SUZUKI Ayumu
- Affiliation
- Institute of Medicine
- Official title
- Associate Professor
- Research projects
非生殖細胞での減数分裂関連遺伝子の異所的な発現を抑制するための分子基盤の解明 2023-04 -- 2026-03 URANISHI Kousuke Japan Society for the Promotion of Science/Grant-in-Aid for Scientific Research (C) Elucidation of the molecular mechanisms by which germ cells inactivate the function of polycomb that acts against meiotic onset 2023-04 -- 2026-03 OKUDA Akihiko Japan Society for the Promotion of Science/Grant-in-Aid for Scientific Research (B) 哺乳類生殖細胞の減数分裂開始機構の解明 2021-04 -- 2024-03 SUZUKI Ayumu Japan Society for the Promotion of Science/Grant-in-Aid for Scientific Research (C) 4,030,000Yen 減数分裂の抑制とその解除のメカニズムの解明 2021-04 -- (current) SUZUKI, Ayumu Takeda Science Foundation/Research Grant 2,000,000Yen Maxは生殖細胞に減数分裂開始能力を与えるか 2020-04 -- 2021-03 SUZUKI Ayumu / 200,000Yen Understanding of the molecular bases of liberation of germ cells from Max-dependent suppression of meiotic onset 2019-04 -- 2022-03 Akihiko OKUDA Japan Society for the Promotion of Science/Grant-in-Aid for Scientific Research (B) (co-investigators) Identification of MYC-MAX-MGA network in meiotic onset of mouse 2017-04 -- 2020-03 SUZUKI Ayumu Japan Society for the Promotion of Science/Grant-in-Aid for Young Scientists (A) 24,440,000Yen The potential of non-germ cells to undergo ectopic meiosis and the pathophysiology associated with this potential 2017-07 -- 2019-06 SUZUKI Ayumu Japan Society for the Promotion of Science/Grant-in-Aid for Challenging Research (Exploratory) 6,370,000Yen In vitro induction of meiosis from embryonic stem cells and germ line stem cells 2014-04 -- 2016-03 SUZUKI, Ayumu Japan Society for the Promotion of Science/Grant-in-Aid for Challenging Exploratory Research 3,770,000Yen - Academic background
2007-04 -- 2012-03 Tohoku University - Degree
2012-03 Ph.D. (Life Science) Tohoku University - Academic societies
-- (current) 分子生物学会 - Honors & Awards
2013-11 第11回RCGMシンポジウム 最優秀ポスター賞 2015-11 第13回RCGMシンポジウム 最優秀ポスター賞 - Articles
- In Vivo Function and Evolution of the Eutherian-Specific Pluripotency Marker UTF1
Nishimoto Masazumi; Katano Miyuki; Yamagishi Toshiyuki...
PLOS ONE/8(7), 2013-07 - Functional Compensation Between Myc and PI3K Signaling Supports Self- Renewal of Embryonic Stem Cells
Hishida Tomoaki; Nakachi Yutaka; Mizuno Yosuke; Katano...
STEM CELLS/33(3)/pp.713-725, 2015-03 - Forced Expression of Nanog or Esrrb Preserves the ESC Status in the Absence of Nucleostemin Expression
Katano Miyuki; Ema Masatsugu; Nakachi Yutaka; Mizuno ...
STEM CELLS/33(4)/pp.1089-1101, 2015-04 - Alternative splicing for germ cell-specific Mga transcript can be eliminated without compromising mouse viability or fertility.
Kitamura Yuka; Suzuki Ayumu; Uranishi Kousuke; Nishimo...
Development, growth & differentiation/64(7:SI)/pp.409-416, 2022-09
- In Vivo Function and Evolution of the Eutherian-Specific Pluripotency Marker UTF1
(Last updated: 2025-03-06)