Abstract: Embodiments of the invention provide a method of detecting one or more strains of Klebsiella pneumoniae. The method may include forming a plurality of mixtures for nucleic amplification. The method can include amplification of specific sequences within the K. pneumonia genome that can provide definitive information to distinguish between one or more types or strains of K. pneumonia.

Abstract: The present invention relates to controls for NGS methods. The present application discloses plasmids, kits, their uses and methods involving the controls according to the present invention.

Abstract: The disclosed invention is related to methods, compositions and kits for targeting nucleic acid derived from Shiga toxin-producing bacteria such as E. coli. Compositions include amplification oligomers and/or detection probe oligomers. Kits and methods comprise at least one pair of amplification oligomers.

Abstract: The disclosed invention is related to methods, compositions and kits for targeting nucleic acid derived from Shiga toxin-producing bacteria such as E. coli. Compositions include amplification oligomers and/or detection probe oligomers. Kits and methods comprise at least one pair of amplification oligomers.

Abstract: Methods and compositions are described for producing a glucanase in transgenic plants and then incorporating parts of the transgenic plants in animal feed. The feed glucanase enzyme displays activity across a broad pH range, and tolerance to temperatures that are often encountered during the process of preparing animal feeds. Producing the enzyme in the transgenic plant enhances the thermal stability of the enzyme.

Abstract: The present invention relates to highly sensitive and specific methods for detection of nucleic acids, which for example are useful for detection of rare mutations, or for detection of low-abundance variants in nucleic acids sequences. The methods involve an asymmetric incremental polymerase reaction (AIPR) followed by an exponential polymerase chain reaction (PCR).

Abstract: The invention provides compositions and methods for assembling a DNA molecule having a desired sequence. The methods involve contacting a DNA polymerase, dNTPs, and a plurality of pairs of oligonucleotides. The oligonucleotides of a pair have a portion of the desired sequence, and an internal sequence that overlaps and is complementary to an internal sequence of the other oligonucleotide of the pair, and, when arranged in order, they have at least a portion of the desired sequence. The oligonucleotides also have a 3? or a 5? primer binding sequence having a binding site for a primer. The oligonucleotides that correspond to the end oligonucleotides of the desired sequence also have a universal 3? flanking sequence and a universal 5? flanking sequence, respectively.

Abstract: The present disclosure generally pertains to a method for comparing the immunorepertoire diversity of a patient to the shared immunorepertoire of a group of individuals to identify whether the immunorepertoire diversity of the patient is normal or abnormal relative to the shared immunorepertoire of the group of individuals.

Abstract: The invention relates to a method for quantifying levels of expression and/or quantifying copy number of a heterologous polynucleotide in a transgenic plant using quantitative or real-time polymerase chain reaction (QPCR or real-time PCR), wherein the real-time PCR is performed using a primer set specific to a heterologous terminator sequence operably linked to the heterologous polynucleotide.

Abstract: The invention is directed to compositions and methods for rapidly detecting, amplifying, and quantitating one or more pathogen-specific nucleic acids in a biological sample, and in particular, samples obtained from patients with sepsis. The invention also provides diagnostic kits containing specific amplification primers, and labeled detection probes that specifically bind to the amplification products obtained therefrom. The invention is also directed to detecting the quantity or ratio of genomic sequences and mRNA sequences of an individual suspected of being infected with an infectious agent over time to assess the progress of the infection over time. Also disclosed are compositions and methods for the isolation and characterization of nucleic acids that are specific to one or more pathogens, such as, for example, Influenza virus, Mycobacterium tuberculosis, Plasmodium, and/or HIV from a wide variety of samples including those of biological, environmental, clinical and/or veterinary origin.

