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肌纤维中肌球蛋白的三种独特的与肌动蛋白结合的结构状态。

Three distinct actin-attached structural states of myosin in muscle fibers.

机构信息

Department of Biochemistry, Molecular Biology and Biophysics, University of Minnesota, Minneapolis, Minnesota, USA.

出版信息

Biophys J. 2012 Mar 7;102(5):1088-96. doi: 10.1016/j.bpj.2011.11.4027. Epub 2012 Mar 6.

DOI:10.1016/j.bpj.2011.11.4027
PMID:22404931
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3296056/
Abstract

We have used thiol cross-linking and electron paramagnetic resonance (EPR) to resolve structural transitions of myosin's light chain domain (LCD) and catalytic domain (CD) that are associated with force generation. Spin labels were incorporated into the LCD of muscle fibers by exchanging spin-labeled regulatory light chain for endogenous regulatory light chain, with full retention of function. To trap myosin in a structural state analogous to the elusive posthydrolysis ternary complex A.M'.D.P, we used pPDM to cross-link SH1 (Cys(707)) to SH2 (Cys(697)) on the CD. LCD orientation and dynamics were measured in three biochemical states: relaxation (A.M.T), SH1-SH2 cross-linked (A.M'.D.P analog), and rigor (A.M.D). EPR showed that the LCD of cross-linked fibers has an orientational distribution intermediate between relaxation and rigor, and saturation transfer EPR revealed slow rotational dynamics indistinguishable from that of rigor. Similar results were obtained for the CD using a bifunctional spin label to cross-link SH1-SH2, but the CD was more disordered than the LCD. We conclude that SH1-SH2 cross-linking traps a state in which both the CD and LCD are intermediate between relaxation (highly disordered and microsecond dynamics) and rigor (highly ordered and rigid), supporting the hypothesis that the cross-linked state is an A.M'D.P analog on the force generation pathway.

摘要

我们使用硫醇交联和电子顺磁共振(EPR)来解析与力产生相关的肌球蛋白轻链域(LCD)和催化域(CD)的结构转变。通过将自旋标记的调节轻链交换为内源性调节轻链,将自旋标记掺入肌肉纤维的 LCD 中,同时保持其功能完整。为了捕获类似于难以捉摸的后水解三元复合物 A.M'.D.P 的结构状态的肌球蛋白,我们使用 pPDM 交联 CD 上的 SH1(Cys(707))和 SH2(Cys(697))。在三种生化状态下测量了 LCD 的取向和动力学:松弛(A.M.T)、SH1-SH2 交联(A.M'.D.P 类似物)和僵硬(A.M.D)。EPR 显示交联纤维的 LCD 具有介于松弛和僵硬之间的取向分布,饱和转移 EPR 揭示了与僵硬相同的缓慢旋转动力学。使用双功能自旋标记交联 SH1-SH2 也获得了类似的 CD 结果,但 CD 比 LCD 更无序。我们得出结论,SH1-SH2 交联捕获了一种状态,其中 CD 和 LCD 都介于松弛(高度无序和微秒动力学)和僵硬(高度有序和刚性)之间,这支持了交联状态是力产生途径上的 A.M'D.P 类似物的假设。

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