLTTEEACDLTPPHSARSKFGVGKKDVRSHSRKAINHISSVWKDLLDDNN Hepatitis C virus 34 2 0.58823529
87844 FGYGAKDVRCHARKAVAHINSVWKDLLEDSVTPIDTTIMAKNEVFCVQPEKGGRK Hepatitis C virus 34 2 0.58823529
68143 EETKLPINALSNSLLRHHNLVYSTTSRSAGQRQKKVTFDRLQVLDDHYRDVLKEA Hepatitis C virus 34 2 0.58823529
39264 VDGVQIHRFAPIPKPFFRDEVSFCVGLNSFVVGSQLPCDPEPDTDVLTSMLTDPSP Hepatitis C virus 34 2 0.58823529
17927 HVGPGEGAVQWMNRLIAFASRGNHVSPTHYVPESDAARRVTTILSSLTVRSLLRR Hepatitis C virus 34 2 0.58823529
57108 MSTLPKPQRKTKRNTNRRPMDVKFPGGGQIVGGVYLLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 2 0.58823529
88605 HINRTALNCNDSLNTGFLAALFYTHKFNASGCPERLASCRPIDKFDQGWGPITYA Hepatitis C virus 34 2 0.58823529
39270 LVESWKRPDYQPATVAGCALPPPKKTPTPPPRRRRTVGLSESSIADALQQLAIKS Hepatitis C virus 34 2 0.58823529
87841 EEQKLPINALSNSLLRHHNLVYSTTSRSACQRKKKVTFDRLQVLDSHYQDVLKEV Hepatitis C virus 34 2 0.58823529
87869 QIVGGVCLLPRRGPRVGVRATRKTSERSQPRGRRQPIPKARRPEGRSWAQPGYPWP Hepatitis C virus 34 2 0.58823529
39278 TARLLTLEEACQLTPPHSARSKYGFGAKEVRSLSGRAVNHIKSVWKDLLEDTQTP Hepatitis C virus 34 2 0.58823529
87840 SSGADTEDVVCCSMSYSWTGALVTPCAAEEQKLPINALSNSLLRHHNLVYSTTSR Hepatitis C virus 34 2 0.58823529
56992 CGSVFLVGQLFTFSPRRHWTTQGCNCSIYPGHITGHRMAWDMMMNWSPTTALVVA Hepatitis C virus 34 2 0.58823529
17946 KLPLSPLSNSLLRHHNMVYATTTRSAVTRQKKVTFDRLQVVDSTYNEVLKEIKARA Hepatitis C virus 34 2 0.58823529
17937 SARRRLARGSRPSLASSSASQLSPRLLQATCTAPHDSPGTDLLEANLLWGSTATR Hepatitis C virus 34 2 0.58823529
17938 ATCTAPHDSPGTDLLEANLLWGSTATRVETDEKVIILDSFESCVAEQNDDREVSVA Hepatitis C virus 34 2 0.58823529
20271 PCAAEEEKLPINPLSNSLIRHHNLVYSTSSRSAATRQKKVTFDRVQLLDQHYYDT Hepatitis C virus 34 2 0.58823529
17942 RRKRTVQLTESVVSTALAELAAKTFGQSEPSSDRDTDLTTPTETTDSGPIWDDAS Hepatitis C virus 34 2 0.58823529
88490 SGEASDDIVCCSMSYTWTGALITPCAAEESKLPINALSNSLLRHHNMVYATTSRSA Hepatitis C virus 34 2 0.58823529
17949 GKKDVRSHSRKAINHISSVWKDLLDDNNTPIPTTIMAKNEVFAVNPAKGGRKPAR Hepatitis C virus 34 2 0.58823529
68146 FGYGAKDVRSHSSKAIRHINSVWQDLLEDNTTPIDTTIMAKNEVFCVKPEKGGRK Hepatitis C virus 34 2 0.58823529
59821 DLTPAHSARSKFGYGAKDVRGRTSKALNHINSVWEDLLEDNVTPIPTTIMAKNEV Hepatitis C virus 34 2 0.58823529
27199 SVWEDLLEDSDTPIPTTIMAKNEVFCVDPSKGGRKPARLIVYPDLGVRVCEKMALY Hepatitis C virus 34 2 0.58823529
87671 CGSLFLAGQLFAFQPRRHWTVQDCNCSIYTGHVTGHKMAWDMMMNWSPTTTLVLS Hepatitis C virus 34 2 0.58823529
68040 IRSVWEDLLEDTTTPIPTTIMAKNEVFCVDPAKGGRKAARLLVYPDLGVRVCEKRA Hepatitis C virus 34 2 0.58823529
87831 GSQLPCEPEPDVAVLTSMLTDPSHITAEAAGRRLARGSPPSMASSSASQLSAPSL Hepatitis C virus 34 2 0.58823529
39249 FDEMEECASRAALIEEGQRIAEMLKSKIQGLLQQASKQAQPIQPAVQASWPKVEQ Hepatitis C virus 34 2 0.58823529
39364 ILRRHVGQGEGAVQWMNRLIAFASRGNHVAPTHYVVESDASQRVTQVLSSLTITS Hepatitis C virus 34 2 0.58823529
88149 QPRGRRQPIPKARRPEGRTWAQPGYPWPLYGNEGMGWAGWLLSPRGSRPSWGPTD Hepatitis C virus 34 2 0.58823529
59822 HINSVWEDLLEDNVTPIPTTIMAKNEVFCVDVSKGGRKPARLIVYPDLSVRVCEKP Hepatitis C virus 34 2 0.58823529
87973 ARAMSGLVSLFTPGAKQNIQLINTNGSWHINSTALNCNESLNTGWLAGLIYQHKF Hepatitis C virus 34 2 0.58823529
17950 TPIPTTIMAKNEVFAVNPAKGGRKPARLIVYPDLGSRVCEKRALHDVIKKTALAVM Hepatitis C virus 34 2 0.58823529
59820 QHYYDTLKEMKARASTVSAKLLSVEEACDLTPAHSARSKFGYGAKDVRGRTSKAL Hepatitis C virus 34 2 0.58823529
20138 EMEECSRHIPYLVEGQHLAEQFKQKVLGLIQTTTRQAEEIEPVVHSAWPKLEQFW Hepatitis C virus 34 2 0.58823529
57190 PDYNPPLLQAWQMPGYEPPVVSGCAVAPPKPAPIPPPRRKRLVHLDESTVSRALA Hepatitis C virus 34 2 0.58823529
88053 CGSVFLVSQLFTFSPRRHETLQDCNCSIYPGHLSGHRMAWDMMMNWSPTTALVVS Hepatitis C virus 34 2 0.58823529
88346 HINRTALNCNDSLHTGFMAALFYANKFNSSGCPERLSSCRGLDDFRIGWGTLEYE Hepatitis C virus 34 2 0.58823529
88135 TETPIDTTIMAKSEVFCVQPEKGGRKPARLIVFPDLGVRVCEKMALYDVVSTLPQA Hepatitis C virus 34 2 0.58823529
88491 ESKLPINALSNSLLRHHNMVYATTSRSASLRQKKVTFDRLQVLDDHYRDVLKEMK Hepatitis C virus 34 2 0.58823529
56983 QIVGGVYLLPRRGPRLGVRATRKTSERSQPRGRRQPIPKARRPKGRNWAQPGYPWP Hepatitis C virus 34 2 0.58823529
88668 KASTVKAKLLSIEEACKLTPPHSARSKFGYGAKDVRNLSSKAVNHIRSVWKDLLE Hepatitis C virus 34 2 0.58823529
20160 PPVPPPRRKSVVHLDDSTVATALAELAEKSFPTQPASTPDSDSGHPTTSKSSQA Hepatitis C virus 34 2 0.58823529
20061 LEDNSTPIPTTIMAKNEVFCVDAQKGGRKPARLIVYPDLGVRVCEKRALYDVTQK Hepatitis C virus 34 2 0.58823529
87751 SHSARSKYGYGAQDVRSRASKAVDHIPSVWEGLLEDSDTPIPTTIMAKNEVFCVD Hepatitis C virus 34 2 0.58823529
88663 GSSGSSAVDSGTATAPPDQASDDGDQGSDVESYSSMPPLEGEPGDPDLSDGSWST Hepatitis C virus 34 2 0.58823529
67918 FFTELDGVRLHRYAPPCKPLLRDEITFSVGLHSYANGSQLSCEPEPDVAVLTSML Hepatitis C virus 34 2 0.58823529
20167 SARSKFGYGAKDVRSHTSKAINHINSVWEDLLEDNQTPIPTTIMAKNEVFCADVS Hepatitis C virus 34 2 0.58823529
20168 EDLLEDNQTPIPTTIMAKNEVFCADVSKGGRKPARLIVYPDLGVRVCEKRALYDVT Hepatitis C virus 34 2 0.58823529
88559 NHVSPTHYVPESDAAARVTALLSSLTVTSLLRRLHQWINEDYPSPCSDDWLRTIWI Hepatitis C virus 34 2 0.58823529
39572 EECSQHLPYIEQGMMLAEQFKQKALGLLQTASRQAEVIAPAVQTNWQKLETFWAK Hepatitis C virus 34 2 0.58823529
88860 ESKLPINALSNSLLRHHNMVYATTSRSASQRQKKVTIDRLQVLDDHYRDVLKEMKA Hepatitis C virus 34 2 0.58823529
87942 GSSTTSGVTSGEATESSPAPSCGGELDSEAESYSSMPPLEGEPGDPDLSDGSWSTV Hepatitis C virus 34 2 0.58823529
88398 ITAETAARRLARGSPPSQASSSASQLSAPSLKATCTTHKTAYDCDMVPANLFMGG Hepatitis C virus 34 2 0.58823529
88670 TETPIDTTVMAKSEVFCVQPEKGGRKPARLIVFPDLGVRVCEKMALYDVVSTLPQA Hepatitis C virus 34 2 0.58823529
88289 FDEMEECASRAALIEEGQRIAEMLKSKIQGLLQQASKQAQDIQPAMQASWPKVEQ Hepatitis C virus 34 2 0.58823529
17812 VAIVGRIILSGRPAITPDREVLYQQFDEMEECSASLPYVDEARAIAGQFKEKVLG Hepatitis C virus 34 2 0.58823529
59929 SVWEDLLEDNTTPIPTTIMAKNEVFAVAPHKGGRKPARLIVYPDLGVRICEKRALY Hepatitis C virus 34 2 0.58823529
59928 PSHSARSKFGYGAKEVRSLSSKAINHINSVWEDLLEDNTTPIPTTIMAKNEVFAVA Hepatitis C virus 34 2 0.58823529
40755 ETHVTGGIAAKTTASLTGLFNLGAKQNIQLINTNGSWHINRTALNCNDSLNTGW Hepatitis C virus 34 2 0.58823529
59925 ALITPCAAEEEKLPISPLSNSLLRHHNLVYSTSSRSAAQRQKKVTFDRLQVLDDH Hepatitis C virus 34 2 0.58823529
88762 SRSAGQRQKKVTKDRLQVLDDHYREVVDEMKRLASKVKARLLPLEEACGLTPPHSA Hepatitis C virus 34 2 0.58823529
17829 VGSQLPCEPEPDVTVLTSMLSDPAHITAETAKRRLNRGSPPSLANSSASQLSAPS Hepatitis C virus 34 2 0.58823529
88578 IRSVWEDLLEDTTTPIPTTIMAKNEVFCVDPAKGGRKPARLIVYPDLGVRVCEKRA Hepatitis C virus 34 2 0.58823529
