Abstract: Provided are oligonucleotides for isolating human antibody cDNAs from cells or cell lines, such as hybridomas. The invention also provides cDNAs that encode at least one provided CDR of a heavy chain or a light chain of a human monoclonal antibody that binds to B. anthracis protective antigen; and cDNAs that encode at least one provided CDR of a heavy chain or a light chain of a human monoclonal antibody that binds to B. anthracis lethal factor. The invention further provides expression vectors that contain one or more cDNAs isolated according to the methods of the invention, host cells expressing one or more inventive cDNAs, and transgenic plants and animals that express one or more inventive cDNAs. In certain embodiments of the invention the expression system is a plant-based expression system. The invention further provides antibody compositions comprising one or more antibodies produced by expressing a cDNA isolated according to the methods of the invention in a suitable expression system.

Abstract: The present teachings provide methods, compositions, and kits for performing primer extension reactions on at least two target polynucleotides in the same reaction mixture. In some embodiments, a reverse transcription reaction is performed on a first target polynucleotide with a hot start primer comprising a self-complementary stem and a loop, and extension products form at high temperatures but extension products form less so at low temperatures since the self-complementary stem of the hot start primer prevents hybridization of the target specific region to the target. However, non-hot start primers with free target specific regions can hybridize to their corresponding targets at the low temperature and extension can happen at the low temperature.

Abstract: This disclosure describes related novel methods for Recombinase-Polymerase Amplification (RPA) of a target DNA that exploit the properties of recombinase and related proteins, to invade double-stranded DNA with single stranded homologous DNA permitting sequence specific priming of DNA polymerase reactions. The disclosed methods have the advantage of not requiring thermocycling or thermophilic enzymes. Further, the improved processivity of the disclosed methods may allow amplification of DNA up to hundreds of megabases in length.

Abstract: The present invention is directed to compositions comprising mixtures of reagents, including thermostable enzymes (e.g., thermostable DNA polymerases), buffers, cofactors and other components, suitable for immediate use in nucleic acid amplification or sequencing techniques without dilution or addition of further components. The compositions contain no stablizing agents (e.g., glycerol or serum albumin) and unexpectedly maintain activity for extended periods of time upon storage at temperatures above freezing. These compositions are useful, alone or in the form of kits, for nucleic acid amplification (e.g., by the Polymerase Chain Reaction) and sequencing (e.g., by dideoxy or “Sanger” sequencing), or for any procedure utilizing thermostable DNA polymerases in a variety of medical, forensic and agricultural applications. In particular, the compositions and methods are useful for amplifying and sequencing nucleic acid molecules that are larger than about 7 kilobases in size.

Abstract: Provided herein is a method of selecting target nucleic acids on a support. The method includes providing a plurality of beads each bead comprising one or more oligonucleotides, providing a support with a plurality of primers with a sequence complementary to at least a portion of the oligonucleotides on the beads, contacting the beads with the support wherein the oligonucleotides on the beads bind to the primers on the support, performing an extension reaction by extending the primers on the support to produce capture oligonucleotides, contacting the support comprising the capture oligonucleotides with the target nucleic acids, and extending the capture oligonucleotides bound to target nucleic acids to produce target extension products comprising a sequence complementary to at least a portion of the target nucleic acids. Optionally, the method further includes amplifying the target extension products.

Abstract: This invention covers processes for the isothermal amplification of DNA molecules having a preselected sequence. It is based on the unexpected discovery that primers having, at some positions, adenine substituted by 2-aminopurine or diaminopurine, guanine by inosine, thymine by 2-thiothymine, and cytosine by N4-ethylcytosine (“SAMRS nucleotides”) were accepted by enzymes used in the standard helicase-dependent amplification (HDA). Further unexpected was the discovery that target nucleotides are efficiently amplified in an HDA-like process (hereinafter abbreviated as simply HDA) using substituted primers. Also discovered was the diminution of spurious products through the use of SAMRS-substituted primers.

