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淀粉颗粒相关蛋白早期饥饿1是拟南芥叶片中淀粉降解调控所必需的。

The Starch Granule-Associated Protein EARLY STARVATION1 Is Required for the Control of Starch Degradation in Arabidopsis thaliana Leaves.

作者信息

Feike Doreen, Seung David, Graf Alexander, Bischof Sylvain, Ellick Tamaryn, Coiro Mario, Soyk Sebastian, Eicke Simona, Mettler-Altmann Tabea, Lu Kuan Jen, Trick Martin, Zeeman Samuel C, Smith Alison M

机构信息

John Innes Centre, Norwich Research Park, Norwich NR4 7UH, United Kingdom.

Department of Biology, Eidgenössische Technische Hochschule Zürich, CH-8092 Zürich, Switzerland.

出版信息

Plant Cell. 2016 Jun;28(6):1472-89. doi: 10.1105/tpc.16.00011. Epub 2016 May 20.

DOI:10.1105/tpc.16.00011
PMID:27207856
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4944407/
Abstract

To uncover components of the mechanism that adjusts the rate of leaf starch degradation to the length of the night, we devised a screen for mutant Arabidopsis thaliana plants in which starch reserves are prematurely exhausted. The mutation in one such mutant, named early starvation1 (esv1), eliminates a previously uncharacterized protein. Starch in mutant leaves is degraded rapidly and in a nonlinear fashion, so that reserves are exhausted 2 h prior to dawn. The ESV1 protein and a similar uncharacterized Arabidopsis protein (named Like ESV1 [LESV]) are located in the chloroplast stroma and are also bound into starch granules. The region of highest similarity between the two proteins contains a series of near-repeated motifs rich in tryptophan. Both proteins are conserved throughout starch-synthesizing organisms, from angiosperms and monocots to green algae. Analysis of transgenic plants lacking or overexpressing ESV1 or LESV, and of double mutants lacking ESV1 and another protein necessary for starch degradation, leads us to propose that these proteins function in the organization of the starch granule matrix. We argue that their misexpression affects starch degradation indirectly, by altering matrix organization and, thus, accessibility of starch polymers to starch-degrading enzymes.

摘要

为了揭示将叶片淀粉降解速率调整至夜间时长的机制的组成部分,我们设计了一个筛选拟南芥突变体植株的方法,这些突变体中淀粉储备会过早耗尽。在一个名为早期饥饿1(esv1)的此类突变体中,突变消除了一种此前未被鉴定的蛋白质。突变体叶片中的淀粉以非线性方式迅速降解,以至于在黎明前2小时储备就已耗尽。ESV1蛋白和一种类似的未被鉴定的拟南芥蛋白(名为类ESV1 [LESV])位于叶绿体基质中,并且也结合在淀粉粒中。这两种蛋白质之间相似度最高的区域包含一系列富含色氨酸的近乎重复的基序。这两种蛋白质在整个淀粉合成生物中都是保守的,从被子植物、单子叶植物到绿藻。对缺乏或过表达ESV1或LESV的转基因植株,以及对缺乏ESV1和另一种淀粉降解所需蛋白质的双突变体的分析,使我们提出这些蛋白质在淀粉粒基质的组织中发挥作用。我们认为它们的错误表达通过改变基质组织,进而影响淀粉聚合物对淀粉降解酶的可及性,间接影响淀粉降解。

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本文引用的文献

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