The structural basis of Rho effector recognition revealed by the crystal structure of human RhoA complexed with the effector domain of PKN/PRK1.

Maesaki R; Ihara K; Shimizu T; Kuroda S; Kaibuchi K; Hakoshima T

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The structural basis of Rho effector recognition revealed by the crystal structure of human RhoA complexed with the effector domain of PKN/PRK1.

机译：人RhoA的晶体结构与PKN / PRK1的效应子域复合，揭示了Rho效应子识别的结构基础。

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摘要

The small G protein Rho has emerged as a key regulator of cellular events involving cytoskeletal reorganization. Here we report the 2.2 A crystal structure of RhoA bound to an effector domain of protein kinase PKN/PRK1. The structure reveals the antiparallel coiled-coil finger (ACC finger) fold of the effector domain that binds to the Rho specificity-determining regions containing switch I, beta strands B2 and B3, and the C-terminal alpha helix A5, predominantly by specific hydrogen bonds. The ACC finger fold is distinct from those for other small G proteins and provides evidence for the diverse ways of effector recognition. Sequence analysis based on the structure suggests that the ACC finger fold is widespread in Rho effector proteins.

机译：小G蛋白Rho已成为涉及细胞骨架重组的细胞事件的关键调节剂。在这里，我们报告的2.2 A RhoA晶体结构绑定到蛋白激酶PKN / PRK1的效应域。该结构揭示了效应域的反平行卷曲螺旋指（ACC指）折叠，该折叠与Rho特异性决定区结合，该区域包含开关I，β链B2和B3以及C端α螺旋A5，主要通过特定氢债券。 ACC手指折叠与其他小G蛋白的手指折叠不同，并为效应子识别的多种方式提供了证据。基于该结构的序列分析表明，ACC手指折叠在Rho效应子蛋白中很普遍。

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《Molecular cell》 |1999年第5期|共11页
作者
Maesaki R; Ihara K; Shimizu T; Kuroda S; Kaibuchi K; Hakoshima T;
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正文语种 eng
中图分类分子生物学;细胞生物学;
关键词
rhoA GTP Binding Protein chemistry; rhoA GTP Binding Protein metabolism; 催化域; 蛋白激酶C;

机译：rhoA GTP Binding Protein chemistry;rhoA GTP Binding Protein metabolism;催化域;蛋白激酶C;

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1. The structural basis of Rho effector recognition revealed by the crystal structure of human RhoA complexed with the effector domain of PKN/PRK1. [J] . Maesaki R, Ihara K, Shimizu T, Molecular cell . 1999,第5期

机译：人RhoA的晶体结构与PKN / PRK1的效应子域复合，揭示了Rho效应子识别的结构基础。
2. Structural Basis of Molecular Recognition Revealed by the Crystal Structure of Rho Complexed with Rho-Binding Protein [J] . Ryoko MAESAKI, Toshio HAKOSHIMA 日本结晶学会志 . 2000,第5期

机译：Rho与Rho结合蛋白复合的晶体结构揭示了分子识别的结构基础。
3. Structural Basis of Molecular Recognition Revealed by the Crystal Structure of Rho Complexed with Rho-Binding Protein [J] . Ryoko MAESAKI, Toshio HAKOSHIMA 日本结晶学会志 . 2000,第5期

机译：rho结合蛋白络合的rho晶体结构揭示了分子识别的结构基础
4. The Effects of Drying on Physical Properties of Bilimbi Slices (Averrhoa bilimbi l.) [C] . N. Shahari, M. Nursabrina, A. Zai Suhairah International Conference on Mathematics, Engineering and Industrial Applications . 2015

机译：干燥对Bilimbi切片物理性质的影响（Averrhoa Bilimbi L.）
5. Crystal structures of the Fanconi anemia proteins: Structure of the interstrand cross-linking repair protein Fanconi anemia protein I (FANCI); structure of the human FANCF C-terminal domain; reconstitution and crystallilzation of the sub-complexes in the Fanconi anemia core complex. [D] . Xu, Guozhou. 2009

机译：Fanconi贫血蛋白的晶体结构：链间交联修复蛋白Fanconi贫血蛋白I（FANCI）的结构；人FANCF C末端结构域的结构； Fanconi贫血核心复合物中亚复合物的重组和结晶。
6. Crystal structure of a Staphylococcus aureus protein A domain complexed with the Fab fragment of a human IgM antibody: Structural basis for recognition of B-cell receptors and superantigen activity [O] . Marc Graille, Enrico A. Stura, Adam L. Corper, 2000

机译：与人IgM抗体的Fab片段复合的金黄色葡萄球菌蛋白A结构域的晶体结构：识别B细胞受体和超抗原活性的结构基础
7. Structural Basis of Molecular Recognition Revealed by the Crystal Structure of Rho Complexed with Rho-Binding Protein. [O] . Ryoko MAESAKI, Toshio HAKOSHIMA 2000

机译：rhO结合蛋白络合rho晶体结构揭示分子识别的结构基础。

The structural basis of Rho effector recognition revealed by the crystal structure of human RhoA complexed with the effector domain of PKN/PRK1.

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