59703 TTPVPPPRRRRAVVLDQSNVGEALKELAIKSFGCPPPSGDPGHSTGGGTTGETSKS Hepatitis C virus 34 2 0.58823529
39589 AAGRRLARGSPPSVASSSASQLSAPSLKATCTANHDSPDAELIEAKLLWRQEMGG Hepatitis C virus 34 2 0.58823529
17836 RFKVDTPSIEGQDSALGTSSQHDSGPEEKRDDNSDAASYSSMPPLEGEPGDPDLS Hepatitis C virus 34 2 0.58823529
88862 KASTVKAKLLSVEEACKLTPPHSARSKFGYGAKDVRNLSGKAINHIRSVWKDLLE Hepatitis C virus 34 2 0.58823529
87739 ITAETAARRLKKGSPPSLASSSANQLSAPSLRATCTTSQKHPEMELLQANLLWKH Hepatitis C virus 34 2 0.58823529
17762 CGALSLVGQMFTYKPRQHTTVQDCNCSIYSGHITGHRMAWDMMMKWSPTTALLMA Hepatitis C virus 34 2 0.58823529
19954 SVWEDLLEDNATPIPTTIMAKNEVFCVDPSKGGRKPARLIVYPDLSVRVCEKMALY Hepatitis C virus 34 2 0.58823529
19953 PPHSARSRYGYGARDVRSHTSKAVKHIDSVWEDLLEDNATPIPTTIMAKNEVFCV Hepatitis C virus 34 2 0.58823529
80307 MSTNPKPQRKKPNVTPTVAHRTSSSRVAVRSLVEFTCCRAGALDWVCARRGRLPS Hepatitis C virus 34 2 0.58823529
27689 MSTNPKPQKKKTNVTPTVAHRTSSSRVAVRSLVEFTCCRAGALDWVCARRERLPS Hepatitis C virus 34 2 0.58823529
20164 TPCAAEEEKLPINPLSNSLIRHHNLVYSTTTRSAAMRQKKVTFDRLQILPQHYNNV Hepatitis C virus 34 2 0.58823529
88863 GYGAKDVRNLSGKAINHIRSVWKDLLEDTETPIDTTIMAKNEVFCVQPEKGGRKPA Hepatitis C virus 34 2 0.58823529
88669 GYGAKDVRYLSSKAVNHIRSVWKDLLEDTETPIDTTVMAKSEVFCVQPEKGGRKPA Hepatitis C virus 34 2 0.58823529
88211 PPPRRKRTVVLTESTVSSALAELATKTFGSSGSSAVDSGTATGPPDQASDDGDKGS Hepatitis C virus 34 2 0.58823529
88252 TAACNFTRGDRCDLEDRDRSQLSPLLHSTTEWAILPCTYSPLPALSTGLLHLHQN Hepatitis C virus 34 2 0.58823529
39606 QCCDLDPQARVAIKSLTERLYVGGPLTNSRGENCGYRRCRASGVLTTSCGNTLTCY Hepatitis C virus 34 2 0.58823529
19937 SPSVPVPAPNYKRALWRVSAEEYVEVERHGDRHYVVGVTADGLKCPCQVPGPEFFT Hepatitis C virus 34 2 0.58823529
19936 KNGSMKITGPRMCSKTWHGTFPINATTTSPSVPYPAPNYKRALWRVSAEEYVEVER Hepatitis C virus 34 2 0.58823529
39602 DNVTPIDTTIMAKNEVFCVQPEKGGRKPARLIVFPDLGVRVCEKMALYDVVTKLP Hepatitis C virus 34 2 0.58823529
39601 FGYGAKDVRCHARKAVTHINSVWKDLLEDNVTPIDTTIMAKNEVFCVQPEKGGRK Hepatitis C virus 34 2 0.58823529
68018 NHVSPAHYVPESDAAARVTALLSSLTVTSLLRRLHQWINEDYPSPCSGDWLRIIW Hepatitis C virus 34 2 0.58823529
69598 EEQKLPINALSNSLLRHHNLVYSTTSRSACQRQKKVTFDRLQVLDSHYQDVLKEV Hepatitis C virus 34 2 0.58823529
87747 DLSSGSWSTVSDEDDVVCCSMSYSWTGALITPCAAEEEKLPINPLSNSLVRHHNM Hepatitis C virus 34 2 0.58823529
87676 INRTALNCNDSLQTGFLASLFYTHKFNSSGCPERMAACKPLAEFRQGWGQITHKN Hepatitis C virus 34 2 0.58823529
20088 YTGHITGHRMAWDMMMNWSPTVTFITSSLLRVPQLLLEIALEGHWGVIGALLYYSM Hepatitis C virus 34 2 0.58823529
67949 MSTLPKPQRKTKRNTIRRPQDVKFPGGGVIYVGVYVLPRRGPRLGVRATRKTSERS Hepatitis C virus 34 2 0.58823529
17839 CSAEEEKLPINPLSNTLLRHHNLVYSTSSRSAGLRQKKVTFDRLQVLDDHYREVV Hepatitis C virus 34 2 0.58823529
68032 KGAPPVPPPRRKRTIQLDGSNVSAALAALAEKSFPSSKPQEENSSSSGVDTQSSTA Hepatitis C virus 34 2 0.58823529
67903 LYQQYDEMEECSQSAPYIEQAQAIAQQFKDKVLGLLQRASQQEAEIRPIVQSQWQ Hepatitis C virus 34 2 0.58823529
87944 SSDGGTEDVVCCSMSYSWTGALITPCASEEAKLPINALSNSLLRHHNLVYSTTSR Hepatitis C virus 34 2 0.58823529
87672 YTGHVTGHKMAWDMMMNWSPTTTLVLSSILRVPEICASVIFGGHWGILLAVAYFGM Hepatitis C virus 34 2 0.58823529
88010 VIVGRIVLSGRPAIIPDREVLYREFDEMEECSQHLPYIEQGMMLAEQFKQKALGL Hepatitis C virus 34 2 0.58823529
39529 PVYCFTPSPVVVGTTDRSGAPTYSWGENDTDVFVLNNTRPPLGNWFGCTWMNSTG Hepatitis C virus 34 2 0.58823529
39525 GHTVSGFVSLLAPGAKQNVQLINTNGSWHLNSTALNCNDSLNTGWLAGLFYHHKF Hepatitis C virus 34 2 0.58823529
88011 EECSQHLPYIEQGMMLAEQFKQKALGLLQTASRQAEVIAPTVQTNWQKLEAFWAK Hepatitis C virus 34 2 0.58823529
57131 FDAACNWTRGERCELHDRDRIEMSPLLFSTTQLAILPCSFSTMPALSTGLIHLHQN Hepatitis C virus 34 2 0.58823529
59906 AILRRHVGPGEGAVQWMNRLIAFASRGNHVAPTHYVPESDAAAKVTALLSSLTVT Hepatitis C virus 34 2 0.58823529
59914 ELDGVRLHRYAPVCRPLLRDDVTFTVGLNSYVIGSQLPCEPEPDVAVVTSMLQDPS Hepatitis C virus 34 2 0.58823529
87776 GRTTAGLVGLLTPGAKQNIQLINTNGSWHINSTALNCNESLNTGWLAGLFYQHKF Hepatitis C virus 34 2 0.58823529
17843 LLDDSDTPLPTTIMAKNEVFAVEPSKGGKKPARLIVYPDLGVRVCEKRALYDVAQK Hepatitis C virus 34 2 0.58823529
88794 HINRTALNCNDSLQTGFLASLFYAHRFNASGCPERMASCRSIDKFDQGWGPITYT Hepatitis C virus 34 2 0.58823529
41587 PKNSIYLKSKSQQSTTKFTDAEHTTPILKFTTWQNTARTYMSHNTEVQNMTDRFQR Human herpesvirus 6A 32 17 0.53125
41586 TTNATQKIESTTFTTIGIKEINGNTYSSPKNSIYLDSKSQQSTTKFTDAEHTTPI Human herpesvirus 6A 32 14 0.4375
41583 DTIKVTPNTPTITTQTTESIKKIVKRSDFPRPMYTPTDIPTLTIRLNATIKTEQNT Human herpesvirus 6A 32 13 0.40625
60667 EPPAGILAGPQVKPQEKPPAEPPAGLPAGPQAKPPVKPQAKPPAEPVGILAGPQA Human herpesvirus 6A 32 7 0.21875
60711 KDDSDGTEAKHCFMNHFVPIKTDDEDYDKNNVSYIYNKIQNSKIDSGDIIPTKKL Human herpesvirus 6A 32 6 0.1875
46753 RDSVEGFIQEITPSIIDQNKLMLNRGQFRKRSAIDTGERDVLFKKQIIKCMEE Human herpesvirus 6A 32 6 0.1875
49297 TGTPFVLNNSDVAGSEAKHTTYSTETGVSPRNVFLIKDLRGKDGFRKQKQSDIPKS Human herpesvirus 6A 32 5 0.15625
42776 KMLKAIKSLDESYRRKPSSSESHASKPSLIDRIRYRGYKSVNVEEA Human herpesvirus 6A 32 5 0.15625
45798 RKEIQEAIEREKNSFAQLSNFIDKLGETPALPIESENVHKVHTSDITEGIVPRFIT Human herpesvirus 6A 32 4 0.125
41589 TTLKSSNELPTIQTLSVTPKQKLPSNVTAKTEVHITNNALPSSNSSYSITEVTKEV Human herpesvirus 6A 32 4 0.125
49308 FVPAQLMKVETPEEKDDIIEQMVLRIRQDGETDENTVSGPGVAESLDIEAKGESA Human herpesvirus 6A 32 4 0.125
41591 KHTRMSASTHEEINHTEIAQITPILNAHTSEKSTTPQRSFTAETFLTTSSKPAILT Human herpesvirus 6A 32 4 0.125
60668 GPQAKPPVKPQAKPPAEPPVGILAGPQAEPQAEPPAGILAEPPAEPPVGILAGPQV Human herpesvirus 6A 32 3 0.09375
41588 KFTTWQNTARTYMSHNTEVQNMTDRFQRTTLKSSNELPTIQTLSVTPKQKLPSNVT Human herpesvirus 6A 32 3 0.09375
41078 QYLLSKEMTWPSLDIARSKDYDHMRMKFHIYDAVETLMFTDSIENLPFQYRHFVI Human herpesvirus 6A 32 3 0.09375
49305 KILEVSNPQDMFKNFRLQNDLDSVQSPFRLPDADLSRELDSASFKDALDLKLPGN Human herpesvirus 6A 32 3 0.09375
70144 NSPDSLTIVRRKKHKSGSSSISSSIEENCRSNSHIVTGKEKFTPFYYQSSRTRSSS Human herpesvirus 6A 32 3 0.09375
42775 VAVSEKEEGMADVSGQVSDDEYSQEAALKMLKAIKSLDESYRRKPSSSESHASKP Human herpesvirus 6A 32 3 0.09375
49307 EREIDLALEKVKVGETETSDLKVGQDESFVPAQLMKVETPEEKDDIIEQMVLRIR Human herpesvirus 6A 32 3 0.09375
60597 TRGIKIMFSRHTQTDRSEVMCNAATQTGDVVDNSSETLFLGKNLVHQSILETEVKT Human herpesvirus 6A 32 3 0.09375
69846 EEYLNTLQNAPCLLLKPSVFRNIYSQEGK Human herpesvirus 6A 32 2 0.0625
41582 LTSPHIPSTNIPTPEPPPVTKNSTKLHTDTIKVTPNTPTITTQTTESIKKIVKRSD Human herpesvirus 6A 32 2 0.0625
