TALEN-mediated depletion of the mitochondrial gene orf312 proves that it is a Tadukan-type cytoplasmic male sterility-causative gene in rice.

Cytoplasmic male sterility (CMS) is a trait that causes pollen or anther dysfunctions, resulting in the lack of seed setting. CMS is considered to be caused by the expression of a unique mitochondrial open reading frame referred to as CMS-associated gene. orf312 has been reported as a CMS-associated gene of Tadukan-type CMS (TAA) in rice (Oryza sativa L.), which exhibits impaired anther dehiscence; however, evidence thereof has not yet been reported. Here, we took a loss-of-function approach, using a mitochondria-targeted transcription activator-like effector nuclease (mitoTALEN) designed to knock out orf312 in TAA, to prove that orf312 indeed is a CMS-causative gene. Out of 28 transgenic TAA plants harboring the mitoTALEN expression vector, deletion of orf312 was detected in 24 plants by PCR, Southern blot, and sequencing analyses. The 24 plants were grouped into three groups based on the deleted regions. All orf312-depleted TAA plants exhibited recovery of anther dehiscence and seed setting. The depletion of orf312 and fertility restoration was maintained in the next generation, even in mitoTALEN expression cassette null segregants. In contrast, orf312-retaining plants were sterile. These results provide robust evidence that orf312 is a Tadukan-type CMS-causative gene.

Identification of a Candidate Gene for the Novel Cytoplasmic Male Sterility Derived from Inter-Subspecific Crosses in Rice (Oryza sativa L.).

Tetep-cytoplasmic male sterility (CMS) was developed through successive backcrosses between subspecies indica and japonica in rice (Oryza sativa L.), which showed abnormal anther dehiscence phenotypes. Whole genome sequencing and de novo assembly of the mitochondrial genome identified the chimeric gene orf312, which possesses a transmembrane domain and overlaps with two mitotype-specific sequences (MSSs) that are unique to the Tetep-CMS line. The encoded peptide of orf312 was toxic to Escherichia coli and inhibited cell growth compared to the control under isopropyl-ß-D-1-thiogalactopyranoside (IPTG) induction. The peptide of orf312 contains COX11-interaction domains, which are thought to be a main functional domain for WA352c in the wild abortive (WA-CMS) line of rice. A QTL for Rf-Tetep (restorer-of-fertility gene(s) originating from Tetep) was identified on chromosome 10. In this region, several restorer genes, Rf1a, Rf1b, and Rf4, have previously been reported. Collectively, the interactions of orf312, a candidate gene for Tetep-CMS, and Rf-Tetep, a restorer QTL, confer male sterility and fertility restoration, respectively, which enables a hybrid rice breeding system. Further studies on orf312 and isolation of Rf-Tetep will help to identify the underlying molecular mechanism of mitochondrial ORFs with the COX11-interaction domains.