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DNA Translocations through Nanopores under Nanoscale Preconfinement.

Authors :
Briggs, Kyle
Madejski, Gregory
Magill, Martin
Kastritis, Konstantinos
de Haan, Hendrick W.
McGrath, James L.
Tabard-Cossa, Vincent
Source :
Nano Letters. 2/14/2018, Vol. 18 Issue 2, p660-668. 9p.
Publication Year :
2018

Abstract

To reduce unwanted variation in the passage speed of DNA through solid-state nanopores, we demonstrate nanoscale preconfinement of translocating molecules using an ultrathin nanoporous silicon nitride membrane separated from a single sensing nanopore by a nanoscale cavity. We present comprehensive experimental and simulation results demonstrating that the presence of an integrated nanofilter within nanoscale distances of the sensing pore eliminates the dependence of molecular passage time distributions on pore size, revealing a global minimum in the coefficient of variation of the passage time. These results provide experimental verification that the inter- and intramolecular passage time variation depends on the conformational entropy of each molecule prior to translocation. Furthermore, we show that the observed consistently narrower passage time distributions enables a more reliable DNA length separation independent of pore size and stability. We also demonstrate that the composite nanofilter/nanopore devices can be configured to suppress the frequency of folded translocations, ensuring single-file passage of captured DNA molecules. By greatly increasing the rate at which usable data can be collected, these unique attributes will offer significant practical advantages to many solid-state nanopore-based sensing schemes, including sequencing, genomic mapping, and barcoded target detection. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
15306984
Volume :
18
Issue :
2
Database :
Academic Search Index
Journal :
Nano Letters
Publication Type :
Academic Journal
Accession number :
128268664
Full Text :
https://doi.org/10.1021/acs.nanolett.7b03987