70130 SADKNLTDNSPIRSNLNPTAFNKSNNNKSITNSTSNSDECTDKKPNCNSTKNESKD Human herpesvirus 6A 32 2 0.0625
60566 GLSLPQVIKRLNQNEGRASSRASSSHSTSTIPYSPPQSGRSTPTSILRQRAPIRS Human herpesvirus 6A 32 2 0.0625
49306 RLPDADLSRELDSASFKDALDLKLPGNGEREIDLALEKVKVGETETSDLKVGQDE Human herpesvirus 6A 32 2 0.0625
46652 KEESRFERMGKQDDGKGDRSHKNDDGSALASKQEMQYKITNYMVPAKNGTAGSSL Human herpesvirus 6A 32 2 0.0625
41590 AKTEVHITNNALPSSNSSYSITEVTKEVKHTRMSASTHEEINHTEIAQITPILNA Human herpesvirus 6A 32 2 0.0625
49303 QAGLGQRVNNLLSQFTNLISLGEKGIEDILQNQRGTELKLATENKSGRESEEANV Human herpesvirus 6A 32 2 0.0625
69857 SGSGEAAGEPGYEEEERRGRASTASATAATSTRGPTRPTRVTRKGRVATGGVHLSS Human herpesvirus 6A 32 2 0.0625
49302 DKEMTRNGQEPSRSLMGDARNAGDEQYIQAGLGQRVNNLLSQFTNLISLGEKGIE Human herpesvirus 6A 32 2 0.0625
41574 IKYTSDPLEAFKTVNRHNWSDEQREHFYDLRNLYTSFCQTNLSLDCFTQILTNVF Human herpesvirus 6A 32 2 0.0625
49309 DGETDENTVSGPGVAESLDIEAKGESAIAS Human herpesvirus 6A 32 2 0.0625
46481 TLTPNQGKSLRRRLHGKFCNHLTEQKAFFNIEKNIETIEKDLGEAILNYGTVQSVA Human herpesvirus 6A 32 2 0.0625
46653 LASKQEMQYKITNYMVPAKNGTAGSSLFNEKEDSESDDSMHFDYSSNPNPKRQRC Human herpesvirus 6A 32 2 0.0625
42774 NPVTTVSSVTGTTVVKTPSVKDVDGGTSVAVSEKEEGMADVSGQVSDDEYSQEAA Human herpesvirus 6A 32 2 0.0625
69823 NGTFPVVNTGNPRTTLNCAPQLFLLGGNPTIAHPMNGNNETPDKNVCKPTPSTGV Human herpesvirus 6A 32 2 0.0625
45708 VFTSWGTTLRFSNTKELIDAGLKQFTQDGEQTVKLAPHKTYLGISGQKISAVEKD Human herpesvirus 6A 32 2 0.0625
45709 GEQTVKLAPHKTYLGISGQKISAVEKDFLMLVDSVVTELSFSHVAEYLDSVYDPS Human herpesvirus 6A 32 2 0.0625
70145 CRSNSHIVTGKEKFTPFYYQSSRTRSSSSSSSSSSASLSCSKSTLKTCRKTQNRD Human herpesvirus 6A 32 2 0.0625
45851 TRPGKQTSETLTNKNLSEPKFKKPAVTGLMPKSQSIILSTDTNVPETSPDVKAKTA Human herpesvirus 6A 32 2 0.0625
49296 SNVSPPWSRNTAANADFLDPVHRFVPEQTGTPFVLNNSDVAGSEAKHTTYSTETG Human herpesvirus 6A 32 2 0.0625
49298 SPRNVFLIKDLRGKDGFRKQKQSDIPKSLTKCRNDKAIMHSREVTCDSGDATETV Human herpesvirus 6A 32 2 0.0625
60624 EFASIASKNMETDVSTSSDYLTGKSETTFSANSETWGKNVTEISIDSETYLNQSFM Human herpesvirus 6A 32 2 0.0625
60625 FSANSETWGKNVTEISIDSETYLNQSFMVTSTLAVETTDRSIGNNVNVTSSFPTVK Human herpesvirus 6A 32 2 0.0625
80261 NRRFLNVVRQFSDNAGITPAISLDLMTDAELARAVSNMPTSAGQIKLMLEMRAMV Human metapneumovirus 31 14 0.451612903
91688 SETEPASTPDTTNRLSSVDRSTAQPSESRTKTKPTVHTRNNPSTASSTQSPPRATT Human metapneumovirus 31 12 0.387096774
85503 MSFPEGKDILFMGNEAAKLAEAFQKSLRKPSHKRSQSIIGEKVNTVSETLELPTIS Human metapneumovirus 31 9 0.290322581
80269 DNTVYQLSKVEGEQHVIKGRPVSSSFDPIKFPEDQFNVALDQVFENIENSQALVD Human metapneumovirus 31 8 0.258064516
80268 GSNRVGIIKQLNKGCSYITNQDADTVTIDNTVYQLSKVEGEQHVIKGRPVSSSFD Human metapneumovirus 31 7 0.225806452
82244 KSYVVRQEYLNDKEHIVSLTGKERELSVGRMFAMQPGKQRQIQILAEKLLADNIV Human metapneumovirus 31 6 0.193548387
85507 EKKLKPSTNTKKKVSFTPNEPGKYTKLEKDALDLLSDNEEEDAESSILTFEERDTS Human metapneumovirus 31 5 0.161290323
85505 RPTKPTILSEPKLAWTDKGGAIKTEAKQTIKVMDPIEEEEFTEKRVLPSSDGKTPA Human metapneumovirus 31 4 0.129032258
83013 NFSSLGLTDEEKEAAEHFLNVSDDSQNDY Human metapneumovirus 31 4 0.129032258
91686 KTSSESEHHTSSPPTESNKEASTISTDNPDINPNSQHPTQQSTENPTLNPAASVSP Human metapneumovirus 31 3 0.096774194
85504 KPSHKRSQSIIGEKVNTVSETELPTISRPTKPTILSEPKLAWTDKGGAIKTEAK Human metapneumovirus 31 3 0.096774194
91687 PDINPNSQHPTQQSTENPTLNPAASVSPSETEPASTPDTTNRLSSVDRSTAQPSES Human metapneumovirus 31 2 0.064516129
85512 EKAKELNKIVEDESTSGESEEEEELKDTQENNQEDDIYQLIM Human metapneumovirus 31 2 0.064516129
85506 TIKVMDPIEEEEFTEKRVLPSSDGKTPAEKKLKPSTNTKKKVSFTPNEPGKYTKLP Human metapneumovirus 31 2 0.064516129
82243 TFNASDSLKTRRVLEYYLKDNKFDQKELKSYVVRQEYLNDKEHIVSLTGKERELS Human metapneumovirus 31 2 0.064516129
85510 TAGPTAARDGIRDAMIGIREELIADIIKEAKGKAAEMMEEEMNQRTKIGNGSVKLT Human metapneumovirus 31 2 0.064516129
20601 PNEFPFDENGNPVYELNDKNWKSFFSRTWSRLSLHEDEDKENDGDSLPTFKCVSG Alphapapillomavirus 9 30 17 0.566666667
39920 RPIPKPAPWAPQKPRRQITNDFEGVPSSPTTPPSECDSVPWTVLTEGSTLHLTAQT Alphapapillomavirus 9 30 12 0.4
20638 KAVALGTEETQTTIQRPRSEPDTGNPCHTTKLLHRDSVDSAPLTAFNSSHKGRI Alphapapillomavirus 9 30 8 0.266666667
5401 ENGNPVYELNDKNWKSFFSRTWSRLSLHEDEDKENDGDSLPTFKCVSGQNTNT Alphapapillomavirus 9 30 8 0.266666667
39074 ANGNPVYKINDENWKSFFSTWCKLGLIEEEDKENDGGNISTFKCSAGQNPRHIRS Alphapapillomavirus 9 30 6 0.2
24987 RPIPKPSPWAPKKHRRLSSDQDDQSQTPETPATPLSCCTETQWTVLQSSLHLTAHTK Alphapapillomavirus 9 30 5 0.166666667
6543 DANGNPVYKINDENWKSFFSRTWCKLGLIEEEDKENDGGNISTFKCSAGQNPRHI Alphapapillomavirus 9 30 5 0.166666667
39869 GLNDKNWKSFFSRTWCRLNLHEEEDKENDGDAFPAFKCVSGQNTRTLRI Alphapapillomavirus 9 30 4 0.133333333
24379 ENGNPVYAINDENWKSFFSTWCKLDLIEEEDKENHGGNISTFKCSAGENTRSLRS Alphapapillomavirus 9 30 4 0.133333333
24314 TLKTRSGKQIGARIHYYQDLSPIVPLDHTVPNEQYELQPLHDTSTSSYSINDGLYD Alphapapillomavirus 9 30 3 0.1
39950 FPDTSFYDPASQRLVWACTGVEVGRGQPLGVGISGHPLLNKLDDTENSNKYVGNS Alphapapillomavirus 9 30 2 0.066666667
43443 QQMADQVDGQNGDWQSNSSQSSGVGASNSDVSCTSIEDNEENSNRTLKSIQNIMC Alphapapillomavirus 9 30 2 0.066666667
43937 TSTIRPPVTVEPIGPLEPSIVSMIEETTFIESGAPAPSIPSATGFDVTTSANNTPA Alphapapillomavirus 9 30 2 0.066666667
24315 TVPNEQYELQPLHDTSTSSYSINDGLYDVYADDVDNVHTPMQHSYSTFATTRTSNV Alphapapillomavirus 9 30 2 0.066666667
6554 MRHKRSTRRKRASATQ Alphapapillomavirus 9 30 2 0.066666667
43459 PFDENGNPIYEINNENWKSFFSRTWCKLDLIQEEDKENDGVDTGTFKCSAGKNTRS Alphapapillomavirus 9 30 2 0.066666667
39951 LGVGISGHPLLNKLDDTENSNKYVGNSGTDNRECISMDYKQTQLCLIGCRPPIGE Alphapapillomavirus 9 30 2 0.066666667
6547 PKTTEATNNESTQGTKRRRLDLPDSRDNTQYSTKYTDCAVDSRPRGGGLHSTTNCT Alphapapillomavirus 9 30 2 0.066666667
43438 MEDPEGTEGEREGCTGWFEVEAIIEKQTGDNISEDEDENAYDSGTDLIDFIDDSN Alphapapillomavirus 9 30 2 0.066666667
35235 PHRIPKPAPWAPVKVCGGRRRLLSDQEQSQSTETPTTPTSCCEATPWTVSTVGLSV Alphapapillomavirus 9 30 2 0.066666667
17493 EDWNFGLQPPPGGTLEDTYRFVTQAIACQKHTPPAPKEDDPLKKYTFWEVNLKEK Alphapapillomavirus 9 30 2 0.066666667
623 LNDENWKSFFSRTWCQLDLIEEEDKENHGGNCNTFKCSAGENSRCIRS Alphapapillomavirus 9 30 2 0.066666667
24409 MADPEATKYPLLKLLTYRQTTITDHHKQRPNDDDLQTPQTPPSPLQSCSVQTPPWT Alphapapillomavirus 9 30 2 0.066666667
24967 LTDQSWKSFFTRLWTQLDLSDQEEEGEDGESQRAFQCSARSANEH Betapapillomavirus 1 21 7 0.333333333
