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Literature DB >> 11327989

Voltage-driven DNA translocations through a nanopore.

Abstract

We measure current blockade and time distributions for single-stranded DNA polymers during voltage-driven translocations through a single alpha-hemolysin pore. We use these data to determine the velocity of the polymers in the pore. Our measurements imply that, while polymers longer than the pore are translocated at a constant speed, the velocity of shorter polymers increases with decreasing length. This velocity is nonlinear with the applied field. Based on this data, we estimate the effective diffusion coefficient and the energy penalty for extending a molecule into the pore.

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Year: 2001 PMID： 11327989 DOI： 10.1103/PhysRevLett.86.3435

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

158 in total

Voltage-driven DNA translocations through a nanopore.

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

2. Discrimination among individual Watson-Crick base pairs at the termini of single DNA hairpin molecules.

3. Modeling thermophoretic effects in solid-state nanopores.

4. Highly accurate classification of Watson-Crick basepairs on termini of single DNA molecules.

5. When translocation dynamics becomes anomalous.

6. Dynamics of molecular motors and polymer translocation with sequence heterogeneity.

7. Single DNA rotaxanes of a transmembrane pore protein.

8. Translocation of a single-stranded DNA through a conformationally changing nanopore.

9. Nanopore unzipping of individual DNA hairpin molecules.

10. Characterizing and controlling the motion of ssDNA in a solid-state nanopore.