Abstract: In one aspect the invention is a method of testing for one or more colorectal pathologies or one or more subtypes of colorectal pathology (in one embodiment colorectal cancer) in a test individual by providing data corresponding to a level of products of selected biomarkers and applying the data to a formula to provide an indication of whether the test individual has one or more colorectal pathologies or one or more subtypes of colorectal pathology. In some aspects the method is computer based and a computer applies the data to the formula. In other aspects a computer system is configured with instructions that cause the processor to provide a user with the indication of whether the test individual has colorectal pathology. Also encompassed are kits for measuring data corresponding to the products of selected biomarkers which in some embodiments include a computer readable medium. Also encompassed are kits and methods of monitoring therapeutic efficacy of treatments for one or more colorectal pathologies.

Abstract: Methods, systems and computer program products of DNA sequence alignment using a symmetric phase only matched filter (SPOMF) are described herein. SPOMF is useful for both global alignment and local alignment. Also described herein is a prime-length cross correlation algorithm for enhancing the robustness of the SPOMF.

Abstract: A system, method, device, and computer program product to extract and gather peak information from an automated sequencer of bioinformatics into a peak database, and to manipulate and analyze the peak information within the database.

Abstract: Multimodal optical spectroscopy systems and methods produce a spectroscopic event to obtain spectroscopic response data from biological tissue and compare the response data with preset criteria configured to correlate the measured response data and the most probable attributes of the tissue, thus facilitating classification of the tissue based on those attributes for subsequent biopsy or remedial measures as necessary.

Abstract: The objective of the present invention is the efficient analyzation of the structure of an array. By performing the prev(S) calculation for a character string S, if in the character string S a like variable is present upstream of a second variable, the second variable is changed to a numerical value that indicates the distance to the upstream like variable. But if in the character string S a like variable is not present upstream of a variable, that variable is changed to “0” to obtain a character string S1. Further, by performing the compl(S) calculation for the a character string S, if in the character string S a complementary variable is present upstream of a second variable, the second variable is changed to a numerical value that indicates the distance to the complementary variable. But if in the character string S a complementary variable is not present upstream of a variable, that variable is changed to “0” to obtain a character string S2 (102).

Abstract: The present invention relates to a method to predict the mortality risk of a subject (p) affected of breast cancer comprising measuring the expression level of 105 specific genes in a biological sample, obtaining the prognostic score, S(p), that indicates the expression levels of said genes in said subject (p) affected of cancer, and predicting the mortality risk of said subject (p) affected of cancer.

Abstract: An integrated system for modeling, simulating and analyzing chemical and biochemical reactions includes a modeling environment for constructing a model of a chemical or biochemical reaction. The system also includes a simulation engine accepting as input the constructed model of the chemical or biochemical reaction and generating as output an expected result. An analysis environment communicates with the simulation engine and displays the expected result.

Abstract: Multimodal optical spectroscopy systems and methods produce a spectroscopic event to obtain spectroscopic response data from biological tissue and compare the response data with an empirical equation configured to correlate the measured response data and the most probable attributes of the tissue, thus facilitating classification of the tissue based on those attributes for subsequent biopsy or remedial measures as necessary.

Abstract: A coarse grain model that mimics a lipid molecule, such as dimyristoylphosphatidylcholine (DMPC), is used to simulate self-assembly of a lamellar bilayer starting from a disordered configuration. The coarse grain model is orders of magnitude less demanding of CPU time compared to all-atom models. An initial bilayer-like structure is generated from a disordered configuration of the coarse grain models using a Monte Carlo simulation. The initial bilayer-like structure is refined using a molecular dynamics simulation. For relatively small systems, the molecular dynamics simulation can be performed under constant volume or constant pressure conditions. For larger systems, the molecular dynamics simulation is preferably performed under constant pressure conditions.

Abstract: It is provided a method of designing at least one oligonucleotide for nucleic acid detection comprising the following steps in any order: (I) identifying and/or selecting region(s) of at least one target nucleic acid to be amplified, the region(s) having an efficiency of amplification (AE) higher than the average AE; and (II) designing at least one oligonucleotide capable of hybridizing to the selected region(s). It is also provided a method of detecting at least one target nucleic acid comprising the steps of: (i) providing at least one biological sample; (ii) amplifying nucleic acid(s) comprised in the biological sample; (iii) providing at least one oligonucleotide capable of hybridizing to at least one target nucleic acid, if present in the biological sample; and (iv) contacting the oligonucleotide(s) with the amplified nucleic acids and detecting the oligonucleotide(s) hybridized to the target nucleic acid(s).

