Anisotropic Collective Motion Contributes to Nuclear Spin Relaxation in Crystalline Proteins

Lewandowski, Jozef R.; Sein, Julien; Blackledge, Martin; Emsley, Lyndon

doi:10.1021/ja907067j

Lewandowski, Jozef R.; Sein, Julien; Blackledge, Martin; Emsley, Lyndon

2010

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Abstract

A model for calculating the influence of anisotropic collective motions on NMR relaxation rates in crystalline proteins is presented. We show that small-amplitude (<10 degrees) fluctuations may lead to substantial contributions to the (15)N spin-lattice relaxation rates and propose that the effect of domain motions should be included in solid-state NMR analyses of protein dynamics.

Details

Title Anisotropic Collective Motion Contributes to Nuclear Spin Relaxation in Crystalline Proteins

Author(s) Lewandowski, Jozef R. ; Sein, Julien ; Blackledge, Martin ; Emsley, Lyndon

Published in Journal of the American Chemical Society

Volume 132

Issue 4

Pages 1246-1248

Date 2010

Publisher AMER CHEMICAL SOC

ISSN 0002-7863

DOI https://doi.org/10.1021/ja907067j

Other identifier(s) View record in Web of Science

Laboratories LRM

Record Appears in Scientific production and competences > SB - School of Basic Sciences > ISIC - Institute of Chemical Sciences and Engineering > LRM - Laboratory of Magnetic Resonance
Peer-reviewed publications
Work outside EPFL
Journal Articles
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Record creation date 2015-01-08