Abstract: A primer for the amplification of a DNA template comprising a protelomerase target sequence, particularly for production of closed linear DNA, which primer is capable of specifically binding to a palindromic sequence within a protelomerase target sequence and priming amplification in both directions.

Abstract: Methods and compositions for detecting, identifying, and quantifying Brassica A genomic DNA are described. The methods are specific to the Brassica A genome and do not cross-react with other Brassica species, crops or weedy relatives that could contribute to contamination of a canola field.

Abstract: The present invention provides a TOP2A inhibition by temozolomide useful for predicting glioblastoma patient's survival. Glioblastoma (GBM) is the most common, malignant primary adult brain tumor. The conventional treatments for GBM, include surgery, radiation, and chemotherapy which have only modestly improved patient survival. The patients with GBM expressing higher TOP2A transcript levels had better prognosis. More interestingly, the present invention reports that temozolomide is an inhibitor of TOP2A activity in vitro. The present invention further shows that siRNA knock down of TOP2A rendered a glioma cell line resistant to temozolomide chemotherapy. Thus it is demonstrated for the first time that temozolomide is a TOP2A inhibitor and establishes that TOP2A transcript levels determines the chemosensitivity of glioblastoma to temozolomide therapy thus explaining the very high levels of TOP2A transcript being a good prognostic indicator in GBM patients receiving temozolomide chemotherapy.

Abstract: The present invention pertains to: a method for modifying a nucleic acid contained in a sample, the method including a step for bringing the sample into contact with a nucleic acid-modifying agent in the presence of an acidic polysaccharide and/or a nucleotide; and a method for selectively detecting a nucleic acid derived from living cells contained in the sample, the method including the following steps: (a) a step for modifying a nucleic acid contained in a sample according to the method for modifying a nucleic acid contained in a sample, which includes a step for bringing the sample into contact with a nucleic acid-modifying agent in the presence of an acidic polysaccharide and/or a nucleotide; and (b) a step for selectively detecting an unmodified nucleic acid from the sample after step (a). The present invention further pertains to a kit and composition for use in these methods.

Abstract: Provided is a method of preparing nucleic acid molecules comprising: (a) a step of providing nucleic acid fragments constituting at least a portion of the complete sequence of a target nucleic acid; (b) tagging the nucleic acid fragments with barcode sequences; (c) identifying the sequence of the nucleic acid fragments tagged by the barcode sequences; and (d) recovering desired nucleic acid fragments among the sequence-identified nucleic acid fragments using the barcode sequences.

Abstract: The determination of the nucleotide sequence of HIV-1 DNA; identification, isolation and expression of HIV-1 DNA sequences which encode immunoreactive polypeptides by recombinant DNA methods and production of viral RNA are disclosed. Such polypeptides can be employed in immunoassays to detect HIV-1.

Abstract: In some embodiments, methods for ligating nucleic acid ends comprise: conducting a nucleic acid ligation reaction in the presence of at least one agent that generates a ligatable terminal 5? phosphate group by removing an adenylate group from a terminal 5? phosphate of a nucleic acid. In some embodiments, an aprataxin enzyme can catalyze removal of an adenylate group from a terminal 5? phosphate of a nucleic acid. In some embodiments, methods for ligating nucleic acid ends comprise: conducting a nucleic acid ligation reaction in the presence of an aprataxin enzyme under conditions suitable for ligating nucleic acid ends.

Abstract: Embodiments of the invention relate generally to ex vivo methods of quantifying expression of interferon responsive genes and characterizing an individual's potential responsiveness to interferon administration. Certain embodiments relate to methods to monitor the efficacy of ongoing interferon therapy by evaluating expression of interferon responsive genes before and after interferon administration.

Abstract: A method for operating a nucleic acid sequencing instrument with movable flow cells. The method includes providing a flow cell having a flow path with an inlet port and an outlet port and filling the flow path, from the inlet port to the outlet port, with a first liquid reagent. The method also includes providing a station block having an inlet passage and an outlet passage, mounting the flow cell on the station block with the inlet port in fluid communication with the inlet passage and the outlet port in fluid communication with the outlet passage, introducing a gaseous bubble into the inlet port, conveying a second liquid reagent from the inlet passage into the inlet port to move the gaseous bubble through the flow path and into the outlet passage and fill the flow passage with the second liquid reagent, and removing the flow cell from the station block.

