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与Rabaptin5的GAT结合结构域复合的人GGA1 GAT结构域的晶体结构。

Crystal structure of human GGA1 GAT domain complexed with the GAT-binding domain of Rabaptin5.

作者信息

Zhu Guangyu, Zhai Peng, He Xiangyuan, Wakeham Nancy, Rodgers Karla, Li Guangpu, Tang Jordan, Zhang Xuejun C

机构信息

Crystallography Research Program, Oklahoma Medical Research Foundation, Oklahoma City, OK 73104, USA.

出版信息

EMBO J. 2004 Oct 13;23(20):3909-17. doi: 10.1038/sj.emboj.7600411. Epub 2004 Sep 30.

DOI:10.1038/sj.emboj.7600411
PMID:15457209
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC524345/
Abstract

GGA proteins coordinate the intracellular trafficking of clathrin-coated vesicles through their interaction with several other proteins. The GAT domain of GGA proteins interacts with ARF, ubiquitin, and Rabaptin5. The GGA-Rabaptin5 interaction is believed to function in the fusion of trans-Golgi-derived vesicles to endosomes. We determined the crystal structure of a human GGA1 GAT domain fragment in complex with the Rabaptin5 GAT-binding domain. In this structure, the Rabaptin5 domain is a 90-residue-long helix. At the N-terminal end, it forms a parallel coiled-coil homodimer, which binds one GAT domain of GGA1. In the C-terminal region, it further assembles into a four-helix bundle tetramer. The Rabaptin5-binding motif of the GGA1 GAT domain consists of a three-helix bundle. Thus, the binding between Rabaptin5 and GGA1 GAT domain is based on a helix bundle-helix bundle interaction. The current structural observation is consistent with previously reported mutagenesis data, and its biological relevance is further confirmed by new mutagenesis studies and affinity analysis. The four-helix bundle structure of Rabaptin5 suggests a functional role in tethering organelles.

摘要

GGA蛋白通过与其他几种蛋白质相互作用来协调网格蛋白包被囊泡的细胞内运输。GGA蛋白的GAT结构域与ARF、泛素和Rabaptin5相互作用。GGA与Rabaptin5的相互作用被认为在反式高尔基体衍生的囊泡与内体的融合中发挥作用。我们确定了与Rabaptin5的GAT结合结构域复合的人GGA1 GAT结构域片段的晶体结构。在此结构中,Rabaptin5结构域是一个由90个残基组成的长螺旋。在N末端,它形成一个平行卷曲螺旋同二聚体,该同二聚体结合GGA1的一个GAT结构域。在C末端区域,它进一步组装成一个四螺旋束四聚体。GGA1 GAT结构域的Rabaptin5结合基序由一个三螺旋束组成。因此,Rabaptin5与GGA1 GAT结构域之间的结合基于螺旋束-螺旋束相互作用。目前的结构观察结果与先前报道的诱变数据一致,并且新的诱变研究和亲和力分析进一步证实了其生物学相关性。Rabaptin5的四螺旋束结构表明其在细胞器拴系中发挥功能作用。

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