Rchr
J-GLOBAL ID:200901062219022305   Update date: Oct. 03, 2020

Ueno Masaya

ウエノ マサヤ | Ueno Masaya
Affiliation and department:
Job title: 助教
Homepage URL  (1): http://www.kanazawa-u.ac.jp/~gankenhomejp.html
Research field  (2): Pharmacology ,  Pharmaceuticals - health and biochemistry
Research keywords  (2): 分子細胞生物学 血管生物学 ,  Moleculer Cell Biology Vascular Biology
Research theme for competitive and other funds  (12):
  • 2017 - 2020 mTOR複合体2による白血病の治療耐性制御機構の解明
  • 2014 - 2017 Understanding of the molecular mechanisms of hematopoietic stem cell heterogeneity by quiescence regulatory factors
  • 2008 - 2011 Molecular analysis of hematopoietic stem cell division in the niche
  • 2005 - 2009 Analysis of blood vessel formation in the tumor environment
  • 2007 - 2008 Functional Analysis of PSF1 and SLD5 in Stem Cell Division
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Papers (42):
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MISC (16):
  • Akanksha Chhabra, Andrew J. Lechner, Asha Acharya, Masaya Ueno, Ben Van Handel, Michelle Tallquist, Hanna Mikkola. Essential Function of PDGF-B Signaling In the Placental Microenvironment In Protecting Hematopoietic Progenitors From Erythroid Differentiation. BLOOD. 2010. 116. 21. 661-661
  • M. Ueno, L. Kong, N. Takakura. PSF1 is essential for bone marrow regeneration. EXPERIMENTAL HEMATOLOGY. 2007. 35. 9. 44-44
  • L. Kong, M. Ueno, N. Takakura. Quiescence with survival of hematopoietic stem cells in the niche induced by galectin-3. EXPERIMENTAL HEMATOLOGY. 2007. 35. 9. 47-47
  • Hiroyasu Kidoya, Yoshihiro Yamada, Masaya Ueno, Xiaoyong Huang, Lingyu Kong, Nobuyuki Takakura. Apelin, an induction factor for neovascular maturation. CIRCULATION. 2006. 114. 18. 32-32
  • M Takizawa, Nobuhisa, I, K Igarashi, M Ueno, K Nakashima, T Taga. Indispensable role of gp130 signaling in the AGM hematopoiesis. BLOOD. 2003. 102. 11. 165B-165B
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Lectures and oral presentations  (4):
  • Identification of FOXOs-mediated differentiation block pathway in LSCs
    (第81回日本血液学会学術集会 2019)
  • Identification of critical downstream molecules of FOXO for targeting leukemic stem cells
    (第17回幹細胞シンポジウム 2019)
  • mTORC2-mediated metabolic processes contributes drug resistance in leukemia
    (2018)
  • mTORC2-mediated metabolic processes contributes drug resistance in leukemia
    (2018)
Professional career (1):
  • (BLANK) (Kyoritsu University of Pharmacy)
Association Membership(s) (4):
European Haematology Association. ,  日本分子生物学会 ,  免疫学会 ,  生化学会
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