Disclosed herein are compositions and methods for detecting RNA binding sites and RNA interacting partners involving the use of a modified capture oligonucleotide having a dual toehold design.

Disclosed herein are compositions and methods for detecting RNA binding sites and RNA interacting partners involving the use of a modified capture oligonucleotide having a dual toehold design.

Disclosed are methods for detecting a target nucleic acid in a sample. The methods include contacting the sample, in the presence of a polymerase and an endonuclease, with a first oligonucleotide comprising, in the 5′ to 3′ direction, a first signal DNA generation sequence, an endonuclease recognition site, and a sequence complementary to the 3′ end of a target nucleic acid; a second oligonucleotide comprising, in the 5′ to 3′ direction, a second signal DNA generation sequence, an endonuclease recognition site, and a sequence that is homologous to the first signal DNA generation sequence of the first oligonucleotide; a third oligonucleotide comprising, in the 5′ to 3′ direction, a third signal DNA generation sequence, an endonuclease recognition site, and a sequence that is homologous to the second signal DNA generation sequence of the second oligonucleotide.

Disclosed are methods for detecting a target nucleic acid in a sample. The methods include contacting the sample, in the presence of a polymerase and an endonuclease, with a first oligonucleotide comprising, in the 5′ to 3′ direction, a first signal DNA generation sequence, an endonuclease recognition site, and a sequence complementary to the 3′ end of a target nucleic acid; a second oligonucleotide comprising, in the 5′ to 3′ direction, a second signal DNA generation sequence, an endonuclease recognition site, and a sequence that is homologous to the first signal DNA generation sequence of the first oligonucleotide; a third oligonucleotide comprising, in the 5′ to 3′ direction, a third signal DNA generation sequence, an endonuclease recognition site, and a sequence that is homologous to the second signal DNA generation sequence of the second oligonucleotide.

There are provided methods and systems for detecting and/or quantifying an analyte. In particular, there are provided methods and systems for simultaneous detection and/or quantitation of two or more analytes in a sample. Colocalization-by-linkage assays on microparticles (CLAMP) can be engineered and used to effectively multiplex the detection of analytes within a sample. Features and methods of CLAMP systems can provide robust and scalable analysis of analytes in a sample.

There are provided methods and systems for detecting and/or quantifying an analyte. In particular, there are provided methods and systems for simultaneous detection and/or quantitation of two or more analytes in a sample. Colocalization-by-linkage assays on microparticles (CLAMP) can be engineered and used to effectively multiplex the detection of analytes within a sample. Features and methods of CLAMP systems can provide robust and scalable analysis of analytes in a sample.

Described herein are systems and methods that may be used to differentially detect viral serotype specific nucleic acid. For example, these systems may comprise multiple DNA-nanostructures, capture oligonucleotides and protector oligonucleotides, wherein each DNA-nanostructure and its associated capture oligonucleotide and protector oligonucleotide are specific for a unique viral type or serotype.

Described herein are systems and methods that may be used to differentially detect viral serotype specific nucleic acid. For example, these systems may comprise multiple DNA-nanostructures, capture oligonucleotides and protector oligonucleotides, wherein each DNA-nanostructure and its associated capture oligonucleotide and protector oligonucleotide are specific for a unique viral type or serotype.

This is not the abstract!

This is not the abstract!