The present invention provides methods for detecting the presence or absence of a nucleic acid variant in a target region. These methods include amplifying the target region with a forward primer and a reverse primer in the presence of a selector blocker. The selector blocker includes a sequence complementary to the target region in the absence of the nucleic acid variant. The methods further include detecting amplification of the target region where amplification of the target region indicates the presence of the nucleic acid variant in the target region. The nucleic acid variant can include deletions, mutations or insertions.

Methods for the rapid detection of the presence or absence of Mycoplasma genitalium (MG) 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, probes targeting the target MG gene, along with kits are provided that are designed for the detection of MG.

Methods for the rapid detection of the presence or absence of Mycoplasma genitalium (MG) 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, probes targeting the target MG gene, along with kits are provided that are designed for the detection of MG.

Provided are unimolecular oligonucleotide probes for detecting a target in a sample. The probes use target binding-induced structural changes to detect the presence of the target in the sample. Also provided are methods of using the probes to detect a target in a sample.

Provided are unimolecular oligonucleotide probes for detecting a target in a sample. The probes use target binding-induced structural changes to detect the presence of the target in the sample. Also provided are methods of using the probes to detect a target in a sample.

The present invention is directed to methods and compositions for acquiring nucleotide sequence information of target sequences. In particular, the present invention provides methods and compositions for improving the efficiency of sequencing reactions by using fewer labels to distinguish between nucleotides and by detecting nucleotides at multiple detection positions in a target sequence.

The present invention is directed to methods and compositions for acquiring nucleotide sequence information of target sequences. In particular, the present invention provides methods and compositions for improving the efficiency of sequencing reactions by using fewer labels to distinguish between nucleotides and by detecting nucleotides at multiple detection positions in a target sequence.

The subject invention pertains to composition and methods of using said composition as an in vitro biosensor of small molecules in biological and/or environmental samples using enzyme-assisted nucleic acid reactions. The methods and compositions can be used to sense and/or transduce the signal of a sensing event mediated by allosteric proteins, endonucleases and nucleic acid reactions. This invention allows the rapid development and setup of one-pot assays to provide results in minutes. The methods and compositions may be used to generate an electrochemical, fluorescent, colorimetric, and/or luminescent output and the methods can be performed in different modalities, including a solution-based or paper-based assay.

The subject invention pertains to composition and methods of using said composition as an in vitro biosensor of small molecules in biological and/or environmental samples using enzyme-assisted nucleic acid reactions. The methods and compositions can be used to sense and/or transduce the signal of a sensing event mediated by allosteric proteins, endonucleases and nucleic acid reactions. This invention allows the rapid development and setup of one-pot assays to provide results in minutes. The methods and compositions may be used to generate an electrochemical, fluorescent, colorimetric, and/or luminescent output and the methods can be performed in different modalities, including a solution-based or paper-based assay.

The present invention relates to compositions and methods for the detection of target molecules, and the amplification of detectable signals generated by detection assays. More specifically, the present invention relates to methods utilizing catalytic nucleic acid enzymes to generate and/or amplify a signal indicative of the presence of target molecules (e.g. nucleic acids and proteins), and compositions for use in the methods.