From shell to cell: neutron scattering studies of biological water dynamics and coupling to activity

A. Frölich; F. Gabel; M. Jasnin; U. Lehnert; D. Oesterhelt; A. M. Stadler; M. Tehei; M. Weik; K. Wood; G. Zaccai

doi:10.1039/B805506H

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Faraday Discussions

Issue 0, 2009

Discussion summary and research papers, in physical chemistry, chemical physics and biophysical chemistry.

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From shell to cell: neutron scattering studies of biological water dynamics and coupling to activity

A. Frölich,^a F. Gabel,^a M. Jasnin,^b U. Lehnert,^a D. Oesterhelt,^c A. M. Stadler,^b M. Tehei,^b M. Weik,^a K. Wood^a^b and G. Zaccai*^a^b

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Institut de Biologie Structurale, UMR 5075, CEA–CNRS–UJF, 41 rue Jules Horowitz, 38027 Grenoble, France

Institut Laue Langevin, 6 rue Jules Horowitz, Grenoble Cedex 9, France
E-mail: zaccai@ill.fr ;
Tel: +33 (0)4 76207679

Max Planck Institut für Biochemie, Am Klopferspitz 18, D-82152 Martinsried, Germany

Faraday Discuss., 2009,141, 117-130

DOI: 10.1039/B805506H
Received 01 Apr 2008, Accepted 19 Jun 2008
First published online 31 Oct 2008

This article is part of themed collection: Water - From Interfaces to the Bulk

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Abstract
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An integrated picture of hydration shell dynamics and of its coupling to functional macromolecular motions is proposed from studies on a soluble protein, on a membrane protein in its natural lipid environment, and on the intracellular environment in bacteria and red blood cells. Water dynamics in multimolar salt solutions was also examined, in the context of the very slow water component previously discovered in the cytoplasm of extreme halophilic archaea. The data were obtained from neutron scattering by using deuterium labelling to focus on the dynamics of different parts of the complex systems examined.

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