Abstract: A method is provided for selecting two or more genes from gene expression data. In the method, gene expression data for a plurality of genes is provided, where the gene expression data include expression levels for each of the plurality of genes. The gene expression data is discretized. Based on the discretized gene expression data, the synergy among the plurality of genes with respect to a phenotype, for example, presence or absence of a disease in a tissue, is evaluated. Two or more genes whose synergy exceeds a predetermined threshold are selected. A system implementing the method is also provided.

Abstract: Comparative genomic hybridization assays and compositions for use in practicing the same are provided. A characteristic of the subject comparative genomic hybridization assays is that solid support immobilized oligonucleotide feature elements, e.g., in the form of an array, are employed. Specifically, at least first and second nucleic acid populations prepared from genomic templates are contacted with a plurality of distinct oligonucleotide feature elements immobilized on a solid support surface and the binding of the at least first and second populations is then evaluated. Also provided are kits for use in practicing the subject methods.

Abstract: The present invention relates to methods, apparatus and computer systems for assigning a numerical value to a genotype at a single- or multi-base segment in an individual's genome to denote the presence of a match or a mismatch of a nucleic acid base sequence of one or more chromosomal copies of the segment, as compared to the nucleic acid base sequence at a reference genome segment that corresponds to the segment of the individual's genome. The methods involve assigning a single digit numerical value to the match or the mismatch of each chromosomal copy of the segment in the genome, so that the numerical value assigned to a mismatch is greater than the numerical value of the match. A null symbol is assigned to a no call determination. The assigned numerical values are summed and a total numerical value which is a single digit or a fixed number of digits is obtained.

Abstract: The present invention provides processes for determining more accurate risk probabilities for medical conditions. The risk probabilities of the presence or absence of a medical condition are calculated using frequency data from selected biomolecules and biomolecule source contribution of at least one source in a mixed sample.

Abstract: The invention provides in silico models for determining the physiological function of human cells, including human skeletal muscle cells. The models include a data structure relating a plurality of Homo sapiens reactants to a plurality of Homo sapiens reactions, a constraint set for the plurality of Homo sapiens reactions, and commands for determining a distribution of flux through the reactions that is predictive of a Homo sapiens physiological function. A model of the invention can further include a gene database containing information characterizing the associated gene or genes. A regulated Homo sapiens reaction can be represented in a model of the invention by including a variable constraint for the regulated reaction. The invention further provides methods for making an in silico Homo sapiens model and methods for determining a Homo sapiens physiological function using a model of the invention.

Abstract: Methods and software products for analysis of alternative splicing are disclosed. In general the methods involve normalizing probe set or exon intensity to an expression level measurement of the gene. The methods may be used to identify tissue-specific alternative splicing events.

Abstract: A method of associating a DNA sequence with a specimen pooled among a plurality of specimens, where the specimens may be pooled according to any number of pooling schemes, including the Chinese Remainder Theorem, random pool selection, shifted transversal design, and Chinese Remainder Sieve. A unique identifier is associated with each specimen according to the pooling scheme such that a decoder may associate a DNA sequence with each specimen after next-generation sequencing according to the unique identifier and the chosen pooling scheme.

Abstract: One embodiment of the present invention sets forth a technique for efficiently performing N-body computations using parallel computation systems. The technique involves a first processing step whereby a force matrix is partitioned into tiles, which are assigned to a one or more thread groups for processing. An off-diagonal tile may be aligned to include no diagonal cells, while an on-diagonal tile includes diagonal cells. One approach for computing either type of tile involves assigning each row from a tile to a thread within a thread group. Each thread operates on an offset pattern to avoid access conflicts to a shared memory. A net force for each atom within an N-body system is then computed by efficiently adding constituent forces stored within the force matrix using reduction operations on the force matrix.

Abstract: The invention relates to a method for optimizing a nucleotide sequence for expression of a protein on the basis of the amino acid sequence of the protein, in which for a particular region there is specification of a test sequence with m optimization positions on which the codon occupation is varied, a quality function being used to ascertain the optimal codon occupation on these optimization positions, and one or more codons of this optimal occupation being specified as codons of the optimized nucleotide sequence. These steps are iterated, with the codons of the optimized nucleotide sequence which are specified in the preceding steps remaining unchanged in subsequent iteration steps. The invention additionally relates to a device for carrying out this method.