45473 MIGKEVTVQDIVLELSEVQPEVLPVDLFCEEELPNEDTEEELDTERIVFKVIAPC Betapapillomavirus 1 21 5 0.238095238
18017 DQSWKSFFERLWTQLELSDQEEEEEGEHGETQRAFQCSARSANEH Betapapillomavirus 1 21 4 0.19047619
18035 RMLISFSSDGQRKHFDETVKYPKGVETSYGNLDS Betapapillomavirus 1 21 4 0.19047619
24325 PTPPTRVRVSRTQYHNPSFQIITDSTPTQGESSLADHILVTSGSGGQTIGSDITDV Betapapillomavirus 1 21 3 0.142857143
45365 PESRDKIELIYPSPTLPAVVIHTEDSSGDFYLHPSLLQRRRRKRKY Betapapillomavirus 1 21 3 0.142857143
24357 QSWKSFFARLWTQLELSDQEPEGEHGESQRAFQCSARSANEH Betapapillomavirus 1 21 3 0.142857143
24393 SSTSPTPTKRSRGESSRLRGVSPSEVGRSVQSVSAKHTGRLGRLLDEAIDPPVILV Betapapillomavirus 1 21 2 0.095238095
66913 GRAAAPLKLDLDPPQGGPDQPPGATGGVGETPPEGNEESQPPPGEGEGAVEGHPPP Betapapillomavirus 1 21 2 0.095238095
18055 FEQDVDTFEEPPDRDFLDIRKLGRPQYSTTPAGYVRVSRLGTRATIRTRSGAQIGS Betapapillomavirus 1 21 2 0.095238095
45681 PVAEGPSVDTPVVTTSTGSSAVLEVAPEPIPPTRVRISRTQYHNPSFQIITESTPA Betapapillomavirus 1 21 2 0.095238095
45449 DQSWKSFFERLWTQLELSDQEDEGENGESQRAFQCSAGSANEH Betapapillomavirus 1 21 2 0.095238095
24386 YVVFADDARRYSATGEWEVKINKDTVFAPVTSSTPPGSPPGQADTDTAAKTPTTSA Betapapillomavirus 1 21 2 0.095238095
18020 QPVPPLAVSEGKAKEAIGLMLQLQSLQKSEYASEPWTLVDTSAETYRNAPEQHFK Betapapillomavirus 1 21 2 0.095238095
37841 PVPPTRVRIARTQYHNPSFQILTESTPAQGESSLADHILVTSGSGGQRIGGDITD Betapapillomavirus 1 21 2 0.095238095
37813 VSPSEVGKQLRSVGAKHSGRLGRLLEEARDPPVILVRGDANTLKCFRNRARNKYR Betapapillomavirus 1 21 2 0.095238095
37840 PIPEGPTIDSPVVTTTTGSSAVLEVAPEPVPPTRVRARTQYHNSPSFQILTESTA Betapapillomavirus 1 21 2 0.095238095
44039 QPVPTLAVSEAKAKEAIGIMLQLQSLQKSEYASENWTLVDTSAETYNNVPEHHFK Betapapillomavirus 1 21 2 0.095238095
28530 DVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGD Human coronavirus HKU1 21 8 0.380952381
28785 VTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDND Human coronavirus HKU1 21 7 0.333333333
29038 DVISSEAVEDTIDGVVEPTINDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDV Human coronavirus HKU1 21 6 0.285714286
52561 YSVSSCDLRMGSGFCIDYALPSSRRKRRGISSPYRFVTFEPFNVSFVNDSVETVG Human coronavirus HKU1 21 6 0.285714286
52293 GDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDD Human coronavirus HKU1 21 6 0.285714286
28784 GDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDD Human coronavirus HKU1 21 6 0.285714286
52291 DEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEHVVTGDNDDEDVVTGDNDDEDVVT Human coronavirus HKU1 21 6 0.285714286
29039 GDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDD Human coronavirus HKU1 21 5 0.238095238
57616 DYSVSSCALRMGSGFCVDYNSPSSSSSRRKRRSISASYRFVTFEPFNVSFVNDS Human coronavirus HKU1 21 5 0.238095238
52557 GVCVNYDLYGITGQGIFKEVSAAYYNNWQNLLYDSNGNIIGFKDFLTNKTYTILP Human coronavirus HKU1 21 5 0.238095238
28527 DVISSEAVEDTIDGVVEDTINDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDV Human coronavirus HKU1 21 4 0.19047619
28528 GDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDD Human coronavirus HKU1 21 4 0.19047619
28529 VTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDWTGDND Human coronavirus HKU1 21 4 0.19047619
52290 DVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDKDDEDVVTGD Human coronavirus HKU1 21 4 0.19047619
29040 VTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNNDEDVVTGDNN Human coronavirus HKU1 21 4 0.19047619
57617 RKRRSISASYRFVTFEPFNVSFVNDSIESVGGLYEIKIPTNFTIVGQEEFIQTNS Human coronavirus HKU1 21 4 0.19047619
52288 GDNDDEHVVTGDNDDEHVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDD Human coronavirus HKU1 21 4 0.19047619
28783 DVISSEAVEDTIDGVVEDTINDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDV Human coronavirus HKU1 21 4 0.19047619
52292 NDDEHVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDV Human coronavirus HKU1 21 3 0.142857143
52289 VTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDND Human coronavirus HKU1 21 3 0.142857143
28787 DEDVVTGDNDDEDVVTGDNDDEEIVTGDNDDQIVVTGDDVDDIESVYDFDTYKAL Human coronavirus HKU1 21 3 0.142857143
28786 DVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEEIVTGD Human coronavirus HKU1 21 3 0.142857143
52287 DVISSEVVEDTIDGVVEDTINDDEDVVTGDNDDEHVVTGDNDDEHVVTGDNDDEDV Human coronavirus HKU1 21 3 0.142857143
57569 EAIPTRFPPGTILPQGYYVEGSGRSASNSRPGSRSQSRGPNNRSLSRSNSNFRHS Human coronavirus HKU1 21 3 0.142857143
57568 LEGVFWVANHQADTSTPSDVSSRDPTTQEAIPTRFPPGTILPQGYYVEGSGRSAS Human coronavirus HKU1 21 3 0.142857143
28532 NDDEDVVTGDNDDEDVVTGDNNDEEIVTGDNDDQIVVTGDDVDDIESIYDFDTYKA Human coronavirus HKU1 21 3 0.142857143
28531 DEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNDDEDVVTGDNNDEEIVT Human coronavirus HKU1 21 3 0.142857143
29041 DVVTGDNDDEDVVTGDNNDEDVVTGDNNDEESVTGDNDDQIVVTGDDVDDIESIYD Human coronavirus HKU1 21 3 0.142857143
52294 VTGDNDDEDVVTGDNDDEDVVTGDNDDDNDDQIVVIGDDVDDIDTINCESIYEFDT Human coronavirus HKU1 21 2 0.095238095
52417 YKVNCCRFQRIDDDGNKLDKFFVVKRTNLEVYNKEKTYYELTKSCGVVAEHDFFT Human coronavirus HKU1 21 2 0.095238095
28985 CKYTDLNFIENLNVLFDGRDNGALEAFRKARNGVFISTGKLSSLSMIKGPQRADL Human coronavirus HKU1 21 2 0.095238095
54442 DVYPTMQLMVPKRQKLEDVLETMKVDPDAQPEVKVRPIKQVAPGLGVQTVDIKIPT Human adenovirus E 20 9 0.45
54443 AQPEVKVRPIKQVAPGLGVQTVDIKIPTEPMETQTEVVKPITSTMEVQTDPWMPVV Human adenovirus E 20 7 0.35
61582 DLYPTMQLMVPKRQKLEDVLEHMKVDPEVQPEVKVRPIKQVAPGLGVQTVDIKIPT Human adenovirus E 20 7 0.35
1181 MGDDHPEPPTPFETPSLHDLYDLEVDVPEDDPNEKAVNDLFSDAALLAAEEASSPS Human adenovirus E 20 7 0.35
1198 PPLDKRGDKRPRPDAEETLLTHTDEPPPYEEAVKLGLPTTRPIAPLATGVLKPESS Human adenovirus E 20 6 0.3
54495 MGDDHPEPPTPFETPSLHDLYDLEVDVPEDDPNEEAVNDLFSDAALLAAEEALSP Human adenovirus E 20 5 0.25
54469 AILEAVVPSRSNPTHEKVLAIVNALVENKAIRGDEAGLVYNALLERVARYNSTNV Human adenovirus E 20 5 0.25
54484 ELGRITRPRLLGEEEYLNNSLLRPEREKNFPNNGIESLVDKMNRWKTYAQEHRDD Human adenovirus E 20 5 0.25
57084 MGDDHPEPPTPFETPSLHDLYDLEVDVPEDDPNEKAVNDLFSDAALLAAEEASSPS Human adenovirus E 20 5 0.25
54485 NFPNNGIESLVDKMNRWKTYAQEHRDDPRATQGTASRGSARKRRWHDRQRGLMWI Human adenovirus E 20 4 0.2
54441 PTPSLKPVTLQQVLPNAAPRQGFKRQGEDVYPTMQLMVPKRQKLEDVLETMKVDPD Human adenovirus E 20 4 0.2
30922 MRHLRDLPDEEIIIASGSEILELVVNATMGDDHPEPPTPFGTPSLHDLYDLEVDV Human adenovirus E 20 3 0.15
