OsVPS9A 与 OsRAB5A 协同作用，调节高尔基体后致密囊泡介导的贮藏蛋白向水稻胚乳细胞蛋白体腔的运输。

OsVPS9A functions cooperatively with OsRAB5A to regulate post-Golgi dense vesicle-mediated storage protein trafficking to the protein storage vacuole in rice endosperm cells.

机构信息

State Key Laboratory for Crop Genetics and Germplasm Enhancement, Jiangsu Plant Gene Engineering Research Center, Nanjing Agricultural University, Nanjing 210095, China.

出版信息

Mol Plant. 2013 Nov;6(6):1918-32. doi: 10.1093/mp/sst081. Epub 2013 May 30.

DOI:10.1093/mp/sst081

PMID:23723154

Abstract

In the rice endosperm cells, glutelins are synthesized on rough endoplasmic reticulum as proglutelins and are sorted to the protein storage vacuoles (PSVs) called protein body IIs (PBIIs), where they are converted to the mature forms. Dense vesicle (DV)-mediated trafficking of proglutelins in rice seeds has been proposed, but the post-Golgi control of this process is largely unknown. Whether DV can fuse directly with PSV is another matter of debate. In this study, we propose a regulatory mechanism underlying DV-mediated, post-Golgi proglutelin trafficking to PBII (PSV). gpa2, a loss-of-function mutant of OsVPS9A, which encodes a GEF of OsRAB5A, accumulated uncleaved proglutelins. Proglutelins were mis-targeted to the paramural bodies and to the apoplast along the cell wall in the form of DVs, which led to a concomitant reduction in PBII size. Previously reported gpa1, mutated in OsRab5a, has a similar phenotype, while gpa1gpa2 double mutant exacerbated the conditions. In addition, OsVPS9A interacted with OsRAB5A in vitro and in vivo. We concluded that OsVPS9A and OsRAB5A may work together and play a regulatory role in DV-mediated post-Golgi proglutelin trafficking to PBII (PSV). The evidence that DVs might fuse directly to PBII (PSV) to deliver cargos is also presented.

摘要

在水稻胚乳细胞中，谷蛋白在粗面内质网上合成前谷蛋白，并被分拣到称为蛋白体 II（PBII）的蛋白储存液泡中，在那里它们被转化为成熟形式。已经提出了水稻种子中前谷蛋白通过致密小泡（DV）介导的运输，但该过程的高尔基体后调控在很大程度上尚不清楚。DV 是否可以直接与 PSV 融合是另一个有争议的问题。在这项研究中，我们提出了一个调节机制，用于 DV 介导的高尔基体后前谷蛋白向 PBII（PSV）的运输。gpa2 是 OsVPS9A 的功能丧失突变体，该基因编码 OsRAB5A 的 GEF，积累了未切割的前谷蛋白。前谷蛋白被错误靶向到壁旁体，并以 DV 的形式沿着细胞壁靶向细胞外质，这导致 PBII 大小相应减小。先前报道的 gpa1，在 OsRab5a 中发生突变，具有类似的表型，而 gpa1gpa2 双突变体则使情况恶化。此外，OsVPS9A 在体外和体内与 OsRAB5A 相互作用。我们得出结论，OsVPS9A 和 OsRAB5A 可能协同作用，在 DV 介导的高尔基体后前谷蛋白向 PBII（PSV）的运输中发挥调节作用。还提出了 DV 可能直接融合到 PBII（PSV）以输送货物的证据。

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OsVPS9A 与 OsRAB5A 协同作用，调节高尔基体后致密囊泡介导的贮藏蛋白向水稻胚乳细胞蛋白体腔的运输。

OsVPS9A functions cooperatively with OsRAB5A to regulate post-Golgi dense vesicle-mediated storage protein trafficking to the protein storage vacuole in rice endosperm cells.

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