Abstract: Provided are methods of producing a product nucleic acid. The methods include combining a template deoxyribonucleic acid (DNA), a polymerase, a template switch oligonucleotide, and dNTPs into a reaction mixture. The components are combined into the reaction mixture under conditions sufficient to produce a product nucleic acid that includes the template DNA and the template switch oligonucleotide each hybridized to adjacent regions of a single product nucleic acid that includes a region polymerized from the dNTPs by the polymerase. Aspects of the invention further include compositions and kits.

Abstract: The present invention relates to a method for amplifying at least one target RNA in a fixed and, optionally, expanded biological sample. In an embodiment of the invention, the method comprises incubating the fixed biological sample with a pair of polynucleotides complementary to non-overlapping and proximal sequences of a target RNA, wherein the polynucleotide pair hybridizes to the target RNA; ligating the polynucleotide pair using a ligase; and amplifying the ligation product. The invention further provides methods for detecting and optionally quantifying and/or sequencing the amplification product. As the method comprises hybridizing polynucleotide pairs to a target RNA in a fixed biological sample, the target RNA can be hybridized in situ.

Abstract: A method for extracting nucleic acids from a biological sample by isolating nucleic acid-containing particles from the biological sample by one or more centrifugation procedures, performing one or more steps to mitigate adverse factors that prevent or might prevent high quality nucleic acid extraction, and extracting nucleic acids from the isolated particles. The centrifugation procedures are performed at a speed not exceeding about 200,000 g. The extracted nucleic acids contain both 18S and 28S rRNA.

Abstract: There is provided a microchip including a reaction region and a detection region connected to the reaction region by a flow passage, the detection region including copper.

Abstract: High-fidelity, high-throughput nucleic acid sequencing enables healthcare practitioners and patients to gain insight into genetic variants and potential health risks. However, previous methods of nucleic acid sequencing often introduces sequencing errors (for example, mutations that arise during the preparation of a nucleic acid library, during amplification, or sequencing). Provided herein are methods and compositions for sequencing nucleic acids. Further provided are methods of identifying an error in a nucleic acid sequence.

Abstract: The invention generally relates to the field of saxitoxins and the identification of microorganisms capable of producing them. More specifically, the invention relates to the identification of genes encoding saxitoxin in dinoflagellates, and methods for the specific detection of dinoflagellates that are producers of saxitoxins.

Abstract: Aspects of the technology disclosed herein relate to methods of preparing and analyzing nucleic acids, e.g., nucleic acids encoding immune receptors and immunoglobulins. In some embodiments, methods for preparing nucleic acids for sequence analysis (e.g., using next-generation sequencing) are provided herein.

Abstract: A short tandem repeat (STR) typing method and system are developed for forensic identification of individual cells. Agarose-in-oil droplets are produced with a high frequency using a microfluidic droplet generator. Statistically dilute single cells, along with primer-functionalized microbeads, are randomly compartmentalized in the droplets. Massively parallel single-cell droplet PCR is performed to transfer replicas of desired STR targets from the single-cell genomic DNA onto a coencapsulated microbead. These DNA-conjugated beads are subsequently harvested and reamplified under statistically dilute conditions for conventional capillary electrophoresis STR fragment size analysis. The methods and systems described herein are valuable for the STR analysis of samples containing mixtures of cells/DNA from multiple contributors and for low concentration samples.

Abstract: Nucleic acid amplification assays for mutations to two short sections of the fungal gene FKS1. Mutations in these target sequences have been shown to correlate with resistance to echinocandin-class drugs. Assays may include detection by sequencing or by labeled hybridization probes. Also, primers, probes and reagent kits for performing such assays.

Abstract: The present invention relates to methods and kits for detecting in a sample the presence of a virus particle or a virus-like particle that has reverse transcriptase activity and methods for preparing a retroviral contaminant-free substance. An aspect of the present invention is a method for detecting the presence of a virus particle in a sample of a Virus-like Particle (VLP) drug substance comprising a step of performing PCR-based reverse transcriptase (PBRT) on a sample of the VLP drug substance that has been treated with a protease.