Vps18 β-螺旋桨的结构鉴定揭示了其在HOPS复合物稳定性和功能中的关键作用。

Structural identification of the Vps18 β-propeller reveals a critical role in the HOPS complex stability and function.

作者信息

Behrmann Heide, Lürick Anna, Kuhlee Anne, Balderhaar Henning Kleine, Bröcker Cornelia, Kümmel Daniel, Engelbrecht-Vandré Siegfried, Gohlke Ulrich, Raunser Stefan, Heinemann Udo, Ungermann Christian

机构信息

From the Max-Delbrück Center for Molecular Medicine, Macromolecular Structure and Interaction Group, Robert-Rössle-Strasse 10, 13125 Berlin, Germany, Freie Universität Berlin, Chemistry and Biochemistry Institute, Takustrasse 6, 14195 Berlin, Germany.

Department of Biology/Chemistry, Biochemistry Section, University of Osnabrück, Barbarastrasse 13, 49076 Osnabrück, Germany.

出版信息

J Biol Chem. 2014 Nov 28;289(48):33503-12. doi: 10.1074/jbc.M114.602714. Epub 2014 Oct 16.

DOI:10.1074/jbc.M114.602714

PMID:25324549

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4246104/

Abstract

Membrane fusion at the vacuole, the lysosome equivalent in yeast, requires the HOPS tethering complex, which is recruited by the Rab7 GTPase Ypt7. HOPS provides a template for the assembly of SNAREs and thus likely confers fusion at a distinct position on vacuoles. Five of the six subunits in HOPS have a similar domain prediction with strong similarity to COPII subunits and nuclear porins. Here, we show that Vps18 indeed has a seven-bladed β-propeller as its N-terminal domain by revealing its structure at 2.14 Å. The Vps18 N-terminal domain can interact with the N-terminal part of Vps11 and also binds to lipids. Although deletion of the Vps18 N-terminal domain does not preclude HOPS assembly, as revealed by negative stain electron microscopy, the complex is instable and cannot support membrane fusion in vitro. We thus conclude that the β-propeller of Vps18 is required for HOPS stability and function and that it can serve as a starting point for further structural analyses of the HOPS tethering complex.

摘要

液泡（酵母中相当于溶酶体的细胞器）处的膜融合需要HOPS拴系复合体，它由Rab7 GTP酶Ypt7招募。HOPS为SNARE组装提供模板，因此可能在液泡上的特定位置赋予融合能力。HOPS的六个亚基中有五个具有与COPII亚基和核孔蛋白高度相似的结构域预测。在这里，我们通过解析其2.14 Å分辨率的结构，表明Vps18确实具有一个七叶β-螺旋桨作为其N端结构域。Vps18的N端结构域可以与Vps11的N端部分相互作用，并且还能结合脂质。尽管负染电子显微镜显示，删除Vps18的N端结构域并不妨碍HOPS组装，但该复合体不稳定，无法在体外支持膜融合。因此，我们得出结论，Vps18的β-螺旋桨是HOPS稳定性和功能所必需的，并且它可以作为对HOPS拴系复合体进行进一步结构分析的起点。

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