著者
Hiroyuki Ichida Tomohiko Kazama Shin-ichi Arimura Kinya Toriyama
出版者
Japanese Society for Plant Biotechnology
雑誌
Plant Biotechnology (ISSN:13424580)
巻号頁・発行日
vol.40, no.1, pp.109-112, 2023-03-25 (Released:2023-03-25)
参考文献数
11

A highly contiguous mitochondrial and plastid genome sequences of a japonica rice cultivar, Taichung 65, were determined by a hybrid approach with long- and short-read sequences. The assembled mitochondrial genome was 465,453 bases in length with an overall GC content of 43.8%. It was predicted to harbor 62 protein-encoding genes, 16 kinds (33 copies) of transfer RNA, and three kinds (six copies) of ribosomal RNA genes. The mitochondrial genome structure in Taichung 65 is largely the same as that of Nipponbare, but the first ∼9.5 kb sequence in Nipponbare (DQ167400) is replaced with a ∼27 kb sequence duplicated from other parts of the mitochondrial genome. Phylogenetic and sequence polymorphism analysis indicated that Taichung 65 is classified as typical japonica. The assembled plastid genome sequence was 134,551 bases in length and completely identical to the previously reported Nipponbare sequence. These near-complete organelle genome sequences will serve as fundamental resources for investigating alloplasmic cytoplasmic male sterile lines and other organelle-controlled phenomena in rice.
著者
Kinya Toriyama
出版者
Japanese Society for Plant Biotechnology
雑誌
Plant Biotechnology (ISSN:13424580)
巻号頁・発行日
vol.38, no.3, pp.285-295, 2021-09-25 (Released:2021-09-25)
参考文献数
79
被引用文献数
20

Cytoplasmic male sterility (CMS) is a maternally inherited trait that causes dysfunctions in pollen and anther development. CMS is caused by the interaction between nuclear and mitochondrial genomes. A product of a CMS-causing gene encoded by the mitochondrial genome affects mitochondrial function and the regulation of nuclear genes, leading to male sterility. In contrast, the RESTORER OF FERTILITY gene (Rf gene) in the nuclear genome suppresses the expression of the CMS-causing gene and restores male fertility. An alloplasmic CMS line is often bred as a result of nuclear substitution, which causes the removal of functional Rf genes and allows the expression of a CMS-causing gene in mitochondria. The CMS/Rf system is an excellent model for understanding the genetic interactions and cooperative functions of mitochondrial and nuclear genomes in plants, and is also an agronomically important trait for hybrid seed production. In this review article, pollen and anther phenotypes of CMS, CMS-associated mitochondrial genes, Rf genes, and the mechanism that causes pollen abortion and its agronomical application for rice are described.