一种来自南极子囊菌的冰结合蛋白被精细地调整为与位于冰棱柱面的特定水分子结合。

An Ice-Binding Protein from an Antarctic Ascomycete Is Fine-Tuned to Bind to Specific Water Molecules Located in the Ice Prism Planes.

机构信息

Graduate School of Life Science, Hokkaido University, Sapporo 060-0810, Japan.

Graduate School of Frontier Sciences, The University of Tokyo, Kashiwa 277-8561, Japan.

出版信息

Biomolecules. 2020 May 13;10(5):759. doi: 10.3390/biom10050759.

DOI:10.3390/biom10050759

PMID:32414092

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7277481/

Abstract

Many microbes that survive in cold environments are known to secrete ice-binding proteins (IBPs). The structure-function relationship of these proteins remains unclear. A microbial IBP denoted IBP was recently isolated from a cold-adapted fungus, . The present study identified an orbital illumination (prism ring) on a globular single ice crystal when soaked in a solution of fluorescent IBP, suggesting that IBP binds to specific water molecules located in the ice prism planes. In order to examine this unique ice-binding mechanism, we carried out X-ray structural analysis and mutational experiments. It appeared that IBP is made of 6-ladder β-helices with a triangular cross section that accompanies an "ice-like" water network on the ice-binding site. The network, however, does not exist in a defective mutant. IBP has a row of four unique hollows on the IBS, where the distance between the hollows (14.7 Å) is complementary to the oxygen atom spacing of the prism ring. These results suggest the structure of IBP is fine-tuned to merge with the ice-water interface of an ice crystal through its polygonal water network and is then bound to a specific set of water molecules constructing the prism ring to effectively halt the growth of ice.

摘要

许多在寒冷环境中生存的微生物被发现会分泌冰结合蛋白（IBP）。这些蛋白质的结构-功能关系仍不清楚。最近从一种适应寒冷的真菌中分离出一种微生物 IBP，称为 IBP。本研究在浸泡于荧光 IBP 溶液的球状单冰晶上发现了一个轨道照明（棱镜环），表明 IBP 结合到位于冰棱镜平面上的特定水分子。为了检验这种独特的冰结合机制，我们进行了 X 射线结构分析和突变实验。结果表明，IBP 由 6 个梯级β-螺旋组成，具有三角形横截面，并在冰结合部位伴随一个“冰状”水分子网络。然而，该网络在缺陷突变体中不存在。IBP 在 IBS 上有一排四个独特的凹痕，凹痕之间的距离（14.7 Å）与棱镜环的氧原子间距互补。这些结果表明，IBP 的结构通过其多面状水分子网络与冰晶的冰-水界面精细调整，然后与构成棱镜环的一组特定水分子结合，从而有效地阻止冰晶的生长。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b009/7277481/cb7ee3d229fd/biomolecules-10-00759-g001.jpg

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一种来自南极子囊菌的冰结合蛋白被精细地调整为与位于冰棱柱面的特定水分子结合。

An Ice-Binding Protein from an Antarctic Ascomycete Is Fine-Tuned to Bind to Specific Water Molecules Located in the Ice Prism Planes.

机构信息

Graduate School of Life Science, Hokkaido University, Sapporo 060-0810, Japan.

Graduate School of Frontier Sciences, The University of Tokyo, Kashiwa 277-8561, Japan.

出版信息

Biomolecules. 2020 May 13;10(5):759. doi: 10.3390/biom10050759.

DOI:10.3390/biom10050759

PMID:32414092

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7277481/

Abstract

摘要

一种来自南极子囊菌的冰结合蛋白被精细地调整为与位于冰棱柱面的特定水分子结合。

An Ice-Binding Protein from an Antarctic Ascomycete Is Fine-Tuned to Bind to Specific Water Molecules Located in the Ice Prism Planes.

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一种来自南极子囊菌的冰结合蛋白被精细地调整为与位于冰棱柱面的特定水分子结合。

An Ice-Binding Protein from an Antarctic Ascomycete Is Fine-Tuned to Bind to Specific Water Molecules Located in the Ice Prism Planes.

机构信息

出版信息