Abe Fumitaka

アベフミタカ | Abe Fumitaka

Affiliation and department：
Other affiliations (1)：

National Agriculture and Food Research Organization Institute of Crop Science, NARO, Division of Wheat and Barley Research, Wheat and Barley Quality and Applied Genomics Research Unit

Research field (1)： Molecular biology

Research keywords (7)： wheat , genome editing , genetic transformation , preharvest sprouting , waterlogging , rice , low temperature tolerance

Research theme for competitive and other funds (5)：

2023 - 2027 ムギ類種子休眠性の精密制御と分子育種法の確立
2022 - 2025 Elucidation of the mechanism of wheat floret development arrest
2019 - 2023 ムギ類種子休眠性遺伝子の分子進化機構の解明と精密育種技術の開発
2008 - 2010 Identification of genes affecting the efficiency of genetic transformation in wheat.
1999 - 2001 シアン耐性呼吸の耐冷性における役割の解明と遺伝子工学的改変による耐冷性イネの作出

Papers (36)：

Soichiro Asuke, Kohei Morita, Motoki Shimizu, Fumitaka Abe, Ryohei Terauchi, Chika Nago, Yoshino Takahashi, Mai Shibata, Motohiro Yoshioka, Mizuki Iwakawa, et al. Evolution of wheat blast resistance gene Rmg8 accompanied by differentiation of variants recognizing the powdery mildew fungus. Nature plants. 2024
Eiko Himi, Shiho Kurihara-Yonemoto, Fumitaka Abe, Hidekazu Takahashi, Keisuke Tanaka, Takakazu Matsuura, Masahiko Maekawa, Takuji Sasaki, Kazuhide Rikiishi. Tamyb10-D1 restores red grain color and increases grain dormancy via suppressing expression of TaLTP2.128, non-specific lipid transfer protein in wheat. Euphytica. 2024. 220. 16
Fumitaka Abe, Masahiko Mori, Shingo Nakamura. Functional Analysis of Seed Dormancy Genes by Biolistic Transient Gene Expression in Immature Embryos of Wheat. Methods in molecular biology (Clifton, N.J.). 2024. 2830. 131-136
Fumitaka Abe, Yoko Kamiya, Yuji Ishida, Hiroshi Hisano, Kanako Kawaura, Toshihiko Komari, Kazuhiro Sato. Genome Editing to Produce Knockout Mutations of Seed Dormancy Genes in Wheat. Methods in molecular biology (Clifton, N.J.). 2024. 2830. 137-148
Yuanjie Weng, Ryosuke Mega, Fumitaka Abe, Hisashi Tsujimoto, Masanori Okamoto. Metabolic profiles in drought-tolerant wheat with enhanced abscisic acid sensitivity. PloS one. 2024. 19. 7. e0307393

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MISC (16)：

安倍史高, 加星光子, 佐藤和広. Toward the practical application of genome edited wheat. アグリバイオ. 2022. 6. 9
安倍史高, 佐藤和広. 〈バイテク・スマート育種技術〉5 ゲノム編集で迅速にコムギの穂発芽耐性を改良. グリーンテクノ情報. 2020. 16. 1
安倍史高, 佐藤和広. Improvement of tolerance to pre-harvest sprouting in wheat by genome editing. JATAFFジャーナル. 2020. 8. 10
安倍史高, ハクエムダドウル, 久野裕, 田中剛, 神谷容子, 三上雅史, 川浦香奈子, 遠藤真咲, 大西一光, 林武司, et al. ゲノム編集技術による穂発芽耐性の改良されたコムギ育種素材. 農研機構次世代作物開発研究センター成果情報(Web). 2019. 2019
安倍史高. 有用植物のゲノム編集穀物 2 コムギにおけるゲノム編集(1). アグリバイオ. 2017. 1. 1. 15-16

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Patents (2)：

Books (5)：

Lectures and oral presentations (79)：

Molecular and physiological analyses of abscisic acid receptor-mediated disease resistance in wheat
(育種学研究 2024)
Creating multiplex genome-edited wheat mutants using the arrayed tRNA-gRNA system
(育種学研究 2024)
Cloning of Rmg8, a gene for resistance to the wheat blast fungus in hexaploid wheat
(育種学研究 2023)
Developing naked barley for brewing through site-directed mutagenesis
(育種学研究 2023)
Effect of targeted base substitution in miR172 binding site on TaAP2 on anther extrusion in wheat
(育種学研究 2023)

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Professional career (1)：

Work history (3)：

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