非肌肉肌球蛋白定位的时空控制:体内肌球蛋白丝解体所需结构域的鉴定。
Spatial and temporal control of nonmuscle myosin localization: identification of a domain that is necessary for myosin filament disassembly in vivo.
作者信息
Egelhoff T T, Brown S S, Spudich J A
机构信息
Department of Cell Biology, Stanford University School of Medicine, California.
出版信息
J Cell Biol. 1991 Feb;112(4):677-88. doi: 10.1083/jcb.112.4.677.
Abstract
Myosin null mutants of Dictyostelium are defective for cytokinesis, multicellular development, and capping of surface proteins. We have used these cells as transformation recipients for an altered myosin heavy chain gene that encodes a protein bearing a carboxy-terminal 34-kD truncation. This truncation eliminates threonine phosphorylation sites previously shown to control filament assembly in vitro. Despite restoration of growth in suspension, development, and ability to cap cell surface proteins, these delta C34-truncated myosin transformants display severe cytoskeletal abnormalities, including excessive localization of the truncated myosin to the cortical cytoskeleton, impaired cell shaped dynamics, and a temporal defect in myosin dissociation from beneath capped surface proteins. These data demonstrate that the carboxy-terminal domain of myosin plays a critical role in regulating the disassembly of the protein from contractile structures in vivo.
摘要
盘基网柄菌的肌球蛋白缺失突变体在胞质分裂、多细胞发育以及表面蛋白封盖方面存在缺陷。我们已将这些细胞用作转化受体,用于转化一个改变后的肌球蛋白重链基因,该基因编码一种带有羧基末端34-kD截短的蛋白质。这种截短消除了先前已证明在体外控制丝状体组装的苏氨酸磷酸化位点。尽管这些截短的肌球蛋白转化体恢复了悬浮生长、发育以及封盖细胞表面蛋白的能力,但它们仍表现出严重的细胞骨架异常,包括截短的肌球蛋白过度定位于皮质细胞骨架、细胞形状动态受损以及肌球蛋白从封盖的表面蛋白下方解离存在时间缺陷。这些数据表明,肌球蛋白的羧基末端结构域在体内调节该蛋白从收缩结构的解离中起关键作用。
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