Cytoplasmic male sterility (CMS) is a maternally inherited trait resulting in the failure to produce functional pollen and is often observed when an alien cytoplasm is transferred into a cultivated species. An RT98A CMS line and an RT98C fertility restorer line were obtained by successive backcrossing between Oryza rufipogon W1109 and Oryza sativa cultivar Taichung 65. To uncover the CMS-associated mitochondrial genes, we determined the complete sequence of the RT98-CMS mitochondrial genome using next-generation pyrosequencing, and searched new open reading frames (orfs) absent in a reported mitochondrial genome of O. sativa Nipponbare. Then, six candidates were selected for the CMS-associated genes based on the criteria in which they were chimeric in structure or encoded a peptide with transmembrane domains. One of the candidates, orf113, showed different transcript sizes between RT98A and RT98C on Northern blot analysis. The orf113 gene was shown to be co-transcribed with atp4 and cox3 encoding ATP synthase F0 subunit 4 and Cyt c oxidase subunit 3, respectively, and their transcripts were distinctly processed in the presence of a fertility restorer gene. Our results indicate that orf113 is a CMS-associated gene of RT98-CMS.
Cytoplasmic male sterility (CMS) lines in rice, which have the cytoplasm of a wild species and the nuclear genome of cultivated rice, are of value for the study of genetic interactions between the mitochondrial and nuclear genomes. The RT98-type CMS line RT98A and the fertility restorer line RT98C carry the cytoplasm of the wild species Oryza rufipogon and the nuclear genome of the Taichung 65 cultivar (Oryza sativa L.). Based on a classical crossing experiment, fertility is reported to be restored gametophytically by the presence of a tentative single gene, designated Rf98, which is derived from the cytoplasm donor. Fine mapping of Rf98 revealed that at least two genes, which are closely positioned, are required for complete fertility restoration in RT98A. Here, we identified seven pentatricopeptide repeat (PPR) genes that are located within a 170 kb region as candidates for Rf98 Complementation tests revealed that the introduction of one of these PPR genes, PPR762, resulted in the partial recovery of fertility with a seed setting rate up to 9.3%. We conclude that PPR762 is an essential fertility restorer gene for RT98-type CMS. The low rate of seed setting suggested that some other genes near the Rf98 locus are also necessary for the full recovery of seed setting.
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