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Literature DB >> 29078357

Revealing dynamics of helicase translocation on single-stranded DNA using high-resolution nanopore tweezers.

Jonathan M Craig¹, Andrew H Laszlo², Henry Brinkerhoff², Ian M Derrington², Matthew T Noakes², Ian C Nova², Benjamin I Tickman², Kenji Doering², Noah F de Leeuw², Jens H Gundlach².

Abstract

Enzymes that operate on DNA or RNA perform the core functions of replication and expression in all of biology. To gain high-resolution access to the detailed mechanistic behavior of these enzymes, we developed single-molecule picometer-resolution nanopore tweezers (SPRNT), a single-molecule technique in which the motion of polynucleotides through an enzyme is measured by a nanopore. SPRNT reveals two mechanical substates of the ATP hydrolysis cycle of the superfamily 2 helicase Hel308 during translocation on single-stranded DNA (ssDNA). By analyzing these substates at millisecond resolution, we derive a detailed kinetic model for Hel308 translocation along ssDNA that sheds light on how superfamily 1 and 2 helicases turn ATP hydrolysis into motion along DNA. Surprisingly, we find that the DNA sequence within Hel308 affects the kinetics of helicase translocation. Published under the PNAS license.

Entities: Chemical Gene

Keywords: biophysics; helicases; nanopores; nanotechnology; single-molecule enzymology

Mesh：

Substances：

Year: 2017 PMID： 29078357 PMCID： PMC5692567 DOI： 10.1073/pnas.1711282114

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

41 in total

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Authors: Hong Qian; Elliot L Elson
Journal: Biophys Chem Date: 2002-12-10 Impact factor: 2.352

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Journal: Cell Date: 2010-08-20 Impact factor: 41.582

4. High Spatiotemporal-Resolution Magnetic Tweezers: Calibration and Applications for DNA Dynamics.

Authors: David Dulin; Tao Ju Cui; Jelmer Cnossen; Margreet W Docter; Jan Lipfert; Nynke H Dekker
Journal: Biophys J Date: 2015-11-17 Impact factor: 4.033

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Authors: Jae Young Lee; Wei Yang
Journal: Cell Date: 2006-12-29 Impact factor: 41.582

6. Exact solutions for kinetic models of macromolecular dynamics.

Authors: Yann R Chemla; Jeffrey R Moffitt; Carlos Bustamante
Journal: J Phys Chem B Date: 2008-03-29 Impact factor: 2.991

7. Reading DNA at single-nucleotide resolution with a mutant MspA nanopore and phi29 DNA polymerase.

Authors: Elizabeth A Manrao; Ian M Derrington; Andrew H Laszlo; Kyle W Langford; Matthew K Hopper; Nathaniel Gillgren; Mikhail Pavlenok; Michael Niederweis; Jens H Gundlach
Journal: Nat Biotechnol Date: 2012-03-25 Impact factor: 54.908

8. Reduction of chemical reaction networks through delay distributions.

Authors: Manuel Barrio; André Leier; Tatiana T Marquez-Lago
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9. Sequence-dependent nanometer-scale conformational dynamics of individual RecBCD-DNA complexes.

Authors: Ashley R Carter; Maasa H Seaberg; Hsiu-Fang Fan; Gang Sun; Christopher J Wilds; Hung-Wen Li; Thomas T Perkins
Journal: Nucleic Acids Res Date: 2016-05-24 Impact factor: 16.971

Review 10. MspA nanopore as a single-molecule tool: From sequencing to SPRNT.

Authors: Andrew H Laszlo; Ian M Derrington; Jens H Gundlach
Journal: Methods Date: 2016-04-01 Impact factor: 3.608

18 in total

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2. Extracting Transition Rates in Particle Tracking Using Analytical Diffusion Distribution Analysis.

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3. Helicase SPRNTing through the nanopore.

Authors: Colleen C Caldwell; Maria Spies
Journal: Proc Natl Acad Sci U S A Date: 2017-10-24 Impact factor: 11.205

4. Nanopore tweezers measurements of RecQ conformational changes reveal the energy landscape of helicase motion.

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Journal: Nucleic Acids Res Date: 2022-10-14 Impact factor: 19.160

5. Sequence-dependent mechanochemical coupling of helicase translocation and unwinding at single-nucleotide resolution.

Authors: Andrew H Laszlo; Jonathan M Craig; Momčilo Gavrilov; Ramreddy Tippana; Ian C Nova; Jesse R Huang; Hwanhee C Kim; Sarah J Abell; Mallory deCampos-Stairiker; Jonathan W Mount; Jasmine L Bowman; Katherine S Baker; Hugh Higinbotham; Dmitriy Bobrovnikov; Taekjip Ha; Jens H Gundlach
Journal: Proc Natl Acad Sci U S A Date: 2022-08-29 Impact factor: 12.779