54449 QPPLEAPYVPPRYLAPTEGRNSIRYSELTPLYDTTRLYLVDNKSADIASLNYQND Human adenovirus E 20 3 0.15
1180 MRHLRDLPDEEIIIASGSEILELVVNAMMGDDHPEPPTPFETPSLHDLYDLEVDV Human adenovirus E 20 2 0.1
1197 AVQRQINSRLDPDPPAGSVEMPQVEEELPPLDKRGDKRPRPDAEETLLTHTDEPPP Human adenovirus E 20 2 0.1
16879 EEEVEEAAAARPSSSAGEKASSTDTISAPGRGPARPHSRWDETGRFPNPTTQTAPT Human adenovirus E 20 2 0.1
54481 PPPGFYTGEYDMPDPNDGFLWDDVDSSVFSPRPGANERPLWKKGSDRRPSSTLS Human adenovirus E 20 2 0.1
61568 MPRGSSKKLKVEELPPPPEDLEEDWESSQAEEEEMEDWPSTQAEEDSLQDSLEEED Human adenovirus E 20 2 0.1
1196 KLKEQNFQQKVVDGLASGINGVVDLANQAVQRQINSRLDPDPPAGSVEMPQVEEE Human adenovirus E 20 2 0.1
61578 APRRRVQWRGRKVKPVLRPGTTVVFTPGERSGSASKRSVDEVYGDEDILEQAAER Human adenovirus E 20 2 0.1
61581 TPSLKPVTLQQVLPGAAPRRGFKREGGEDLYPTMQLMVPKRQKLEDVLEHMKVDP Human adenovirus E 20 2 0.1
61583 VQPEVKVRPIKQVAPGLGVQTVDIKIPTEPMETQTEPVKPSTSTMEVQTDPWMPAP Human adenovirus E 20 2 0.1
54494 MRHLRDLPDEKIIIASGSEILELVVNAIMGDDHPEPPTPFETPSLHDLYDLEVDV Human adenovirus E 20 2 0.1
83419 FDPDYNPIRVKRPKKPIAKRNSKISRLEEEGMDENSEIGQAKKMKPLDQLAK Influenza C virus 18 5 0.277777778
81820 NYFQVIYDSSGKVVGGLDNRVSPYTGNSGDTPTMQCDMLQLKPGRYSVRSSPRFL Influenza C virus 18 5 0.277777778
81822 MPERSYCFDMKEKGPVTAVQSIWGKGRKSDYAVDQACLSTPGCMLIQKQKPYIGEA Influenza C virus 18 5 0.277777778
60955 FDPDYNPIRVKRPKKPIAKRNSNISRLEEEGMDENSEIGQAKKMKPLDQLTSTSS Influenza C virus 18 3 0.166666667
94064 FDMKEKGPVTAVQSIWGKNRKSDYAVDQACLSTPGCMLIQKQKPYTGEADDHHGD Influenza C virus 18 3 0.166666667
94102 MKTSTKARLRTESSFAPRTWEDAIKDGELLFNGTILQAESPTMTPASVEMRGKKL Influenza C virus 18 3 0.166666667
94173 MKTSTKARLRTESSFAPRTWEDAIKDGELLFNGTILQAESPTMTPASVEMKGKKI Influenza C virus 18 3 0.166666667
60972 TMEGVLQGTNCAREMGKCILTVGALMTECRLFPGKIKVVPIYARSKERKSMQEGL Influenza C virus 18 3 0.166666667
60927 SLKKSEGRDIRKQMKAAGDFLGVESMMKMRAFRDDQIMEMVEEVYDHPDDYTPDI Influenza C virus 18 3 0.166666667
94186 KEKGPVTAVQSIWGKGRKSDYAVDQACLSTPGCMLIQKQKPYVGEADDHHGDQEM Influenza C virus 18 3 0.166666667
93953 TSRKEKNPSLRMRWAMSSKFPIIANKRMLEEAQIPKEHNNVALWEDTEDVSKRDH Influenza C virus 18 2 0.111111111
31862 MSDKTVKSTNLMAFVATKMLERQEDLDTCTEMQVEKMKTSTKARLKTESSFAPRTW Influenza C virus 18 2 0.111111111
83413 FDPDYNPIRVKRPKKPIAKRNSNISRLEEEGMDENSEIGQAKKMKPLDQLASTSS Influenza C virus 18 2 0.111111111
82953 SLKKSEGRDIRKQMKAAGDFLGVESMMKMRAFRDDQIMEMVEEVYDHPNDYYPDI Influenza C virus 18 2 0.111111111
2577 SLKKSEGRDIRKQMKAAGDFLGVESMMKMRAFRDDQIMEMVEEVYDHPDDYTPDI Influenza C virus 18 2 0.111111111
94494 KEKGPVTAVQSIWGKGKKSDYAVDQACLSTPGCMLIQKQKPYVGEADD Influenza C virus 18 2 0.111111111
94213 IQKQKPYVGEADDHHGDQEMRELLSGLDYEARCISQSGWVNETSPFAEEYLLPPK Influenza C virus 18 2 0.111111111
94659 MSDKTVKSTNLMAFVATKMLERQKDLDTCTEMQVEKMKTSTKARLRTESSFAPRTW Influenza C virus 18 2 0.111111111
56735 YPEIKPWKKASDMLNKATSSLKKSEGRDIRKQMKAAGDFLGVESMMKMRFRDDQ Influenza C virus 18 2 0.111111111
49451 MSDKTVKSTNLMAFVATKMLERQEDLDTCTEMQVEKMKTSTKARLRTESSFAPRTW Influenza C virus 18 2 0.111111111
49459 MSDKTVKSTNLMAFVATKMLERQEDLDTCTEMQVEKMKTSTKARLKTESSFAPRTW Influenza C virus 18 2 0.111111111
81949 ITNRAGDLAVEVSPGCWIIDNNICDQSCQNFIFKFNETAPVPTIPPLDTKIDLQSD Influenza C virus 18 2 0.111111111
83664 MSDKTVKSTNLMAFIATKMLERQEDLDTCTEMQVEKMKTSTKARLRTESSFAPRTW Influenza C virus 18 2 0.111111111
92953 KEKGPVTAVQSIWGKGRKSDYAVDQACLSTPGCMLIQKQKPYIGEADD Influenza C virus 18 2 0.111111111
25129 KVTGTDLELIQILKDHYNISLDNPLENPSSLFDLVARIKNNLKNSPDLYSHHFQS Human parvovirus B19 16 11 0.6875
68967 GPGNELQAGPPQSAVDSAARIHDFRYSQLAKLGINPYTHWTVADEELLK Human parvovirus B19 16 8 0.5
59186 PEHHYKVFSPAASSCHNASGKEAKVCTISPIMGYSTPWRYLDFNALNLFFSPLEF Human parvovirus B19 16 6 0.375
68969 KVTGTDLELIQILKDHYNISLDNPLENPSSLFDLVARIKNNLKNSPDLYSHHFQS Human parvovirus B19 16 5 0.3125
25137 SEGATFSANSVTCTFSRQFLIPYDPEHHYKVSPAASSCHNASGKEAKVCTISPI Human parvovirus B19 16 4 0.25
54602 SAARIHDFRYSQLAKLGINPYTHWTVADEELLKNIKNETGFQAQVVKDYFTLKGA Human parvovirus B19 16 3 0.1875
54601 QVSVQLPGTNYVGPGNELQAGPPQSAVDSAARIHDFRYSQLAKLGINPYTHWTVA Human parvovirus B19 16 3 0.1875
25144 LGTGGTASMSYKFPPVPPENLEGCSQHFYEMYNPLYGSRLGVPDTLGGDPKFRSLT Human parvovirus B19 16 3 0.1875
25145 YEMYNPLYGSRLGVPDTLGGDPKFRSLTHEDHAIQPQNFMPGPLVNSVSTKEGDSS Human parvovirus B19 16 3 0.1875
68978 EGATFSANSVTCTFSRQFLIPYDPEHHYKVFSPAASSCHNASGKEAKVCTISPIM Human parvovirus B19 16 3 0.1875
12431 AGPPQSAVDSAARIHDFRYSQLAKLGINPYTHWTVADEELLKNIKNETGFQAQVV Human parvovirus B19 16 3 0.1875
25128 MSKKSGKWWESDDKFAKAVYQQFVEFYEKVTGTDLELIQILKDHYNISLDNPLEN Human parvovirus B19 16 2 0.125
63739 FDFPGINADALHPDLQTVPIVADTSVSSSGGESSEELSESSFFNLITPGAWNSET Human parvovirus B19 16 2 0.125
95767 YNPLYGSRLGVPDTLGGDPKFRSLTHEDHAIQPQNFMPGPLVNSVSTKEGDSSNT Human parvovirus B19 16 2 0.125
59185 KSMWSGATFSANSVTCTGSRQFLIPYDPEHHYKVFSPAASSCHNASGKEAKVCT Human parvovirus B19 16 2 0.125
68979 KVFSPAASSCHNASGKEAKVCTISPIMGYSTPWRYLDFNLNLFFSPLE Human parvovirus B19 16 2 0.125
8530 LHPDLQTVPIVADTSVSSSGGESSEELSESSFFNLITPGAWNSETPRSSTPVPGTS Human parvovirus B19 16 2 0.125
25111 FRRGACHAKKPRITTAINDTSSDAGESSGTGAEVVPFNGKGTKASIKFQTMVNWL Human parvovirus B19 16 2 0.125
25133 PPQSAVDSAARIHDFRYSQLAKLGINPYTHWTVADEELLKNIKNETGFQAQVVKD Human parvovirus B19 16 2 0.125
35188 PEISHQTPTIRMNRNVNIRDSTRDDRQDANEDRSSNIPDDILDGLDN Human parainfluenza 16 11 0.6875
virus 4
37466 MKIMDPGVPSKVSLRSLNKESEQVPIIVTGNGDVSKFVDQDNTITLDSLARPILS Human parainfluenza 16 7 0.4375
virus 4
37417 TQNTIQQTKNDTQQIKGSLATIEGLITTMKIMDPGVPSKVSLRSLNKGPEQVPIIV Human parainfluenza 16 7 0.4375
virus 4
35186 GIDQDETRDTLPESTMHRFQNIDSTNSDHNELQMPEFENDINPFNHPRFTARAPL Human parainfluenza 16 6 0.375
virus 4
37418 MKIMDPGVPSKVSLRSLNKGPEQVPIIVTGTGDVSKFVDQDNTITLDPLARPILS Human parainfluenza 16 6 0.375
virus 4
35187 HNELQMPEFENDINPFNHPRFTARAPLIPEISHQTPTIRMNRNVNIRDSTRDDRQD Human parainfluenza 16 5 0.3125
virus 4
37465 TQNTIQQTKNDTQQIKGSLATIEGLITTMKIMDPGVPSKVSLRSLNKESEQVPIIV Human parainfluenza 16 3 0.1875
virus 4
39726 YSALVDHPDVIYRKIRIDPAKKQYAHSKWNPFKKAISMPNLTDDS Human parainfluenza 16 2 0.125
virus 4
1334 QKPTPEKEKQDPYKDMSFWEVNLKEKFSSELDQFPLGR Alphapapillomavirus 10 14 7 0.5