Abstract: Disclosed are methods and compositions for conducting assays utilizing real-time polymerase chain reactions (“PCRs”) in detection of serotypes L I, L II, and L III, but not stereotype B, of Chlamydia trachomatis, capable of causing lymphogranuloma venereum (“LGV”). These assays take advantage of a deletion occurring in the cytotoxin gene locus specific to the L I, L II, and L III serotypes. Each assay employs a first primer having a nucleotide sequence flanking one side of the deletion point and a second primer having a nucleotide sequence flanking the other side of the deletion point, wherein the first primer and the second primer are capable of hybridizing respectively to the plus strand and the minus strand of the genome of Chlamydia trachomatis during PCR. Synthesis during PCR of a sequence-specific amplicon containing this deletion point indicates that the sample contains nucleic acid specific to an LGV-causing serotype of Chlamydia trachomatis.

Abstract: A simple, rapid, inexpensive, and promising commercial biomarker assay method for multiple diseases is described herein. The present invention detects miRNA-based biomarkers in human stool specimens. The method of the present invention amplifies miRNA directly from stool specimens without any prior miRNA extraction. Differential expression of specific microRNAs in stool of colorectal cancer CRC and adenoma patients suggest fecal microRNAs as a novel potential biomarker for colorectal neoplasia detection. The method of the present invention has diagnostic, prognostic, and therapeutic relevance for gastroenterological cancers/colorectal cancer and as well as further acquired or hereditary GI diseases.

Abstract: The invention relates to a method of identifying an Aspergillus terreus or an Aspergillus niger fungal species in patient tissue or body fluid and to primers and probes for use in such a method.

Abstract: A composition for hot-start reverse transcription reaction and a composition for reverse transcription PCR are disclosed. The composition is obtained by adding pyrophosphate and pyrophosphatase to an aqueous solution containing reaction buffer solution, MgCl2, four kinds of dNTPs, and reverse transcription polymerase in a single reaction tube. The composition for hot-start reverse transcription reaction is obtained by freezing or drying the composition. The composition show increased stability and long-term storage stability. Also, disclosed is a composition that additionally includes DNA polymerase, and, thus, enables a hot-start reverse transcription reaction and a PCR reaction to be sequentially performed. A method for amplifying a nucleic acid by using the composition. The composition of the invention can be conveniently and effectively used in multiplex reverse transcription PCRs or real-time quantitative reverse transcription PCR.

Abstract: Aspects of the present teachings describe a method and apparatus for automatically controlling a block temperature to reduce undershooting and overshooting of the temperatures of a sample contained in the block and participating in a polymerase chain reaction (PCR). The adaptive thermal block temperature control begins when a sample temperature enters a sample window region between a preliminary setpoint temperature and a target setpoint temperature for the sample. Based on thermodynamic behavior of the sample and the predetermined phase of PCR, predicting a time period measured subsequent to the preliminary setpoint temperature when the sample will reach the target setpoint suitable for the predetermined phase of PCR. During this time period, varying the block temperature ramp rate with a series of cooling and heating changes to ensure the block temperature reaches the target setpoint temperature at approximately the same time as the sample reaches the same.

Abstract: The present invention concerns an universal polypeptidic carrier for targeting directly or indirectly a molecule to Gb3 receptor expressing cells and having the following formula STxB-Z(n)-Cys, wherein: STxB is the Shiga Toxin B subunit or a functional equivalent thereof, Z is an amino-acid devoided of sulfydryl group, n being 0, 1 or a polypeptide, Cys is the amino-acid Cysteine, and the use thereof for MHC class I and MHC class II presentation of antigens.

Abstract: A method of separating nucleic acids from cells, the method comprising incubating a sample comprising cells with a solid substrate that binds to the cells, whereby the cells adhere to the solid substrate; suspending the solid substrate adhered to the cells in a lysis composition comprising about 100 mM to about 300 mM of alkaline metal salt, and having a pH of about 6 to about 8; lysing the cells in the lysis composition to obtain a lysed solution; and obtaining the nucleic acids from the lysed solution; as well as related compositions and kits.

