Y
Yukihiro Kabeya
Researcher at National Institute of Genetics
Publications - 22
Citations - 1967
Yukihiro Kabeya is an academic researcher from National Institute of Genetics. The author has contributed to research in topics: Chloroplast & Physcomitrella patens. The author has an hindex of 17, co-authored 22 publications receiving 1847 citations. Previous affiliations of Yukihiro Kabeya include Saitama Prefecture & Saitama University.
Papers
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Journal ArticleDOI
Genome sequence of the ultrasmall unicellular red alga Cyanidioschyzon merolae 10D
Motomichi Matsuzaki,Osami Misumi,Tadasu Shin-I,Shinichiro Maruyama,Manabu Takahara,Shin-ya Miyagishima,Toshiyuki Mori,Keiji Nishida,Fumi Yagisawa,Keishin Nishida,Yamato Yoshida,Yoshiki Nishimura,Shunsuke Nakao,Tamaki Kobayashi,Yu Momoyama,Tetsuya Higashiyama,Ayumi Minoda,Masako Sano,Hisayo Nomoto,Kazuko Oishi,Hiroko Hayashi,Fumiko Ohta,Satoko Nishizaka,Shinobu Haga,Sachiko Miura,Tomomi Morishita,Yukihiro Kabeya,Kimihiro Terasawa,Yutaka Suzuki,Yasuyaki Ishii,Shuichi Asakawa,Hiroyoshi Takano,Niji Ohta,Haruko Kuroiwa,Kan Tanaka,Nobuyoshi Shimizu,Sumio Sugano,Naoki Sato,Hisayoshi Nozaki,Naotake Ogasawara,Yuji Kohara,Tsuneyoshi Kuroiwa +41 more
TL;DR: The results indicate that the C. merolae genome provides a model system with a simple gene composition for studying the origin, evolution and fundamental mechanisms of eukaryotic cells.
Journal ArticleDOI
The Mitochondrial Genome of the Moss Physcomitrella patens Sheds New Light on Mitochondrial Evolution in Land Plants
Kimihiro Terasawa,Masaki Odahara,Yukihiro Kabeya,Yukihiro Kabeya,Tatsuhiko Kikugawa,Yasuhiko Sekine,Makoto T. Fujiwara,Naoki Sato +7 more
TL;DR: The phylogenetic analysis as well as the syntenic structure suggest that the mitochondrial genomes of Physcomitrella and Marchantia retain prototype features among land plant mitochondrial genomes.
Journal ArticleDOI
The PLASTID DIVISION1 and 2 components of the chloroplast division machinery determine the rate of chloroplast division in land plant cell differentiation.
Kumiko Okazaki,Yukihiro Kabeya,Kenji Suzuki,Toshiyuki Mori,Takanari Ichikawa,Minami Matsui,Hiromitsu Nakanishi,Shin-ya Miyagishima +7 more
TL;DR: It is suggested that the integration of PDV proteins into the division machinery enabled land plant cells to change chloroplast size and number in accord with the fate of cell differentiation.
Book ChapterDOI
Organization, developmental dynamics, and evolution of plastid nucleoids.
TL;DR: A revised hypothesis on the discontinuous evolution ofplastid genomic machinery is presented: despite the cyanobacterial origin of plastids, the genomic machinery of the plastid genome is fundamentally different from its counterpart in cyanobacteria.
Journal ArticleDOI
Plant-Specific Protein MCD1 Determines the Site of Chloroplast Division in Concert with Bacteria-Derived MinD
TL;DR: The results point out differences in the MinD localization mechanism between chloroplasts and bacterial model systems and suggest that the plant cell evolved a component to modulate the cyanobacteria-derived Min system so as to regulate chloroplast FtsZ ring positioning.