A cooperative jack model of random coil-to-elongation transition of the FH1 domain by profilin binding explains formin motor behavior in actin polymerization

ZhaoC.; LiuC.; HogueC.W.V.; LowB.C.

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A cooperative jack model of random coil-to-elongation transition of the FH1 domain by profilin binding explains formin motor behavior in actin polymerization

机译：通过profilin结合的FH1域的随机线圈-伸长过渡的协同杰克模型解释了肌动蛋白聚合中的运动行为

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Filopodia are essential for the development of neuronal growth cones, cell polarity and cell migration. Their protrusions are powered by the polymerization of actin filaments linked to the plasma membrane, catalyzed by formin proteins. The acceleration of polymerization depends on the number of profilin-actins binding with the formin-FH1 domain. Biophysical characterization of the disordered formin-FH1 domain remains a challenge. We analyzed the conformational distribution of the diaphanous-related formin mDia1-FH1 bound with one to six profilins. We found a coil-to-elongation transition in the FH1 domain. We propose a cooperative "jack" model for the Formin-Homology-1 (FH1) domain of formins stacked by profilin-actins.

机译：丝足对神经元生长锥的发展，细胞极性和细胞迁移至关重要。它们的突起是由福尔明蛋白催化的，与质膜相连的肌动蛋白丝聚合而提供动力的。聚合的加速取决于与formin-FH1结构域结合的profilin-actins数量。无序的formin-FH1结构域的生物物理表征仍然是一个挑战。我们分析了与1至6个蛋白水解酶结合的透辉相关的甲蛋白mDia1-FH1的构象分布。我们在FH1域中发现了从线圈到伸长的转变。我们提出了由蛋白纤维蛋白-肌动蛋白堆叠的formins的Formin-Homology-1（FH1）域的合作“ jack”模型。

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《FEBS letters.》 |2014年第14期|共6页
作者
ZhaoC.; LiuC.; HogueC.W.V.; LowB.C.;
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正文语种 eng
中图分类生物化学;
关键词
"jack" Model; Actin filament; Conformational change; Disordered; Filopodium; Formin;

机译：“杰克”模型;肌动蛋白丝;构象变化;无序;Filopodium;Formin;

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中文文献

1. A cooperative jack model of random coil-to-elongation transition of the FH1 domain by profilin binding explains formin motor behavior in actin polymerization [J] . ZhaoC., LiuC., HogueC.W.V., FEBS letters. . 2014,第14期

机译：通过profilin结合的FH1域的随机线圈-伸长过渡的协同杰克模型解释了肌动蛋白聚合中的运动行为
2. A cooperative jack model of random coil-to-elongation transition of the FH1 domain by profilin binding explains formin motor behavior in actin polymerization [J] . ZhaoC., LiuC., HogueC.W.V., FEBS letters. . 2014,第14期

机译：通过Profilin结合的FH1结构域的随机线圈与伸长转变的合作千斤顶模型解释了肌动蛋白聚合中的Formin Motor行为
3. A cooperative jack model of random coil‐to‐elongation transition of the FH1 domain by profilin binding explains formin motor behavior in actin polymerization [J] . FEBS Letters . 2014,第14期

机译：通过profilin结合的FH1域从卷曲到延伸的随机卷曲到伸长转变的协同杰克模型解释了肌动蛋白聚合过程中的运动行为
4. A Brownian Ratchet Model of Actin Polymerization Motor by using Extended Scaled Particle Theory [C] . Masayuki Irisa International Symposium on Slow Dynamics in Complex Systems . 2004

机译：采用扩展缩放粒子理论，肌动蛋白聚合电动机的褐色棘轮模型
5. The mechanism of actin polymerization by FH1FH2-formins and profilin. [D] . Paul, Aditya Shankar. 2008

机译：肌动蛋白由FH1FH2-formins和profilin聚合的机理。
6. The Role of the FH1 Domain and Profilin in Formin-Mediated Actin-Filament Elongation and Nucleation [O] . Aditya Paul, Thomas Pollard -1

机译：FH1域和profilin在Formin介导的肌动蛋白丝伸长和成核中的作用
7. A Cooperative jack model of random coil-to-elongation transition of the FH1 domain by profilin binding explains formin motor behavior in actin polymerization [O] . Zhao, Chen, Liu, Chengcheng, Hogue, Christopher W. V, 2014

机译：通过profilin结合的FH1域的随机线圈到伸长过渡的协作杰克模型解释了肌动蛋白聚合中的运动行为

A cooperative jack model of random coil-to-elongation transition of the FH1 domain by profilin binding explains formin motor behavior in actin polymerization

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