Abstract: The present disclosure is related to a device for controlling thermal convection velocity of a biochemical reaction. The thermal convection velocity controlling device includes a base body for disposing a tube which is movable, wherein the tube is filled with a buffer of the biochemical reaction; a heating source located at a bottom of the tube or at a side of the tube to heat the buffer; and a flow rate adjusting apparatus for controlling a thermal convection flow direction of the buffer in the tube, whereby the flow rate adjusting apparatus changes a flow velocity and a flow time of the buffer. The present disclosure is also related to a method for controlling thermal convection velocity of a biochemical reaction using the device.

Abstract: The present invention provides a sequence interrogation chemistry that combines the accuracy and haplotype integrity of long-read sequencing with improved methods of preparing genomic nucleic acids and analyzing sequence information generated from those nucleic acids. The present invention encompasses compositions comprising decorated nucleic acids stretched on substrates. The present invention further encompasses methods of making stretched decorated nucleic acids and methods of using decorated nucleic acids to obtain sequence information.

Abstract: The invention provides methods for identifying early stage non-small cell lung cancer (NSCLC) patients who will have a favorable prognosis for the recurrence of lung cancer after surgical resection. The invention is based on the discovery that assessment of chromosomal copy number abnormalities at two or more of chromosome 5p15, 7p12, 8q24 and centromere 6 can be used for prognostic classification. The invention preferably uses fluorescence in situ hybridization with fluorescently labeled nucleic acid probes to hybridize to patient samples to quantify the chromosomal copy number of the these genetic loci.

Abstract: The present invention provides methods of detecting for the presence of a polynucleotide in vivo. These methods are particularly useful for performing identification and/or analysis of samples or specimens in which it is impossible, impractical, or undesirable to move or remove them from their current environment. Methods of practicing the present invention for the purpose of identifying and/or analyzing transgenic plant tissue or cells, in addition to animal tissue or cells and bacterial cells are also provided.

Abstract: The present invention relates to a method for the specific detection and/or identification of Staphylococcus species, in particular Staphylococcus aureus, using new nucleic acid sequences derived from the ITS (Internal Transcribed Spacer) region. The present invention relates also to said new nucleic acid sequences derived from the ITS region, between the 16S and 23S ribosomal ribonucleic acid (rRNA) or rRNA genes, to be used for the specific detection and/or identification of Staphylococcus species, in particular of S. aureus, in a biological sample. It relates also to nucleic acid primers to be used for the amplification of said spacer region of Staphylococcus species in a sample.

Abstract: Disclosed are DNA polymerases having increased reverse transcriptase efficiency relative to a corresponding, unmodified polymerase. The polymerases are useful in a variety of disclosed primer extension methods. Also disclosed are related compositions, including recombinant nucleic acids, vectors, and host cells, which are useful, e.g., for production of the DNA polymerases.

Abstract: The present invention pertains to methods related to cloning nucleic acids from biological samples, particularly pathological tissue samples. This method includes hybridizing a population of oligonucleotide sequence probes comprising degenerate sequence tags to a fixed tissue, isolating the hybridized oligonucleotide sequence probes and amplifying the sequence tags in the hybridized oligonucleotide sequence probes. This method can be utilized to identify genes associated with disease and to quantitate the expression of disease-related transcripts. The method can also be used to identify truncated mRNAs.

Abstract: A microwell device is provided. The device includes a plate having a upper surface. The upper surface has first and second recesses formed therein. Each recess has an outer periphery. First and second portions of microwells are formed in upper surface of the plate. The first portion of microwells are spaced about the outer periphery of the first recess and the second portion of microwells spaced about the outer periphery of the first recess. A first barrier is about a first portions of the microwells for fluidicly isolating the first portion of the microwells and a second barrier about a second portions of microwells for fluidicly isolating the second portion of the microwells.