Abstract: Methods for capturing a target nucleic acid from a sample by using a capture probe that binds nonspecifically to the target nucleic acid and binds specifically to an immobilized probe via a specific binding pair that has one member on the capture probe and one member on the immobilized probe are disclosed. Compositions that include a capture probe that binds nonspecifically to a target nucleic acid and specifically to an immobilized probe via binding of members of a specific binding pair in a solution phase of a reaction mixture are disclosed.

Abstract: Provided herein is technology relating to processing and preparing samples and particularly, but not exclusively, to methods, systems, and kits for removing assay inhibitors, e.g, compounds that inhibit polymerase chain reaction, from samples comprising nucleic acids. In particular, the technology is directed toward treating crude sample preparations, such as supernatants from homogenized stool samples, with insoluble polyvinylpyrrolidone (PVP) to form PVP-assay inhibitor complexes, and spin filtration to separate the PVP-assay inhibitor complexes from the crude sample preparations to produce clarified samples that exhibit reduced assay inhibition.

Abstract: Disclosed are compositions and a method for amplification and detection of nucleic acid sequences based on continuous flow thermal gradient PCR.

Abstract: The present invention relates generally to the field of investigational bioinformatics and more particularly to secondary structure defining databases. The present invention further relates to methods for interrogating a database as a source of molecular masses of known bioagents for comparing against the molecular mass of an unknown or selected bioagent to determine either the identity of the selected bioagent, and/or to determine the origin of the selected bioagent. The identification of the bioagent is important for determining a proper course of treatment and/or irradication of the bioagent in such cases as biological warfare. Furthermore, the determination of the geographic origin of a selected bioagent will facilitate the identification of potential criminal identity.

Abstract: Disclosed are methods for nucleic acid amplification wherein nucleic acid templates, beads, and amplification reaction solution are emulsified and the nucleic acid templates are amplified to provide clonal copies of the nucleic acid templates attached to the beads. Also disclosed are kits and apparatuses for performing the methods of the invention.

Abstract: Provided herein are compositions, processes and kits for noninvasive, early determination of fetal sex from, and/or amount of fetal nucleic acid in, an extracellular nucleic acid sample from a pregnant female. Such compositions, processes and kits are useful for detection of low genomic copy numbers of male fetal nucleic acid in a high copy number background of female nucleic acid, thereby determining the sex of a fetus and/or amount of fetal nucleic acid in a sample.

Abstract: An improved method of preventing carryover contamination of an amplification reaction involves treating uracil-containing DNA with uracil-N-DNA glycosylase and heating the DNA in the presence of polyamines, such as spermidine, spermine and the like. Alternatively, after treatment with uracil-N-DNA glycosylase, the reaction is further incubated with an enzyme having AP lyase activity.

Abstract: The present invention provides methods to obtain dry compositions of reaction compounds that maintain the biological activity of the compounds upon re-solubilization after a certain storage time. Preferably, the dry composition comprises a polymerase, and the dry composition is usable for polymerase chain reaction (PCR) amplification after re-solubilization.

Abstract: This document provides methods and materials for detecting contaminated food products. For example, methods and materials for using an enzymatic amplification cascade of restriction endonucleases to detect nucleic acid of a microorganism or virus (e.g., a pathogen) within a sample (e.g., food product sample) being tested, thereby assessing a food product for possible contamination are provided.

Abstract: The present invention provides a combination of genes useful for information which can be used for the prediction of postoperative recurrence of gastric cancer and the acquisition of the information, a probe detecting these genes and a primer set for PCR, a method for detecting these genes using the primer and the primer set and a method for obtaining the information which can be used for the prediction of recurrence. Information useful for the prediction of postoperative recurrence can be obtained by determining the presence or absence of gastric cancer cells which show a possibility of postoperative recurrence in a sample such as an peritoneal wash collected from a patient by detecting a particular gene specific to gastric cancer cells or a gene product thereof.

Abstract: The invention of Integrated Versatile and Systems Preparation of Specimens relates an open module technology which integrates synchronously the methods of protection, isolation and alteration of specimens into the “One for All” product or kit. The product or kit comprises a core module without or with Plug-in modules and a set of comprehensive protocols which can simultaneously or individually isolate systems biomolecules including DNA/ccfDNA, Large RNA/mRNA/ccfRNA, Small RNA/miRNA/ccfmiRNA, Protein, Lipid, Carbohydrates, and Metabolite versatilely from a vast variety of specimens including solid specimens and liquid specimens. The product or kit can accept new and custom Plug-in modules to expand functions and applications.