贻贝足丝胶原蛋白纺丝中巨液晶基元的pH依赖性锁定

pH-dependent locking of giant mesogens in fibers drawn from mussel byssal collagens.

作者信息

Harrington Matthew J, Waite J Herbert

机构信息

Dept. of Molecular, Cellular, and Developmental Biology, University of California at Santa Barbara, Santa Barbara, California 93106, USA.

出版信息

Biomacromolecules. 2008 May;9(5):1480-6. doi: 10.1021/bm8000827. Epub 2008 Apr 11.

DOI:10.1021/bm8000827

PMID:18402475

Abstract

Byssal threads are tough collagenous fibers that mussels use to secure themselves against dislodgement by waves in the marine intertidal zone. Here, preCol, a family of hybrid collagens comprising up to 96% of the protein content in certain regions of byssal threads, was purified in mg amounts from mussel foot tissue for the first time. Conditions for drawing preCols into quality fibers ex vivo were investigated. The most important factor affecting fiber formation was the pH of the drawing solution. The morphology and tensile properties of drawn fibers were also characterized and suggest that a liquid crystal mesophase combined with cross-linking by His-metal coordination plays a role in the assembly/mechanics of drawn fibers and likely in native byssal threads as well.

摘要

足丝是坚韧的胶原纤维，贻贝利用它们在海洋潮间带固定自身，防止被海浪冲走。在这里，首次从贻贝足部组织中以毫克量纯化出preCol，这是一类杂合胶原蛋白，在足丝某些区域的蛋白质含量中占比高达96%。研究了将preCols在体外拉伸成高质量纤维的条件。影响纤维形成的最重要因素是拉伸溶液的pH值。还对拉伸纤维的形态和拉伸性能进行了表征，结果表明，液晶中间相与通过组氨酸 - 金属配位的交联作用在拉伸纤维的组装/力学过程中发挥作用，并且可能在天然足丝中也发挥作用。

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贻贝足丝胶原蛋白纺丝中巨液晶基元的pH依赖性锁定

pH-dependent locking of giant mesogens in fibers drawn from mussel byssal collagens.

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