Abstract: This invention is directed to methods, kits, non-nucleotide probes as well as other compositions pertaining to the suppression of binding of detectable nucleic acid probes to undesired nucleotide sequences of genomic nucleic acid in assays designed to determine target genomic nucleic acid.

Abstract: This invention is directed to methods, kits, non-nucleotide probes as well as other compositions pertaining to the suppression of binding of detectable nucleic acid probes to undesired nucleotide sequences of genomic nucleic acid in assays designed to determine target genomic nucleic acid.

Abstract: This invention is directed to methods, kits, non-nucleotide probes as well as other compositions pertaining to the suppression of binding of detectable nucleic acid probes to undesired nucleotide sequences of genomic nucleic acid in assays designed to determine target genomic nucleic acid.

Abstract: This invention is directed to methods, kits, non-nucleotide probes as well as other compositions pertaining to the suppression of binding of detectable nucleic acid probes to undesired nucleotide sequences of genomic nucleic acid in assays designed to determine target genomic nucleic acid.

Abstract: This invention is related to PNA probes, probe sets, mixtures, methods and kits pertaining to the determination of Mycoplasma and related Mollicutes.

Abstract: The present invention generally relates to the detection of analytes, particularly biomolecules in samples. The invention also relates to compositions, methods, and kits for detecting the presence of analytes, typically in multiplex detection formats. The invention also relates to methods for determining the presence of at least one analyte in a sample, the methods employing employ single molecule detection techniques to individually detect at least one molecular complex or at least part of a molecular complex.

Abstract: This invention is directed to methods for determining amplified nucleic acid using Linear Beacons.

Abstract: This invention pertains to the field of combination oligomers, including the block synthesis of combination oligomers in the absence of a template, as well as related methods, kits, libraries and other compositions.

Abstract: This invention is related to PNA probes, probe sets, mixtures, methods and kits pertaining to the determination of Mycoplasma and related Mollicutes.

Abstract: This invention is related to multiplex PNA-FISH assays.

Abstract: This invention is related to novel probes, probe sets, methods and kits pertaining to the detection of bacteria of the Salmonella genus. The probes, probe sets, methods and kits of this invention are particularly useful for the detection, identification and/or enumeration of bacteria of the Salmonella genus. It is an advantage of the identified probes that they do not substantially cross react with bacteria of the closely related Citrobacter genus. Preferably, the probes of this invention are prepared as PNA probes and most preferably the probing nucleobase sequence comprises a segment that is at least ninety percent homologous to the nucleobase sequence; GTG-TTA-AAG-TGA-ACC (Seq. Id. No. 1), AGC-CTT-GAT-TTT-CCG (Seq. Id. No. 2) or ACC-TAC-GTG-TCA-GCG (Seq. Id. No. 3).

Abstract: Described herein are methods and kits that employ multiple probe sets in combination with sequential steps of hybridization analysis for multiplex analysis and/or detection of nucleic acids having one or more distinguishable target sequences.

Abstract: Embodiments of this invention are directed to methods for determining or estimating the concentration of nucleic acid or the state of degradation of nucleic acid in a sample of interest.

Abstract: The present invention generally relates to the detection of analytes, particularly biomolecules in samples. The invention also relates to compositions, methods, and kits for detecting the presence of analytes, typically in multiplex detection formats. The invention also relates to methods for determining the presence of at least one analyte in a sample, the methods employing employ single molecule detection techniques to individually detect at least one molecular complex or at least part of a molecular complex.

Abstract: The teachings herein generally relates to probes comprising fabricated coded molecular tags for detecting analytes. The teachings also relate to compositions, methods, and kits for fabricating coded molecular tags comprising a multiplicity or reporter groups in an ordered pattern.