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Literature DB >> 29604821

Efficient use of single molecule time traces to resolve kinetic rates, models and uncertainties.

Abstract

Single molecule time traces reveal the time evolution of unsynchronized kinetic systems. Especially single molecule Förster resonance energy transfer (smFRET) provides access to enzymatically important time scales, combined with molecular distance resolution and minimal interference with the sample. Yet the kinetic analysis of smFRET time traces is complicated by experimental shortcomings-such as photo-bleaching and noise. Here we recapitulate the fundamental limits of single molecule fluorescence that render the classic, dwell-time based kinetic analysis unsuitable. In contrast, our Single Molecule Analysis of Complex Kinetic Sequences (SMACKS) considers every data point and combines the information of many short traces in one global kinetic rate model. We demonstrate the potential of SMACKS by resolving the small kinetic effects caused by different ionic strengths in the chaperone protein Hsp90. These results show an unexpected interrelation between conformational dynamics and ATPase activity in Hsp90.

Entities: Chemical

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Year: 2018 PMID： 29604821 PMCID： PMC6520253 DOI： 10.1063/1.5006604

Source DB: PubMed Journal: J Chem Phys ISSN： 0021-9606 Impact factor: 3.488

30 in total

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4. Using independent open-to-closed transitions to simplify aggregated Markov models of ion channel gating kinetics.

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5. Alternating-laser excitation of single molecules.

Authors: Achillefs N Kapanidis; Ted A Laurence; Nam Ki Lee; Emmanuel Margeat; Xiangxu Kong; Shimon Weiss
Journal: Acc Chem Res Date: 2005-07 Impact factor: 22.384

6. Analysis of single-molecule FRET trajectories using hidden Markov modeling.

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Journal: Biophys J Date: 2006-06-09 Impact factor: 4.033

7. Crystal structure of an Hsp90-nucleotide-p23/Sba1 closed chaperone complex.

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Journal: Nature Date: 2006-04-20 Impact factor: 49.962

8. Single-molecule measurement of protein folding kinetics.

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9. Real-time observation of RecA filament dynamics with single monomer resolution.

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10. Monovalent cation dependence and preference of GHKL ATPases and kinases.

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5 in total

1. Conformational Cycling within the Closed State of Grp94, an Hsp90-Family Chaperone.

Authors: Bin Huang; Larry J Friedman; Ming Sun; Jeff Gelles; Timothy O Street
Journal: J Mol Biol Date: 2019-06-14 Impact factor: 5.469

2. Precision and accuracy of single-molecule FRET measurements-a multi-laboratory benchmark study.

Authors: Björn Hellenkamp; Sonja Schmid; Olga Doroshenko; Oleg Opanasyuk; Ralf Kühnemuth; Soheila Rezaei Adariani; Benjamin Ambrose; Mikayel Aznauryan; Anders Barth; Victoria Birkedal; Mark E Bowen; Hongtao Chen; Thorben Cordes; Tobias Eilert; Carel Fijen; Christian Gebhardt; Markus Götz; Giorgos Gouridis; Enrico Gratton; Taekjip Ha; Pengyu Hao; Christian A Hanke; Andreas Hartmann; Jelle Hendrix; Lasse L Hildebrandt; Verena Hirschfeld; Johannes Hohlbein; Boyang Hua; Christian G Hübner; Eleni Kallis; Achillefs N Kapanidis; Jae-Yeol Kim; Georg Krainer; Don C Lamb; Nam Ki Lee; Edward A Lemke; Brié Levesque; Marcia Levitus; James J McCann; Nikolaus Naredi-Rainer; Daniel Nettels; Thuy Ngo; Ruoyi Qiu; Nicole C Robb; Carlheinz Röcker; Hugo Sanabria; Michael Schlierf; Tim Schröder; Benjamin Schuler; Henning Seidel; Lisa Streit; Johann Thurn; Philip Tinnefeld; Swati Tyagi; Niels Vandenberk; Andrés Manuel Vera; Keith R Weninger; Bettina Wünsch; Inna S Yanez-Orozco; Jens Michaelis; Claus A M Seidel; Timothy D Craggs; Thorsten Hugel
Journal: Nat Methods Date: 2018-08-31 Impact factor: 28.547