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质体转化酶的功能获得性突变改变了核基因表达,蔗糖处理部分通过基因组不偶联 1 介导的信号转导。

A gain-of-function mutation of plastidic invertase alters nuclear gene expression with sucrose treatment partially via GENOMES UNCOUPLED1-mediated signaling.

机构信息

Department of Advanced Bioscience, Faculty of Agriculture, Kinki University, Nakamachi, Nara, 631-8505, Japan.

Department of Life Science and Biotechnology, Faculty of Life and Environmental Science, Shimane University, 1060 Nishikawatsu, Matsue, Shimane, 690-8504, Japan.

出版信息

New Phytol. 2015 May;206(3):1013-1023. doi: 10.1111/nph.13309. Epub 2015 Jan 27.

DOI:10.1111/nph.13309
PMID:25628228
Abstract

Plastid gene expression (PGE) is one of the signals that regulate the expression of photosynthesis-associated nuclear genes (PhANGs) via GENOMES UNCOUPLED1 (GUN1)-dependent retrograde signaling. We recently isolated Arabidopsis sugar-inducible cotyledon yellow-192 (sicy-192), a gain-of-function mutant of plastidic invertase, and showed that following the treatment of this mutant with sucrose, the expression of PhANGs as well as PGE decreased, suggesting that the sicy-192 mutation activates a PGE-evoked and GUN1-mediated retrograde pathway. To clarify the relationship between the sicy-192 mutation, PGE, and GUN1-mediated pathway, plastid and nuclear gene expression in a double mutant of sicy-192 and gun1-101, a null mutant of GUN1 was studied. Plastid-encoded RNA polymerase (PEP)-dependent PGE was markedly suppressed in the sicy-192 mutant by the sucrose treatment, but the suppression as well as cotyledon yellow phenotype was not mitigated by GUN1 disruption. Microarray analysis revealed that the altered expression of nuclear genes such as PhANG in the sucrose-treated sicy-192 mutant was largely dependent on GUN1. The present findings demonstrated that the sicy-192 mutation alters nuclear gene expression with sucrose treatment via GUN1, which is possibly followed by inhibiting PEP-dependent PGE, providing a new insight into the role of plastid sugar metabolism in nuclear gene expression.

摘要

质体基因表达(PGE)是通过 GENOMES UNCOUPLED1(GUN1)依赖性逆行信号调节光合作用相关核基因(PhANGs)表达的信号之一。我们最近分离出拟南芥糖诱导子叶黄 192(sicy-192),一种质体转化酶的功能获得突变体,并表明该突变体在用蔗糖处理后,PhANGs 的表达以及 PGE 减少,这表明 sicy-192 突变激活了 PGE 诱发的和 GUN1 介导的逆行途径。为了阐明 sicy-192 突变、PGE 和 GUN1 介导的途径之间的关系,我们研究了 sicy-192 和 gun1-101 的双突变体中质体和核基因的表达,gun1-101 是 GUN1 的 null 突变体。蔗糖处理明显抑制了 sicy-192 突变体中质体编码 RNA 聚合酶(PEP)依赖性 PGE,但是抑制以及子叶黄表型没有被 GUN1 缺失所缓解。微阵列分析表明,蔗糖处理的 sicy-192 突变体中核基因如 PhANG 的表达改变在很大程度上依赖于 GUN1。本研究结果表明,sicy-192 突变通过 GUN1 改变了核基因的表达,用蔗糖处理,可能随后抑制 PEP 依赖性 PGE,为质体糖代谢在核基因表达中的作用提供了新的见解。

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