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Computational modeling highlights the role of the disordered Formin Homology 1 domain in profilin-actin transfer

机译：计算模型强调了无序的Formin同源1域在profilin-actin转移中的作用

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Formins accelerate actin polymerization, assumed to occur through flexible FH1 domain mediated transfer of profilin-actin to the barbed end. To study FH1 properties and address sequence effects including varying length/distribution of profilin-binding proline-rich motifs, we performed all-atom simulations of mouse mDia1, mDia2; budding yeast Bni1, Bnr1; fission yeast Cdc12, For3, and Fus1 FH1s. We find FH1 has flexible regions between high propensity polyproline helix regions. A coarse-grained model retaining sequence-specificity, assuming rigid polyproline segments, describes their size. Multiple bound profilins or profilin-actin complexes expand mDia1-FH1, which may be important in cells. Simulations of the barbed end bound to Bni1-FH1-FH2 dimer show the leading FH1 can better transfer profilin or profilin-actin, having decreasing probability with increasing distance from FH2.

机译：Formins加速肌动蛋白聚合，假定是通过柔性FH1域介导的profilin-actin转移到带刺的末端而发生的。为了研究FH1的特性和地址序列的影响，包括与脯氨酸蛋白结合的脯氨酸丰富的基序的长度/分布的变化，我们对小鼠mDia1，mDia2进行了全原子模拟。出芽酵母Bni1，Bnr1；裂变酵母Cdc12，For3和Fus1 FH1s。我们发现FH1在高倾向性聚脯氨酸螺旋区域之间具有柔性区域。假设刚性多脯氨酸片段，保留序列特异性的粗粒度模型描述了它们的大小。多重结合的profilins或profilin-actin复合物可扩展mDia1-FH1，这在细胞中可能很重要。绑定到Bni1-FH1-FH2二聚体的带刺末端的模拟显示，前导FH1可以更好地转移profilin或profilin-actin，并且随着距FH2距离的增加而概率降低。

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期刊名称 other
作者
Brandon G. Horan; Gül H. Zerze; Young C. Kim; Dimitrios Vavylonis; Jeetain Mittal;
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年(卷),期 -1(592),11
年度 -1
页码 1804–1816
总页数 19
原文格式 PDF
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关键词
Actin Polymerization Formins Profilin Molecular Dynamics Coarse-Graining Intrinsically Disordered Proteins;

机译：肌动蛋白聚合;福尔马蛋白;脯氨酸蛋白;分子动力学;粗粒度;固有紊乱的蛋白质;

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专利

1. Computational modeling highlights the role of the disordered Formin Homology 1 domain in profilin‐actin transfer [J] . Brandon G. Horan, Gl H. Zerze, Young C. Kim, FEBS Letters . 2018,第11期

机译：计算建模突显了无序的Formin Homology 1域在profilin-actin转移中的作用
2. Computational modeling highlights the role of the disordered Formin Homology 1 domain in profilin‐actin transfer [J] . Horan Brandon G., Zerze Gül H., Kim Young C., FEBS letters. . 2018,第11期

机译：计算建模突出了无序甲状腺同源1结构域在突发素 - 肌动蛋白转移中的作用
3. Determinants of Formin Homology 1 (FH1) Domain Function in Actin Filament Elongation by Formins [J] . Naomi Courtemanche, Thomas Pollard The Journal of biological chemistry . 2012,第10期

机译：甲蛋白丝伸长蛋白的同源性1（FH1）结构域功能的决定因素
4. Homology modeling of the DNA binding and dimerization partner domains of E2F1 transcription factor protein in homo sapiens [C] . Nayan Mohd Yasser, Jusoh Siti Azma, Mutalip Siti Syairah Mohd, 2012 IEEE Symposium on Business, Engineering and Industrial Applications. . 2012

机译：智人E2F1转录因子蛋白的DNA结合和二聚体伴侣结构域的同源性建模
5. The role of formin-mediated assembly of profilin-actin in fission yeast. [D] . Bestul, Andrew Joseph. 2013

机译：在裂变酵母中，formin介导的profilin-actin组装的作用。
6. Deciphering the Role of Filamin B Calponin-Homology Domain in Causing the Larsen Syndrome Boomerang Dysplasia and Atelosteogenesis Type I Spectrum Disorders via a Computational Approach [O] . Udhaya Kumar S., Srivarshini Sankar, Salma Younes, 2020

机译：通过计算方法解密菲素B钙霉素 - 同源结构域在引起Larsen综合征发球发育不良和Etelosteofis型I谱紊乱中的作用
7. Multiscale Model of the Formin Homology 1 Domain Illustrates its Role in Regulation of Actin Polymerization [O] . Brandon G. Horan, Gül Zerze, Gregory L. Dignon, 2018

机译：Formin同源1结构域的多尺度模型显示其在肌动蛋白聚合调节中的作用

Computational modeling highlights the role of the disordered Formin Homology 1 domain in profilin-actin transfer

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