ホーム > 早田 匡芳/ Hayata, Tadayoshi

早田 匡芳

ALUMNI 2025年7月現在、筑波大学が主たる所属機関ではありません

Hayata, Tadayoshi

東京理科大学 , 薬学部 , 教授
Tokyo University of Science , Faculty of Pharmaceutical Sciences , Professor

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  1. 1. Druggable genes for therapeutic targeting in PTH signaling for osteoporosis Chisato Sampei; Tadayoshi Hayata
      Expert Opinion on Therapeutic Targets 28: 1027 (2024) Semantic Scholar
  2. 2. Disulfiram ameliorates bone loss in ovariectomized mice by suppressing osteoclastogenesis Tatsuyuki Fukui; Asuka Terashima; Yasunori Omata; Ryota Chijimatsu (+9 著者) Taku Saito
      Journal of Bone and Mineral Metabolism (2024) Semantic Scholar
  3. 3. Generation of MBP-tdTomato reporter human induced pluripotent stem cell line for live myelin visualization. Daigo Takagi; Satomi Tsukamoto; Koji Nakade; Tomoya Shimizu (+7 著者) Yohei Hayashi
      Stem cell research 79: 103493 (2024) Semantic Scholar
  4. 4. Ctdnep1 phosphatase is required for negative regulation of RANKL-induced osteoclast differentiation in RAW264.7 cells Takuto Konno; Hitomi Murachi; Kanon Otsuka; Yuta Kimura (+3 著者) Tadayoshi Hayata
      Biochemical and Biophysical Research Communications (2024) Semantic Scholar
  5. 5. Patient-derived and gene-edited pluripotent stem cells lacking NPHP1 recapitulate juvenile nephronophthisis in abnormalities of primary cilia and renal cyst formation Yutaka Arai; Hidenori Ito; Tomoya Shimizu; Yuzuno Shimoda (+3 著者) Yohei Hayashi
      Frontiers in Cell and Developmental Biology 12: (2024) Semantic Scholar
  6. 6. Exploring SSEA3 as an emerging biomarker for assessing the regenerative potential of dental pulp-derived stem cells Jumpei Shirakawa; Edward H. Ntege; Masuo Takemura; Sho Miyamoto (+6 著者) Yusuke Shimizu
      Regenerative Therapy 26: 71 (2024) Semantic Scholar
  7. 7. Gprc5a is a novel parathyroid hormone‐inducible gene and negatively regulates osteoblast proliferation and differentiation Chisato Sampei; Kosuke Kato; Yasuhiro Arasaki; Yuta Kimura (+5 著者) Tadayoshi Hayata
      Journal of Cellular Physiology 239: (2024) Semantic Scholar
  8. 8. The RNA-binding protein Cpeb4 regulates splicing of the Id2 gene in osteoclast differentiation. Yasuhiro Arasaki; Tadayoshi Hayata
      Journal of cellular physiology 239: e31197 (2024) Semantic Scholar
  9. 9. Identification of a Biallelic Missense Variant in Gasdermin D (c.823G > C, p.Asp275His) in a Patient of Atypical Gorham-Stout Disease in a Consanguineous Family. Daniela Tiaki Uehara; Tomoki Muramatsu; Senichi Ishii; Hidetsugu Suzuki (+4 著者) Yoichi Ezura
      JBMR plus 7: e10784 (2023) Semantic Scholar
  10. 10. Generation of human induced pluripotent stem cell lines derived from four DiGeorge syndrome patients with 22q11.2 deletion Tomoya Shimizu; Mami Matsuo-Takasaki; Dorian Luijkx; Miho Takami (+5 著者) Yohei Hayashi
      Stem Cell Research 61: 102744 (2022) Semantic Scholar
  11. 11. 分子生物学が解き明かす骨のひみつ 早田 匡芳
      科学フォーラム 428: 38 (2022)
  12. 12. 転写後調節と破骨細胞分化 荒崎恭弘; 三瓶千怜; 早田匡芳
      月刊Precision Medicine 5: 92 (2022)
  13. 13. RNA結合タンパク質による破骨細胞分化制御 荒崎恭弘; 李政道; 秋谷拓郎; 野澤伊織早田匡芳
      Bio Clinica 35: 53 (2020)
  14. 14. The RNA-binding protein Cpeb4 is a novel positive regulator of osteoclast differentiation. Yasuhiro Arasaki; Masamichi Li; Takuro Akiya; Iori Nozawa (+1 著者) Tadayoshi Hayata
      Biochemical and biophysical research communications (2020) Semantic Scholar
  15. 15. Generation of two human induced pluripotent stem cell lines derived from two juvenile nephronophthisis patients with NPHP1 deletion. Yutaka Arai; Miho Takami; Yuri An; Mami Matsuo-Takasaki (+11 著者) Yohei Hayashi
      Stem cell research 45: 101815 (2020) Semantic Scholar
  16. 16. TGF-β抑制因子Dullard/Ctdnep1による骨格制御 早田匡芳; 野澤伊織; 村地眸; 秋谷拓郎荒崎恭弘
      Precision Medicine 2: 52 (2019)
  17. 17. 骨格形成とTGF-β制御因子 早田匡芳; 村地眸; 荒崎恭弘; 秋谷拓郎
      Bio Clinica 34: 53 (2019)
  18. 18. Profilin 1 Negatively Regulates Osteoclast Migration in Postnatal Skeletal Growth, Remodeling, and Homeostasis in Mice. Jumpei Shirakawa; Shuhei Kajikawa; Ralph T Böttcher; Mercedes Costell (+3 著者) Yoichi Ezura
      JBMR plus 3: e10130 (2019) Semantic Scholar
  19. 19. Cyclic stretch induces decorin expression via yes-associated protein in tenocytes: A possible mechanism for hyperplasia in masticatory muscle tendon-aponeurosis hyperplasia. Hayashi N; Sato T; Yumoto M; Kokabu S (+9 著者) Yoda T
      Journal of Oral and Maxillofacial Surgery, Medicine, and Pathology (2019) Semantic Scholar
  20. 20. アクチン重合を制御するプロフィリン1欠損破骨細胞は遊走・分化・骨吸収を亢進させ、マウスの溶骨症性骨変形を生じる 江面 陽一; 白川 純平; 梶川 修平; 早田 匡芳野田 政樹
      92: S1703 - S1703 (2018)
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