细菌 AsmA 样蛋白:弥补膜间磷脂运输的差距

Contact (Thousand Oaks (Ventura County, Calif.)) Pub Date : 2023-07-12 eCollection Date: 2023-01-01 DOI:10.1177/25152564231185931
Sujeet Kumar, Natividad Ruiz
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引用次数: 0

摘要

在真核细胞中,细胞器之间的非囊泡脂质运输是由脂质转移蛋白介导的。最近,一类新的脂质转运蛋白被描述出来,它们通过形成具有疏水槽的桥状结构,使脂质通过疏水槽,从而促进了大部分细胞器间脂质在接触部位的转运。由于它们的预测结构由重复的 β 沟(RBG)结构域组成,因此被命名为 RBG 蛋白超家族。对 RBG 蛋白 VPS13 和 ATG2 的早期研究发现,它们的预测结构与细菌的 Lpt 系统相似,后者在革兰氏阴性细菌的内膜和外膜(IMs 和 OMs)之间运输新合成的脂多糖(LPS)。在这些真菌中,内膜和外膜被一个含水的周质区隔开,周质区由一个桥状结构穿过,该结构由多个 Lpt 蛋白的β-果冻卷结构域构建而成,为 LPS 分子穿过周质提供了一个疏水槽。尽管 RBG 蛋白和 Lpt 系统在结构和功能上有相似之处,但最近出现的细菌 AsmA 样蛋白家族可能是 RBG 蛋白的祖先,也是人们长期寻找的促进磷脂从 IM 转移到 OM 的转运体。在此,我们回顾了目前我们对细菌 AsmA 样蛋白的结构和功能的理解,主要侧重于最近的研究,这些研究提出 AsmA 样蛋白介导了大部分磷脂在 IM 和 OM 之间的转移。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Bacterial AsmA-Like Proteins: Bridging the Gap in Intermembrane Phospholipid Transport.

Bacterial AsmA-Like Proteins: Bridging the Gap in Intermembrane Phospholipid Transport.

Bacterial AsmA-Like Proteins: Bridging the Gap in Intermembrane Phospholipid Transport.

Bacterial AsmA-Like Proteins: Bridging the Gap in Intermembrane Phospholipid Transport.

In eukaryotic cells, nonvesicular lipid transport between organelles is mediated by lipid-transfer proteins. Recently, a new class of these lipid transporters has been described to facilitate the bulk of inter-organelle lipid transport at contact sites by forming bridge-like structures with a hydrophobic groove through which lipids travel. Because their predicted structure is composed of repeating β-groove (RBG) domains, they have been named the RBG protein superfamily. Early studies on RBG proteins VPS13 and ATG2 recognized the resemblance of their predicted structures to that of the bacterial Lpt system, which transports newly synthesized lipopolysaccharides (LPS) between the inner and the outer membranes (IMs and OMs) of Gram-negative bacteria. In these didermic bacteria, the IMs and OMs are separated by an aqueous periplasmic compartment that is traversed by a bridge-like structure built with β-jelly roll domains from several Lpt proteins that provides a hydrophobic groove for LPS molecules to travel across the periplasm. Despite structural and functional similarities between RBG proteins and the Lpt system, the bacterial AsmA-like protein family has recently emerged as the likely ancestor of RBG proteins and long sought-after transporters that facilitate the transfer of phospholipids from the IM to the OM. Here, we review our current understanding of the structure and function of bacterial AsmA-like proteins, mainly focusing on recent studies that have led to the proposal that AsmA-like proteins mediate the bulk of phospholipid transfer between the IMs and OMs.

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