Abstract: In one aspect, described herein are field effect chemical sensor devices useful for chemical and/or biochemical sensing. Also provided herein are methods for single molecule detection. In another aspect, described herein are methods useful for amplification of target molecules by PCR.

Abstract: This disclosure describes related novel methods for Recombinase-Polymerase Amplification (RPA) of a target DNA that exploit the properties of recombinase and related proteins, to invade double-stranded DNA with single stranded homologous DNA permitting sequence specific priming of DNA polymerase reactions. The disclosed methods have the advantage of not requiring thermocycling or thermophilic enzymes, thus offering easy and affordable implementation and portability relative to other amplification methods. Further disclosed are conditions to enable real-time monitoring of RPA reactions, methods to regulate RPA reactions using light and otherwise, methods to determine the nature of amplified species without a need for gel electrophoresis, methods to improve and optimize signal to noise ratios in RPA reactions, methods to optimize oligonucleotide primer function, methods to control carry-over contamination, and methods to employ sequence-specific third ‘specificity’ probes.

Abstract: The application relates to Canine Cox2 allelic variants associated with Juvenile Renal Dysplasia, primer and probe compositions and methods and kits useful in detecting, monitoring and diagnosing Juvenile Renal Dysplasia or calcium oxalate stones.

Abstract: Individual temperature control in multiple reactions performed simultaneously in a spatial array such as a multi-well plate is achieved by thermoelectric modules with individual control, with each module supplying heat to or drawing heat from a single region within the array, the region containing either a single reaction vessel or a group of reaction vessels.

Abstract: The thermal cycling system for performing a biological reaction at two or more different temperatures comprises: a) a heat source for setting at a fixed temperature; b) a reaction vessel containing material upon which the biological reaction is to be performed; c) mechanically-operable structure for altering the relative position of the heat source and the reaction vessel so that reaction vessel first achieves and maintains a desired first temperature in the reaction vessel for starting the carrying out of the biological reaction, and then for altering the relative position of the heat source and the reaction vessel so that the reaction vessel then achieves and maintains a second temperature for continuing the carrying out of the biological reaction on the biological material, and d) temperature-sensing structure operatively associated with the reaction vessel for controlling the altering of the relative position of the heat source and the reaction vessel so that the reaction vessel achieves and maintains the

Abstract: A sample processing apparatus includes a sample carrier receiving region configured to receive a sample carrier carrying at least one sample, at least one sample processing station that processes the at least one sample, and a thermal control system that controls thermocycling of the sample during processing of the sample by the at least one sample processing station, wherein the thermal control system includes a heating and/or cooling substrate with a thermocycling region, at least one guard heat region, and at least one thermal break between the thermocycling region and the at least one guard heat region.

Abstract: Provided is a chip process of gene synthesis, and the process comprises incorporating the whole procedure, which comprises amplifying oligonucleotides and assembling the oligonucleotides into a gene in parallel, onto a single chip. A specific mismatch endonuclease is also used in the process to establish an error repair system in gene synthesis, and the error rate is decreased to about 0.19 mismatched bases/kb. The high-throughput, high-fidelity and low-cost chip process of gene synthesis provided in the present invention can meet the requirements of gene synthesis and the optimization and screening of protein expression on a large scale at the frontier of life sciences such as synthetic biology, genomics, and systems biology.

Abstract: Provided herein are methods for generation and amplification of a single-stranded DNA circle in a single reaction vessel from a linear DNA without any intervening purification steps. The single-stranded DNA circle is generated via a template-independent single-stranded DNA ligation. Whole-genome amplification of circulating nucleic acids extracted from blood is provided. Kits for performing the disclosed methods are also provided.

