NMR Relaxation and Internal Dynamics of Ubiquitin from a 0.2 μs MD Simulation

Aart J. Nederveen; Alexandre M. J. J. Bonvin

doi:10.1021/ct0498829

NMR Relaxation and Internal Dynamics of Ubiquitin from a 0.2 μs MD Simulation

Aart J. Nederveen
, Alexandre M. J. J. Bonvin

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

A 0.2 μs molecular dynamics simulation of ubiquitin in water is presented, which allows us to assess both the global tumbling in solution and the internal dynamics. The latter reveals slow motions outside the classical NMR timewindow, in agreement with recent RDC and cross-correlation measurements. Analysis of back-calculated relaxation rates using the classical NMR model-free approach reproduces the amplitudes of internal motions expressed in the order parameter, while it severely underestimates the corresponding time scales present in the simulation

Original language	English
Pages (from-to)	363-374
Journal	Journal of chemical theory and computation
Volume	1
Issue number	3
DOIs	https://doi.org/10.1021/ct0498829
Publication status	Published - 2005

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title = "NMR Relaxation and Internal Dynamics of Ubiquitin from a 0.2 μs MD Simulation",

abstract = "A 0.2 μs molecular dynamics simulation of ubiquitin in water is presented, which allows us to assess both the global tumbling in solution and the internal dynamics. The latter reveals slow motions outside the classical NMR timewindow, in agreement with recent RDC and cross-correlation measurements. Analysis of back-calculated relaxation rates using the classical NMR model-free approach reproduces the amplitudes of internal motions expressed in the order parameter, while it severely underestimates the corresponding time scales present in the simulation",

author = "Nederveen, \{Aart J.\} and Bonvin, \{Alexandre M. J. J.\}",

year = "2005",

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AU - Bonvin, Alexandre M. J. J.

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N2 - A 0.2 μs molecular dynamics simulation of ubiquitin in water is presented, which allows us to assess both the global tumbling in solution and the internal dynamics. The latter reveals slow motions outside the classical NMR timewindow, in agreement with recent RDC and cross-correlation measurements. Analysis of back-calculated relaxation rates using the classical NMR model-free approach reproduces the amplitudes of internal motions expressed in the order parameter, while it severely underestimates the corresponding time scales present in the simulation

AB - A 0.2 μs molecular dynamics simulation of ubiquitin in water is presented, which allows us to assess both the global tumbling in solution and the internal dynamics. The latter reveals slow motions outside the classical NMR timewindow, in agreement with recent RDC and cross-correlation measurements. Analysis of back-calculated relaxation rates using the classical NMR model-free approach reproduces the amplitudes of internal motions expressed in the order parameter, while it severely underestimates the corresponding time scales present in the simulation

U2 - 10.1021/ct0498829

DO - 10.1021/ct0498829

M3 - Article

C2 - 26641503

SN - 1549-9618

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SP - 363

EP - 374

JO - Journal of chemical theory and computation

JF - Journal of chemical theory and computation

IS - 3

ER -

NMR Relaxation and Internal Dynamics of Ubiquitin from a 0.2 μs MD Simulation

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