Patent ID: 9062304
Filing Date: 2015-06-23
Classification: C08F,C12N,Y10T

Abstract:
1. A method for separating double-stranded nucleic acids from a PCR product mixture comprising the double-stranded nucleic acids, single-stranded nucleic acids, and free nucleotides in an aqueous solution comprising the steps of: a) contacting the mixture with a spatially inhomogenously functionalized nanoporous material, wherein a surface of the spatially inhomogenously functionalized nanoporous material comprises pore surface and non-pore surface and wherein the pore surface has surface groups of a first functionality and the non-pore surface has surface groups of a second functionality that is different than the first functionality, wherein the surface groups of the second functionality are provided by individual polymer chains, wherein the spatially inhomogenously functionalized nanoporous material is a porous silica, wherein the surface groups of the first functionality are amino propyl groups that are covalently bound to the pore surface of the porous silica, wherein the surface groups of the second functionality are carboxylate groups or sulfonate groups, and wherein the first functionality and the second functionality are the same for all of the spatially inhomogenously functionalized nanoporous material present, b) incubating the mixture and the spatially inhomogenously functionalized nanoporous material from a) under conditions such that at least a portion of the single-stranded nucleic acids and free nucleotides are selectively adsorbed to the pore surface; and c) isolating the spatially inhomogenously functionalized nanoporous material from the aqueous solution thereby separating at least a portion of the double-stranded nucleic acids in the aqueous solution from the single-stranded nucleic acids and free nucleotides, wherein the aqueous solution is incubated with the spatially inhomogenously functionalized nanoporous material for 5 to 60 seconds and greater than 90% of the free nucleotides and single-stranded nucleic acids are removed from and greater than 80% of double-stranded nucleic acids remain in the aqueous solution.