Abstract: Methods and devices for more efficiently engineering diversity into recombinant polypeptides and/or nucleic acids are provided herein. For example, a variety of methods of selecting and/or assessing potential crossover sites in an amino acid sequence or a nucleotide sequence are provided, as well as the resulting chimeric product sequences. These methods include, e.g., consideration of structural, functional and/or statistical data in the selection and assessment of sequences and crossover sites for use in recombination.

Abstract: Nucleic acid microparticles are sequenced by performing a sequencing reaction on the microparticles using one or more reagents, selectively exciting the microparticles in an excitation pattern, optically imaging the microparticles at a resolution insufficient to resolve individual microparticles, and processing the optical images of the microparticles using information on the excitation pattern to determine the presence or absence of the optical signature, which indicates the sequence information of the nucleic acid. An apparatus for optical excitation of the microparticles comprises an optical fiber delivering a first laser beam, and an interference pattern generation module coupled to the optical fiber. The interference pattern generation module splits the first laser beam into second and third laser beams and generates the excitation pattern for selectively exciting the microparticles by interference between the second and third laser beams.

Abstract: Techniques for medical infusions include determining a first infusion rate for administering a first medication to a patient. A fluid load is determined based at least in part on the first infusion rate. It is determined whether the fluid load exceeds a predetermined threshold based on a fluid maintenance rate. If it is determined that the fluid load exceeds the predetermined threshold, then an action is caused to inhibit administering the first medication to the patient at the first infusion rate.

Abstract: The invention discloses a Non-Equilibrium Capillary Electrophoresis of Equilibrium Mixtures (NECEEM) method and NECEEM-based practical applications. The NECEEM method is a homogeneous technique, which, in contrast to heterogeneous methods, does not require affixing molecules to a solid substrate. The method of the invention facilitates 3 practical applications. In the first application, the method allows the finding of kinetic and thermodynamic parameters of complex formation. It advantageously allows for revealing two parameters, the equilibrium dissociation constant, Kd, and the monomolecular rate constant of complex decay, koff, in a single experiment. In the second practical application, the method of this invention provides an approach for quantitative affinity analysis of target molecules. It advantageously allows for the use of affinity probes with relatively high values of koff.

Abstract: The present invention relates to the identification and use of protein expression profiles with clinical relevance to osteoarthritis (OA). In particular, the invention provides the identity of marker proteins whose expressions are correlated with OA, OA subtype, and/or OA progression. Methods and kits are described for using these protein expression profiles in the study and/or diagnosis of OA, in the determination of the degree of advancement of OA, and in the selection and/or monitoring of treatment regimens. The invention also relates to the screening of drugs that modulate expression of these proteins or nucleic acid molecules encoding these proteins, in particular for the development of disease-modifying OA agents.

Abstract: A method of selecting a set of normalization probes for use on a comparative genome hybridization array is provided. In certain embodiments, the method includes: a) selecting a first region of a genome to be evaluated by comparative genome hybridization to produce data; b) selecting a second region of the genome for normalization of the data, and c) selecting from a set of candidate probes a sub-set of normalization probes that detect the second region.

Abstract: An isolated oligonucleotide comprising at least one ditag, wherein the ditag comprises two joined first and second sequence tags, wherein the first tag comprises the 5?-terminus sequence and the second tag comprises the 3?-terminus sequence of a nucleic acid molecule or a fragment thereof. The ditag analysis is useful for gene discovery and genome mapping.

Abstract: The invention relates to a method for determining the ratio of two distinct target-peptides or polynucleic acids comprising: a) obtaining a sample containing said two distinct target-peptides or polynucleic acids, b) providing a precursor-peptide or precursor-polynucleic acid, comprising the two distinct target-peptides or -polynucleic acids in a known ratio, wherein the two distinct target-peptides or -polynucleic acids are connected by a cleavage site, c) cleaving the precursor-peptide or precursor-polynucleic acid at the cleavage site to obtain a standard with the known ratio of the two distinct target-peptides or -polynucleic acids, d) detecting a signal of each distinct target-peptide or -polynucleic acid of the standard in an analyzer, comparing the signals with the known ratio and determining a correction factor, e) detecting the signal of each distinct target-peptide or -polynucleic acid of the sample in the analyzer and f) determining the ratio of the two distinct target-peptides or -polynucleic acid

Abstract: Systems and methods for determining free energy parameters for predicting binding affinities of nucleotide sequences are provided. The disclosed subject matter obtains phenotypic measurements for nucleotide sequences (for example a DNA sequence or RNA sequence), links the phenotypic measurements to the nucleotide sequences to obtain linked pairs of phenotypic measurements and nucleotide sequences, estimates a relationship between the phenotypic measurements and the nucleotide sequences using the linked pairs, and obtains sequence specific affinity parameters from the estimated relationship.

