5′ hairpin oligonucleotide substrates for reversible repression, e.g., by temperature shift, of cleavage by flap endonucleases, and methods using 5′ hairpin oligonucleotides.

5′ hairpin oligonucleotide substrates for reversible repression, e.g., by temperature shift, of cleavage by flap endonucleases, and methods using 5′ hairpin oligonucleotides.

This invention relates to a method for the purification of nucleic acids, preferably DNA, from biological samples, comprising the steps (a) optional lysis of said sample, (b) optional heat incubation of said sample, (c) enzymatic digestion of non-nucleic acid components in the product of step (a) or (b), (d) heat inactivation of one or more enzyme(s) used in step (c), (e) transfer of the product of step (d) onto a resin capable of retaining non-nucleic acid components, while the nucleic acids pass through the resin, thereby purifying the nucleic acids.

This invention relates to a method for the purification of nucleic acids, preferably DNA, from biological samples, comprising the steps (a) optional lysis of said sample, (b) optional heat incubation of said sample, (c) enzymatic digestion of non-nucleic acid components in the product of step (a) or (b), (d) heat inactivation of one or more enzyme(s) used in step (c), (e) transfer of the product of step (d) onto a resin capable of retaining non-nucleic acid components, while the nucleic acids pass through the resin, thereby purifying the nucleic acids.

The present disclosure provides methods, compositions, and systems for distributing polymerase compositions into array regions. In particular, the described methods, compositions, and systems utilize density differentials and/or additives to increase efficiency in the distribution of polymerase compositions to a surface as compared to methods utilizing only diffusion control.

The present disclosure provides methods, compositions, and systems for distributing polymerase compositions into array regions. In particular, the described methods, compositions, and systems utilize density differentials and/or additives to increase efficiency in the distribution of polymerase compositions to a surface as compared to methods utilizing only diffusion control.

A method of forming a polymer matrix array includes treating a surface within a well of a well array with a surface compound including a surface reactive functional group and a radical-forming distal group; applying an aqueous solution including polymer precursors to the well of the well array; and activating the radical-forming distal group of the surface coupling compound with an initiator and atom transfer radical polymerization (ATRP) catalyst to initiate radical polymerization of the polymer precursors within the well of the well array to form the polymer matrix array.

A method of forming a polymer matrix array includes treating a surface within a well of a well array with a surface compound including a surface reactive functional group and a radical-forming distal group; applying an aqueous solution including polymer precursors to the well of the well array; and activating the radical-forming distal group of the surface coupling compound with an initiator and atom transfer radical polymerization (ATRP) catalyst to initiate radical polymerization of the polymer precursors within the well of the well array to form the polymer matrix array.

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.