Abstract: The invention provides an ultra-rapid nucleic acid amplification method performed in a flow channel. Specifically, the invention provides a nucleic acid amplification method for performing a PCR reaction by supplying a PCR sample solution to a nucleic acid amplification device comprising a serpentine channel adapted to perform at least one PCR cycle, the nucleic acid amplification device comprising a DNA denaturation temperature zone corresponding to the curved portions at one side, an annealing temperature zone corresponding to the curved portions at the other side, and an extension temperature zone positioned between the annealing and DNA denaturation temperature zones, wherein the PCR sample solution is introduced in the form of sample plugs separated by gas into the serpentine channel using a pump, the sample solution being supplied into the channel in a state such that the solution is separated by gas into a segment corresponding to one PCR cycle or smaller segments.

Abstract: This disclosure provides an integrated and automated sample-to-answer system that, starting from a sample comprising biological material, generates a genetic profile in less than two hours. In certain embodiments, the biological material is DNA and the genetic profile involves determining alleles at one or a plurality of loci (e.g., genetic loci) of a subject, for example, an STR (short tandem repeat) profile, for example as used in the CODIS system. The system can perform several operations, including (a) extraction and isolation of nucleic acid; (b) amplification of nucleotide sequences at selected loci (e.g., genetic loci); and (c) detection and analysis of amplification product. These operations can be carried out in a system that comprises several integrated modules, including an analyte preparation module; a detection and analysis module and a control module.

Abstract: The present invention pertains to a mutated T7 RNA polymerase and its use, the T7 RNA polymerase being mutated at position 744, the glutamine (Q) being replaced by an amino acid selected from arginine (Q744R), leucine (Q744L) or proline (Q744P).

Abstract: The present invention provides an easy and rapid method for detecting/identifying the presence or absence of specific Plasmodium parasites and four species of malaria parasites in a human specimen, an anti-malaria measure support system, and a malaria infection-prevention/treatment system, which can contribute to practical diagnosis in a malaria endemic area. According to the present invention, using a genus-specific primer set that can detect four Plasmodium parasites that infect humans at a time, and the primer sets each specific to each of four species of Plasmodium parasites (P. falciparum, P. vivax, P. malariae, and P. ovale), the presence or absence of infection with these parasites can be detected/identified easily and rapidly.

Abstract: The present invention relates to MAGE-3 specific primers and probes for use new diagnostic kits and methods. The invention further relates to immunotherapeutic treatment of specific populations of cancer patients, suffering from MAGE-3 expressing tumors.

Abstract: Methods for rapidly detecting clinically relevant mutations in the infectious genome of an agent are disclosed. The methods include use of a novel target and temperature dependent RNase H mediated cleavage of blocked DNA primers to initiate isothermal helicase-dependent amplification of a target sequence such as a sequence in the rpoB gene.

Abstract: Methods, Compositions, and Systems are provided for obtaining polymerase-template complex mixtures with improved levels of active polymerase. In some aspects, methods are described in which a polymerase-template complex is exposed to reaction conditions in which a complementary strand to the template is produced. The extended reaction mixture is purified, for example by gel filtration chromatography to produce a mixture of polymerase-template complex having a higher active fraction. This purified mixture can be used for further analyses including single molecule sequencing.

Abstract: The present invention is directed to compositions and methods useful for the amplification of nucleic acid molecules by reverse transcriptase-polymerase chain reaction (RT-PCR). Specifically, the invention provides compositions and methods for the amplification of nucleic acid molecules in a simplified one- or two-step RT-PCR procedure using combinations of reverse transcriptase and thermostable DNA polymerase enzymes in conjunction with sulfur-containing molecules or acetate-containing molecules (or combinations of such sulfur-containing molecules and acetate-containing molecules), and optionally bovine serum albumin. The invention thus facilitates the rapid and efficient amplification of nucleic acid molecules and the detection and quantitation of RNA molecules. The invention also is useful in the rapid production and amplification of cDNAs which may be used for a variety of industrial, medical and forensic purposes.

