メンバー紹介

TOP メンバー(先端バイオ) 田中 謙也

准教授田中 謙也 Kenya Tanaka

経歴

2016/03
大阪大学 基礎工学部 化学応用科学科 卒業
2018/03
大阪大学 大学院 基礎工学研究科 物質創成専攻 修士課程修了
2018/04
日本学術振興会 特別研究員DC1
2021/03
大阪大学 大学院 基礎工学研究科 物質創成専攻 博士課程修了(理学)
2021/04
日本学術振興会 特別研究員PD
2022/08
神戸大学 特命助教
2025/01
神戸大学 講師
2025/04
神戸大学 准教授

受賞等

  • 2023/06 Metabolomics Society Early-Career Award(Travel Award)
    "Dynamic metabolic flux analysis during photosynthesis activation in cyanobacteria"

発表論文

  1. Hidese, R., Sakai, K., Takenaka, M., Fushimi, K., Kudo, H., Tanaka, K., Nasuno, R., Vavricka, CJ.,Kondo, A., Hasunuma, T. (2025/06) Identification of subfamily specific residues within highly active and promiscuous alcohol dehydrogenases, ACS Catalysis, 15, 11931-11943
  2. Moreno,D.S., Cunha, J., de Melo, L.D.R., Tanaka, K., Bamba, T., Hasunuma, T., Azeredo, J., Domingues, L. (2025/04) CRISPR-Cas9 engineered Saccharomyces cerevisiae for endolysin delivery to combat Listeria monocytogenes, Applied Microbiology and Biotechnology, 109, 81
  3. Tanaka, K., Lan, J.CW., Kondo, A., Hasunuma T.* (2025/03) Metabolic engineering and cultivation strategies for efficient production of fucoxanthin and related carotenoids. Applied Microbiology and Biotechnology, 109, 57
  4. Tanaka, K., Yukawa, T., Bamba T., Wakiya, M., Kumokita, R., Jin Y.S., Kondo, A., Hasunuma, T.*(2025/01) Engineering Saccharomyces cerevisiae for growth on xylose using an oxidative pathway, Applied Microbiology and Biotechnology, 109, 30
  5. Tanaka, K.*, Kondo, A., Hasunuma, T.* (2024/09) Minimized dark consumption of Calvin cycle intermediates facilitates the initiation of photosynthesis in Synechocystis sp. PCC 6803, Plant Cell Physiology, pcae102
  6. Tanaka, K., Bamba, T., Kondo, A., Hasunuma, T. (2024/02) Metabolomics-based development of bioproduction processes toward industrial-scale production. Current Opinion in Biotechnology, 85, 103057
  7. K, Sugimoto., K, Hori., M, Ishikawa., H, Ito., T, Kamachi., K, Tanaka., Y, Chen., S, Nakanishi. (2023/11) Electrochemical Monitoring of Metabolic Activity of Methane/Methanol Conversing Methylococcus Capsulatus (Bath) Cells Based on Extracellular Electron Transfer, Electrochemistry, 1344-3542
  8. Y, Tamaru., S, Nakanishi., K, Tanaka., M, Umetsu., H, Nakazawa., A, Sugiyama., T, Ito., N, Shimokawa., M, Takagi., (2023/08) Recent research advances on non-linear phenomena in various biosystems. Journal of Bioscience Bioengineering, 136, 75-86.
  9. K. Tanaka, Shirai, T., Vavricka, CJ., Matsuda, M., Kondo, A., Hasunuma, T. (2023/04) Dark accumulation of downstream glycolytic intermediates initiates robust photosynthesis in cyanobacteria, Plant Physiology, 191(4), 2400-2413
  10. S. Kusama, S. Kojima, K. Kimura, G. Shimakawa, C. Miyake, K. Tanaka, Y. Okumura, S. Nakanishi (2022) Order-of-magnitude enhancement in photocurrent generation of Synechocystis sp. PCC 6803 by outer membrane deprivation, Nature Communications, 13, 3067
  11. J. Hatano, S. Kusama, K. Tanaka, A. Kohara, C. Miyake, S. Nakanishi, G. Shimakawa (2022) NADPH production in dark stages is critical for cyanobacterial photocurrent generation: a study using mutants deficient in oxidative pentose phosphate pathway, Photosynthesis Research, 153, 113-120
