The cyanobacterial protein VIPP1 forms ESCRT-III-like structures on lipid bilayers

Sichen Pan, Karin Gries, Benjamin D. Engel, Michael Schroda, Christoph A. Haselwandter, Simon Scheuring
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Abstract

The biogenesis and maintenance of thylakoid membranes require vesicle-inducing protein in plastids 1 (VIPP1). VIPP1 is a member of the endosomal sorting complex required for transport-III (ESCRT-III) superfamily, whose members form diverse filament-based supramolecular structures that facilitate membrane deformation and fission. VIPP1 cryo-electron microscopy (EM) structures in solution revealed helical rods and baskets of stacked rings, with amphipathic membrane-binding domains in the lumen. However, how VIPP1 interacts with membranes remains largely unknown. Here, using high-speed atomic force microscopy (HS-AFM), we show that VIPP1 assembles into right-handed chiral spirals and regular polygons on supported lipid bilayers via ESCRT-III-like filament assembly and dynamics. VIPP1 filaments grow clockwise into spirals through polymerization at a ring-shaped central polymerization hub, and into polygons through clockwise polymerization at the sector peripheries. Interestingly, VIPP1 initially forms Archimedean spirals, which upon maturation transform into logarithmic spirals through lateral annealing of strands to the outermore low-curvature spiral turns.

Abstract Image

蓝藻蛋白 VIPP1 在脂质双分子层上形成类似 ESCRT-III 的结构
类囊体膜的生物生成和维持需要质粒中的囊泡诱导蛋白 1(VIPP1)。VIPP1 是运输所需的内质体分选复合物-III(ESCRT-III)超家族的成员之一,其成员形成多种基于丝状结构的超分子结构,促进膜的变形和裂解。VIPP1在溶液中的低温电子显微镜(EM)结构显示了螺旋杆和堆叠环的篮子,在管腔中有两性膜结合域。然而,VIPP1 如何与膜相互作用在很大程度上仍是未知数。在这里,我们利用高速原子力显微镜(HS-AFM)显示,VIPP1 通过类似 ESCRT-III 的丝状组装和动力学,在支持的脂质双分子层上组装成右手手性螺旋和规则多边形。VIPP1 细丝通过在环形中心聚合枢纽处的聚合顺时针生长成螺旋形,并通过在扇形外围的顺时针聚合生长成多边形。有趣的是,VIPP1 最初形成的是阿基米德螺旋,在成熟后,通过股的横向退火将其转化为对数螺旋,并在外侧形成更低曲率的螺旋转折。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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