Cytoplasmic male sterility: Sterility induction, fertility restoration and gene-for-gene interaction of CMS/Rf genes

IF 4.1 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Plant Science Pub Date : 2025-08-14 DOI:10.1016/j.plantsci.2025.112721

Ahmad Ali, Muhammad Zeeshan Mola Bakhsh, Shipeng Li, Xiaoyu Zhang, Jinxing Tu, Bin Yi

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Abstract

Cytoplasmic male sterility (CMS) is a maternally inherited agronomic trait. The CMS lines cannot produce viable pollens (incomplete or nonfunctional), properly dehisce pollen, germinate on the stigma or be accessible to the stigma, thus unable to fertilize the ovule/ egg. Although CMS is not beneficial to the plants itself, it is a valuable resource for hybrid breeding. CMS is caused by the mitochondrial genome carrying chimeric genes (orfs), which frequently originate in the re-arrangements of the mitochondrial genome. The nuclear genome's restorer-of-fertility (Rf) gene suppresses the CMS conditions to restore fertility. The Rf genes interact with CMS-inducing genes at various levels to regulate their activity and restore fertility. In various crop species, different cytotypes carry specific CMS-inducing genes, which require a specific Rf gene for fertility restoration. Although some Rf genes can restore the fertility of more than one cytotype, most cytotypes require specific Rf genes. In this review, we briefly discussed the specificity of Rf genes and cytotypes based on B. napus, Oryza spp, and H. annuus. The findings from these crop species suggest that the relationship of CMS/Rf genes occurs in a gene-for-gene fashion. However, the molecular mechanism behind the Rf-cytotype specificity is not much understood. Studying the in-vitro expression system can help to elucidate the relationship between the CMS and Rf genes. The evolution of PPR in response to the emergence of CMS-inducing mitochondrial orfs and the induction of male sterility via genome editing technologies is also briefly discussed.

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细胞质雄性不育：不育诱导、育性恢复和CMS/Rf基因间的相互作用。

细胞质雄性不育是一种母系遗传农艺性状。不育系不能产生有活力的花粉（不完整或无功能），不能正确地分裂花粉，不能在柱头上发芽或接近柱头，因此不能使胚珠/卵受精。虽然CMS对植株本身没有好处，但它是一种宝贵的杂交育种资源。CMS是由线粒体基因组携带嵌合基因（chimeric genes, orfs）引起的，通常起源于线粒体基因组的重排。核基因组的育性恢复（Rf）基因抑制CMS条件以恢复育性。Rf基因在不同水平上与cms诱导基因相互作用，调节其活性并恢复生育能力。在不同的作物物种中，不同的细胞型携带特定的cms诱导基因，这些基因需要一个特定的Rf基因来恢复育性。虽然一些Rf基因可以恢复多种细胞型的生育能力，但大多数细胞型需要特定的Rf基因。本文以甘油三酯（B. napus）、稻瘟病菌（Oryza spp）和环孢菌（H. annuus）为研究对象，简要讨论了Rf基因的特异性和细胞型。来自这些作物物种的研究结果表明，CMS/Rf基因的关系是以基因对基因的方式发生的。然而，rf细胞型特异性背后的分子机制尚不清楚。研究体外表达系统有助于阐明CMS与Rf基因之间的关系。还简要讨论了小反刍兽疫的进化，以应对cms诱导线粒体orfs的出现和通过基因组编辑技术诱导男性不育。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Plant Science 生物-生化与分子生物学

CiteScore

9.10

自引率

1.90%

发文量

322

审稿时长

33 days

期刊介绍： Plant Science will publish in the minimum of time, research manuscripts as well as commissioned reviews and commentaries recommended by its referees in all areas of experimental plant biology with emphasis in the broad areas of genomics, proteomics, biochemistry (including enzymology), physiology, cell biology, development, genetics, functional plant breeding, systems biology and the interaction of plants with the environment. Manuscripts for full consideration should be written concisely and essentially as a final report. The main criterion for publication is that the manuscript must contain original and significant insights that lead to a better understanding of fundamental plant biology. Papers centering on plant cell culture should be of interest to a wide audience and methods employed result in a substantial improvement over existing established techniques and approaches. Methods papers are welcome only when the technique(s) described is novel or provides a major advancement of established protocols.