原子力显微镜研究剪切诱导的天然丝蛋白原纤维的自组装。

Shear-induced self-assembly of native silk proteins into fibrils studied by atomic force microscopy.

机构信息

Department of Zoology, University of Oxford , The Tinbergen Building, Oxford, OX1 3PS, United Kingdom.

出版信息

Biomacromolecules. 2012 Mar 12;13(3):676-82. doi: 10.1021/bm201509b. Epub 2012 Feb 21.

DOI:10.1021/bm201509b

Abstract

Noncontact mode atomic force microscopy was used to investigate native silk proteins prepared in different ways. Low protein concentrations revealed that single protein molecules exhibit a simple, round shape with apparent diameters of 20-25 nm. Shearing the native protein solutions after extraction from the gland and prior to drying led to a beads-on-a-string assembly at the nanometer scale. Protein concentration had a significant effect on the morphology of the protein assemblies. At higher protein concentrations, shear-induced alignment into nanofibrils was observed, while lower concentrations lead to the formation of much thinner fibrils with a width of about 8 nm.

摘要

使用非接触式原子力显微镜研究了以不同方式制备的天然丝蛋白。在低蛋白浓度下，单个蛋白分子呈现出简单的圆形，直径约为 20-25nm。从腺体中提取并在干燥之前对天然蛋白溶液进行剪切，导致在纳米尺度上形成珠串状组装。蛋白浓度对蛋白组装体的形态有显著影响。在较高的蛋白浓度下，观察到剪切诱导的纳米原纤维排列，而较低的浓度则导致形成更细的纤维，宽度约为 8nm。

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原子力显微镜研究剪切诱导的天然丝蛋白原纤维的自组装。

Shear-induced self-assembly of native silk proteins into fibrils studied by atomic force microscopy.

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