II/III类WW结构域识别配体的共同机制：重新定义其功能分类。

Common mechanism of ligand recognition by group II/III WW domains: redefining their functional classification.

作者信息

Kato Yusuke, Nagata Koji, Takahashi Mihoko, Lian Lubing, Herrero Juan J, Sudol Marius, Tanokura Masaru

机构信息

Department of Applied Biological Chemistry, Graduate School of Agricultural and Life Sciences, The University of Tokyo, 1-1-1 Yayoi, Bunkyo-ku, Tokyo 113-8657, Japan.

出版信息

J Biol Chem. 2004 Jul 23;279(30):31833-41. doi: 10.1074/jbc.M404719200. Epub 2004 May 7.

DOI:10.1074/jbc.M404719200

PMID:15133021

Abstract

WW domain is a well known protein module that mediates protein to protein interactions by binding to proline-containing ligands. Based on the ligand predilections, the WW domains have been classified into four major groups. Group II and III WW domains have been reported to bind the proline-leucine and proline-arginine motifs, respectively. In the present study, using surface plasmon resonance technique we have shown that these WW domains have almost indistinguishable ligand preferences and kinetic properties. Hence, we propose that Group II and III WW domains should be joined together as one group (Group II/III). Unlike Group I and IV WW domains, Group II/III WW domains can bind simple polyprolines as well as the proline-leucine and proline-arginine motifs, and they possess two Xaa-proline (where Xaa is any amino acid) binding grooves similar to SH3 domains. Our work assigns Group II and III WW domains to a larger family of polyproline-binding modules and proteins, which includes SH3 domains and profilin. Because polyprolines belong to the most frequently found peptide motifs in several genomes, our study implies the versatile importance of Group II/III WW domains in signaling.

摘要

WW 结构域是一种著名的蛋白质模块，它通过与含脯氨酸的配体结合来介导蛋白质与蛋白质之间的相互作用。根据配体偏好，WW 结构域已被分为四大类。据报道，II 组和 III 组 WW 结构域分别与脯氨酸 - 亮氨酸基序和脯氨酸 - 精氨酸基序结合。在本研究中，我们使用表面等离子体共振技术表明，这些 WW 结构域具有几乎难以区分的配体偏好和动力学特性。因此，我们建议将 II 组和 III 组 WW 结构域合并为一组（II/III 组）。与 I 组和 IV 组 WW 结构域不同，II/III 组 WW 结构域既能结合简单的多聚脯氨酸，也能结合脯氨酸 - 亮氨酸和脯氨酸 - 精氨酸基序，并且它们拥有两个类似于 SH3 结构域的 Xaa - 脯氨酸（其中 Xaa 为任何氨基酸）结合凹槽。我们的工作将 II 组和 III 组 WW 结构域归入一个更大的多聚脯氨酸结合模块和蛋白质家族，其中包括 SH3 结构域和丝切蛋白。由于多聚脯氨酸是几个基因组中最常见的肽基序之一，我们的研究表明 II/III 组 WW 结构域在信号传导中具有多方面的重要性。

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II/III类WW结构域识别配体的共同机制：重新定义其功能分类。

Common mechanism of ligand recognition by group II/III WW domains: redefining their functional classification.

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