Rchr
J-GLOBAL ID:200901023464319946   Update date: Oct. 26, 2022

Kobayashi Takanobu

コバヤシ タカノブ | Kobayashi Takanobu
Affiliation and department:
Job title: Research assistant
Research field  (5): Cell biology ,  Developmental biology ,  Applied biochemistry ,  Pharmaceuticals - chemistry and drug development ,  Pharmaceuticals - health and biochemistry
Research keywords  (12): NF-κB ,  κ-casein ,  TAL2 ,  embryogenesis ,  neuronal differentiation ,  創薬 ,  アポトーシス ,  分化 ,  転写 ,  NF-kappa B ,  in silico ,  inhibitor
Research theme for competitive and other funds  (2):
  • DNA結合領域を標的とした新規NF-κB低分子阻害剤の探索
  • Discovery of a novel small molecule that targets the inhibition the DNA binding of NF-kappa B
Papers (34):
  • Taishu Kawada, Katsuhito Kino, Yoshihiko Matsuzawa, Masayuki Morikawa, Yasuko Okamoto, Takanobu Kobayashi, Yoshiyuki Tanaka. N′1,N′4-bis(2-(7,8-dimethyl-2,4-dioxo-3,4-dihydrobenzo[g]pteridin-10(2H)-yl)ethylidene)succinohydrazide. Molbank. 2022. 2022. 3. M1436-M1436
  • Taishu Kawada, Katsuhito Kino, Kyousuke Tokorodani, Ryuto Anabuki, Masayuki Morikawa, Takanobu Kobayashi, Kazuaki Ohara, Takayuki Ohshima, Hiroshi Miyazawa. Analysis of nucleotide insertion opposite urea and translesion synthesis across urea by DNA polymerases. Genes and Environment. 2022. 44. 1
  • Katsuhito Kino, Takayuki Ohshima, Hajime Takeuchi, Takanobu Kobayashi, Taishu Kawada, Masayuki Morikawa, Hiroshi Miyazawa. Considering Existing Factors That May Cause Radiation Hormesis at <100 mSv and Obey the Linear No-Threshold Theory at ≥100 mSv. Challenges. 2021. 12. 2. 33-33
  • Kino Katsuhito, Ohshima Takayuki, Kawada Taishu, Kobayashi Takanobu, Miyazawa Hiroshi. A strategy for finding new medicines against the novel coronavirus disease (COVID-19) derived from base pairing with DNA damage. Global Journal of Infectious Diseases and Clinical Research. 2020. 060-061
  • Masayo Hirao-Suzuki, Takayuki Koga, Genki Sakai, Takanobu Kobayashi, Yuji Ishii, Hiroshi Miyazawa, Masufumi Takiguchi, Narumi Sugihara, Akihisa Toda, Masahiro Ohara, et al. Fatty acid 2-hydroxylase (FA2H) as a stimulatory molecule responsible for breast cancer cell migration. Biochemical and biophysical research communications. 2020. 531. 2. 215-222
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MISC (10):
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Work history (3):
  • 2018/04 - 現在 Tokushima Bunri University Kagawa School of Pharmaceutical Sciences Lecturer
  • 2015/04 - 2018/03 Tokushima Bunri University Kagawa School of Pharmaceutical Sciences Assistant Professor
  • 2005/04 - 2015/03 Tokushima Bunri University Kagawa School of Pharmaceutical Sciences Research assistant
Awards (1):
  • 2015/10 - Chugoku-Shikoku Branch, The Pharmaceutical Society of Japan encouragement award Expression and Regulation of Tal2 during Neuronal Differentiation in P19 Cells
Association Membership(s) (3):
THE MOLECULAR BIOLOGY SOCIETY OF JAPAN ,  THE JAPANESE BIOCHEMICAL SOCIETY ,  THE PHARMACEUTICAL SOCIETY OF JAPAN
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