膜曲率对脂质双层中依赖跨膜结构域的蛋白质分选影响的研究。

Cellular logistics Pub Date : 2014-05-06 eCollection Date: 2014-01-01 DOI:10.4161/cl.29087
Matteo Fossati, Bruno Goud, Nica Borgese, Jean-Baptiste Manneville
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引用次数: 6

摘要

真核细胞分泌途径中膜蛋白的分选是一个复杂的过程,涉及离散的分选信号以及跨膜结构域(TMD)的理化性质。先前的研究表明,在内质网(ER)和高尔基复合体之间的界面上,尾部锚定(TA)蛋白的分选非常依赖于跨膜结构域的长度和疏水性,并表明TMD长度和双层厚度之间的不平衡(疏水错配)可以驱动含有TMD的长蛋白进入弯曲的膜结构域,包括内质网出口位点,随后将不匹配的蛋白输出到内质网外。在这里,我们在一个由巨型单层囊泡(GUVs)组成的模型系统中测试了曲率在tmd依赖分选中的可能作用,通过微操作从中拉出狭窄的膜管。将TMD长度不同的荧光TA蛋白纳入均匀脂质组成或由总内质网脂质组成的guv中,研究TMD依赖的分选和扩散以及由微粒体脂质组成的双层的弯曲刚性。长、短含tmd的构建体以相似的方向插入,在guv和从guv拔出的管中扩散速度相同,并且在平面和弯曲区域之间的最终分布没有差异。这些结果表明,曲率本身不足以驱动er -高尔基界面上与tmd相关的分选,并为研究必须的其他因素奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

An investigation of the effect of membrane curvature on transmembrane-domain dependent protein sorting in lipid bilayers.

An investigation of the effect of membrane curvature on transmembrane-domain dependent protein sorting in lipid bilayers.

An investigation of the effect of membrane curvature on transmembrane-domain dependent protein sorting in lipid bilayers.

An investigation of the effect of membrane curvature on transmembrane-domain dependent protein sorting in lipid bilayers.
Sorting of membrane proteins within the secretory pathway of eukaryotic cells is a complex process involving discrete sorting signals as well as physico-chemical properties of the transmembrane domain (TMD). Previous work demonstrated that tail-anchored (TA) protein sorting at the interface between the Endoplasmic Reticulum (ER) and the Golgi complex is exquisitely dependent on the length and hydrophobicity of the transmembrane domain, and suggested that an imbalance between TMD length and bilayer thickness (hydrophobic mismatch) could drive long TMD-containing proteins into curved membrane domains, including ER exit sites, with consequent export of the mismatched protein out of the ER. Here, we tested a possible role of curvature in TMD-dependent sorting in a model system consisting of Giant Unilamellar Vesicles (GUVs) from which narrow membrane tubes were pulled by micromanipulation. Fluorescent TA proteins differing in TMD length were incorporated into GUVs of uniform lipid composition or made of total ER lipids, and TMD-dependent sorting and diffusion, as well as the bending rigidity of bilayers made of microsomal lipids, were investigated. Long and short TMD-containing constructs were inserted with similar orientation, diffused equally rapidly in GUVs and in tubes pulled from GUVs, and no difference in their final distribution between planar and curved regions was detected. These results indicate that curvature alone is not sufficient to drive TMD-dependent sorting at the ER-Golgi interface, and set the basis for the investigation of the additional factors that must be required.
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