Ultrasensitive cDNA detection of dengue virus RNA using electrochemical nanoporous membrane-based biosensor.

Ultrasensitive cDNA detection of dengue virus RNA using electrochemical nanoporous membrane-based biosensor.

A nanoporous alumina membrane-based ultrasensitive DNA biosensor is constructed using 5'-aminated DNA probes immobilized onto the alumina channel walls. Alumina nanoporous membrane-like structure is carved over platinum wire electrode of 76 µm diameter dimension by electrochemical anodization....

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Main Authors: Varun Rai, Hapuarachchige C Hapuarachchi, Lee Ching Ng, Siew Hwa Soh, Yee Sin Leo, Chee-Seng Toh
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2012-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3426509?pdf=render
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spelling doaj-2b183347049e4844808e23ee42220dfc2020-11-25T02:39:29ZengPublic Library of Science (PLoS)PLoS ONE1932-62032012-01-0178e4234610.1371/journal.pone.0042346Ultrasensitive cDNA detection of dengue virus RNA using electrochemical nanoporous membrane-based biosensor.Varun RaiHapuarachchige C HapuarachchiLee Ching NgSiew Hwa SohYee Sin LeoChee-Seng TohA nanoporous alumina membrane-based ultrasensitive DNA biosensor is constructed using 5'-aminated DNA probes immobilized onto the alumina channel walls. Alumina nanoporous membrane-like structure is carved over platinum wire electrode of 76 µm diameter dimension by electrochemical anodization. The hybridization of complementary target DNA with probe DNA molecules attached inside the pores influences the pore size and ionic conductivity. The biosensor demonstrates linear range over 6 order of magnitude with ultrasensitive detection limit of 9.55×10(-12) M for the quantification of ss-31 mer DNA sequence. Its applicability is challenged against real time cDNA PCR sample of dengue virus serotype1 derived from asymmetric PCR. Excellent specificity down to one nucleotide mismatch in target DNA sample of DENV3 is also demonstrated.http://europepmc.org/articles/PMC3426509?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Varun Rai
Hapuarachchige C Hapuarachchi
Lee Ching Ng
Siew Hwa Soh
Yee Sin Leo
Chee-Seng Toh
spellingShingle Varun Rai
Hapuarachchige C Hapuarachchi
Lee Ching Ng
Siew Hwa Soh
Yee Sin Leo
Chee-Seng Toh
Ultrasensitive cDNA detection of dengue virus RNA using electrochemical nanoporous membrane-based biosensor.
PLoS ONE
author_facet Varun Rai
Hapuarachchige C Hapuarachchi
Lee Ching Ng
Siew Hwa Soh
Yee Sin Leo
Chee-Seng Toh
author_sort Varun Rai
title Ultrasensitive cDNA detection of dengue virus RNA using electrochemical nanoporous membrane-based biosensor.
title_short Ultrasensitive cDNA detection of dengue virus RNA using electrochemical nanoporous membrane-based biosensor.
title_full Ultrasensitive cDNA detection of dengue virus RNA using electrochemical nanoporous membrane-based biosensor.
title_fullStr Ultrasensitive cDNA detection of dengue virus RNA using electrochemical nanoporous membrane-based biosensor.
title_full_unstemmed Ultrasensitive cDNA detection of dengue virus RNA using electrochemical nanoporous membrane-based biosensor.
title_sort ultrasensitive cdna detection of dengue virus rna using electrochemical nanoporous membrane-based biosensor.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2012-01-01
description A nanoporous alumina membrane-based ultrasensitive DNA biosensor is constructed using 5'-aminated DNA probes immobilized onto the alumina channel walls. Alumina nanoporous membrane-like structure is carved over platinum wire electrode of 76 µm diameter dimension by electrochemical anodization. The hybridization of complementary target DNA with probe DNA molecules attached inside the pores influences the pore size and ionic conductivity. The biosensor demonstrates linear range over 6 order of magnitude with ultrasensitive detection limit of 9.55×10(-12) M for the quantification of ss-31 mer DNA sequence. Its applicability is challenged against real time cDNA PCR sample of dengue virus serotype1 derived from asymmetric PCR. Excellent specificity down to one nucleotide mismatch in target DNA sample of DENV3 is also demonstrated.
url http://europepmc.org/articles/PMC3426509?pdf=render
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AT leechingng ultrasensitivecdnadetectionofdenguevirusrnausingelectrochemicalnanoporousmembranebasedbiosensor
AT siewhwasoh ultrasensitivecdnadetectionofdenguevirusrnausingelectrochemicalnanoporousmembranebasedbiosensor
AT yeesinleo ultrasensitivecdnadetectionofdenguevirusrnausingelectrochemicalnanoporousmembranebasedbiosensor
AT cheesengtoh ultrasensitivecdnadetectionofdenguevirusrnausingelectrochemicalnanoporousmembranebasedbiosensor
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