Abstract: The present invention concerns a method for inserting one or more tag sequences into a nucleic acid characterized by the following steps: (a) preparation of a template nucleic acid; (b) hybridization of at least one anchor sequence of at least one anchor oligonucleotide with one sequence section of the template nucleic acid; and (c) synthesization of a new strand of nucleic acid, which is partially complementary to the template nucleic acid and which contains a sequence complementary to the non-hybridized portion of the anchor oligonucleotide, e.g. to at least one tag sequence, on its 3? end.

Abstract: Compositions, methods, and kits for detecting one or more species of RNA molecules are disclosed. In one embodiment, a first adaptor and a second adaptor are ligated to the RNA molecule using a polypeptide comprising double-strand specific RNA ligase activity, without an intervening purification step. The ligated product is reverse transcribed, then at least some of the ribonucleosides in the reverse transcription product are removed. Primers are added and amplified products are generated. In certain embodiments, the sequence of at least part of at least one species of amplified product is determined and at least part of the corresponding RNA molecule is determined. In some embodiments, at least some of the amplified product species are detected, directly or indirectly, allowing the presence and/or quantity of the RNA molecule of interest to be determined.

Abstract: An attachment unit for attachment of a reaction container including a channel filled with a reaction solution and a liquid having a specific gravity different from that of the reaction solution and being immiscible with the reaction solution, the reaction solution moving close to opposed inner walls, a first heating unit that heats a first region of the channel and a second heating unit that heats a second region of the channel when the reaction container is attached to the attachment unit, a drive mechanism that switches arrangement of the attachment unit, the first heating unit, and the second heating unit between a first arrangement and a second arrangement in which a lowermost position of the channel is located within a first region and a second region, respectively, and a control unit that controls the drive mechanism, the first heating unit, and the second heating unit are provided.

Abstract: Methods are described herein for detecting and identifying distinct species of nucleic acids, in a single container, for example, from a certain genus of infectious agents or otherwise causative agents comprising, for example, providing a forward PCR primer common to a homologous gene region between the distinct species, and providing a reverse PCR primer common to a homologous gene region between the distinct species, to thereby define a PCR target region amongst the species, and providing a first oligonucleotide probe specific to a nucleic acid sequence within the target region that is characteristic of a first species, providing a second oligonucleotide probe specific to a nucleic acid sequence within the target region that is characteristic of a second species, wherein the first and second oligonucleotide probes are each detectably labeled with distinctly different detectable labels, conducting a PCR reaction in the container by means of the primers to amplify the target region amongst the species, and de

Abstract: Provided is a method for determining whether a horse is normal, a carrier, or is affected with Lavender Foal Syndrome (LFS). The method entails, in a biological sample obtained or derived from a horse, determining a single nucleotide deletion which introduces a translational stop codon in the 49th codon of exon 30 of the equine MYO5A gene. Homozygosity for the absence of the deletion is indicative that the horse is normal for LFS. Heterozygosity for the deletion is indicative that the horse is a carrier of LFS. Homozygosity for the deletion is indicative that the horse is affected with LFS. Methods for selecting horses for breeding and kits for determining the LFS-associated deletion are also provided.

Abstract: The present invention relates to a method for determining the sequence of a nucleic molecule. Herein a capture oligonucleotide probe is attached to an encoded microcarrier, wherein the code of said microcarrier identifies the sequence of said oligonucleotide probe. The capture oligonucleotide probe is hybridized with a sample comprising nucleic acids molecules, wherein said DNA fragment comprises a sequence which is complementary to the sequence of the capture oligonucleotide probe. The sequence of the DNA molecule is determined, wherein the capture oligonucleotide probe serves as a primer for a DNA polymerase, in the case of single molecule sequencing this is a sequencing primer. After the sequence determination, the nucleotide sequence of the capture oligonucleotide probe is identified by determining the code on the microcarrier, which corresponds with the capture oligonucleotide probe.

