Literature DB >> 22067050

Nanopore analysis of individual RNA/antibiotic complexes.

Meni Wanunu1, Swati Bhattacharya, Yun Xie, Yitzhak Tor, Aleksei Aksimentiev, Marija Drndic.   

Abstract

Nanopores in thin solid-state membranes are used to rapidly analyze individual RNA/drug complexes. The interactions of a truncated A-site RNA model of the prokaryotic ribosome with aminoglycoside antibiotics are characterized by passing individual molecules through a 3-3.5 nm diameter pore fabricated in a 8-10 nm thick silicon nitride membrane. Complexes of the A-site RNA with aminoglycosides can be distinguished from unbound A-site based on the ion current signatures produced as they pass through the nanopores. Counting the fraction of free and drug-bound molecules affords label-free drug-RNA binding isotherms consistent with literature reports and with data generated using independent fluorescence-based assays. Our measurements are supported by molecular dynamics simulations, which illustrate the relationship between the ionic current and complexation of the A-site RNA with paramomycin, a prototypical aminoglycoside antibiotic.

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Year:  2011        PMID: 22067050      PMCID: PMC3253136          DOI: 10.1021/nn203764j

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


  41 in total

1.  Stochastic sensing of organic analytes by a pore-forming protein containing a molecular adapter.

Authors:  L Q Gu; O Braha; S Conlan; S Cheley; H Bayley
Journal:  Nature       Date:  1999-04-22       Impact factor: 49.962

2.  Monitoring molecular recognition of the ribosomal decoding site.

Authors:  Sarah Shandrick; Qiang Zhao; Qing Han; Benjamin K Ayida; Masayuki Takahashi; Geoffrey C Winters; Klaus B Simonsen; Dionisios Vourloumis; Thomas Hermann
Journal:  Angew Chem Int Ed Engl       Date:  2004-06-14       Impact factor: 15.336

3.  Rapid electronic detection of probe-specific microRNAs using thin nanopore sensors.

Authors:  Meni Wanunu; Tali Dadosh; Vishva Ray; Jingmin Jin; Larry McReynolds; Marija Drndić
Journal:  Nat Nanotechnol       Date:  2010-10-24       Impact factor: 39.213

4.  Imaging alpha-hemolysin with molecular dynamics: ionic conductance, osmotic permeability, and the electrostatic potential map.

Authors:  Aleksij Aksimentiev; Klaus Schulten
Journal:  Biophys J       Date:  2005-03-11       Impact factor: 4.033

5.  Label-free affinity assays by rapid detection of immune complexes in submicrometer pores.

Authors:  Jeffrey D Uram; Kevin Ke; Alan J Hunt; Michael Mayer
Journal:  Angew Chem Int Ed Engl       Date:  2006-03-27       Impact factor: 15.336

6.  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

Review 7.  Mechanisms of RNA-mediated disease.

Authors:  Jason R O'Rourke; Maurice S Swanson
Journal:  J Biol Chem       Date:  2008-10-28       Impact factor: 5.157

8.  Use of 2-aminopurine as a fluorescent tool for characterizing antibiotic recognition of the bacterial rRNA A-site.

Authors:  Christopher M Barbieri; Malvika Kaul; Daniel S Pilch
Journal:  Tetrahedron       Date:  2007-04-23       Impact factor: 2.457

9.  Characterization of individual polynucleotide molecules using a membrane channel.

Authors:  J J Kasianowicz; E Brandin; D Branton; D W Deamer
Journal:  Proc Natl Acad Sci U S A       Date:  1996-11-26       Impact factor: 11.205

10.  Selection of small peptides, inhibitors of translation.

Authors:  Beatriz Llano-Sotelo; Dorota Klepacki; Alexander S Mankin
Journal:  J Mol Biol       Date:  2009-07-02       Impact factor: 5.469
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  29 in total

1.  Solid-state nanopore localization by controlled breakdown of selectively thinned membranes.

Authors:  Autumn T Carlsen; Kyle Briggs; Adam R Hall; Vincent Tabard-Cossa
Journal:  Nanotechnology       Date:  2017-01-03       Impact factor: 3.874

2.  Nanopore-based identification of individual nucleotides for direct RNA sequencing.

Authors:  Mariam Ayub; Steven W Hardwick; Ben F Luisi; Hagan Bayley
Journal:  Nano Lett       Date:  2013-11-13       Impact factor: 11.189

Review 3.  Modeling and simulation of ion channels.

Authors:  Christopher Maffeo; Swati Bhattacharya; Jejoong Yoo; David Wells; Aleksei Aksimentiev
Journal:  Chem Rev       Date:  2012-10-04       Impact factor: 60.622

4.  DNA sequence-dependent ionic currents in ultra-small solid-state nanopores.

Authors:  Jeffrey Comer; Aleksei Aksimentiev
Journal:  Nanoscale       Date:  2016-05-05       Impact factor: 7.790

5.  Picomolar Fingerprinting of Nucleic Acid Nanoparticles Using Solid-State Nanopores.

Authors:  Mohammad Amin Alibakhshi; Justin R Halman; James Wilson; Aleksei Aksimentiev; Kirill A Afonin; Meni Wanunu
Journal:  ACS Nano       Date:  2017-09-11       Impact factor: 15.881

6.  Nanopore-based conformational analysis of a viral RNA drug target.

Authors:  Carolyn Shasha; Robert Y Henley; Daniel H Stoloff; Kevin D Rynearson; Thomas Hermann; Meni Wanunu
Journal:  ACS Nano       Date:  2014-05-29       Impact factor: 15.881

7.  Differentiation of short, single-stranded DNA homopolymers in solid-state nanopores.

Authors:  Kimberly Venta; Gabriel Shemer; Matthew Puster; Julio A Rodríguez-Manzo; Adrian Balan; Jacob K Rosenstein; Ken Shepard; Marija Drndić
Journal:  ACS Nano       Date:  2013-05-06       Impact factor: 15.881

8.  Rapid and Accurate Determination of Nanopore Ionic Current Using a Steric Exclusion Model.

Authors:  James Wilson; Kumar Sarthak; Wei Si; Luyu Gao; Aleksei Aksimentiev
Journal:  ACS Sens       Date:  2019-03-13       Impact factor: 7.711

9.  Sampling a biomarker of the human immunodeficiency virus across a synthetic nanopore.

Authors:  David J Niedzwiecki; Raghuvaran Iyer; Philip N Borer; Liviu Movileanu
Journal:  ACS Nano       Date:  2013-03-05       Impact factor: 15.881

Review 10.  Studies of RNA Sequence and Structure Using Nanopores.

Authors:  Robert Y Henley; Spencer Carson; Meni Wanunu
Journal:  Prog Mol Biol Transl Sci       Date:  2016       Impact factor: 3.622
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