重组蜘蛛卷曲丝中 C 端非重复结构域的结构和力学作用显现。

Structural and Mechanical Roles for the C-Terminal Nonrepetitive Domain Become Apparent in Recombinant Spider Aciniform Silk.

机构信息

Institute of Biological Sciences and Biotechnology, Donghua University , Shanghai 201620, P.R. China.

Département de Chimie, Regroupement Québécois de Recherche sur la Fonction, la Structure et l'Ingénierie des Protéines (PROTEO), Centre de Recherche sur les Matériaux Avancés (CERMA) Université Laval , Québec, Québec G1V 0A6, Canada.

出版信息

Biomacromolecules. 2017 Nov 13;18(11):3678-3686. doi: 10.1021/acs.biomac.7b01057. Epub 2017 Oct 3.

DOI:10.1021/acs.biomac.7b01057

PMID:28934550

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5762186/

Abstract

Spider aciniform (or wrapping) silk is the toughest of the seven types of spider silks/glue due to a combination of high elasticity and strength. Like most spider silk proteins (spidroins), aciniform spidroin (AcSp1) has a large core repetitive domain flanked by relatively short N- and C-terminal nonrepetitive domains (the NTD and CTD, respectively). The major ampullate silk protein (MaSp) CTD has been shown to control protein solubility and fiber formation, but the aciniform CTD function remains unknown. Here, we compare fiber mechanical properties, solution-state structuring, and fibrous state secondary structural composition, and orientation relative to native aciniform silk for two AcSp1 repeat units with or without fused AcSp1- and MaSp-derived CTDs alongside three AcSp1 repeat units without a CTD. The native AcSp1 CTD uniquely modulated fiber mechanical properties, relative to all other constructs, directly correlating to a native-like structural transformation and alignment.

摘要

蛛形纲动物的栉状（或包裹状）丝由于高弹性和高强度的结合，是七种蜘蛛丝/胶中最坚韧的一种。与大多数蛛形纲动物丝蛋白（丝氨酸）一样，栉状丝氨酸（AcSp1）具有一个大的核心重复结构域，两侧是相对较短的 N-和 C-末端非重复结构域（NTD 和 CTD）。已经表明，主要壶腹丝蛋白（MaSp）的 CTD 控制着蛋白质的溶解度和纤维的形成，但栉状 CTD 的功能仍然未知。在这里，我们比较了两种带有或不带有融合的 AcSp1 和 MaSp 衍生 CTD 的 AcSp1 重复单元，以及三种没有 CTD 的 AcSp1 重复单元的纤维力学性能、溶液状态结构和纤维状态二级结构组成，以及与天然栉状丝的取向。天然的 AcSp1 CTD 独特地调节了纤维的力学性能，与所有其他结构相比，直接与类似天然的结构转变和排列相关。

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