67070 FDRNGNALYDLCETNWKCFFARLSSSLDIQTSEDEDDGDNSQAFRCVPGTVVRT Alphapapillomavirus 10 14 4 0.285714286
45579 PGILEQWNFGLSPPPNGTLEDKYRYVQSQAITCQKPPPEKAKQDPYAKLSFWEVD Alphapapillomavirus 10 14 4 0.285714286
45580 QAITCQKPPPEKAKQDPYAKLSFWEVDLREKFSSELDQYPLGRKFLLQTGVQARS Alphapapillomavirus 10 14 3 0.214285714
22625 AITCQKPTPEKEKQDPYKDMSFWEVNLKEKFSSELDQFPLGRKFLLQSGYRGRTSA Alphapapillomavirus 10 14 3 0.214285714
22673 ASVSTVREVSIAEPTTYTPAQTTAPTVSACTTEDGVSAPPRKRARGPSTNNTLCV Alphapapillomavirus 10 14 2 0.142857143
84473 IDKLTTREIEQVELLKRIHDNLITRTVDVIDMSKEFNQKNIKTLDEWESGKNPYE Rotavirus A 14 4 0.285714286
84447 IDKLTTREIEQVELLKRIHDNLIIKPVDVIDMSKEFNQKNIKTLDEWESGKNPYE Rotavirus A 14 4 0.285714286
61593 EIDMTKEINQKNMKTLEEWESGRNPYEPKEVTAAM Rotavirus A 14 4 0.285714286
84453 IDRLTTREIEQVELLKRIHDKLMVQSTGEIDMRKEINQKNVKTLEEWESGRNPYE Rotavirus A 14 4 0.285714286
56226 EIDMSKEINQKNVRTLDEWENGKNPYEPSEVTAS Rotavirus A 14 3 0.214285714
84448 VIDMSKEFNQKNIKTLDEWESGKNPYEPLEVTASM Rotavirus A 14 3 0.214285714
91525 VERKLVKYARSKPLEADLTVNELDYENNKITSELFPTEEEYTDSLMDPAILTSLS Rotavirus A 14 3 0.214285714
38957 GIKSTIDAAKSMATNVMKKFKKSGLATSVSTLTDSLSDAASSISRGSSIRSIGSS Rotavirus A 14 2 0.142857143
17691 VERKLVKYAKGKPLEADLTVNELDYENNKMTSELFPTAEEYTDSLMDPAILTSLS Rotavirus A 14 2 0.142857143
38946 PPIQNTRNIVPVSISSRSIIHQRAQANEDIIVSKTSLWKEMKYNRDITIRFKFANA Rotavirus A 14 2 0.142857143
92127 LINKQKQSLITVRINNTFKDEPKVSFKNIYDWTFLPTDFELKDSVITSYDGCLGM Rotavirus A 14 2 0.142857143
91577 VERKLINYAKGKPLEADLTVNELDYENNKITSELFQSAEEYTDSLMDPAILTSLS Rotavirus A 14 2 0.142857143
14712 IHDNLITRPIDIVDMTKEFNQKNIKTLDEWENGKNPYEPIEVTASM Rotavirus A 14 2 0.142857143
79133 VIDMSKEFNQKNIKTLDEWESGKKPYEPSEVTASM Rotavirus A 14 2 0.142857143
79132 IDKLTTREIEQVELLKRIHDNLITRPVDVIDMSKEFNQKNIKTLDEWESGKNPYE Rotavirus A 14 2 0.142857143
84454 EIDMRKEINQKNVKTLEEWESGRNPYEPKEVTAAM Rotavirus A 14 2 0.142857143
68443 SGVKNNLMGKAATIDQALNGKFSSSIRNRNWMTPSKTDARLDEDVNKLRLLLSSK Rotavirus A 14 2 0.142857143
77968 VERKLVSYAKGKPLEADLTANELDYENNKITSELFQSAEEYTDSLMDPAILTSLS Rotavirus A 14 2 0.142857143
94842 SKDLYANTALKLSRPSSGTVHVPYTQTPSGFKYWIKERGTSLNDKAPFGCVIKTN Ross River virus 13 4 0.307692308
90671 RVRKVATEPPSEPEAPIPAPRKRRTTSTTPPHNPGDFVPRVPVELPWEPEDLDIQ Ross River virus 13 3 0.230769231
90938 LSRPSPGVVHVPYTPTPSGFKYWLKEKGSSLNTKAPFGCKIKTNPVRAMPCAVGS Ross River virus 13 3 0.230769231
90937 GSGQPGRFGDIQSRTVESKDLYANTALKLSRPSPGVVHVPYTPTPSGFKYWLKEK Ross River virus 13 3 0.230769231
91056 HFNVYKATKPYLAYCADCGDGQFCYSPVAIEKIRDEASDGMIKIQVAAQIGINKR Ross River virus 13 3 0.230769231
90909 LSRPSPGVVHVPYTQTPSGFKYWLKEKGSSLNTKAPFGCKIKTNPVRAMDCAVGS Ross River virus 13 2 0.153846154
90670 VMERVATTDIRAIPVPARRAITMPVPAPRVRKVATEPPSEPEAPIPAPRKRRTTST Ross River virus 13 2 0.153846154
91055 VDRPGYYPDLLEATMTCNNSARHRRSVTEHFNVYKATKPYLAYCADCGDGQFCYSP Ross River virus 13 2 0.153846154
90399 PVYDTAVVAERVAIPCTSEYATPIPTPRAVRVVPVPAPRIQRASTYRVSPTPTPRV Ross River virus 13 2 0.153846154
90897 PVAIEKIRDEASDGMLKIQVSAQIGLDKAGTHAHTKMRYMAGHDVQESKRDSLVR Ross River virus 13 2 0.153846154
90363 ALSESATMVYNEREFINRKLHHIALYGPALNTDEENYEKVRAERAEAEYVFDVDK Ross River virus 13 2 0.153846154
90908 GSGQPGRFGDIQSRTVESKDLYANTALKLSRPSPGVVHVPYTQTPSGFKYWLKEK Ross River virus 13 2 0.153846154
94841 NDVYNQDFPPYGSGQPGRFGDIQSRTVESKDLYANTALKLSRPSSGTVHVPYTQT Ross River virus 13 2 0.153846154
64023 AAPPAPPQAPRAHGKHYGHHHHQLPFLGHDGHHGGTLRVGQHHRNASDVLPGHWL Rubella virus 12 6 0.5
91017 AAPPTLPQPPRAHGQHYGHHHHQLPFLGHDGHHGGTLRVGQHHRNASDVLPGHWL Rubella virus 12 5 0.416666667
90989 AAPPMPPQPPRAHGQHYGHHHHQLPFLGHDGHHGGTLRVGQHHRNASDVLPGHWL Rubella virus 12 5 0.416666667
91043 AAPPTLPQPPCAHGQHYGHHHHQLPFLGHDGHHGGTLRVGQHYRNASDVLPGHWL Rubella virus 12 5 0.416666667
91003 AAPPAPPQPPCAHGQGYGHHHHQLPFLGHDGHHGGTLRVGQHHRNASDNLPGHCL Rubella virus 12 5 0.416666667
2588 MNYTGNQQSRWGLGSPNCHGPDWASPVCQRHSPDCCSRLVGATPERPRLRLVDADD Rubella virus 12 4 0.333333333
90954 MASTTPITMEDLQKALEAQSRALRAELAAGASQPRRPRPPRQRDSSTSGDDSGRD Rubella virus 12 4 0.333333333
2953 EYIMNYTNQQSRWGLGSPNCHGPDWASPVCQRHSPDCSRLVGATPERPRLRLVDA Rubella virus 12 4 0.333333333
11164 TPHGQLEVQVPPDPGDLVEYIMNYTGNQQSRWGLGSPNCHGPDWASPVCQRHSPD Rubella virus 12 4 0.333333333
90963 AAPPTPPQPPRAHGQHYGHHHHQLPFLGHDGHHGGTLRVGQHHRNASDVLPGHWL Rubella virus 12 3 0.25
586 HPFCNTPHGQLEVQVPPDPGDLVEYIMNTGYQQSRWGLGSPNCHGPDWASPVQR Rubella virus 12 3 0.25
11165 QSRWGLGSPNCHGPDWASPVCQRHSPDCSRLVGATPERPRLRLVDADDPLLRTAP Rubella virus 12 2 0.166666667
90996 MASTTPITMEDLQKALEAQSRALRAELAAGASQSRRPRPPRQRDSSTSGDDSGRD Rubella virus 12 2 0.166666667
90988 PQAFLAGLLAAVAVGTARAGLQPRADMAAPPMPPQPPRAHGQHYGHHHHQLPFL Rubella virus 12 2 0.166666667
90982 MASTTPITMEDLQKALEAQSRALRAGLAAGASQSRRPRPPRQRDSSTSGDDSGRD Rubella virus 12 2 0.166666667
90576 PPRRARRSQRHSDARGTPPPAPRDPPPPAPSPPAPPRAGDPDSPTSAEPADRARH Rubella virus 12 2 0.166666667
61377 NVQERWRMRRGQRVDLPPKVHFYYLGTGPHKDLKFRQRSDGVVWVAKEGAKTVNT Human coronavirus NL63 11 9 0.818181818
61387 EMQSQSSHVAQNTVLNASIPESKPLADDDSAIIEIVNEVL Human coronavirus NL63 11 6 0.545454545
61381 RQQSRTRSDSNQSSSDLVAAVTLALKNLGFDNQSKSPSSSGTSTPKKPNKPLSQP Human coronavirus NL63 11 6 0.545454545
12296 KKPNKPLSQPRADKPSQLKKPRWKRVPTREENVIQCFGPRDFNHNMGDSDLVQNGV Human coronavirus NL63 11 4 0.363636364
61382 GFDNQSKSPSSSGTSTPKKPNKPLSQPRADKPSQLKKPRWKRVPTREENVIQCFG Human coronavirus NL63 11 3 0.272727273
57705 SDKAPYRVIPRNLVPIGKGNKDEQIGYWNVQERWRMRRGQRVDLPPKVHFYYLGT Human coronavirus NL63 11 2 0.181818182
12295 DDSVTLALKNLGFDNQSKSPSSSGTSTPKKPNKPLSQPRADKPSQLKKPRWKRVP Human coronavirus NL63 11 2 0.181818182
29421 NKSAGWPLNKFGKASLYYESISYEEQDALFALTKRNVLPTMTQLNLKYAISGKER Human coronavirus NL63 11 2 0.181818182
90094 SFVLPRIGSNTLEIGLRTRIRKMLEEHKEPSPLITAEDVQEAKNAADEAKEVKEA Venezuelan equine 11 7 0.636363636
encephalitis virus
90044 SFVLPRIGSNTLEIGLRTRIRKLLEEPVDRPPLITADDIQEAKNAADEAKEVKEA Venezuelan equine 11 5 0.454545455
encephalitis virus
90040 DKKMKELAEVMSDPDLETETICLHDDETCRFEGQVAVYQDVYAVDGPTSLYHQANK Venezuelan equine 11 2 0.181818182
encephalitis virus
90114 SVSRTSLVSNPPGVNRVITREEFEAFVAQQQRFDAGAYIFSSDTGQGHLQQKSVR Venezuelan equine 11 2 0.181818182
encephalitis virus
71634 IFHQWDQRRGLFTKRSIKRMSEYSSDDENFSPGPSKRPALDTRPEGLAGEQRSAYA Torque teno virus 11 6 0.545454545
