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逆行调控雄性不育的抑制表达可恢复细胞质雄性不育水稻植株的花粉育性。

Suppressed expression of Retrograde-Regulated Male Sterility restores pollen fertility in cytoplasmic male sterile rice plants.

作者信息

Fujii Sota, Toriyama Kinya

机构信息

Laboratory of Environmental Biotechnology, Graduate School of Agricultural Science, Tohoku University, Sendai, Japan.

出版信息

Proc Natl Acad Sci U S A. 2009 Jun 9;106(23):9513-8. doi: 10.1073/pnas.0901860106. Epub 2009 May 20.

DOI:10.1073/pnas.0901860106
PMID:19458265
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2695074/
Abstract

Conflict/reconciliation between mitochondria and nuclei in plants is manifested by the fate of pollen (viable or nonviable) in the cytoplasmic male sterility (CMS)/fertility restoration (Rf) system. Through positional cloning, we identified a nuclear candidate gene, RETROGRADE-REGULATED MALE STERILITY (RMS) for Rf17, a fertility restorer gene for Chinese wild rice (CW)-type CMS in rice (Oryza sativa L.). RNA interference-mediated gene silencing of RMS restored fertility to a CMS plant, whereas its overexpression in the fertility restorer line induced pollen abortion. The mRNA expression level of RMS in mature anthers depended on cytoplasmic genotype, suggesting that RMS is a candidate gene to be regulated via retrograde signaling. We found that a reduced-expression allele of the RMS gene restored fertility in haploid pollen, whereas a normal-expression allele caused pollen to die in the CW-type CMS. RMS encodes a mitochondrial protein, 178 aa in length, of unknown function, unlike the majority of other Rf genes cloned thus far, which encode pentatricopeptide repeat proteins. The unique features of RMS provide novel insights into retrograde signaling and CMS.

摘要

植物中线粒体与细胞核之间的冲突/协调表现为细胞质雄性不育(CMS)/育性恢复(Rf)系统中花粉的命运(可育或不育)。通过定位克隆,我们鉴定出一个水稻(Oryza sativa L.)中针对中国野生稻(CW)型CMS育性恢复基因Rf17的核候选基因,即逆行调控雄性不育(RMS)。RNA干扰介导的RMS基因沉默使CMS植株恢复育性,而其在育性恢复系中的过表达则导致花粉败育。RMS在成熟花药中的mRNA表达水平取决于细胞质基因型,这表明RMS是一个可能通过逆行信号传导进行调控的候选基因。我们发现,RMS基因的低表达等位基因可恢复单倍体花粉的育性,而正常表达等位基因则会导致CW型CMS中的花粉死亡。RMS编码一种长度为178个氨基酸的线粒体蛋白,其功能未知,这与迄今为止克隆的大多数其他Rf基因不同,后者编码五肽重复蛋白。RMS的独特特征为逆行信号传导和CMS提供了新的见解。

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