  12. N. Bairagi, S. Watanabe, K. Nimura-Matsune, K. Tanaka, T. Tsurumaki, S. Nakanishi, K. Tanaka, (2022) Conserved Two-component Hik2-Rre1 Signaling Is Activated Under Temperature Upshift and Plastoquinone-reducing Conditions in the Cyanobacterium Synechococcus elongatus PCC 7942. Plant Cell Physiology, 63, 176-188
  13. G. Shimakawa, E. Shoguchi, A. Burlacot, K. Ifuku, Y. Che, M. Kumazawa, K. Tanaka, S. Nakanishi, (2021) Coral symbionts evolved a functional polycistronic flavodiiron gene, Photosynthesis Research, 151, 113-124
  14. K. Tanaka, G. Shimakawa, H. Tabata, S. Kusama, C. Miyake, S. Nakanishi, (2021) Quantification of NAD(P)H in cyanobacterial cells by a phenol extraction method, Photosynthesis Research, 148, 57-66
  15. K. Tanaka, G. Shimakawa, S. Kusama, T. Harada, S. Kato, S. Nakanishi, (2021) Ferrihydrite Reduction by Photosynthetic Synechocystis sp. PCC 6803 and Its Correlation With Electricity Generation, Frontiers in Microbiology, 12, 650832
  16. K. Tanaka, G. Shimakawa, S. Nakanishi, (2020) Time‑of‑day‑dependent responses of cyanobacterial cellular viability against oxidative stress, Scientific Reports, 10, 20029
  17. L. Beauzamy, J. Delacotte, B. Bailleul, K. Tanaka, S. Nakanishi, F. Wollman, and F. Lemaître, (2020) Mediator- micro- organism interaction in microbial solar cell: a Fluo-electrochemical insight, Analytical Chemistry, 92, 7532-7539
  18. M. Ishikawa, K. Kawai, M. Kaneko, K. Tanaka, S. Nakanishi, K. Hori, (2020) Extracellular electron transfer mediated by a cytocompatible redox polymer to study the crosstalk among the mammalian circadian clock, cellular metabolism, and cellular redox state, RSC Advances, 10, 1648-1657
  19. K. Tanaka, M. Ishikawa, M. Kaneko, K. Kazuhide, S. Kato, S. Nakanishi, (2019) The endogenous redox rhythm is controlled by a central circadian oscillator in cyanobacterium Synechococcus elongatus PCC7942, Photosynthesis Research, 142, 203-210
  20. K. Tanaka, S. Yokoe, K. Igarashi, M. Takashino, M. Ishikawa, K. Hori, S. Nakanishi, S. Kato, (2018) Extracellular electron transfer via outer membrane cytochromes in a methanotrophic bacterium Methylococcus capsulatus (Bath), Frontiers in Microbiology, 9, 2905
  21. M. Ishikawa, Y. Tanaka, R. Suzuki, K. Kimura, K. Tanaka, K. Kamiya, H. Ito, S. Kato, T. Kamachi, K. Hori, S. Nakanishi, (2017) Real-time monitoring of intracellular redox changes in Methylococcus capsulatus (Bath) for efficient bioconversion of methane to methanol, Bioresource. Technology, 241, 1157-1161
  22. K. Tanaka, M. Kaneko, M. Ishikawa, S. Kato, H. Ito, T. Kamachi, K. Kamiya, S. Nakanishi, (2017) Specific interaction between redox phospholipid polymers and plastoquinone in photosynthetic electron transport chain, ChemPhysChem, 18, 878-881

総説・解説等

  1. 加藤悠一,田中謙也,蓮沼誠久,第5章 第14節 シアノバクテリアを利用した二酸化炭素からの有用物質生産技術,CO2の有効利用技術の開発,技術情報協会,293-300 (2023/7)
  2. 田中謙也, 蓮沼誠久,「光合成が始まる瞬間の代謝機構」, 光合成研究,33,23-33 (2023/04)
  3. 田中謙也, 石川聖人, 中西周次, シアノバクテリアの細胞内レドックス状態の電気化学的モニタリング, 光合成研究, 87, 3-8 (2020/4)
  4. 田中謙也, 中西周次, 光合成生物の光環境適応に関わる細胞内レドックス, 生物工学会誌, 98, 191 (2020/4)