Abstract: One embodiment of the present invention sets forth a technique for efficiently performing N-body computations using parallel computation systems. The technique involves a first processing step whereby a force matrix is partitioned into tiles, which are assigned to a one or more thread groups for processing. An off-diagonal tile may be aligned to include no diagonal cells, while an on-diagonal tile includes diagonal cells. One approach for computing either type of tile involves assigning each row from a tile to a thread within a thread group. Each thread operates on an offset pattern to avoid access conflicts to a shared memory. A net force for each atom within an N-body system is then computed by efficiently adding constituent forces stored within the force matrix using reduction operations on the force matrix.

Abstract: One embodiment of the present invention sets forth a technique for efficiently performing N-body computations using parallel computation systems. The technique involves a first processing step whereby a force matrix is partitioned into tiles, which are assigned to a one or more thread groups for processing. An off-diagonal tile may be aligned to include no diagonal cells, while an on-diagonal tile includes diagonal cells. One approach for computing either type of tile involves assigning each row from a tile to a thread within a thread group. Each thread operates on an offset pattern to avoid access conflicts to a shared memory. A net force for each atom within an N-body system is then computed by efficiently adding constituent forces stored within the force matrix using reduction operations on the force matrix.

Abstract: A method of recovering a nucleic acid sequence using a probe map includes: aligning a probe onto a target sequence based on a result in which the probe is hybridized to the target sequence; determining a representative value representing each aligned position of the probe; and recovering a base sequence of the target sequence by using a probe map to which the determined representative values and base sequence information of the probe are mapped.

Abstract: Methods for analyzing signal data generated by sequencing of a polynucleotide strand using a pH-based method of detecting nucleotide incorporation(s). In an embodiment, the method comprises formulating a function that models the output signal of a representative empty well of a reactor array. A time transformation is applied to the empty well function to obtain a time-warped empty well function. The time-warped empty well function is fitted to an output signal from the loaded well representative of a flow that results in a non-incorporation event in the loaded well. The fitted time-warped empty well function can then be used to analyze output signals from the loaded well for other flows.

Abstract: A method for nucleic acid sequencing includes receiving a plurality of signals indicative of a parameter measured for a plurality of defined spaces, at least some of the defined spaces including one or more sample nucleic acids, the signals being responsive to a plurality of nucleotide flows introducing nucleotides to the defined spaces; determining, for at least some of the defined spaces, whether the defined space includes a sample nucleic acid; processing, for at least some of the defined spaces determined to include a sample nucleic acid, the received signals to improve a quality of the received signals; and predicting a plurality of nucleotide sequences corresponding to respective sample nucleic acids for the defined spaces based on the processed signals and the nucleotide flows.

Abstract: The disclosure provides methods for identifying and producing stabilized chimeric proteins.

Abstract: The present invention relates to methods for representing multidimensional data. The methods of the present invention are well suited but not limited to the representation of multidimensional data in such a way as to enable the comparison and differentiation of data sets. For example, the invention may be applied to the representation of flow cytometric data. The invention further relates to a program storage device having instructions for controlling a computer system to perform the methods, and to a program storage device containing data structures used in the practice of the methods.

Abstract: The present invention concerns a method for identifying the functionality of each member of a family of nucleic acids interact with the first family. Nucleic acids from the first family are put into functionally related clusters that share biological information obtained from the second family. The invention also relates to the refinement and accurate prediction of interactions between the first family and the second family of nucleic acids. The invention also applies to the use of such functional information to identify targets and mechanisms for therapeutic applications.

Abstract: The information processing unit receives input of a user ID and a password when the operator carries out log-in, and executes user authentication process. When the log-in process is carried out by the user, the information processing unit outputs test results together with a patient attribute information including patient ID, name of the patient, attending physician, medical wards, comments regarding patient, and the like. When the log-in process is carried out by the maintenance technician, the information processing unit outputs the test result only.

Abstract: The invention relates to assembly of sequence reads. The invention provides a method for identifying a mutation in a nucleic acid involving sequencing nucleic acid to generate a plurality of sequence reads. Reads are assembled to form a contig, which is aligned to a reference. Individual reads are aligned to the contig. Mutations are identified based on the alignments to the reference and to the contig.

