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具有近乎相同蛋白质序列的植物Sar1亚型表现出不同的定位以及对分泌的影响。

Plant Sar1 isoforms with near-identical protein sequences exhibit different localisations and effects on secretion.

作者信息

Hanton Sally L, Chatre Laurent, Matheson Loren A, Rossi Marika, Held Michael A, Brandizzi Federica

机构信息

Department of Biology, University of Saskatchewan, SK, Canada.

出版信息

Plant Mol Biol. 2008 Jun;67(3):283-94. doi: 10.1007/s11103-008-9317-5.

DOI:10.1007/s11103-008-9317-5
PMID:18322804
Abstract

In plants, differentiation of subdomains of the endoplasmic reticulum (ER) dedicated to protein export, the ER export sites (ERES), is influenced by the type of export-competent membrane cargo to be delivered to the Golgi. This raises a fundamental biological question: is the formation of transport intermediates at the ER for trafficking to the Golgi always regulated in the same manner? To test this, we followed the distribution and activity of two plant Sar1 isoforms. Sar1 is the small GTPase that regulates assembly of COPII (coat protein complex II) on carriers that transport secretory cargo from ER to Golgi. We show that, in contrast to a tobacco Sar1 isoform, the two Arabidopsis Sar1 GTPases were localised at ERES, independently of co-expression of Golgi-destined membrane cargo in tobacco cells. Although both isoforms labelled ERES, one was found to partition with the membrane fraction to a greater extent. The different distribution of fluorescent fusions of the two isoforms was influenced by the nature of an amino acid residue at the C-terminus of the protein, suggesting that the requirements for membrane association of the two GTPases are not equal. Furthermore, functional analyses based on the secretion of the bulk flow marker alpha-amylase indicated that over-expression of GTP-restricted mutants of the two isoforms caused different levels of ER export inhibition. These novel results indicate a functional heterogeneity among plant Sar1 isoforms.

摘要

在植物中,内质网(ER)中专门用于蛋白质输出的亚结构域即内质网输出位点(ERES)的分化,受待输送到高尔基体的有输出能力的膜货物类型的影响。这就引出了一个基本的生物学问题:内质网上用于运输到高尔基体的运输中间体的形成是否总是以相同的方式受到调控?为了验证这一点,我们追踪了两种植物Sar1亚型的分布和活性。Sar1是一种小GTP酶,它调节COPII(衣被蛋白复合物II)在将分泌性货物从内质网运输到高尔基体的载体上的组装。我们发现,与一种烟草Sar1亚型不同,两种拟南芥Sar1 GTP酶定位于内质网输出位点,与烟草细胞中高尔基体靶向膜货物的共表达无关。尽管两种亚型都标记了内质网输出位点,但发现其中一种与膜部分的分配程度更大。两种亚型荧光融合物的不同分布受蛋白质C末端氨基酸残基性质的影响,这表明两种GTP酶与膜结合的要求并不相同。此外,基于大量流动标记物α-淀粉酶分泌的功能分析表明,两种亚型的GTP限制突变体的过表达导致了不同程度的内质网输出抑制。这些新结果表明植物Sar1亚型之间存在功能异质性。

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