A unified model of protein dynamics

Frauenfelder, Hans; Chen, Guo; Berendzen, Joel; Fenimore, Paul W.; Jansson, Helén; McMahon, Benjamin H.; Stroe, Izabela; Swenson, Jan; Young, Robert

doi:10.1073/pnas.0900336106

articleProceedings of the National Academy of SciencesFeb 28, 2009HYBRID OA

A unified model of protein dynamics

HFHans Frauenfelder GCGuo Chen JBJoel Berendzen PWPaul W. Fenimore HJHelén Jansson

Los Alamos National Laboratory · Worcester Polytechnic Institute · +2 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

Protein functions require conformational motions. We show here that the dominant conformational motions are slaved by the hydration shell and the bulk solvent. The protein contributes the structure necessary for function. We formulate a model that is based on experiments, insights from the physics of glass-forming liquids, and the concepts of a hierarchically organized energy landscape. To explore the effect of external fluctuations on protein dynamics, we measure the fluctuations in the bulk solvent and the hydration shell with broadband dielectric spectroscopy and compare them with internal fluctuations measured with the Mössbauer effect and neutron scattering. The result is clear. Large-scale protein…

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Topics & keywords

Topics

Keywords

Myoglobin
Protein dynamics
Solvation shell
Chemical physics
Chemistry
Relaxation (psychology)
Solvent
Nanosecond

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Affordable and clean energy

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