Abstract: The present invention provides kits and microarrays containing primer pairs for amplifying drug resistance genes and/or probes for detection of drug resistance genes. Also provided are methods of detecting drug resistance genes using kits and microarrays described herein.

Abstract: Disclosed is a non-invasive method for diagnosis, prognosis or monitoring of Epstein-Barr virus (EBV)-associated cancer by detecting and/or quantifying EBV associated nucleic acid fragments in a urine sample from an individual. Kits for diagnosis, prognosis or monitoring of cancer are also disclosed.

Abstract: A method is provided for detecting the presence of nucleotides or monitoring nucleotide amplification. It utilizes fluorescence energy transfer by competitive hybridization. Competitive hybridization is achieved by using unequal length complementary probes which have a fluorophore on one probe and a quencher on the other. The fluorophore and quencher are juxtaposed in a manner wherein the proximity of the quencher to the fluorophore produces quenching of the fluorescence of the fluorophore.

Abstract: In various embodiments this invention provides novel methods for discriminating two or more different target nucleic acids. In certain embodiments the methods comprise providing data amplification reactions comprising reagents to amplify two or more different target nucleic acids where the data comprise signals comprising an amplitude measurement representing the degree of amplification of each target nucleic acid in the amplification reaction and the time point in the amplification reaction at which the amplitude is measured; determining an efficiency related transform of the data, determining an efficiency related value for each target nucleic acid that is the maximum magnitude of the efficiency related transform; and outputting the efficiency related values in the amplification reaction for each target nucleic acid, where the relative amplitudes of the efficiency related values for each target nucleic acid is an indicator of the presence of each of said nucleic acids in said sample.

Abstract: Disclosed are compositions and methods for diagnosing, preventing, and treating prostate cancer and prostate intraepithelial neoplasia (PIN).

Abstract: The present invention provides methods, compositions, and kits for nucleic acid detection.

Abstract: Provided herein are methods and materials for diagnosing a subject's predisposition for pulmonary infection in a CF subject by detecting a pulmonary infection genetic marker. Pulmonary infection markers have been identified in the IL-1 gene cluster and may be useful in predicting CF disease progression and assessing a CF subject's response to therapy.

Abstract: An improved method for rapid identification of microorganisms is disclosed, along with sequences of PCR primers optimized for this purpose. The primers are designed based on information analysis of sequences from a large number of organism to amplify certain segments of genomic DNA whose sequences are unique among different organisms. The PCR products are compared with a DNA sequence database to obtain the identity of the microorganisms. This approach provides an accurate and fast identification and taxonomic assignment of microbial species.

Abstract: The present invention provides an isolated oligonucleotide and a method using the isolated oligonucleotide to detect and/or identify at least two polynucleotides from a nucleic acid-protein complex. The oligonucleotide comprises at least one first tag and at least one second tag, wherein the first and second tags are obtained from a nucleic acid-protein complex.

Abstract: Method of preparing a biological sample appropriate for use in a subsequent in vitro nucleic acid amplification reaction. The method involves a rapid, transient exposure to alkaline conditions which can be achieved by mixing an alkaline solution with a pH-buffered solution that includes a detergent and the biological sample to be tested for the presence of particular nucleic acid species using in vitro amplification. The invented method advantageously can improve detection of some target nucleic acids without substantially compromising detectability of others. The method is particularly useful for simultaneously preparing RNA and DNA templates that can be used in multiplex amplification reactions.

Abstract: A method for detecting viable cells such as bacterial cells, within a sample, said method comprising (i) incubating said sample with a virus which is able to infect said cells under conditions which allow said virus to infect and replicate within any such cells which are viable; (ii) detecting any nucleic acid obtained by replication of the virus in said cell.

