UNC-82/NUAK激酶是肌球蛋白A(而不是肌球蛋白B)在线虫横纹肌粗丝臂中组装和发挥作用所必需的。

NaTasha R Schiller, Sarah A Almuhanna, Pamela E Hoppe
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引用次数: 0

摘要

确保肌球蛋白II丝的正确组装、活性和周转的机制是多种细胞过程的基础。在秀丽隐杆线虫的横纹肌中,粗细丝含有两种功能不同且空间分离的肌球蛋白。通过转基因双突变体,我们证明了肌球蛋白B突变体中肌球蛋白A表达增加恢复肌肉结构和运动的能力需要UNC-82/NUAK激酶活性。在激酶受损的unc-82(e1220)突变体中,肌球蛋白B的功能似乎不受影响:在该突变体中,对副肌球蛋白和肌球蛋白A早期组装的隐性抗胚性影响被肌球蛋白B表达的增加所抵消,并因肌球蛋白B的缺失而加剧。使用嵌合肌球蛋白和运动性测定,我们将肌球蛋白A需要unc-82活性的区域定位到卷曲棒的531个氨基酸区域。该区域包括264个氨基酸的1区,该区域在嵌合肌球蛋白中足以挽救肌球蛋白A的基本丝起始功能,以及在相互作用头基序中与肌球蛋白头结构域相互作用的两个位点。肌球蛋白A和UNC-82: GFP之间的特殊物理相互作用通过GFP标记异位肌球蛋白A细丝而不是细丝来支持。我们假设UNC-82在丝臂平行组装过程中调节肌球蛋白A的组装能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
UNC-82/NUAK kinase is required by myosin A, but not myosin B, to assemble and function in the thick filament arms of C. elegans striated muscle.

The mechanisms that ensure proper assembly, activity, and turnover of myosin II filaments are fundamental to a diverse range of cellular processes. In Caenorhabditis elegans striated muscle, thick filaments contain two myosins that are functionally distinct and spatially segregated. Using transgenic double mutants, we demonstrate that the ability of increased myosin A expression to restore muscle structure and movement in myosin B mutants requires UNC-82/NUAK kinase activity. Myosin B function appears unaffected in the kinase-impaired unc-82(e1220) mutant: the recessive antimorphic effects on early assembly of paramyosin and myosin A in this mutant are counteracted by increased myosin B expression and exacerbated by loss of myosin B. Using chimeric myosins and motility assays, we mapped the region of myosin A that requires UNC-82 activity to a 531-amino-acid region of the coiled-coil rod. This region includes the 264-amino-acid Region 1, which is sufficient in chimeric myosins to rescue the essential filament-initiation function of myosin A, as well as two sites that interact with myosin head domains in the Interacting Heads Motif. A specific physical interaction between myosin A and UNC-82::GFP is supported by GFP labeling of ectopic myosin A filaments but not thin filaments. We hypothesize that UNC-82 regulates assembly competence of myosin A during parallel assembly in the filament arms.

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