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Literature DB >> 19908376

Multiscale dynamics of macromolecules using normal mode Langevin.

Abstract

Proteins and other macromolecules have coupled dynamics over multiple time scales (from femtosecond to millisecond and beyond) that make resolving molecular dynamics challenging. We present an approach based on periodically decomposing the dynamics of a macromolecule into slow and fast modes based on a scalable coarse-grained normal mode analysis. A Langevin equation is used to propagate the slowest degrees of freedom while minimizing the nearly instantaneous degrees of freedom. We present numerical results showing that time steps of up to 1000 fs can be used, with real speedups of up to 200 times over plain molecular dynamics. We present results of successfully folding the Fip35 mutant of WW domain.

Entities: Chemical Disease Species

Mesh：

Substances：
Multiprotein Complexes

Year: 2010 PMID： 19908376 PMCID： PMC4308582 DOI： 10.1142/9789814295291_0026

Source DB: PubMed Journal: Pac Symp Biocomput ISSN： 2335-6928

15 in total

1. Conformational change of proteins arising from normal mode calculations.

Authors: F Tama; Y H Sanejouand
Journal: Protein Eng Date: 2001-01

2. Molecular dynamics simulations of peptides and proteins with a continuum electrostatic model based on screened Coulomb potentials.

Authors: Sergio A Hassan; Ernest L Mehler; Daqun Zhang; Harel Weinstein
Journal: Proteins Date: 2003-04-01

3. Solvent viscosity dependence of the folding rate of a small protein: distributed computing study.

Authors: Bojan Zagrovic; Vijay Pande
Journal: J Comput Chem Date: 2003-09 Impact factor: 3.376

4. A normal mode analysis of structural plasticity in the biomolecular motor F(1)-ATPase.

Authors: Qiang Cui; Guohui Li; Jianpeng Ma; Martin Karplus
Journal: J Mol Biol Date: 2004-07-02 Impact factor: 5.469

5. A simple method for faster nonbonded force evaluations.

Authors: Min-Yi Shen; Karl F Freed
Journal: J Comput Chem Date: 2005-05 Impact factor: 3.376

Review 6. Usefulness and limitations of normal mode analysis in modeling dynamics of biomolecular complexes.

Authors: Jianpeng Ma
Journal: Structure Date: 2005-03 Impact factor: 5.006

7. Can conformational change be described by only a few normal modes?

Authors: Paula Petrone; Vijay S Pande
Journal: Biophys J Date: 2005-12-16 Impact factor: 4.033

8. Ten-microsecond molecular dynamics simulation of a fast-folding WW domain.

Authors: Peter L Freddolino; Feng Liu; Martin Gruebele; Klaus Schulten
Journal: Biophys J Date: 2008-03-13 Impact factor: 4.033

9. Low frequency mechanical modes of viral capsids: an atomistic approach.

Authors: Eric C Dykeman; Otto F Sankey
Journal: Phys Rev Lett Date: 2008-01-14 Impact factor: 9.161

Review 10. The structural dynamics of macromolecular processes.

Authors: Daniel Russel; Keren Lasker; Jeremy Phillips; Dina Schneidman-Duhovny; Javier A Velázquez-Muriel; Andrej Sali
Journal: Curr Opin Cell Biol Date: 2009-02-14 Impact factor: 8.382

16 in total

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2. Dynamical reweighting: improved estimates of dynamical properties from simulations at multiple temperatures.

Authors: John D Chodera; William C Swope; Frank Noé; Jan-Hendrik Prinz; Michael R Shirts; Vijay S Pande
Journal: J Chem Phys Date: 2011-06-28 Impact factor: 3.488

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Journal: Biophys J Date: 2020-01-28 Impact factor: 4.033

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Journal: J Comput Biophys Chem Date: 2022-01-26

6. Engineered Chimeras Unveil Swappable Modular Features of Fatty Acid and Polyketide Synthase Acyl Carrier Proteins.

Authors: Yae In Cho; Claire L Armstrong; Ariana Sulpizio; Kofi K Acheampong; Kameron N Banks; Oishi Bardhan; Sydney J Churchill; Annie E Connolly-Sporing; Callie E W Crawford; Peter L Cruz Parrilla; Sarah M Curtis; Lauren M De La Ossa; Samuel C Epstein; Clara J Farrehi; Grayson S Hamrick; William J Hillegas; Austin Kang; Olivia C Laxton; Joie Ling; Sara M Matsumura; Victoria M Merino; Shahla H Mukhtar; Neel J Shah; Casey H Londergan; Clyde A Daly; Bashkim Kokona; Louise K Charkoudian
Journal: Biochemistry Date: 2022-01-24 Impact factor: 3.321

10. Toward Automated Benchmarking of Atomistic Force Fields: Neat Liquid Densities and Static Dielectric Constants from the ThermoML Data Archive.

Authors: Kyle A Beauchamp; Julie M Behr; Ariën S Rustenburg; Christopher I Bayly; Kenneth Kroenlein; John D Chodera
Journal: J Phys Chem B Date: 2015-09-29 Impact factor: 2.991