71633 KPTHALPEPGTLPRILQVSDPARLGPKTIFHQWDQRRGLFTKRSIKRMSEYSSDD Torque teno virus 11 6 0.545454545
75401 DPRKVGIQFHPWDLRRGMLSTSSIKRMLQDSDDDESIEFPPKAWPGDPVPVGRTL Torque teno virus 11 6 0.545454545
71862 QIVNPKYLDPGITFHRWDLRRGFFGPAAVKRMQAESTDALFPTTGPKRPRTEVPVA Torque teno virus 11 4 0.363636364
71861 PIFQQTVKDPCKQSTFDIPGAGGIPRPIQIVNPKYLDPGITFHRWDLRRGFFGPAA Torque teno virus 11 4 0.363636364
75403 ERCSSSLYHLLQEQATPPPFKKPRTEDQEENPEETTQLQLFQELQRQRELQLQLK Torque teno virus 11 3 0.272727273
75400 QVGDPCKQPTHPLPAPGGGDLLRAVQVSDPRKVGIQFHPWDLRRGMLSTSSIKRM Torque teno virus 11 3 0.272727273
75404 EENPEETTQLQLFQELQRQRELQLQLKRGFRGVEEMIKSHRHLALDPYL Torque teno virus 11 2 0.181818182
65485 HQPPRRGGGAGGAGDGHAGDGDAAEEYGPEDLDLLFAAAAEDDM Torque teno virus 11 2 0.181818182
54620 AHFTESIKPVLDLTNSILGRVE Hepatitis E virus 10 2 0.2
11926 IDAVPPAPPDVALHQMAEAFGHRPLEVRAVVPPCPALEQGKLYTPFNMSGREQVT Hepatitis E virus 10 2 0.2
49861 GGPPATATGPAVGSSDSPDPDPLPDVTDGSRPSGARPAGPNPNGVPQRRLLHTVPD Hepatitis E virus 10 2 0.2
10619 ENGEPSVKLYTSVEAAQLDQGVTIPHDIDLGLSTVTPQDFDNQHLQDRPTPSPAPA Hepatitis E virus 10 2 0.2
79463 SAWRDQAQRPAAASRRRPTTAGAAPLTAVAPAHDTPPVPDVDSRGAILRRQYNLS Hepatitis E virus 10 2 0.2
70242 ASSVHLLGDPNQIPAIDFEHAGLVPAIRPELVPTKWWHLTHRCPADVCELIRGAY Hepatitis E virus 10 2 0.2
55603 TLTSNDLYANTNLKLQRPQPGVVHTPYTQAPSGFERWKKDRGAPLNDIAPFGCTIA Eastern equine 8 5 0.625
encephalitis virus
55636 SLKTRPAAPHKVPTIGVYGVPGSGKSGIIKSAVTKRDLVVSAKKENCTEIIKDVK Eastern equine 8 2 0.25
encephalitis virus
55604 QAPSGFERWKKDRGAPLNDIAPFGCTIALDPLRAENCAVGNIPLSIDIPDAAFTR Eastern equine 8 2 0.25
encephalitis virus
55662 KVSIPLLSTGIYAGGKDRVMQSLNHLFTAMDTTDADVTIYCLDKQWEARIKDAIA Eastern equine 8 2 0.25
encephalitis virus
55635 KCVKKADAGPMCLVGELVDPPFHEFAYESLKTRPAAPHKVPTIGVYGVPGSGKSG Eastern equine 8 2 0.25
encephalitis virus
66974 SSTPVQRAVQSLSSLRRALYNRRLTEQVAVTDPLFLSRPSQLVQFQFDNPAFEEE Betapapillomavirus 8 5 0.625
66973 IETAQESFEMQSWPSRYSFEIEEGTPPRSSTPVQRAVQSSLSSLRRALYNRRLTEQ Betapapillomavirus 8 4 0.5
43702 TASSENIELQEFPSRYSFEIDEGTPPRTSTPVQRAVQSLSSLRRALYNRRLTEQVA Betapapillomavirus 8 4 0.5
43703 STPVQRAVQSLSSLRRALYNRRLTEQVAVTDPLFLSRPSRLVQFQFDNPAFEDEV Betapapillomavirus 8 3 0.375
43756 STPVQRAVQSLSSLRRALYNRRLTEQVAVTDPLFLGRPSRLVQFQFDNPTFEEEV Betapapillomavirus 8 3 0.375
50266 TDQSWKSFFKRLWTQLDLSDQEDEGEDGNSQRTFQCCTARDFNGPV Betapapillomavirus 8 2 0.25
50329 MSDDKGTYDPKEGCSDWFVLEAECSDASLDGDLEKLFEEGTDTDISDLIDNEDTV Betapapillomavirus 8 2 0.25
43775 TSTPVQRAVESLSSLRRALYNRRLTEQVAVTDPLFLSRPSRLVQFQFDNPAFEEE Betapapillomavirus 8 2 0.25
49699 LSSQEVLQLSPRLQSITISPQHKSKRRLFERDSGLELSFNEAEDLTQQTLEVQEV Betapapillomavirus 8 2 0.25
87399 EEDKRFESHIECRKPYKELRLEVGKQRLKYAQEELSNEVLPPPRKMKGLFSQAKI Hepatitis A virus 7 6 0.857142857
87293 EEDRRFESHIECRKPYKELRLEVGKQRLKYAQEELSNEVLPPPRKMKGLFSQAKI Hepatitis A virus 7 5 0.715285714
87184 EEDRRFESHIESRKPYKELRLEVGKQRLKYAQEELSNEVLPPPRKMKGLFSQAKI Hepatitis A virus 7 4 0.571428571
87322 SVDDPRTEEDRKFESHIEKRKPYKELRLEVGKQRLKYAQEELSNEVLPPPRK Hepatitis A virus 7 4 0.571428571
87503 LEVGKQRLKYAQEELSNEVLPPPRKMKGLFSQS Hepatitis A virus 7 4 0.571428571
87502 SSVDDPRSEEDRRFESHIECRKPYKELRLEVGKQRLKYAQEELSNEVLPPPRKMK Hepatitis A virus 7 3 0.428571429
87432 EEDRKFESHIEKRKPYKELRLEVGKQRLKYAQEELSNEVLPPPRKIKGVFSQAKI Hepatitis A virus 7 3 0.428571429
87534 TNAMMSSETMMDRIALGDLESSVDDPRSEEDRKFESHIEKRKPYKELRLEVGKQR Hepatitis A virus 7 2 0.285714286
87398 SNAMLSTESMMSRIAAGDLESSVDDPRSEEDKRFESHIECRKPYKELRLEVGKQR Hepatitis A virus 7 2 0.285714286
87295 LADVEEEQMIQSVDRTAVTGASYFTSVDQSSVHTAEVGSHQPEPLKTSVDKPGSK Hepatitis A virus 7 2 0.285714286
87431 TNAMMSSETMLDRIALGDLESSVDDPRSEEDRKFESHIEKRKPYKELRLEVGKQR Hepatitis A virus 7 2 0.285714286
87330 EEDRRFESHIECRKPYKELRLEVGKQRLKYAQEELSNEVLPPPRKMKGVFSQAKIS Hepatitis A virus 7 2 0.285714286
87501 YFPRAPLNSNAMLSTESMMSRIAAGDLESSVDDPRSEEDRRFESHIECRKPYKEL Hepatitis A virus 7 2 0.285714286
87385 FSRKEEEPIPAEGVYHGVTKPKQVIKLDADPVESQSTLEIAGLVRKNLVQFGVGE Hepatitis A virus 7 2 0.285714286
87183 SNAMLSTETMMSRIAAGDLESSVDDPRSEEDRRFESHIESRKPYKELRLEVGKQR Hepatitis A virus 7 2 0.285714286
87321 FPRAPLNTNAMMSSETVMDRIALGDLESSVDDPRTEEDRKFESHIEKRKPYKELR Hepatitis A virus 7 2 0.285714286
87506 EEDKRFESHIECRKPYKELRLEVGKQRLKYAQEELSNEVLPPPRKKKGLFSQAKIS Hepatitis A virus 7 2 0.285714286
3846 RHNKTIRGSFINGACGSPGFNINGDTVEFVYLHQLELGSGCHVGSNMEGAMYGGF Bat coronavirus 1B 6 3 0.5
3898 CIAARDVVVTNLNKSAGYPLNKFGKAGLYYEALSYEEQDALYAVTKRNILPTMTQ Bat coronavirus 1B 6 3 0.5
3872 QNNEVIPGKLNVRPVKGEGDGGFTADGKALFNNEGGKTFMYAFIADKPDLKVVKW Bat coronavirus 1B 6 4 0.666666667
89973 FQSLSESATMVYNEREFVNRKLHHIAMHGPALNTDEESYELVRAERTEHEYVYDV Chikungunya virus 6 2 0.333333333
89972 SGRAGRYAVEAYDGRVLVPSGYAISPEDFQSLSESATMVYNEREFYNRKLHHIAM Chikungunya virus 6 2 0.333333333
89961 SCEGYVVKRITMSPGLYGKTTGYAVTHHADGFLMCKTTDTVDGERVSFSVCTYVPA Chikungunya virus 6 2 0.333333333
90726 YQLLQASLTCSPHRQRRSTKDNFNVYKATRPYLAHCPDCGEGHSCHSPVALERIR Chikungunya virus 6 2 0.333333333
14080 RRRRVTTVVEEGDPVCSSCNSRLVSIKDVDRLSTLSLGLACSSTLSCAACGSALT Orf virus 6 3 0.5
14107 YMSEYRSAMSKLIWLSATKSSSSVREDTFRAMASPCSRKAFRRTTPLTSILEYAA Orf virus 6 2 0.333333333
13669 PASSSPMPMATGVKAVTSSQMRRSRNPTLEEGCAAGGEVMRAGTRLGAGSGGELRS Orf virus 6 2 0.333333333
13668 LGQCGERRHTGKPTALRQRTMVESSIQQPASSSPMPMATGVKAVTSSQMRRSRNPT Orf virus 6 2 0.333333333
14497 SRATASLSARGSSASVSASAAEASASAPAASAWQRFSTTSSQFRRRPRTAPTRTA Orf virus 6 2 0.333333333
13809 TSTYPSLDSDSIARRCASLLATTSSATRRWKAKSGTASGVGASETCGTWYLPNHC Orf virus 6 2 0.333333333
53947 CPCDEAEQEIDQEQLPVPETVPEPPAKTPKRRPVKKKADKADKDKSTRGAKKPCP Orf virus 6 2 0.333333333
14294 VLVPVRRVVSVRRAVPVGGVSALFRGAAVVERARTASRHQVAVQR Orf virus 6 2 0.333333333
69382 CPCDEAEQEIDQEQLPVPETVPEPPAKTPKRRPVKKDKADKADKDKSTRGAKKPC Orf virus 6 2 0.333333333
24866 STTSFAFFKYSPTISSASSYSNVTVPLTSSWDDVPVYTGPDITLPSTTSVWPIVSPT Alphapapillomavirus 7 6 5 0.833333333
68180 ICVQAERETAQALFNVQEAQRDAREMHVLKRKFGCSIENSSEKAAAGKKAKSPLQ Alphapapillomavirus 7 6 2 0.333333333
24865 PLVSATEDNDLFDIYADDMDPAVPVPSRSTTSFAFFKYSPTISSASSYSNVTVPL Alphapapillomavirus 7 6 2 0.333333333
