Hydration Dynamics of a Peripheral Membrane Protein

Fisette, Olivier; Päslack, Christopher; Barnes, Ryan; Isas, J. Mario; Langen, Ralf; Heyden, Matthias; Han, Songi; Schäfer, Lars V.

doi:10.1021/jacs.6b07005

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Hydration Dynamics of a Peripheral Membrane Protein

Fisette, O., Päslack, C., Barnes, R., Isas, J. M., Langen, R., Heyden, M., et al. (2016). Hydration Dynamics of a Peripheral Membrane Protein. Journal of the American Chemical Society, 138(36), 11526-11535. doi:10.1021/jacs.6b07005.

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Creators:
Fisette, Olivier¹, Author
Päslack, Christopher^{1, 2}, Author
Barnes, Ryan³, Author
Isas, J. Mario⁴, Author
Langen, Ralf⁴, Author
Heyden, Matthias², Author
Han, Songi³, Author
Schäfer, Lars V.¹, Author

Affiliations:
1Center for Theoretical Chemistry, Faculty of Chemistry and Biochemistry, Ruhr-University, 44780 Bochum, Germany, ou_persistent22
2Research Group Heyden, Max-Planck-Institut für Kohlenforschung, Max Planck Society, ou_1950292
3Department of Chemistry and Biochemistry and Department of Chemical Engineering, University of California, Santa Barbara, Santa Barbara, California 93106, United States, ou_persistent22
4Department of Biochemistry and Molecular Biology, Zilkha Neurogenetic Institute, Keck School of Medicine, University of Southern California, Los Angeles, California 90089, United States, ou_persistent22

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Abstract: Water dynamics in the hydration shell of the peripheral membrane protein annexin B12 were studied using MD simulations and Overhauser DNP-enhanced NMR. We show that retardation of water motions near phospholipid bilayers is extended by the presence of a membrane-bound protein, up to around 10 Å above that protein. Near the membrane surface, electrostatic interactions with the lipid head groups strongly slow down water dynamics, whereas protein-induced water retardation is weaker and dominates only at distances beyond 10 Å from the membrane surface. The results can be understood from a simple model based on additive contributions from the membrane and the protein to the activation free energy barriers of water diffusion next to the biomolecular surfaces. Furthermore, analysis of the intermolecular vibrations of the water network reveals that retarded water motions near the membrane shift the vibrational modes to higher frequencies, which we used to identify an entropy gradient from the membrane surface toward the bulk water. Our results have implications for processes that take place at lipid membrane surfaces, including molecular recognition, binding, and protein–protein interactions.

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Language(s): eng - English

Dates: Modified: 2016-07-07Submitted: 2016-03-30Published Online: 2016-08-22Date issued: 2016-09-14

Publication Status: Issued

Pages: 10

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Rev. Type: Peer

Identifiers: DOI: 10.1021/jacs.6b07005

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Title: Journal of the American Chemical Society

Other : J. Am. Chem. Soc.

Abbreviation : JACS

Source Genre: Journal

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Publ. Info: Washington, DC : American Chemical Society

Pages: - Volume / Issue: 138 (36) Sequence Number: - Start / End Page: 11526 - 11535 Identifier: ISSN: 0002-7863
CoNE: https://pure.mpg.de/cone/journals/resource/954925376870