乙酰化和非乙酰化原肌球蛋白向不同的肌动蛋白聚合物募集,允许在裂殖酵母中对特定肌球蛋白进行离散调节。
The recruitment of acetylated and unacetylated tropomyosin to distinct actin polymers permits the discrete regulation of specific myosins in fission yeast.
机构信息
School of Biosciences, University of Kent, Canterbury, Kent, CT2 7NJ, UK.
出版信息
J Cell Sci. 2010 Oct 1;123(Pt 19):3235-43. doi: 10.1242/jcs.069971. Epub 2010 Aug 31.
Abstract
Tropomyosin (Tm) is a conserved dimeric coiled-coil protein, which forms polymers that curl around actin filaments in order to regulate actomyosin function. Acetylation of the Tm N-terminal methionine strengthens end-to-end bonds, which enhances actin binding as well as the ability of Tm to regulate myosin motor activity in both muscle and non-muscle cells. In this study we explore the function of each Tm form within fission yeast cells. Electron microscopy and live cell imaging revealed that acetylated and unacetylated Tm associate with distinct actin structures within the cell, and that each form has a profound effect upon the shape and integrity of the polymeric actin filament. We show that, whereas Tm acetylation is required to regulate the in vivo motility of class II myosins, acetylated Tm had no effect on the motility of class I and V myosins. These findings illustrate a novel Tm-acetylation-state-dependent mechanism for regulating specific actomyosin cytoskeletal interactions.
摘要
原肌球蛋白(Tm)是一种保守的二聚体卷曲螺旋蛋白,它形成卷曲在肌动蛋白丝周围的聚合物,以调节肌球蛋白的功能。Tm N 端甲硫氨酸的乙酰化增强了端到端的键合,这增强了肌动蛋白的结合能力,以及 Tm 调节肌球蛋白在肌肉和非肌肉细胞中的运动活性的能力。在这项研究中,我们探索了裂殖酵母细胞中每种 Tm 形式的功能。电子显微镜和活细胞成像显示,乙酰化和非乙酰化的 Tm 与细胞内不同的肌动蛋白结构相关联,并且每种形式对聚合肌动蛋白丝的形状和完整性都有深远的影响。我们表明,尽管 Tm 乙酰化对于调节 II 类肌球蛋白的体内运动是必需的,但乙酰化的 Tm 对 I 类和 V 类肌球蛋白的运动没有影响。这些发现说明了一种新的 Tm-乙酰化状态依赖性机制,用于调节特定的肌球蛋白细胞骨架相互作用。
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