Rchr
J-GLOBAL ID:200901089521087616   Update date: Oct. 07, 2024

Suzuki Kenichi

スズキ ケンイチ | Suzuki Kenichi
Affiliation and department:
Job title: 特任准教授
Other affiliations (1):
Research field  (1): Developmental biology
Research theme for competitive and other funds  (12):
  • 2021 - 2024 Molecular dissection of matorisome in a high-regenerative capability animal, salamanders
  • 2019 - 2022 Construction of diagnostic model of cholangiocarcinoma targeting of miRNA and lncRNA of cytological samples
  • 2018 - 2021 Analysis of ROS signaling in amphibian organ regeneration
  • 2015 - 2018 Development of gene targeting strategies for amphibian research using genome editing
  • 2014 - 2017 Toxicological effects by disposition of chemicals during development of Xenopus tropicalis
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Papers (55):
  • Aiko Kawasumi-Kita, Sang-Woo Lee, Daisuke Ohtsuka, Kaori Niimi, Yoshifumi Asakura, Keiichi Kitajima, Yuto Sakane, Koji Tamura, Haruki Ochi, Ken-ichi T. Suzuki, et al. hoxc12/c13 as key regulators for rebooting the developmental program in Xenopus limb regeneration. Nature Communications. 2024. 15. 1
  • Miyuki Suzuki, Akinori Okumura, Akane Chihara, Yuki Shibata, Tetsuya Endo, Machiko Teramoto, Kiyokazu Agata, Marianne E. Bronner, Ken-ichi T. Suzuki. Fgf10 mutant newts regenerate normal hindlimbs despite severe developmental defects. Proceedings of the National Academy of Sciences. 2024. 121. 11
  • Makoto Mochii, Kai Akizuki, Hero Ossaka, Norie Kagawa, Yoshihiko Umesono, Ken-Ichi T Suzuki. A CRISPR-Cas9-mediated versatile method for targeted integration of a fluorescent protein gene to visualize endogenous gene expression in Xenopus laevis. Developmental biology. 2023. 506. 42-51
  • Yuki Shibata, Akinori Okumura, Makoto Mochii, Ken-ichi T. Suzuki. Protocols for transgenesis at a safe harbor site in the Xenopus laevis genome using CRISPR-Cas9. STAR Protocols. 2023. 4. 3. 102382-102382
  • Miyuki Suzuki, Akinori Okumura, Yuki Shibata, Tetsuya Endo, Machiko Teramoto, Akane Chihara, Kiyokazu Agata, Marianne E. Bronner, Ken-ichi T. Suzuki. Fgf10mutant newts can regenerate normal limbs despite severe developmental hindlimb defects. 2023
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MISC (94):
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Patents (2):
Books (2):
  • ゲノム編集入門 : ZFN・TALEN・CRISPR-Cas9
    裳華房 2016 ISBN:9784785358662
  • ゲノム編集成功の秘訣Q&A : 論文だけではわからない : TALEN、CRISPR/Cas9の極意
    羊土社 2015 ISBN:9784758101936
Professional career (1):
  • 博士(理学) (広島大学)
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