An InCytes from MBC Selection: Membrane Insertion of the Pleckstrin Homology Domain Variable Loop 1 Is Critical for Dynamin-catalyzed Vesicle Scission

Rajesh Ramachandran; Thomas J. Pucadyil; Ya-Wen Liu; Sharmistha Acharya; Marilyn Leonard; Vasyl Lukiyanchuk; Sandra L. Schmid

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An InCytes from MBC Selection: Membrane Insertion of the Pleckstrin Homology Domain Variable Loop 1 Is Critical for Dynamin-catalyzed Vesicle Scission

机译：从MBC选择的InCytes：Pleckstrin同源域可变环1的膜插入对于动力催化的囊泡分裂至关重要。

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The GTPase dynamin catalyzes the scission of deeply invaginated clathrin-coated pits at the plasma membrane, but the mechanisms governing dynamin-mediated membrane fission remain poorly understood. Through mutagenesis, we have altered the hydrophobic nature of the membrane-inserting variable loop 1 (VL1) of the pleckstrin homology (PH) domain of dynamin-1 and demonstrate that its stable insertion into the lipid bilayer is critical for high membrane curvature generation and subsequent membrane fission. Dynamin PH domain mutants defective in curvature generation regain function when assayed on precurved membrane templates in vitro, but they remain defective in the scission of clathrin-coated pits in vivo. These results demonstrate that, in concert with dynamin self-assembly, PH domain membrane insertion is essential for fission and vesicle release in vitro and for clathrin-mediated endocytosis in vivo.

机译：GTPase dynamin催化在质膜上深陷的网格蛋白包被的凹坑的分裂，但控制dynamin介导的膜裂变的机制仍知之甚少。通过诱变，我们已经改变了dynamin-1的pleckstrin同源性（PH）域的膜插入可变环1（VL1）的疏水性质，并证明了其稳定插入脂质双层对于高膜曲率产生和随后的膜裂变。在体外在预先弯曲的膜模板上进行测定时，在曲率产生方面有缺陷的动力蛋白PH结构域突变体恢复了功能，但在体内对网格蛋白包被的凹坑进行分裂时仍保持缺陷。这些结果表明，与动力蛋白的自组装协同作用，PH域膜的插入对于体外裂变和囊泡释放以及体内网格蛋白介导的内吞作用至关重要。

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《Molecular biology of the cell》 |2009年第22期|共10页
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Rajesh Ramachandran; Thomas J. Pucadyil; Ya-Wen Liu; Sharmistha Acharya; Marilyn Leonard; Vasyl Lukiyanchuk; Sandra L. Schmid;
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中图分类分子生物学;
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1. An InCytes from MBC Selection: An α-Helical Extension of the ELMO1 Pleckstrin Homology Domain Mediates Direct Interaction to DOCK180 and Is Critical in Rac Signaling [J] . David Komander, Manishha Patel, Mélanie Laurin, Molecular biology of the cell . 2008,第11期

机译：MBC选择中的InCytes：ELMO1 Pleckstrin同源域的α螺旋延伸介导与DOCK180的直接相互作用，并且在Rac信号传导中至关重要
2. Alternate pleckstrin homology domain orientations regulate dynamin-catalyzed membrane fission [J] . Niharika Mehrotra, Justin Nichols, Rajesh Ramachandran Molecular biology of the cell . 2014,第6期

机译：交替的pleckstrin同源结构域方向调节动力催化的膜裂变
3. Alternate pleckstrin homology domain orientations regulate dynamin-catalyzed membrane fission [J] . Niharika Mehrotra, Justin Nichols, Rajesh Ramachandran Molecular biology of the cell . 2014,第6期

机译：交替的pleckstrin同源结构域方向调节动力催化的膜裂变
4. An InCytes from MBC Selection: Membrane Insertion of the Pleckstrin Homology Domain Variable Loop 1 Is Critical for Dynamin-catalyzed Vesicle Scission [O] . Rajesh Ramachandran, Thomas J. Pucadyil, Ya-Wen Liu, 2009

机译：从MBC选择中获得的InCytes：Pleckstrin同源域可变环1的膜插入对于动力催化的囊泡切开至关重要
5. Membrane Insertion of the Pleckstrin Homology Domain Variable Loop 1 Is Critical for Dynamin-catalyzed Vesicle Scission [O] . Ramachandran, Rajesh, Pucadyil, Thomas J., Liu, Ya-Wen, 2009

机译：Pleckstrin同源域可变环1的膜插入对于动力催化的囊泡分裂至关重要。

An InCytes from MBC Selection: Membrane Insertion of the Pleckstrin Homology Domain Variable Loop 1 Is Critical for Dynamin-catalyzed Vesicle Scission

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