红莲型细胞质雄性不育水稻品系表现出F0F1-ATP酶的F0异常。

A Honglian CMS line of rice displays aberrant F0 of F0F1-ATPase.

作者信息

Zhang Hong, Li Shaoqing, Yi Ping, Wan Cuixiang, Chen Zuyu, Zhu Yingguo

机构信息

Key Laboratory of MOE for Plant Developmental Biology, College of Life Sciences, Wuhan University, Wuhan, Hubei 430072, People's Republic of China.

出版信息

Plant Cell Rep. 2007 Jul;26(7):1065-71. doi: 10.1007/s00299-006-0293-4. Epub 2007 Jan 17.

DOI:10.1007/s00299-006-0293-4

PMID:17226056

Abstract

Honglian (HL) is one of the three major types of cytoplasmic male sterility (CMS) of rice (Oryza sativa L) that has been commercially used in hybrid production. In previous studies, the CMS in HL is shown to be associated with a chimeric gene orfH79 that is cotranscribed with an extra atp6 in mitochondria. This study demonstrated that the intact F0F1-ATPase in HL CMS line was specifically reduced in both of its protein quantity and enzyme activity, whereas its F1 sector was not affected. It implies that the F0 sector presents a labile linkage with F1. In the presence of fertility restorer gene, F0F1-ATPase can be recovered. Furthermore, orfH79 transcripts were preferentially polyadenylated, and consequently degraded rapidly in florets of the restored hybrid plants, indicating that the atp6-orfH79 is involved in the sterile phenotype. With inhibition of cytochrome pathway of electron transfer chain, the biomass of the sterile plants grown in dark was significantly lower than that of the fertile lines. However, the respiration measurements showed an increase in the electron transferring capacity in the sterile plants, suggesting that the reduction of biomass in sterile line was caused by the disruption of F0F1-ATPase.

摘要

红莲（HL）是水稻（Oryza sativa L）三种主要细胞质雄性不育（CMS）类型之一，已在杂交生产中商业化应用。在先前的研究中，HL中的CMS与一个嵌合基因orfH79相关，该基因与线粒体中的一个额外的atp6共转录。本研究表明，HL CMS系中完整的F0F1 - ATP酶的蛋白量和酶活性均特异性降低，而其F1部分未受影响。这意味着F0部分与F1呈现不稳定的连接。在存在育性恢复基因的情况下，F0F1 - ATP酶可以恢复。此外，orfH79转录本优先进行多聚腺苷酸化，因此在恢复的杂交植物的小花中迅速降解，表明atp6 - orfH79参与了不育表型。通过抑制电子传递链的细胞色素途径，在黑暗中生长的不育植株的生物量显著低于可育系。然而，呼吸测量显示不育植株的电子传递能力增加，这表明不育系生物量的减少是由F0F1 - ATP酶的破坏引起的。

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红莲型细胞质雄性不育水稻品系表现出F0F1-ATP酶的F0异常。

A Honglian CMS line of rice displays aberrant F0 of F0F1-ATPase.

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