Abstract: Single copy sequences suitable for use as DNA probes can be defined by computational analysis of genomic sequences. The present invention provides an ab initio method for identification of single copy sequences for use as probes which obviates the need to compare genomic sequences with existing catalogs of repetitive sequences. By dividing a target reference sequence into a series of shorter contiguous sequence windows and comparing these sequences with the reference genome sequence, one can identify single copy sequences in a genome. Probes can then be designed and produced from these single copy intervals.

Abstract: The present invention provides a method for classification of kidney tumors through the analysis of the expression patterns of specific microRNAs and nucleic acid molecules relating thereto. Classification according to a microRNA expression framework allows optimization of treatment, and determination of specific therapy.

Abstract: Systems and methods for identifying, confirming, mapping, and categorizing sample polymers, such as nucleic acid sequences, are provided. An estimation of the fraction of first and second polymers in a sample of polymers can be calculated by inputting a first hybridization value indicative of hybridization affinity of the sample of polymers to polymers probes that are complementary to the first polymer and inputting a second hybridization value indicative of hybridization affinity of the sample of polymers to polymers probes that are complementary to the second polymer. The estimation of the fraction of the first and second polymers in the sample of polymers can then be calculated by dividing the first hybridization value by a sum of the first and second hybridization values. Estimations of the fractions of alleles in a sample can be clustered to form a fraction pattern usable for identifying, confirming, mapping, and genotyping sample nucleic acids.

Abstract: This invention provides methods and arrays for determination of the methylation patterns at single-nucleotide resolution by array-based hybrid selection and next-generation sequencing of bisulfite-treated DNA.

Abstract: An embodiment of a method of analyzing data from processed images of biological probe arrays is described that comprises receiving a plurality of files comprising a plurality of intensity values associated with a probe on a biological probe array; normalizing the intensity values in each of the data files; determining an initial assignment for a plurality of genotypes using one or more of the intensity values from each file for each assignment; estimating a distribution of cluster centers using the plurality of initial assignments; combining the normalized intensity values with the cluster centers to determine a posterior estimate for each cluster center; and assigning a plurality of genotype calls using a distance of the one or more intensity values from the posterior estimate.

Abstract: A method for testing the linearity or non-linearity of an actual analyte concentration and a test result, where the actual concentration of the analyte and a test result are determined so that a computation based upon an algorithm may be performed, which allows computation of various variables so that regression may be performed and the linear significance may be determined.

Abstract: The present invention provides methods for estimating the breeding value of individuals in populations such as those having small effective population size (Ne) e.g., to identify selection candidates having high breeding values, wherein the methods comprise inferring one or more genotypes for one or more markers at a locus or QTL to be the same as for an ancestor or founder or a subset of ancestors and/or founders from which a corresponding chromosome segment is derived and estimating the breeding value of the individual based on the inferred genotype(s).

Abstract: The invention relates to a method for determining the risk of suffering a cardiovascular disease based on the presence of different polymorphisms as well as to kits for practicing the above method. The invention also relates to a method for determining the risk of suffering a cardiovascular disease by combining the absence or presence of one or more polymorphic markers in a sample from the subject with conventional risk factors for CVD as well as computer-implemented means for carrying out said method.

Abstract: A system, method, and non-transitory computer-readable medium.

Abstract: A method and apparatus for the in vitro determination and typification of well-differentiated or fully differentiated mammalian cells is disclosed. The method comprises placing a cell sample on a sampling device, irradiating the cells with infrared light, preparing an FT-IR spectrum from the absorption spectrum, calculating derivatives of the FT-IR spectrum and comparing the derivatives to reference FT-IR spectra for known cell types. The apparatus comprises an infrared source and measuring apparatus capable of recording an absorption spectrum, and software for measurement, evaluation, documentation, and derivation of the absorption spectra. Fourier transformation he method is particularly useful for typing cells from tissue biopsies in preparation for cell transplantation.

Abstract: Methods of identifying allele-specific changes in genomic DNA copy number are disclosed. Methods for identifying homozygous deletions and genetic amplifications are disclosed. An array of probes designed to detect presence or absence of a plurality of different sequences is also disclosed. The probes are designed to hybridize to sequences that are predicted to be present in a reduced complexity sample. The methods may be used to detect copy number changes in cancerous tissue compared to normal tissue. The methods may be used to diagnose cancer and other diseases associated with chromosomal anomalies.

Abstract: A computer-implemented method for managing change of sets of processing information that describe a process flow includes receiving a first activity description describing a first activity for performing a process flow, receiving a first formula description describing a first input and an output of the process flow, receiving a second formula description describing a second input and the same output of the process flow, and associating the first activity description with one of the first formula description and the second formula description.