The actin-binding cleft: functional characterisation of myosin II with a strut mutation

SETSUKO FUJITA-BECKER; THOMAS F. REUBOLD; KENNETH C. HOLMES

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The actin-binding cleft: functional characterisation of myosin II with a strut mutation

机译：肌动蛋白结合裂：具有支杆突变的肌球蛋白II的功能表征

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The myosin cross-bridge has two essential properties: to undergo the “power stroke” and to bind and release from actin – both under control of ATP binding and hydrolysis. In the absence of ATP the cross-bridge binds to actin with high affinity: the binding of ATP causes rapid release of the cross-bridge from actin. The actin binding-site is split by a deep cleft that closes on strong binding to actin. The cleft is straddled by a short polypeptide known as the “strut”. In the following we summarise the structural basis of the power stroke and the control of actin affinity and then present data on the effects on actin affinity of replacing the strut by a flexible linker.

机译：肌球蛋白跨桥具有两个基本特性：在ATP结合和水解的控制下，经历“中风”并从肌动蛋白结合和释放。在不存在ATP的情况下，跨桥以高亲和力与肌动蛋白结合：ATP的结合导致跨桥从肌动蛋白快速释放。肌动蛋白结合位点被深裂裂开，该裂隙在与肌动蛋白的强结合时关闭。裂隙被称为“支杆”的短多肽所包围。在下文中，我们总结了中风的结构基础和肌动蛋白亲和力的控制，然后介绍了有关通过柔性接头取代支杆对肌动蛋白亲和力的影响的数据。

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《Journal of Muscle Research and Cell Motility》 |2006年第2期|115-123|共9页
作者
SETSUKO FUJITA-BECKER; THOMAS F. REUBOLD; KENNETH C. HOLMES;
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Arbeitsgruppe Biophysik Max Planck Institut für medizinische Forschung;

Arbeitsgruppe Biophysik Max Planck Institut für medizinische Forschung;

Arbeitsgruppe Biophysik Max Planck Institut für medizinische Forschung;

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1. The actin-binding cleft: functional characterisation of myosin II with a strut mutation. [J] . Fujita Becker S, Reubold TF, Holmes KC Journal of Muscle Research and Cell Motility . 2006,第2期

机译：肌动蛋白结合裂：具有支链突变的肌球蛋白II的功能表征。
2. Conformationally Trapping the Actin-binding Cleft of Myosin with a Bifunctional Spin Label [J] . Rebecca Moen, David Thomas, Jennifer Klein The Journal of biological chemistry . 2013,第5期

机译：用双官能旋转标签构造地捕获肌动蛋白结合的肌菌素
3. Actin-binding cleft closure in myosin II probed by site-directed spin labeling and pulsed EPR [J] . Jennifer C. Klein, Adam R. Burr, Bengt Svensson, Proceedings of the National Academy of Sciences of the United States of America . 2008,第35期

机译：通过定点旋转标记和脉冲EPR探测肌球蛋白II中肌动蛋白结合的裂隙闭合
4. Sarcomere protein gene mutations and inherited heart disease: a beta-cardiac myosin heavy chain mutation causing endocardial fibroelastosis and heart failure [C] . Mitsuhiro Kamisago, Joachim P. Schmitt, Dennis McNamara, Symposium on heart failure: Molecules, mechanisms and therapeutic targets . 2006

机译：Sarcomere蛋白质基因突变和遗传性心脏病：β-心肌肌苷重链突变导致心内膜肌肌瘤和心力衰竭
5. Structural and functional studies of chicken myosin heavy chain (myHC): I. Significance of the subfragment 2 region of MyHC in myosin thick filament assembly. II. Dimerization specificity of adult and neonatal MyHC rods. [D] . Singh, Sheetal. 2005

机译：鸡肌球蛋白重链（myHC）的结构和功能研究：I. MyHC的亚片段2区在肌球蛋白粗细丝组件中的意义。二。成人和新生儿MyHC棒的二聚体特异性。
6. Conformationally Trapping the Actin-binding Cleft of Myosin with a Bifunctional Spin Label [O] . Rebecca J. Moen, David D. Thomas, Jennifer C. Klein 2013

机译：用双功能自旋标记构象捕捉肌球蛋白的肌动蛋白结合裂。
7. Myosin II Trapped In A Weak Actin-binding State Through A Chemical Crosslink Across The Actin-Binding Cleft [O] . Klein Jennifer C., Lin Ava Yun, Titus Margaret A., 2009

机译：通过跨肌动蛋白结合裂的化学交联，肌球蛋白II被困在弱的肌动蛋白结合状态

The actin-binding cleft: functional characterisation of myosin II with a strut mutation

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