Takuya Yamaguchi

Affiliation and department：

Research field (2)： Plant genetics and breeding , Crop production science

Research theme for competitive and other funds (2)：

2019 - 2020 稲作の省力化に寄与する遺伝子の機能解明および集積系統の開発
2013 - 2018 Functional analysis and pyramiding effects of quantitative trait locus for improving yield potential of direct seeded rice

Papers (10)：

Masahiro Yamashita, Chikako Ootsuka, Hikaru Kubota, Shunsuke Adachi, Takuya Yamaguchi, Kazumasa Murata, Toshio Yamamoto, Tadamasa Ueda, Taiichiro Ookawa, Tadashi Hirasawa. Alleles of high-yielding indica rice that improve root hydraulic conductance also increase flag leaf photosynthesis, biomass, and grain production of japonica rice in the paddy field. Field Crops Research. 2022. 289. 108725-108725
Taiichiro Ookawa, Tomohiro Nomura, Eri Kamahora, Mingjin Jiang, Yusuke Ochiai, Ahmad Fahim Samadi, Takuya Yamaguchi, Shunsuke Adachi, Keisuke Katsura, Takashi Motobayashi. Pyramiding of multiple strong-culm genes originating from indica and tropical japonica to the temperate japonica rice. Scientific reports. 2022. 12. 1. 15400-15400
Tomio Nishimura, Kazuhiro Sasaki, Takuya Yamaguchi, Hirokazu Takahashi, Junko Yamagishi, Yoichiro Kato. Detection and characterization of quantitative trait loci for coleoptile elongation under anaerobic conditions in rice. Plant Production Science. 2020
Takehara K, Murata K, Yamaguchi T, Yamaguchi K, Chaya G, Kido S, Iwasaki Y, Ogiwara H, Ebitani T, Miura K. Thermo-responsive allele of sucrose synthase 3 (Sus3) provides high-temperature tolerance during the ripening stage in rice (Oryza sativa L.). Breeding science. 2018. 68. 3. 336-342
Tetsuo Oikawa, Hiroaki Maeda, Taichi Oguchi, Takuya Yamaguchi, Noriko Tanabe, Kaworu Ebana, Masahiro Yano, Takeshi Ebitani, Takeshi Izawa. The Birth of a Black Rice Gene and Its Local Spread by Introgression. PLANT CELL. 2015. 27. 9. 2401-2414

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MISC (78)：

村田和優, 北﨑颯太, 長岡令, 山口琢也, 尾崎秀宣, 小島洋一朗. 高温登熟性品種に対する高温登熟性遺伝子Apq1の導入効果. 北陸作物・育種研究. 2023. 59. 別. 1-1
山口琢也, 藤井みずほ, 齋藤義宏, 中田均. けい酸含量と水稲種子の外観品質の関係. 北陸作物・育種研究. 2023. 59. 別. 2-2
尾崎秀宣, 村田和優, 山口琢也, 長岡令, 杉本和彦, 小島洋一朗. Evaluation of Effectiveness of Genes for Tolerance to Pre-harvest Sprouting in a Glutinous Rice Variety ”Shintaisho-mochi” Using Near-isogenic Lines. 北陸作物学会報. 2022. 57
村田和優, 伊山幸秀, 伊山幸秀, 山口琢也, 山口琢也, 木谷吉則, 村岡裕一, 前田寛明, 前田寛明, 藤田健司, et al. Development of an Elite Toyama-Rice Cultivar, “Fu-Fu-Fu”. 富山県農林水産総合技術センター農業研究所研究報告. 2022. 9
三浦孝太郎, 荻原芳徳, 村田和優, 山口琢也, 山口航平, 茶谷弦輝, 岩崎行玄, 蛯谷武志, 荻原均. High-temperature tolerance gene, Apq1 improves grain appearance of high-yielding genes in rice. 育種学研究. 2020. 22

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Work history (5)：

2020/04 - 現在 Toyama Prefectural Tonami Agriculture and Forestry Promotion Center
2008/04 - 現在 Toyama Prefectural Agricultural, Forestry & Fisheries Research Center
2007/04 - 2008/03 Toyama Prefectural Agricultural, Forestry & Fisheries Research Center
1999/04 - 2004/03 富山県農業技術センター農業試験場作物課研究員
1998/04 - 1999/03 Tohoku University

Awards (4)：

2019/03 - 日本育種学会論文賞 Thermo-responsive allele of sucrose synthase 3 (Sus3) provides high-temperature tolerance during the ripening stage in rice (Oryza sativa L.).Breeding science 68(3) 336-342
2018/09 - 日本育種学会第134回講演会トピックス QTL集積による富山県早生基幹品種「てんたかく」の出穂期および粒厚の改良
2014/03 - 日本育種学会第125回講演会トピックス ‘qESS11b’に穂発芽耐性遺伝子を集積することによって低温苗立性と穂発芽耐性は両立できる
2006/07 - 日本作物学会北陸支部・北陸育種談話会北陸作物学会賞(学術賞) 気象変動下においても品質が優れる良食味の水稲新品種「てんたかく」の育成

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