An example of a kit includes a flow cell, a primer fluid, and a cleaving fluid. The flow cell includes at least one surface functionalized with a polymeric hydrogel including azide functional groups or amine functional groups. The primer fluid includes a plurality of alkyne-containing primers, each alkyne-containing primer having an amino cleavable group attaching a primer sequence of the alkyne-containing primer to an alkyne-containing moiety of the alkyne-containing primer. The cleaving fluid includes a substance that is reactive with the amino cleavable group.

An example of a kit includes a flow cell, a primer fluid, and a cleaving fluid. The flow cell includes at least one surface functionalized with a polymeric hydrogel including azide functional groups or amine functional groups. The primer fluid includes a plurality of alkyne-containing primers, each alkyne-containing primer having an amino cleavable group attaching a primer sequence of the alkyne-containing primer to an alkyne-containing moiety of the alkyne-containing primer. The cleaving fluid includes a substance that is reactive with the amino cleavable group.

Disclosed are methods of measuring the amount of exposure of a host to a DNA double-stranded break (DSB)-causing agent by determining the ratio of the quantity of γ-H2AX to the quantity of total H2AX in a biological sample from the host as compared to the ratio of the quantity of γ-H2AX to the quantity of total H2AX in a positive control biological sample that has been exposed to a known amount of a DSB-causing agent. Related kits and methods of quantifying DSBs in a test biological sample are also disclosed.

Disclosed are methods of measuring the amount of exposure of a host to a DNA double-stranded break (DSB)-causing agent by determining the ratio of the quantity of γ-H2AX to the quantity of total H2AX in a biological sample from the host as compared to the ratio of the quantity of γ-H2AX to the quantity of total H2AX in a positive control biological sample that has been exposed to a known amount of a DSB-causing agent. Related kits and methods of quantifying DSBs in a test biological sample are also disclosed.

The present invention is directed to methods and compositions for generating a pool of oligonucleotides. The invention finds use in preparing a population or subpopulations of oligonucleotides in solution. The pool of oligonucleotides finds use in a variety of nucleic acid detection and/or amplification assays.

The present invention is directed to methods and compositions for generating a pool of oligonucleotides. The invention finds use in preparing a population or subpopulations of oligonucleotides in solution. The pool of oligonucleotides finds use in a variety of nucleic acid detection and/or amplification assays.

The present invention relates to the detection of a nucleotide variation on a target nucleic acid sequence using an amplification blocker and a VD-PTOCE (Variation Detection by PTO Cleavage and Extension) assay. The present invention is significantly effective in the detection of a minority mutation in an excess of wild-type DNA.

The present invention relates to the detection of a nucleotide variation on a target nucleic acid sequence using an amplification blocker and a VD-PTOCE (Variation Detection by PTO Cleavage and Extension) assay. The present invention is significantly effective in the detection of a minority mutation in an excess of wild-type DNA.

The present disclosure provides methods of preparing a fixed biological sample for use in an assay, wherein the method includes treatment of the sample with a low temperature active protease, optionally, in combination with an un-fixing reagent. The disclosure also provides assay methods, include partition-based methods, for fixed biological sample that use the low temperature protease treatment in combination with an un-fixing reagent. Kits comprising protease compositions, un-fixing agent compositions, and other assay reagents for use in the methods are also provided.

The present disclosure provides methods of preparing a fixed biological sample for use in an assay, wherein the method includes treatment of the sample with a low temperature active protease, optionally, in combination with an un-fixing reagent. The disclosure also provides assay methods, include partition-based methods, for fixed biological sample that use the low temperature protease treatment in combination with an un-fixing reagent. Kits comprising protease compositions, un-fixing agent compositions, and other assay reagents for use in the methods are also provided.