Abstract: Methods for the rapid detection of the presence of variants of Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2) that contain mutations in the Spike (S) protein gene in a biological or non-biological sample are described. The methods can include performing an amplifying step, a hybridizing step, and a detecting step. Furthermore, primers and probes targeting SARS-CoV-2 variants containing S gene mutations and kits are provided that are designed for the detection of SARS-CoV-2 variants containing S gene mutations.

Abstract: The present invention is directed to methods for identifying the presence of one or more target nucleotide sequences in a sample that involve a nuclease-ligation reaction. In some embodiments, the ligation products formed in the nuclease-ligation process of the present invention are subsequently amplified using a polymerase chain reaction.

Abstract: The present invention is directed to methods for identifying the presence of one or more target nucleotide sequences in a sample that involve a ligation and/or polymerase reaction. In some embodiments, the ligation products formed in the ligation process of the present invention are subsequently amplified using a polymerase chain reaction. The ligated product sequences or extension products thereof are detected, and the presence of one or more target nucleotide sequences in the sample is identified based on the detection.

Abstract: Methods for the rapid detection of the presence or absence of Zika virus in a biological or non-biological sample are described. The methods can include performing an amplifying step, a hybridizing step, and a detecting step. Furthermore, primers and probes targeting Zika virus and kits are provided that are designed for the detection of Zika virus.

Abstract: Methods for the rapid detection of the presence or absence of SARS-CoV-2, influenza A and influenza B in a biological or non-biological sample are described. The methods can include performing an amplifying step, a hybridizing step, and a detecting step. Furthermore, primers and probes targeting SARS-CoV-2, influenza A, and influenza B and kits are provided that are designed for the detection of SARS-CoV-2, influenza A and influenza B.

Abstract: Methods for the rapid detection of the presence or absence of Zika virus in a biological or non-biological sample are described. The methods can include performing an amplifying step, a hybridizing step, and a detecting step. Furthermore, primers and probes targeting Zika virus and kits are provided that are designed for the detection of Zika virus.

Abstract: Methods for the rapid detection of the presence or absence of Zika virus in a biological or non-biological sample are described. The methods can include performing an amplifying step, a hybridizing step, and a detecting step. Furthermore, primers and probes targeting Zika virus and kits are provided that are designed for the detection of Zika virus.

Abstract: The present invention is directed to methods for identifying the presence of one or more target nucleotide sequences in a sample that involve a nuclease-ligation reaction. In some embodiments, the ligation products formed in the nuclease-ligation process of the present invention are subsequently amplified using a polymerase chain reaction.

Abstract: The present invention is directed to methods for identifying the presence of one or more target nucleotide sequences in a sample that involve a nuclease-ligation reaction. In some embodiments, the ligation products formed in the nuclease-ligation process of the present invention are subsequently amplified using a polymerase chain reaction. The ligated product sequences or extension products thereof are detected, and the presence of one or more target nucleotide sequences in the sample is identified based on the detection.

Abstract: The present invention is directed to methods for identifying the presence of one or more methylated or unmethylated target nucleotide sequences in a sample that involve a nuclease-ligation reaction. In some embodiments, the ligation products formed in the nuclease-ligation process of the present invention are subsequently amplified using a polymerase chain reaction. The ligated product sequences or extension products thereof are detected, and the presence of one or more methylated or unmethylated target nucleotide sequences in the sample is identified based on the detection.

Abstract: Provided are methods and compositions for detecting the presence or amount of one or more target nucleic acids in a sample. Methods of the present invention include linking universal nucleic acid segments into a single molecule in a linking reaction dependent on a target nucleic acid of interest. A variety of universal segment linking strategies are provided, including preamplification by polymerase chain reaction, ligation-based strategies, reverse transcription and linear polymerase extension. Linking the universal segments into a single molecule generates a tagged target nucleic acid which is detected in a manner dependent on an intramolecular interaction between one universal segment and a second portion of the tagged target nucleic acid. In certain embodiments, the intramolecular interaction includes the formation of a hairpin having a stem between a universal segment at one end of the tagged target nucleic acid and a second universal segment at the opposite end of the tagged target nucleic acid.

