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Evidence of Coupling between the Motions of Water and Peptides

S. Cerveny ; I. Combarro-Palacios ; Jan Swenson (Institutionen för fysik, Kondenserade materiens fysik (Chalmers))
Journal of Physical Chemistry Letters (1948-7185). Vol. 7 (2016), 20, p. 4093-4098.
[Artikel, refereegranskad vetenskaplig]

Studies of protein dynamics at low temperatures are generally performed on hydrated powders and not in biologically realistic solutions of water because of water crystallization. However, here we avoid the problem of crystallization by reducing the size of the biomolecules. We have studied oligomers of the amino acid L-lysine, fully dissolved in water, and our dielectric relaxation data show that the glass transition-related dynamics of the oligomers is determined by the water dynamics, in a way similar to that previously observed for solvated proteins. This implies that the crucial role of water for protein dynamics can be extended to other types of macromolecular systems, where water is also able to determine their conformational fluctuations. Using the energy landscape picture of macromolecules, the thermodynamic criterion for such solvent-slaved macromolecular motions may be that the macromolecules need the entropy contribution from the solvent to overcome the enthalpy barriers between different conformational substates.

Nyckelord: BOVINE SERUM-ALBUMIN, PROTEIN DYNAMICS, HYDRATION WATER, SUPERCOOLED, WATER, GLASS-TRANSITION, CONFINED WATER, SOLVENT, RELAXATION, MYOGLOBIN, LYSINE, Chemistry, Physical, Nanoscience & Nanotechnology, Materials Science,, Multidisciplinary, Physics, Atomic, Molecular & Chemical, ATES OF AMERICA, V106, P5129

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Denna post skapades 2016-11-25.
CPL Pubid: 245623


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