纳米受限水能与生物分子定向并产生长程偶极相互作用。

Nanoconfined water can orient and cause long-range dipolar interactions with biomolecules.

机构信息

Empa, Swiss Federal Laboratories for Materials Science and Technology, Laboratory for Advanced Fibers, Lerchenfeldstrasse 5, 9014, St.Gallen, Switzerland.

出版信息

Sci Rep. 2017 Dec 19;7(1):17852. doi: 10.1038/s41598-017-18258-1.

DOI:10.1038/s41598-017-18258-1

PMID:29259309

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5736754/

Abstract

Surface properties are generally determined by the top most surface layer also defining how molecules adsorb onto it. By exploring effects due to interactions with deeper subsurface layers, however, long-range interaction forces were found to also significantly contribute to molecular adsorption, in which hydration of the subsurface region is the key factor. Water molecules confined to a subsurface amphiphilic gradient are confirmed to cause these long-range dipolar interactions by preferential orientation, thus significantly changing the way how a protein interacts with the surface. These findings imply future exploitation of an additional factor to modulate adsorption processes.

摘要

表面性质通常由最顶层表面层决定，同时也决定了分子如何吸附在表面上。然而，通过探索与更深的次表层相互作用的影响，发现长程相互作用力也会显著影响分子的吸附，其中次表层的水合作用是关键因素。被限制在次表面两亲性梯度中的水分子通过优先取向证实会引起这些长程偶极相互作用，从而显著改变蛋白质与表面相互作用的方式。这些发现意味着未来可以利用一个额外的因素来调节吸附过程。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e123/5736754/e9d8410e3d2b/41598_2017_18258_Fig1_HTML.jpg

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纳米受限水能与生物分子定向并产生长程偶极相互作用。

Nanoconfined water can orient and cause long-range dipolar interactions with biomolecules.

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