Abstract: Disclosed are compositions and methods for making differentiable amplicon species at unequal ratios using a single amplification system in a single vessel. The number of differentiable amplicons and their ratios to one another are chosen to span the required linear dynamic range for the amplification reaction and to accommodate limitations of the measuring system used to determine the amount of amplicon generated. Unequal amounts of distinguishable amplicon species are generated by providing unequal amounts of one or more amplification reaction components (e.g., distinguishable amplification oligomers, natural and unnatural NTP in an NTP mix, or the like). The amount of target nucleic acid present in a test sample is determined using the linear detection range generated from detection of one or more amplicon species having an amount within the dynamic range of detection.

Abstract: Methods are provided for determining whether a subject has a graft tolerant phenotype. In practicing the subject methods, the expression of at least one gene in a sample from the subject, e.g., a blood sample, is assayed to obtain an expression evaluation for the at least one gene. The obtained expression evaluation is then employed to determine whether the subject has a graft tolerant phenotype. Also provides are compositions, systems and kits that find use in practicing the subject methods. The methods and compositions find use in a variety of applications, including the determination of an immunosuppressive therapy regimen.

Abstract: A device for amplifying a target nucleic acid in a sample containing one or more target nucleic acids may include a planar fluidic assembly comprising a flow channel and an inlet, wherein the inlet is in flow communication with the flow channel and is configured to introduce sample containing one or more target nucleic acids into the flow channel, wherein the flow channel has a substantially uniform cross-section from a first end to a second end. A plurality of nucleic acid primers can be disposed at discrete regions along and within the flow channel, each of the plurality of nucleic acid primers being complementary to a portion of the one or more target nucleic acids in the sample to enable a primer-based amplification reaction of the one or more target nucleic acids. The discrete regions may be configured to retain sample and amplified product of the amplification reaction during the primer-based amplification reaction.

Abstract: This application describes the discovery that, in a pregnant woman, certain genes (such as RASSF1A, APC, CASP8, RARB, SCGB3A1, DAB2IP, PTPN6, THY1, TMEFF2, and PYCARD) originated from a fetus are highly methylated, whereas the same genes of maternal origin are unmethylated. This discovery allows the easy detection of one or more of these methylated fetal genes in a biological sample from a pregnant woman, serving as a universal indicator of the presence of fetal DNA in the sample. These fetal methylation markers are particularly useful as positive controls for a non-invasive analytical process during which the quality and quantity of fetal DNA are monitored. These newly identified fetal markers can also be measured directly for diagnosis of certain pregnancy-related conditions.

Abstract: DNA oligomers comprising sequences that are absent from the genome of one or more organisms of interest are used as reference markers (RMs). The RMs are added to biological samples to “tag” and subsequently identify the samples as authentic and to distinguish tagged samples from samples obtained without said markers, for example, in forensic, medical, legal and other applications.

Abstract: The present invention provides a method of isolating nucleic acid and protein from the same biological sample, comprising, in the following order: a) disrupting the biological sample; b) contacting the disrupted biological sample of (a) with a protein lysis buffer that lacks any component that denatures or reduces protein to produce a first lysate; c) centrifuging the first lysate of (b) to produce a first supernatant containing protein and a pellet containing nucleic acid; d) removing the first supernatant of (c), thereby isolating protein from the biological sample; e) contacting the pellet of (d) with nucleic acid lysis buffer to produce a second lysate; f) centrifuging the second lysate of (e) to produce a second supernatant containing nucleic acid; and g) removing the second supernatant of (f), thereby isolating nucleic acid from the same biological sample.

Abstract: The present invention provides a novel method for detection of liver cancer. This method detects high-sensitively, high-specifically, simply and accurately liver cancer, especially that in early stage by identifying and/or quantifying methylation on particular genes and/or their DNA fragments in clinical specimens, and by combining said methylated DNA values with existing tumor marker values and/or DNA amounts in blood. This invention also detects a precancerous lesion, detects a risk of recurrence after treatment of liver cancer, detects malignancy of liver cancer and monitors progression of liver cancer with time by the same method. As for particular genes, BASP1 gene, SPINT2 gene, APC gene, CCND2 gene, CFTR gene, RASSF1 gene and SRD5A2 gene are mentioned.