Abstract: Methods for detecting the presence or absence of the swine H1N1 influenza A virus, seasonal H1 influenza A virus and/or seasonal H3 influenza A virus nucleic acids in biological samples are disclosed. Compositions that are target-specific nucleic acid sequences and kits comprising target-specific nucleic acid oligomers for amplifying in vitro the swine H1N1 influenza A virus, seasonal H1 influenza A virus and/or seasonal H3 influenza A virus nucleic acid and detecting amplified nucleic acid sequences are disclosed.
Abstract: The disclosed invention is related to methods, compositions, kits and isolated nucleic acid sequences for targeting Adenovirus nucleic acid. Compositions include amplification oligomers and/or detection probe oligomers. Kits and methods comprise at least one of these 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: 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 for detecting the presence or absence of the swine H1N1 influenza A virus, seasonal H1 influenza A virus and/or seasonal H3 influenza A virus nucleic acids in biological samples are disclosed. Compositions that are target-specific nucleic acid sequences and kits comprising target-specific nucleic acid oligomers for amplifying in vitro the swine H1N1 influenza A virus, seasonal H1 influenza A virus and/or seasonal H3 influenza A virus nucleic acid and detecting amplified nucleic acid sequences are disclosed.
Abstract: Disclosed are nucleic acid oligomers, including amplification oligomers, detection probes, and combinations thereof, for detection of one or more gastrointestinal pathogens selected from Salmonella, Shigella, Campylobacter jejuni, and Campylobacter coli. Also disclosed are methods of specific nucleic acid amplification and detection, including multiplex assays, using the disclosed oligomers, as well as corresponding reaction mixtures and kits.
Abstract: The disclosed invention is related to methods, compositions, kits and isolated nucleic acid sequences for targeting Adenovirus nucleic acid. Compositions include amplification oligomers and/or detection probe oligomers. Kits and methods comprise at least one of these oligomers.
Abstract: The disclosed invention is related to methods, compositions, kits and isolated nucleic acid sequences for targeting Adenovirus nucleic acid. Compositions include amplification oligomers and/or detection probe oligomers. Kits and methods comprise at least one of these oligomers.
Abstract: The disclosed invention is related to methods, compositions, kits and isolated nucleic acid sequences for targeting Adenovirus nucleic acid. Compositions include amplification oligomers and/or detection probe oligomers. Kits and methods comprise at least one of these oligomers.