Literature DB >> 23259840

pH tuning of DNA translocation time through organically functionalized nanopores.

Brett N Anderson1, Murugappan Muthukumar, Amit Meller.   

Abstract

Controlling DNA translocation speed is critically important for nanopore sequencing as free electrophoretic threading is far too rapid to resolve individual bases. A number of promising strategies have been explored in recent years, largely driven by the demands of next-generation sequencing. Engineering DNA-nanopore interactions (known to dominate translocation dynamics) with organic coatings is an attractive method as it does not require sample modification, processive enzymes, or complicated and expensive fabrication steps. In this work, we show for the first time 4-fold tuning of unfolded, single-file translocation time through small, amine-functionalized solid-state nanopores by varying the solution pH in situ. Additionally, we develop a simple analytical model based on electrostatic interactions to explain this effect which will be a useful tool in designing future devices and experiments.

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Year:  2012        PMID: 23259840      PMCID: PMC3584232          DOI: 10.1021/nn3051677

Source DB:  PubMed          Journal:  ACS Nano        ISSN: 1936-0851            Impact factor:   15.881


  18 in total

1.  Dynamics of DNA molecules in a membrane channel probed by active control techniques.

Authors:  Mark Bates; Michael Burns; Amit Meller
Journal:  Biophys J       Date:  2003-04       Impact factor: 4.033

2.  DNA translocation governed by interactions with solid-state nanopores.

Authors:  Meni Wanunu; Jason Sutin; Ben McNally; Andrew Chow; Amit Meller
Journal:  Biophys J       Date:  2008-08-15       Impact factor: 4.033

3.  Controlling DNA translocation through gate modulation of nanopore wall surface charges.

Authors:  Yuhui He; Makusu Tsutsui; Chun Fan; Masateru Taniguchi; Tomoji Kawai
Journal:  ACS Nano       Date:  2011-06-17       Impact factor: 15.881

Review 4.  The structure of the nuclear pore complex.

Authors:  André Hoelz; Erik W Debler; Günter Blobel
Journal:  Annu Rev Biochem       Date:  2011       Impact factor: 23.643

5.  Detection of urea-induced internal denaturation of dsDNA using solid-state nanopores.

Authors:  Alon Singer; Heiko Kuhn; Maxim Frank-Kamenetskii; Amit Meller
Journal:  J Phys Condens Matter       Date:  2010-10-29       Impact factor: 2.333

Review 6.  Nanopore sensors for nucleic acid analysis.

Authors:  Bala Murali Venkatesan; Rashid Bashir
Journal:  Nat Nanotechnol       Date:  2011-09-18       Impact factor: 39.213

7.  Electrostatic focusing of unlabelled DNA into nanoscale pores using a salt gradient.

Authors:  Meni Wanunu; Will Morrison; Yitzhak Rabin; Alexander Y Grosberg; Amit Meller
Journal:  Nat Nanotechnol       Date:  2009-12-20       Impact factor: 39.213

8.  Probing surface charge fluctuations with solid-state nanopores.

Authors:  David P Hoogerheide; Slaven Garaj; Jene A Golovchenko
Journal:  Phys Rev Lett       Date:  2009-06-26       Impact factor: 9.161

Review 9.  The potential and challenges of nanopore sequencing.

Authors:  Daniel Branton; David W Deamer; Andre Marziali; Hagan Bayley; Steven A Benner; Thomas Butler; Massimiliano Di Ventra; Slaven Garaj; Andrew Hibbs; Xiaohua Huang; Stevan B Jovanovich; Predrag S Krstic; Stuart Lindsay; Xinsheng Sean Ling; Carlos H Mastrangelo; Amit Meller; John S Oliver; Yuriy V Pershin; J Michael Ramsey; Robert Riehn; Gautam V Soni; Vincent Tabard-Cossa; Meni Wanunu; Matthew Wiggin; Jeffery A Schloss
Journal:  Nat Biotechnol       Date:  2008-10       Impact factor: 54.908

10.  Transverse electric field dragging of DNA in a nanochannel.

Authors:  Makusu Tsutsui; Yuhui He; Masayuki Furuhashi; Sakon Rahong; Masateru Taniguchi; Tomoji Kawai
Journal:  Sci Rep       Date:  2012-05-03       Impact factor: 4.379
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  20 in total

1.  Temperature Effect on Ionic Current and ssDNA Transport through Nanopores.

Authors:  Linda Payet; Marlène Martinho; Céline Merstorf; Manuela Pastoriza-Gallego; Juan Pelta; Virgile Viasnoff; Loïc Auvray; Murugappan Muthukumar; Jérôme Mathé
Journal:  Biophys J       Date:  2015-10-20       Impact factor: 4.033

Review 2.  Challenges in DNA motion control and sequence readout using nanopore devices.

Authors:  Spencer Carson; Meni Wanunu
Journal:  Nanotechnology       Date:  2015-02-02       Impact factor: 3.874

3.  Smooth DNA transport through a narrowed pore geometry.

Authors:  Spencer Carson; James Wilson; Aleksei Aksimentiev; Meni Wanunu
Journal:  Biophys J       Date:  2014-11-18       Impact factor: 4.033

4.  Effect of charge patterns along a solid-state nanopore on polyelectrolyte translocation.

Authors:  H H Katkar; M Muthukumar
Journal:  J Chem Phys       Date:  2014-04-07       Impact factor: 3.488

5.  Stochastic resonance during a polymer translocation process.

Authors:  Debasish Mondal; M Muthukumar
Journal:  J Chem Phys       Date:  2016-04-14       Impact factor: 3.488

6.  Ratchet rectification effect on the translocation of a flexible polyelectrolyte chain.

Authors:  Debasish Mondal; M Muthukumar
Journal:  J Chem Phys       Date:  2016-08-28       Impact factor: 3.488

7.  Role of non-equilibrium conformations on driven polymer translocation.

Authors:  H H Katkar; M Muthukumar
Journal:  J Chem Phys       Date:  2018-01-14       Impact factor: 3.488

8.  A nanopore-nanofiber mesh biosensor to control DNA translocation.

Authors:  Allison H Squires; Joseph S Hersey; Mark W Grinstaff; Amit Meller
Journal:  J Am Chem Soc       Date:  2013-11-06       Impact factor: 15.419

9.  Slow DNA transport through nanopores in hafnium oxide membranes.

Authors:  Joseph Larkin; Robert Henley; David C Bell; Tzahi Cohen-Karni; Jacob K Rosenstein; Meni Wanunu
Journal:  ACS Nano       Date:  2013-10-04       Impact factor: 15.881

10.  Modulation of electrophoresis, electroosmosis and diffusion for electrical transport of proteins through a solid-state nanopore.

Authors:  Jugal Saharia; Y M Nuwan D Y Bandara; Buddini I Karawdeniya; Cassandra Hammond; George Alexandrakis; Min Jun Kim
Journal:  RSC Adv       Date:  2021-07-12       Impact factor: 4.036
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