Abstract: A method for synthesizing cDNA possessing a consecutive sequence starting with a nucleotide adjacent to a cap structure of mRNA, which comprises (i) a process for annealing a double-stranded DNA primer and an RNA mixture containing mRNA possessing a cap structure, (ii) a process for preparing a conjugate of an mRNA/cDNA heteroduplex and a double-stranded DNA primer by synthesizing the first-strand cDNA primed with the double-stranded DNA primer using reverse transcriptase, and (iii) a process for circularizing the conjugate of the mRNA/cDNA heteroduplex and the double-stranded DNA primer by joining the 3? and 5? ends of the DNA strand containing cDNA using ligase. This method enables us to efficiently synthesize a full-length cDNA possessing a consecutive sequence starting with a transcription-start-site nucleotide from a small amount of RNA by small processes.

Abstract: This invention provides compositions and methods for HCV typing, e.g., genotyping and/or subtyping. The compositions and methods of the invention can be used to assign an HCV isolate to one of at least five HCV types (for example, selected from types 1, 2, 3, 4, 5 or 6), or to one of at least five subtypes (for example, subtypes 1a/b/c, 2a/c, 2b, 3a, 4a, 5a or 6a). These methods integrate the hybridization data from a plurality of HCV typing probes in a multidimensional analysis to make an HCV type assignment for an HCV in an experimental sample. The invention also provides related compositions, including, for example, the HCV typing probes and HCV typing diagnostic kits.

Abstract: An extraction and analysis device includes a microfluidic based collection system that extracts one or more different analytes from a fluid-based sample and an optical analysis system directly coupled to the collection system to perform optical analysis on the one or more collected analytes. The microfluidic based collection system includes microfluidic circuitry for directing a fluid based sample to a purification chip. Analytes collected within the purification chip can be either subsequently removed and analyzed or the analytes can be analyzed directly, while still within the purification chip, using the optical analysis system. The purification chip is preferably comprised of a plurality of pillars, the surface area of each pillar is coated with a specific capture chemistry. The specific capture chemistry is applied by derivitizing the pillars such that a ligand, such as a nucleic acid, an amptimer, or an antibody is attached to each pillar.

Abstract: Disclosed are compositions and methods useful for labeling and detection of analytes. The compositions generally are associations of three components: reporter binding agents, amplification target circles, and DNA polymerase. The compositions are assembled prior to their use in a rolling circle amplification reaction and can be stored and transported prior to use without substantial loss of activity. The reporter binding agents generally are composed of a specific binding molecule and a rolling circle replication primer. The specific binding molecule can be specific for a target molecule. The rolling circle replication primer has sequence complementary to the amplification target circle. The DNA polymerase can interact with the rolling circle replication primer and amplification target circle. For use as a general reagent, the specific binding molecule is not bound to the target molecule until the composition is used in an assay.

Abstract: A process is provided to generate fluorescent molecules in the presence of target nucleic acids, but not in the absence of that target. Two probes, one bearing moiety A and the other bearing moiety B, bind to the target in a way that brings A and B together. A photon then converts A into A*, which can react with B to form a new species Z that is fluorescent. If A* does not encounter B, then A* reverts to form A. This allows the probe to have another opportunity to be activated should it be later bound near B. In one embodiment, a photoenolization creates A* as a diene; this reacts with a dienophile B in a Diels-Alder reaction. The linker Z may cause the linked probes to bind less tightly to the target, allowing the target to generate many fluorescent products, or be read through by a polymerase.

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: The present invention relates to methods, compositions and kits for determining the prognosis of a clinical response in a human patient to a medicament which acts in the central nervous system and which is a substrate of the ABCB1 protein. Further, the invention relates to a combination of medicaments for the treatment of human patients having specific polymorphisms in the ABCB1 gene.

Abstract: The present invention relates to a nucleic acid ligands capable of binding to one or more target molecules in a complex mixture.

Abstract: There is a need for nucleic acid analysis which is both specific and rapid, and in which no nucleic acid sequencing is required. The present invention addresses this need, among others by providing a method of nucleic acid amplification of overlapping sub-segments of a nucleic acid followed by molecular mass measurement of resulting amplification products by mass spectrometry, and determination of the base compositions of the amplification products.