Molecular Mechanisms of Development and Differenciation in plant
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論文 (21件):
Sayuri Ando, Mika Nomoto, Hidekazu Iwakawa, Simon Vial-Pradel, Lilan Luo, Michiko Sasabe, Iwai Ohbayashi, Kotaro T. Yamamoto, Yasuomi Tada, Munetaka Sugiyama, et al. Arabidopsis ASYMMETRIC LEAVES2 and Nucleolar Factors Are Coordinately Involved in the Perinucleolar Patterning of AS2 Bodies and Leaf Development. Plants. 2023. 12. 20. 3621-3621
Yasunori Machida, Takanori Suzuki, Michiko Sasabe, Hidekazu Iwakawa, Shoko Kojima, Chiyoko Machida. Arabidopsis ASYMMETRIC LEAVES2 (AS2): roles in plant morphogenesis, cell division, and pathogenesis. Journal of Plant Research. 2021
A. Dosho, S. Ando, K. Tsutsumiuchi, S. Kojima, J. Miwa, C. Machida, S. Matsumoto. Production of Virus-free Vitis Vinifera ‘koshu’ Plantlets From Shoot Tips or Axillary Buds. Research Square. 2020
Hiro Takahashi, Noriya Hayashi, Yuta Hiragori, Shun Sasaki, Taichiro Motomura, Yui Yamashita, Satoshi Naito, Anna Takahashi, Kazuyuki Fuse, Kenji Satou, et al. Comprehensive genome-wide identification of angiosperm upstream ORFs with peptide sequences conserved in various taxonomic ranges using a novel pipeline, ESUCA. BMC genomics. 2020. 21. 1. 260-260
Vial-Pradel S, Hasegawa Y, Nakagawa A, Miyaki S, Machida Y, Kojima S, Machida C, Takahashi H. SIMON: Simple methods for analyzing DNA methylation by targeted bisulfite next-generation sequencing. Plant Biotechnology. 2020
Mechanisms of T-DNA transfer and integration into plant chromosomes.(jointly worked)
In Molecular machanismes of bacterial virulence. Kluwer Academic Pubulishers 1994
Works (2件):
イネQTLに関する遺伝子ネットワークのゲノム生物学的解明
1998 - 2000
Molecular Genetic Analysis of QTLs in Rice Plants.
1998 - 2000
学歴 (4件):
- 1994 名古屋大学 理学研究科 生物学
- 1994 名古屋大学
- 1992 名古屋大学 理学部 生物学科
- 1992 名古屋大学
学位 (1件):
博士(理学) (名古屋大学)
経歴 (5件):
2001/04 - 現在 中部大学 応用生物学部
1994 - 2001 農林水産先端技術研究所 研究員
1994 - 2001 Institute of the Society for Techno-innovation
Researcher
of Agriculture, Forestry and Fisheries,
受賞 (1件):
日本植物生理学会 日本植物学会論文賞 Hd3a, a rice ortholog of the Arabidopsis FT gene, promotes transition to flowering downstream of Hd1 under short-day conditions.