ホーム > 壽崎 拓哉/ Suzaki, Takuya

壽崎 拓哉

Suzaki, Takuya

生命環境系 , 教授
Institute of Life and Environmental Sciences , Professor

http://takuyasuzaki.wix.com/lotus

植物と窒素固定細菌の根粒共生を制御するマスター因子の分子進化を解明

2026-01-31

野﨑 翔平 壽崎 拓哉
植物が共生菌への鉄供給によって窒素を得る仕組みを解明

2024-01-29

壽崎 拓哉
遺伝子の転写開始点の検出法TSS-seq2を開発―メッセンジャーRNAの5'末端を高い特異性で検出―

2023-11-28

壽崎 拓哉
How legumes regulate root nodulation

2022-02-28

壽崎 拓哉
土壌から吸収する? それとも 微生物からもらう?〜硝酸イオン輸送からひもとくマメ科植物の窒素栄養獲得戦略〜

2022-02-12

壽崎 拓哉
マメ科植物の栄養環境適応戦略〜窒素栄養に応答して遺伝子発現を調節する仕組み〜

2021-05-25

壽崎 拓哉
植物の環境ストレス応答における遺伝子発現調節機構に不可欠な因子を解明 ~植物だけが持つタンパク質部分構造の役割~

2020-03-17

三浦 謙治 壽崎 拓哉
根粒菌との共生にかけるマメ科植物のエネルギー節約術 ~窒素栄養に応じて根粒共生を制御する仕組みの発見~

2018-11-20

壽崎 拓哉
Rooting out plant responses

2018-05-25

壽崎 拓哉
オープンアクセス版の論文は「つくばリポジトリ」で読むことができます。
  1. 1. マメ科植物と根粒菌の共生におけるIRON MANペプチドの同定とその機能解析 野田, 桃菜; 壽崎, 拓哉
      Regulation of plant growth & development 60: 33 (2025)
  2. 2. An NLP-inherited motif confers broad DNA-binding specificity to NIN in root nodule symbiosis NOSAKI, Shohei; NODA, Momona; ONODA, Hiroki; ITO, MomoyoSUZAKI, Takuya
      bioRxiv (2025)
  3. 3. Zinc sensing in nodules regulates symbiotic nitrogen fixation Qiao, Lijin; Suzaki, Takuya; Liang, Pengbo
      Nature plants 10: 1153 (2024) Semantic Scholar
  4. 4. IMA peptides regulate root nodulation and nitrogen homeostasis by providing iron according to internal nitrogen status Ito, Momoyo; Tajima, Yuri; Ogawa-Ohnishi, Mari; Nishida, Hanna (+7 著者) Suzaki, Takuya
      NATURE COMMUNICATIONS 15: 733 (2024) Semantic Scholar
  5. 5. Staying hungry: a roadmap to harnessing central regulators of symbiotic nitrogen fixation under fluctuating nitrogen availability Qiao, Lijin; Lin, Jieshun; Suzaki, Takuya; Liang, Pengbo
      aBIOTECH 5: 107 (2023) Semantic Scholar
  6. 6. An improved method for the highly specific detection of transcription start sites Seki, Masahide; Kuze, Yuta; Zhang, Xiang; Kurotani, Ken-Ichi (+7 著者) Suzuki, Yutaka
      NUCLEIC ACIDS RESEARCH 52: e7 (2023) Semantic Scholar
  7. 7. Developing for nutrient uptake: Induced organogenesis in parasitic plants and root nodule symbiosis Cui, Songkui; Inaba, Shoko; Suzaki, Takuya; Yoshida, Satoko
      CURRENT OPINION IN PLANT BIOLOGY 76: (2023) Semantic Scholar
  8. 8. 細菌と植物のコミュニケーション─根粒共生を例にして 野田, 桃菜; 落合, 美智; 深谷, 夢夏; 壽崎, 拓哉
      生物の科学 遺伝 77: 436 (2023)
  9. 9. Lotus japonicus NLP1 and NLP4 transcription factors have different roles in the regulation of nitrate transporter family gene expression Nishida, Hanna; Suzaki, Takuya
      Genes & genetic systems in press: (2023) Semantic Scholar
  10. 10. Stimulation of Tomato Drought Tolerance by PHYTOCHROME A and B1B2 Mutations Abdellatif; Islam M Y; Yuan, Shaoze; Yoshihara, Shizue (+2 著者) Miura, Kenji
      International journal of molecular sciences 24: (2023) Semantic Scholar
  11. 11. Root nodule organogenesis: a unique lateral organogenesis in legumes Suzaki, Takuya
      BREEDING SCIENCE 73: 70 (2023) Semantic Scholar
  12. 12. Nitrate transport via NRT2.1 mediates NIN-LIKE PROTEIN-dependent suppression of root nodulation in Lotus japonicus Misawa, Fumika; Ito, Momoyo; Nosaki, Shohei; Nishida, Hanna (+4 著者) Suzaki, Takuya
      The Plant Cell 34: 1844 (2022) Semantic Scholar
  13. 13. Functional characterization of tomato phytochrome A and B1B2 mutants in response to heat stress Abdellatif; Islam M Y; Yuan, Shaoze; Na, Renhu (+4 著者) Miura, Kenji
      International journal of molecular sciences 23: (2022) Semantic Scholar
  14. 14. Editorial: Nutrient Dependent Signaling Pathways Controlling the Symbiotic Nitrogen Fixation Process Suzaki, Takuya; Valkov; Vladimir Totev; Chiurazzi, Maurizio
      Frontiers in plant science 12: (2021) Semantic Scholar
  15. 15. Different DNA-binding specificities of NLP and NIN transcription factors underlie nitrate-induced control of root nodulation Nishida, Hanna; Nosaki, Shohei; Suzuki, Takamasa; Ito, Momoyo (+6 著者) Suzaki, Takuya
      The Plant Cell 33: 2340 (2021) Semantic Scholar
  16. 16. MIR2111-5 locus and shoot-accumulated mature miR2111 systemically enhance nodulation depending on HAR1 in Lotus japonicus Okuma, Nao; Soyano, Takashi; Suzaki, Takuya; KawaguchiMasayoshi
      Nature Communications 11: 5192 (2020) Semantic Scholar
  17. 17. 微生物・植物相互作用 別役重之; 壽崎, 拓哉
      日本生物工学会誌 98: 309 (2020)
  18. 18. Novel rhizobia exhibit superior nodulation and biological nitrogen fixation even under high nitrate concentrations Nguyen, Hien P; Miwa, Hiroki; Obirih-Opareh, Jennifer; Suzaki, Takuya (+1 著者) Okazaki, Shin
      FEMS microbiology ecology 96: fiz184 (2020) Semantic Scholar
  19. 19. CLE-HAR1 Systemic Signaling and NIN-Mediated Local Signaling Suppress the Increased Rhizobial Infection in the daphne Mutant of Lotus japonicus Emiko Yoro; Takuya Suzaki; Masayoshi Kawaguchi
      Molecular Plant-Microbe Interactions® 33: 320 (2020) Semantic Scholar
  20. 20. Autoregulation of nodulation pathway is dispensable for nitrate-induced control of rhizobial infection Nishida, Hanna; Ito, Momoyo; Miura, Kenji; Kawaguchi, MasayoshiSuzaki, Takuya
      Plant Signaling and Behavior 15: e1733814 (2020) Semantic Scholar
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