通过在杠杆臂基部的点突变对肌球蛋白恢复冲程进行选择性扰动会影响ATP水解和磷酸盐释放。

Selective perturbation of the myosin recovery stroke by point mutations at the base of the lever arm affects ATP hydrolysis and phosphate release.

作者信息

Málnási-Csizmadia András, Tóth Judit, Pearson David S, Hetényi Csaba, Nyitray László, Geeves Michael A, Bagshaw Clive R, Kovács Mihály

机构信息

Department of Biochemistry, Eötvös University, H-1117 Budapest, Hungary.

出版信息

J Biol Chem. 2007 Jun 15;282(24):17658-64. doi: 10.1074/jbc.M701447200. Epub 2007 Apr 21.

DOI:10.1074/jbc.M701447200

PMID:17449872

Abstract

After ATP binding the myosin head undergoes a large structural rearrangement called the recovery stroke. This transition brings catalytic residues into place to enable ATP hydrolysis, and at the same time it causes a swing of the myosin lever arm into a primed state, which is a prerequisite for the power stroke. By introducing point mutations into a subdomain interface at the base of the myosin lever arm at positions Lys(84) and Arg(704), we caused modulatory changes in the equilibrium constant of the recovery stroke, which we could accurately resolve using the fluorescence signal of single tryptophan Dictyostelium myosin II constructs. Our results shed light on a novel role of the recovery stroke: fine-tuning of this reversible equilibrium influences the functional properties of myosin through controlling the effective rates of ATP hydrolysis and phosphate release.

摘要

ATP 结合后，肌球蛋白头部会经历一种称为恢复冲程的大规模结构重排。这种转变使催化残基就位以实现 ATP 水解，同时它会导致肌球蛋白杠杆臂摆动到一种引发状态，这是动力冲程的先决条件。通过在肌球蛋白杠杆臂基部的一个亚结构域界面处的 Lys(84) 和 Arg(704) 位置引入点突变，我们引起了恢复冲程平衡常数的调节性变化，我们可以使用单个色氨酸盘基网柄菌肌球蛋白 II 构建体的荧光信号准确解析这种变化。我们的结果揭示了恢复冲程的一个新作用：对这种可逆平衡的微调通过控制 ATP 水解和磷酸盐释放的有效速率来影响肌球蛋白的功能特性。

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Selective perturbation of the myosin recovery stroke by point mutations at the base of the lever arm affects ATP hydrolysis and phosphate release.通过在杠杆臂基部的点突变对肌球蛋白恢复冲程进行选择性扰动会影响ATP水解和磷酸盐释放。

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通过在杠杆臂基部的点突变对肌球蛋白恢复冲程进行选择性扰动会影响ATP水解和磷酸盐释放。

Selective perturbation of the myosin recovery stroke by point mutations at the base of the lever arm affects ATP hydrolysis and phosphate release.

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