天然肌动蛋白和原肌球蛋白从软体动物捕获肌肉

Ulyana V Girich, S. Lazarev, Ilya G. Vyatchin, O. Matusovsky, N. Shelud’ko
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摘要

本研究从贻贝(Crenomytilus grayanus)和家兔骨骼肌中分离出细丝的主要蛋白(肌动蛋白和原肌球蛋白)。兔肌动蛋白、原肌球蛋白和贻贝原肌球蛋白是用传统方法分离的,而不是用“天然”贻贝肌动蛋白(从丙酮粉中分离贻贝肌动蛋白是不可能的)。这些蛋白以非杂交和杂交的方式重建肌动蛋白+原肌球蛋白复合物。由兔肌动蛋白和原肌球蛋白重建的非杂交复合物具有比贻贝蛋白复合物更高的降低粘度,其中降低粘度与固有粘度几乎无法区分。ÐÂ ' o兔肌动蛋白和贻贝肌动蛋白分别采用聚合-再聚合循环和凝胶过滤层析纯化。纯化过程中,两种肌动蛋白的黏度均增加,黏度差减小。经sds电泳,除肌动蛋白外,其余蛋白均未发现。然而,得到的色谱组分在粘度和聚合速率上有显著差异。我们认为这些特性是由肌动蛋白制剂中存在的“终止因子”(如β-肌动蛋白或Cap Z)引起的。所获得的数据表明,“天然”肌动蛋白的分离伴随着未知或已知的“结束因子”的共同提取,其量可能大于从兔骨骼肌丙酮粉中获得的量。
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Natural Actin and Tropomyosin from Molluscan Catch Muscle
In this work, the main proteins of thin filaments (actin and tropomyosin) were isolated from the catch muscle of the mussel Crenomytilus grayanus and the rabbit skeletal muscles. Rabbit actin and tropomyosin and mussel tropomyosin were isolated by traditional methods as opposed to "natural" mussel actin (isolation of the mussel actin from acetone powder is impossible). These proteins were used to reconstruct actin+tropomyosin complexes in nonhybrid and hybrid manner. A non-hybrid complex, reconstructed from rabbit actin and tropomyosin, has higher reduced viscosity than complex of mussel proteins where reduced viscosity was nearly indistinguishable from the intrinsic viscosity. ÐÂ’oth rabbit and mussel actin were purified by polymerization-repolymerization cycles followed by gel filtration chromatography. During purification, the viscosity of both actins increased, and the difference in viscosity between them decreased. Based on the SDS-electrophoresis, we did not find any of the other proteins in the chromatographic fractions, except actin. However, obtained chromatographic fractions have significant differences in viscosity and rate of polymerization. We believe that these properties caused by the presence of an "ending factor” (such as β-actinin or Cap Z) in actin preparations. The data obtained indicate that isolation of “natural” actin is accompanied by a coextraction of an unknown or known "ending factor" in amounts that may be greater than those obtained from the acetone powder of rabbit skeletal muscles.
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