锚定的笼形水合物将抗冻蛋白结合到冰上。

Anchored clathrate waters bind antifreeze proteins to ice.

机构信息

Department of Biochemistry, Queen's University, Kingston, ON, Canada K7L 3N6.

出版信息

Proc Natl Acad Sci U S A. 2011 May 3;108(18):7363-7. doi: 10.1073/pnas.1100429108. Epub 2011 Apr 11.

DOI:10.1073/pnas.1100429108

PMID:21482800

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3088597/

Abstract

The mechanism by which antifreeze proteins (AFPs) irreversibly bind to ice has not yet been resolved. The ice-binding site of an AFP is relatively hydrophobic, but also contains many potential hydrogen bond donors/acceptors. The extent to which hydrogen bonding and the hydrophobic effect contribute to ice binding has been debated for over 30 years. Here we have elucidated the ice-binding mechanism through solving the first crystal structure of an Antarctic bacterial AFP. This 34-kDa domain, the largest AFP structure determined to date, folds as a Ca(2+)-bound parallel beta-helix with an extensive array of ice-like surface waters that are anchored via hydrogen bonds directly to the polypeptide backbone and adjacent side chains. These bound waters make an excellent three-dimensional match to both the primary prism and basal planes of ice and in effect provide an extensive X-ray crystallographic picture of the AFPice interaction. This unobstructed view, free from crystal-packing artefacts, shows the contributions of both the hydrophobic effect and hydrogen bonding during AFP adsorption to ice. We term this mode of binding the "anchored clathrate" mechanism of AFP action.

摘要

抗冻蛋白（AFPs）不可逆结合冰的机制尚未解决。AFP 的冰结合位点相对疏水，但也包含许多潜在的氢键供体/受体。超过 30 年来，氢键和疏水作用对冰结合的贡献一直存在争议。通过解决第一个南极细菌 AFP 的晶体结构，我们阐明了冰结合机制。该 34kDa 结构域是迄今为止确定的最大 AFP 结构，折叠为钙（Ca 2+ ）结合的平行β-螺旋，具有广泛的类似冰的表面水，通过氢键直接锚定到多肽主链和相邻侧链。这些结合水与冰的初级棱柱和基面非常吻合，实际上提供了 AFP-ice 相互作用的广泛 X 射线晶体学图像。这种无阻碍的视图，没有晶体堆积伪影，显示了 AFP 吸附到冰上时疏水作用和氢键的共同贡献。我们将这种结合模式称为 AFP 作用的“锚定包合物”机制。

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