85530 AVGFVPDTGPASRSVIRSIIKSSRIEEDRKRYLMTLLDDIKGANDLAKFHQMLMK Measles virus 6 4 0.666666667
83494 TASESSQDPQDSRRSAEALLRLQAMAGISEEQGSDTDTPRVYNDRDLL Measles virus 6 3 0.5
83501 TAPESSQDPQDSRRSADALLRLQAMAGISEEQGSDTDTPTVHNDRNLL Measles virus 6 3 0.5
83499 HGDQSENELPRLGGKEDRRVKQSRGEARESYRETGPSRASDARAAHLPTGTPPDTD Measles virus 6 3 0.5
83498 TATESSQDPQDSRRSADALLRLQAMAGISEEQGSDTDTPIVYNDRNLL Measles virus 6 2 0.333333333
42520 TASESSQDPQDSRRSADALLRLQAMAGISEEQGSDTDTPIVYNDRNLL Measles virus 6 2 0.333333333
83493 ESYRETGPSRASDARAAHLPTDTPLDIDTASESSQDPQDSRRSAEALLRLQAMAG Measles virus 6 2 0.333333333
42518 HGDQSENELPRLGGKEDRRVKQSRGEAREYRETGPSRASDARAAHLPTGTPLDI Measles virus 6 2 0.333333333
42519 ESYRETGPSRASDARAAHLPTGTPLDIDTASESSQDPQDSRRSADALLRLQAMAG Measles virus 6 2 0.333333333
83497 ESYRETGPSRASDARAAHLPTGTPLDIDTATESSQDPQDSRRSADALLRLQAMAG Measles virus 6 2 0.333333333
83492 HGDQSENEPPRWGGKEDMRVKQSRGEARESYRETGPSRASDARAAHLPTDTPLDI Measles virus 6 2 0.333333333
83478 ESYRETGPSRASDARAAHLPTGTPLDIDTASESSQDPQDSRRSAEPLLSCKPWQES Measles virus 6 2 0.333333333
83800 ESYRETGPSRASDARAAHLPTGTPPDTDTAPESSQDPQDSRRSADALLRLQAMAG Measles virus 6 2 0.333333333
83477 QGDQSENELPRLGGKEDRRVKQSRGEARESYRETGPSRASDARAAHLPTGTPLDI Measles virus 6 2 0.333333333
44026 QVVPPLSVTKAKARNAIEVHVALQQLQESAYAHEPWTLRDTSREMWDTAPKGCWK Alphapapillomavirus 2 5 3 0.6
45373 PMETFASPGTGNEPISSTPVPGVSRIAPGRLYAKAVTQVKVTDPAFLSRPTSLVT Alphapapillomavirus 2 5 2 0.4
43466 LGVGLSGHPLYNKLDDTENSNIAHGDIGKDSRDNISVDNKQTQLCIVGCTPPMGE Alphapapillomavirus 2 5 2 0.4
59344 PRLGLYTKATQQVPVADPAFVSRPASFATFDNPIYDPEETIIFEHPSIYTPPDPDP Alphapapillomavirus 3 5 3 0.6
59343 MVTFASNAGTGSEPISSTPLPGVRRVAGPRLGLYTKATQQVPVADPAFVSRPASFA Alphapapillomavirus 3 5 3 0.6
59389 YKCPLDDKGDPVYQFNNENWKSFFQRSWAQIEGTPEEEEEEEEEDNGNTGRPFRCV Alphapapillomavirus 3 5 3 0.6
68250 HKCCPLKSNGDPVYTLNNENWKSFFQRSWARIEGPDEQEEEEDEDGSTSRPFRCVP Alphapapillomavirus 3 5 3 0.6
42999 IDIENKIARRLADRKQRLNQANNKRDISSDADYENDDDATAAAEIGG Human parainfluenza 5 3 0.6
virus 1
85545 TSEDSSNLEDHNTKTSPKVLPSKNEESVATQKNNHNHRKTKYTTNNANNNTKSLPT Human parainfluenza 5 2 0.4
virus 1
41928 ATPKNNHNHRKTKYTMNNANNNTKSPPTPEHDTTANEEETSNTSVDEMAKLLVSL Human parainfluenza 5 2 0.4
virus 1
42998 WMNHSTNNHTITIHGAEELEEETNDEDIIDIENKIARRLADRKQRLNQANNKRDIS Human parainfluenza 5 2 0.4
virus 1
51507 KVERCCCAVFTDWPESWYMDTSGIKKYSPDEWVSSIK Variola virus 5 2 0.4
42315 RIAIVNYANLNGSPLSVEDLDVCSEDEIDRIYKTIKQYHESRKRKIIVTNVIIIV Variola virus 5 2 0.4
35699 RKQWRRDHWRGLRVAREDHRSLKQGGSEPSAPRAHFPGVAKVLEILA Human immunodeficiency 5 2 0.4
virus 2
66563 AAGAAPPIAEAGETEAVGALVNASAATHVDVDVGRAADLFVSQMMGG Macacine herpesvirus 1 5 2 0.4
66828 TRFALYKEVRLALASRSDAASSTPVPPGCVDAEYSRTRDCPDGRTPGIWNEPRIR Macacine herpesvirus 1 5 2 0.4
65696 YRDGYASGEPWPGAEPPPPGRVLYGGLGDRPGLWGAPEVDEARRRYEAAGAPAPV Macacine herpesvirus 1 5 2 0.4
66079 PASPGAKRALADAARASARKKSRLYPVYVVADPRVSPSPPPSPGGPVDPEPGSA Macacine herpesvirus 1 5 2 0.4
66036 SDDLTDAPLVLGGERVDSLGALRRLVAGAARDPAPRAAPPTTLYYTRMDGAPPRL Macacine herpesvirus 1 5 2 0.4
66078 GAEEGGERPGEKEKEERPEGAVGAEPDAPASPGAKRALADAAARASARKKSRLYP Macacine herpesvirus 1 5 2 0.4
2261 KDNPLYEPLNNNKLTRKNAIRRKMLRPNDKNQIVLPFNNNNNNNNNKIGIGNANA Tanapox virus 5 3 0.6
75146 YTTAISLSNRLKINKKKINQQLYKLQKEDTVKMVPSNPPKWFKNYNCDNGEKHDS Tanapox virus 5 2 0.4
68169 FLAPPSKVTGGGARNTGDQWSHGMPFPMLDSDSPPKGRPGMAGPHSAGSAFHP Hepatitis delta virus 4 3 0.75
12869 FDIVQKGQPEEYRTTFAKGSSVQDVLQDWEPILNQISDKWPSLVEFENDLKAKVG Human picobirnavirus 4 2 0.5
8638 FGDMGDTYQQYLNGHYSTYAMCAVLGWRGQEGGPEPDDVKQRVVWMMPLALNVA Human picobirnavirus 4 2 0.5
44207 PATATTETVGPAQAPPRKRRRNGHLPITTTVGKSLGGEYVDTADRTRTPDPESNNG Alphapapillomavirus 8 4 2 0.5
44002 STVEGLPIVAPVDIRHPAATDATDATKVHDAPYALPASTTKVYNDSHAPPRKRRRD Alphapapillomavirus 8 4 2 0.5
44206 STIEEHGLPIVETADARPPTTATDTPDAPATATTETVGPAQAPPRKRRRNGHLPIT Alphapapillomavirus 8 4 2 0.5
64371 VEFHKEARTYGETGQWNVVMGSNVIYSPASVSSTVSEVSSVASTESDTGPATTVPD Alphapapillomavirus 8 4 2 0.5
67760 NKNWKSFFKRSWSRLALNDNDNEEEENGDPSNTFRCVPGKASRP Alphapapillomavirus 13 4 4 1
43877 RLVTYDNPAFEGLQDTTLEFQHSDLHNAPDSDFLDIVKLHRPALTARKTGIRVSR Alphapapillomavirus 11 4 2 0.5
68332 FLNPFPFDSNGNPLYQLTNENWKAFFTKTWSKLDLTEDDDKENDGDTVQTFKCVS Alphapapillomavirus 11 4 2 0.5
10578 DSSVSSNEIAEAINAALKTRYVRDTSNVVNSALSIASARSEKQLDAVKRATCCIS Psedocowpox virus 4 3 0.75
53566 LHSKGADNAELNYVSCALDRKIVQKHPSDNRLAWTIGNRAPYIGSRTEDKIGYPP Marburg marburgvirus 4 3 0.75
82372 KHDQRYEKKESSQQQMSPEDNMQTLAYMHNSSPSQTFIKSIDVHEDFDASRVILNS Marburg marburgvirus 4 2 0.5
22558 TEAETYTKFVGYVTTTFKRKHFRPTPDACRAAYNWKMAGDPRYEESLHNPYPDYRW Rabies virus 3 2 0.666666667
83566 ELQEYETAELTKTDVALADDGTVNSDDEDYFSGETRSPEAVYSRIMMNGGRLKRS Rabies virus 3 2 0.666666667
86493 QTGSASSMVNGVVRLLTKPWDVVPMVTQMAMTDTTPFGQQRVFKEKVDTRTQEPK Dengue virus 3 2 0.666666667
86550 ETKQTGSASSMVNGVVRLLTKPWDVIPMVTQMAMTDTTPFGQQRVFKEKVDTRTQ Dengue virus 3 2 0.666666667
86426 ETKQTGSASSMGNGVVRLLTKPWDVVPMVTQMAMTDTTPFGQQRVFKEKVDTRTQ Dengue virus 3 2 0.666666667
86371 EKIKQEHETSWHYDQDHPYKTWAYHGSYETKQTGSASSMVNGVVRLLTKPWDVVPM Dengue virus 3 2 0.666666667
86372 ETKQTGSASSMVNGVVRLLTKPWDVVPMVTQMAMTDTTPFGQQRVFKEKVDTRTQ Dengue virus 3 2 0.666666667
74723 KATGSASSMINGVVKLLKPWDVVPMVTQMAMTDTTPFGQQRVFKEKVDTRTPRPM Dengue virus 3 2 0.666666667
86425 EKIKQEHETSWHYDQDHPYKTWAYHGSYETKQTGSASSMGNGVVRLLTKPWPVVPM Dengue virus 3 2 0.666666667
47482 NTPKDHIGTRNPNNNAATVLQLPQGTTLPKGFYAEGSRGGSQASSRSSSRSRGNS Severe acute respiratory 3 2 0.666666667
syndrome-related
coronavirus
4753 MSKGLIHPSSIRSGLVDLEMAEETVDLVHKNLTDGQAHLQGEPFSVDSLPEDVRRM Largos bat virus 2 2 1
4758 TDNKQTQTDPLNLPKPLPKANPVQKEEQSKPGPTGGRVKPKIPPKSEWAKTTEEVS Largos bat virus 2 2 1
4759 SKPGPTGGRVKPKIPPKSEWAKTTEEVSDIEGEVAHQVAESFSKRYKFPRSSGI Largos bat virus 2 2 1
39870 MADDTGTEEGLGCSGWFCVEAIVDKTTENAISDDEDENVDDSGLDLVDFVDNSTV Alphapapillomavirus 1 2 2 1
84538 TEDAGTQTHGEEKDYDLEEGDLDALFANDFEEDD Torque teno mini virus 1 2 2 1
28258 GENEEIIINGHTYVCAWLTKRKPLDYKRQNNLAIEEIEYVHGDALHTLRNGSVLEM Human coronavirus 229E 2 2 1
17157 CTPCIGEHWDKAIPCEKERQDNRLCPPIELKTTYIEDGDMADIGFGNLNFKNLQ Human papillomavirus 2 2 1
64427 PTPDNAVHDTYRYISSKATKCPDAVPETQKEDPFGQYT Human papillomavirus 2 2 1
indicates data missing or illegible when filed