Abstract: Methods for the rapid detection of the presence or absence of Zika virus in a biological or non-biological sample are described. The methods can include performing an amplifying step, a hybridizing step, and a detecting step. Furthermore, primers and probes targeting Zika virus arid kits are provided that are designed for the detection of Zika virus.

Abstract: Provided herein are methods and compositions for performing PCR with primers with blocked 3?-ends that are unblocked when these primers anneal to the template. The multiplexed PCR can be used as real-time qPCR, for end-point detection or as enrichment method for next generation sequencing (NGS). Also described herein are methods and compositions to improve sensitivity of mutation-specific PCR when targeting closely-spaced mutations.

Abstract: The present invention is directed to methods for identifying the presence of one or more target nucleotide sequences in a sample that involve a nuclease-ligation reaction. In some embodiments, the ligation products formed in the nuclease-ligation process of the present invention are subsequently amplified using a polymerase chain reaction.

Abstract: The present invention is directed to methods for identifying the presence of one or more target nucleotide sequences in a sample that involve a nuclease-ligation reaction. In some embodiments, the ligation products formed in the nuclease-ligation process of the present invention are subsequently amplified using a polymerase chain reaction. The ligated product sequences or extension products thereof are detected, and the presence of one or more target nucleotide sequences in the sample is identified based on the detection.

Abstract: Provided herein are methods and compositions for performing PCR with primers with blocked 3?-ends that are unblocked when these primers anneal to the template. The multiplexed PCR can be used as real-time qPCR, for end-point detection or as enrichment method for next generation sequencing (NGS). Also described herein are methods and compositions to improve sensitivity of mutation-specific PCR when targeting closely-spaced mutations.

Abstract: The present invention is directed to methods for identifying the presence of one or more methylated or unmethylated target nucleotide sequences in a sample that involve a nuclease-ligation reaction. In some embodiments, the ligation products formed in the nuclease-ligation process of the present invention are subsequently amplified using a polymerase chain reaction. The ligated product sequences or extension products thereof are detected, and the presence of one or more methylated or unmethylated target nucleotide sequences in the sample is identified based on the detection.

Abstract: Provided are methods and compositions for detecting the presence or amount of one or more target nucleic acids in a sample. Methods of the present invention include linking universal nucleic acid segments into a single molecule in a linking reaction dependent on a target nucleic acid of interest. A variety of universal segment linking strategies are provided, including preamplification by polymerase chain reaction, ligation-based strategies, reverse transcription and linear polymerase extension. Linking the universal segments into a single molecule generates a tagged target nucleic acid which is detected in a manner dependent on an intramolecular interaction between one universal segment and a second portion of the tagged target nucleic acid. In certain embodiments, the intramolecular interaction includes the formation of a hairpin having a stem between a universal segment at one end of the tagged target nucleic acid and a second universal segment at the opposite end of the tagged target nucleic acid.

Abstract: The present invention is directed to methods for identifying the presence of one or more target nucleotide sequences in a sample that involve a nuclease-ligation reaction. In some embodiments, the ligation products formed in the nuclease-ligation process of the present invention are subsequently amplified using a polymerase chain reaction. The ligated product sequences or extension products thereof are detected, and the presence of one or more target nucleotide sequences in the sample is identified based on the detection.

Abstract: Provided are methods and compositions for detecting the presence or amount of one or more target nucleic acids in a sample. Methods of the present invention include linking universal nucleic acid segments into a single molecule in a linking reaction dependent on a target nucleic acid of interest. A variety of universal segment linking strategies are provided, including preamplification by polymerase chain reaction, ligation-based strategies, reverse transcription and linear polymerase extension. Linking the universal segments into a single molecule generates a tagged target nucleic acid which is detected in a manner dependent on an intramolecular interaction between one universal segment and a second portion of the tagged target nucleic acid. In certain embodiments, the intramolecular interaction includes the formation of a hairpin having a stem between a universal segment at one end of the tagged target nucleic acid and a second universal segment at the opposite end of the tagged target nucleic acid.