Separation of Short Single- and Double-Stranded DNA Based on Their Adsorption Kinetics Difference on Graphene Oxide

Separation of Short Single- and Double-Stranded DNA Based on Their Adsorption Kinetics Difference on Graphene Oxide

Separation of short single- and double-stranded DNA typically requires gel electrophoresis followed by DNA extraction, which is a time consuming process. Graphene oxide adsorbs single-stranded DNA more quickly than double-stranded ones, allowing for selective removal of the former with a simple mixi...

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Bibliographic Details
Main Authors: Po-Jung Jimmy Huang, Juewen Liu
Format: Article
Language:English
Published: MDPI AG 2013-04-01
Series:Nanomaterials
Subjects:
graphene
DNA
adsorption
fluorescence
separation
gel electrophoresis
Online Access:http://www.mdpi.com/2079-4991/3/2/221
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spelling doaj-fb399bb064f44b5f8eee1c3047a463a42020-11-24T23:52:32ZengMDPI AGNanomaterials2079-49912013-04-013222122810.3390/nano3020221Separation of Short Single- and Double-Stranded DNA Based on Their Adsorption Kinetics Difference on Graphene OxidePo-Jung Jimmy HuangJuewen LiuSeparation of short single- and double-stranded DNA typically requires gel electrophoresis followed by DNA extraction, which is a time consuming process. Graphene oxide adsorbs single-stranded DNA more quickly than double-stranded ones, allowing for selective removal of the former with a simple mixing and centrifugation operation. The effect of DNA length and salt on adsorption selectivity has been characterized and its application in DNA melting curve measurement has been demonstrated.http://www.mdpi.com/2079-4991/3/2/221grapheneDNAadsorptionfluorescenceseparationgel electrophoresis
collection DOAJ
language English
format Article
sources DOAJ
author Po-Jung Jimmy Huang
Juewen Liu
spellingShingle Po-Jung Jimmy Huang
Juewen Liu
Separation of Short Single- and Double-Stranded DNA Based on Their Adsorption Kinetics Difference on Graphene Oxide
Nanomaterials
graphene
DNA
adsorption
fluorescence
separation
gel electrophoresis
author_facet Po-Jung Jimmy Huang
Juewen Liu
author_sort Po-Jung Jimmy Huang
title Separation of Short Single- and Double-Stranded DNA Based on Their Adsorption Kinetics Difference on Graphene Oxide
title_short Separation of Short Single- and Double-Stranded DNA Based on Their Adsorption Kinetics Difference on Graphene Oxide
title_full Separation of Short Single- and Double-Stranded DNA Based on Their Adsorption Kinetics Difference on Graphene Oxide
title_fullStr Separation of Short Single- and Double-Stranded DNA Based on Their Adsorption Kinetics Difference on Graphene Oxide
title_full_unstemmed Separation of Short Single- and Double-Stranded DNA Based on Their Adsorption Kinetics Difference on Graphene Oxide
title_sort separation of short single- and double-stranded dna based on their adsorption kinetics difference on graphene oxide
publisher MDPI AG
series Nanomaterials
issn 2079-4991
publishDate 2013-04-01
description Separation of short single- and double-stranded DNA typically requires gel electrophoresis followed by DNA extraction, which is a time consuming process. Graphene oxide adsorbs single-stranded DNA more quickly than double-stranded ones, allowing for selective removal of the former with a simple mixing and centrifugation operation. The effect of DNA length and salt on adsorption selectivity has been characterized and its application in DNA melting curve measurement has been demonstrated.
topic graphene
DNA
adsorption
fluorescence
separation
gel electrophoresis
url http://www.mdpi.com/2079-4991/3/2/221
work_keys_str_mv AT pojungjimmyhuang separationofshortsingleanddoublestrandeddnabasedontheiradsorptionkineticsdifferenceongrapheneoxide
AT juewenliu separationofshortsingleanddoublestrandeddnabasedontheiradsorptionkineticsdifferenceongrapheneoxide
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