The present disclosure relates to compositions that comprise a fluorescent and/or MS-active nucleic acid probe that comprises (a) a nucleic-acid-based moiety and (b) a fluorescent moiety comprising a fluorophore, an MS-active moiety, or both a fluorescent moiety and an MS-active moiety, linked to the nucleic-acid-based moiety, among other aspects.

Diaryl-azo derivatives are efficient fluorescence quenchers as well as nucleic acid duplex-stabilizing agents and are useful in oligonucleotide conjugates and probes. The oligonucleotide-quencher conjugates may be used in detection methods for nucleic acid targets.

Diaryl-azo derivatives are efficient fluorescence quenchers as well as nucleic acid duplex-stabilizing agents and are useful in oligonucleotide conjugates and probes. The oligonucleotide-quencher conjugates may be used in detection methods for nucleic acid targets.

A method for obtaining a single-cell mRNA sequence, including: (1) capturing mRNA of a cell by using a cell tag carrier, and performing reverse transcription to obtain cDNA having a cell tag; (2) obtaining multiple cDNA fragments having molecular tags by using a transposase complex and a molecular tag carrier; (3) performing high-throughput sequencing; (4) performing sequence assembly according to the molecular tags to obtain the sequence of each mRNA; and (5) obtaining the sequence of all mRNAs of each single cell according to the cell tags.

A method for obtaining a single-cell mRNA sequence, including: (1) capturing mRNA of a cell by using a cell tag carrier, and performing reverse transcription to obtain cDNA having a cell tag; (2) obtaining multiple cDNA fragments having molecular tags by using a transposase complex and a molecular tag carrier; (3) performing high-throughput sequencing; (4) performing sequence assembly according to the molecular tags to obtain the sequence of each mRNA; and (5) obtaining the sequence of all mRNAs of each single cell according to the cell tags.

The present disclosure relates to a device, comprising a base and a plurality of microneedles attached to the base, wherein each microneedle has an outer surface; the outer surface of at least one microneedle being coated with a composition comprising at least one polymer and least one Peptide Nucleic Acid (PNA). The present disclosure additionally relates to a method of detecting an analyte in interstitial fluid (ISF), comprising contacting the device to a subject, for example, to human skin.

Provided are methods and devices for single-molecule genomic analysis. In one embodiment, the methods entail processing a double-stranded nucleic acid and characterizing said nucleic acid. These methods are useful in, e.g. determining structural variations and copy number variations between individuals.

Provided are methods and devices for single-molecule genomic analysis. In one embodiment, the methods entail processing a double-stranded nucleic acid and characterizing said nucleic acid. These methods are useful in, e.g. determining structural variations and copy number variations between individuals.

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.

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.