Structural basis for Vipp1 membrane binding: from loose coats and carpets to ring and rod assemblies

Benedikt Junglas, David Kartte, Mirka Kutzner, Nadja Hellmann, Ilona Ritter, Dirk Schneider, Carsten Sachse
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Abstract

Vesicle-inducing protein in plastids 1 (Vipp1) is critical for thylakoid membrane biogenesis and maintenance. Although Vipp1 has recently been identified as a member of the endosomal sorting complexes required for transport III superfamily, it is still unknown how Vipp1 remodels membranes. Here, we present cryo-electron microscopy structures of Synechocystis Vipp1 interacting with membranes: seven structures of helical and stacked-ring assemblies at 5–7-Å resolution engulfing membranes and three carpet structures covering lipid vesicles at ~20-Å resolution using subtomogram averaging. By analyzing ten structures of N-terminally truncated Vipp1, we show that helix α0 is essential for membrane tubulation and forms the membrane-anchoring domain of Vipp1. Lastly, using a conformation-restrained Vipp1 mutant, we reduced the structural plasticity of Vipp1 and determined two structures of Vipp1 at 3.0-Å resolution, resolving the molecular details of membrane-anchoring and intersubunit contacts of helix α0. Our data reveal membrane curvature-dependent structural transitions from carpets to rings and rods, some of which are capable of inducing and/or stabilizing high local membrane curvature triggering membrane fusion.

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Vipp1 膜结合的结构基础:从松散的外套和地毯到环状和杆状组件
质体中的囊泡诱导蛋白 1(Vipp1)对类囊体膜的生物发生和维持至关重要。虽然 Vipp1 最近被确定为运输 III 超家族所需的内质体分选复合物的成员,但 Vipp1 如何重塑膜仍是未知数。在此,我们展示了 Synechocystis Vipp1 与膜相互作用的冷冻电镜结构:7 个 5-7 Å 分辨率的吞噬膜的螺旋和叠环组装结构,以及 3 个使用子图平均法、约 20 Å 分辨率的覆盖脂质囊泡的地毯结构。通过分析 N 端截短的 Vipp1 的十个结构,我们发现螺旋 α0 对于膜管化至关重要,并形成了 Vipp1 的膜锚定结构域。最后,我们利用构象受限的 Vipp1 突变体,降低了 Vipp1 的结构可塑性,并以 3.0 Å 的分辨率测定了 Vipp1 的两个结构,解析了螺旋 α0 的膜锚定和亚基间接触的分子细节。我们的数据揭示了从地毯到环和杆的膜曲率依赖性结构转换,其中一些结构转换能够诱导和/或稳定引发膜融合的高局部膜曲率。
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