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依赖EXECUTER1和EXECUTER2的拟南芥中应激相关信号从质体到细胞核的传递

EXECUTER1- and EXECUTER2-dependent transfer of stress-related signals from the plastid to the nucleus of Arabidopsis thaliana.

作者信息

Lee Keun Pyo, Kim Chanhong, Landgraf Frank, Apel Klaus

机构信息

Institute of Plant Sciences, Plant Genetics, Swiss Federal Institute of Technology (ETH), CH-8092 Zurich, Switzerland.

出版信息

Proc Natl Acad Sci U S A. 2007 Jun 12;104(24):10270-5. doi: 10.1073/pnas.0702061104. Epub 2007 May 31.

DOI:10.1073/pnas.0702061104
PMID:17540731
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1891253/
Abstract

Shortly after the release of singlet oxygen ((1)O2), drastic changes in nuclear gene expression occur in the conditional flu mutant of Arabidopsis that reveal a rapid transfer of signals from the plastid to the nucleus. In contrast to retrograde control of nuclear gene expression by plastid signals described earlier, the primary effect of (1)O2 generation in the flu mutant is not the control of chloroplast biogenesis but the activation of a broad range of signaling pathways known to be involved in biotic and abiotic stress responses. This activity of a plastid-derived signal suggests a new function of the chloroplast, namely that of a sensor of environmental changes that activates a broad range of stress responses. Inactivation of the plastid protein EXECUTER1 attenuates the extent of (1)O2-induced up-regulation of nuclear gene expression, but it does not fully eliminate these changes. A second related nuclear-encoded protein, dubbed EXECUTER2, has been identified that is also implicated with the signaling of (1)O2-dependent nuclear gene expression changes. Like EXECUTER1, EXECUTER2 is confined to the plastid. Inactivation of both EXECUTER proteins in the ex1/ex2/flu triple mutant is sufficient to suppress the up-regulation of almost all (1)O2-responsive genes. Retrograde control of (1)O2-responsive genes requires the concerted action of both EXECUTER proteins within the plastid compartment.

摘要

单线态氧((1)O2)释放后不久,拟南芥条件性荧光突变体的核基因表达就会发生剧烈变化,这揭示了信号从质体快速传递到细胞核。与之前描述的质体信号对核基因表达的逆向调控不同,flu突变体中(1)O2产生的主要作用不是控制叶绿体生物发生,而是激活一系列已知参与生物和非生物胁迫反应的信号通路。这种质体衍生信号的活性表明叶绿体具有一种新功能,即作为环境变化的传感器,激活一系列胁迫反应。质体蛋白EXECUTER1的失活减弱了(1)O2诱导的核基因表达上调程度,但并未完全消除这些变化。已鉴定出另一种相关的核编码蛋白,称为EXECUTER2,它也与(1)O2依赖性核基因表达变化的信号传导有关。与EXECUTER1一样,EXECUTER2也局限于质体。ex1/ex2/flu三重突变体中两种EXECUTER蛋白的失活足以抑制几乎所有(1)O2响应基因的上调。(1)O2响应基因的逆向调控需要质体区室内两种EXECUTER蛋白的协同作用。

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