MATSUMURA Takashi
- Affiliation
- Life Science Center for Survival Dynamics, Tsukuba Advanced Research Alliance (TARA)
- Official title
- Assistant Professor
- Sex
- Male
- Birth date
- 1993-09
- KAKEN ID
- 10985625
- Research fields
Animal physiology/Animal behavior Cell biology Insect science - Research keywords
Organismal death Stress response Insect biochemistry and physiology - Research projects
Analysis of programmed organismal death in insects 2024-04 -- 2027-03 MATSUMURA Takashi Japan Society of for the Promotion of Science/Grant-in-Aid for Early-Career Scientists 4,680,000Yen Analysis of stres response in insects 2021-04 -- 2024-03 Takashi Matsumura 日本学術振興会/特別研究員奨励費 (PD) 4,810,000Yen 昆虫のストレス応答性の解析 2019-04 -- 2021-03 Takashi MATSUMURA Japan Society for the Promotion of Science/特別研究員奨励費(DC2) 2,300,000Yen - Career history
2023-08 -- (current) 筑波大学生存ダイナミクス研究センター助教 2021-04 -- 2023-08 筑波大学日本学術振興会 特別研究員(PD) 2019-04 -- 2021-03 鹿児島大学日本学術振興会 特別研究員(DC2) - Academic background
2018-04 -- 2021-03 鹿児島大学 連合農学研究科 2016-04 -- 2018-03 佐賀大学 農学研究科 2012-04 -- 2016-03 佐賀大学 農学部 生物環境科学科 - Degree
2021-3 博士(農学) 鹿児島大学 2018-3 修士 (農学) 佐賀大学 - Academic societies
2021-03 -- (current) The Molecular Biology Society of Japan 2018-03 -- (current) THE JAPANESE BIOCHEMICAL SOCIETY 2017-03 -- (current) THE ZOOLOGICAL SOCIETY OF JAPAN 2016-03 -- (current) Japanese Society of Applied Entomology and Zoology - Honors & Awards
2020-9 日本生化学会若手優秀発表賞 - Articles
- Drosophila cytokine GBP2 exerts immune responses and regulates GBP1 expression through GPCR receptor Mthl10
Ono Masaya; Matsumura Takashi; Sung Eui Jae; Koyama T...
Insect biochemistry and molecular biology/167, 2024-04-01 - N-acetyloxfenicine strongly induces mitohormesis in mice as well as in insects
Matsumura Takashi; Ono Masaya; Osada Satoshi; Matsuhis...
FEBS letters/597(2)/pp.288-297, 2023-01-01 - Stress-derived reactive oxygen species enable hemocytes to release activator of growth blocking peptide (GBP) processing enzyme
Matsumoto Hitoshi; Ochiai Masanori; Imai Erina; Matsum...
Journal of insect physiology/131, 2021-04-01 - Abnormal increases in reactive oxygen species in dying insects infected with nematodes
Tonogawa Urara; Matsumura Takashi; Ono Masaya; Yoshiga...
Archives of insect biochemistry and physiology/106(2), 2021-02-01 - N-acetyl-l-tyrosine is an intrinsic triggering factor of mitohormesis in stressed animals
Matsumura Takashi; Uryu Outa; Matsuhisa Fumikazu; Taji...
EMBO reports/21(5), 2020-05-06 - Repeated phenotypic selection for cuticular blackness of armyworm larvae decreased stress resistance
Matsumura Takashi; Taya Hikaru; Matsumoto Hitoshi; Hay...
Journal of insect physiology/117, 2019-04-01 - Identification of a cytokine combination that protects insects from stress
Matsumura Takashi; Nakano Fumihiro; Matsumoto Hitoshi; ...
Insect biochemistry and molecular biology/97/pp.19-30, 2018-06-01 - A gene-driven recovery mechanism: Drosophila larvae increase feeding activity for post-stress weight recovery
Ryuda Masasuke; Tabuchi Miku; Matsumoto Hitoshi; Matsu...
Archives of insect biochemistry and physiology/97(3), 2018-03-01 - Heat stress hardening of oriental armyworms is induced by a transient elevation of reactive oxygen species during sublethal stress
Matsumura Takashi; Matsumoto Hitoshi; Hayakawa Yoichi
Archives of insect biochemistry and physiology/96(3), 2017-11-01 - Characterization of Venom and Oviduct Components of Parasitoid Wasp Asobara japonica
Furihata Shunsuke; Matsumura Takashi; Hirata Makiko; M...
PloS one/11(7), 2016-04-01
- Drosophila cytokine GBP2 exerts immune responses and regulates GBP1 expression through GPCR receptor Mthl10
- Conference, etc.
- Stress-induced organismal death is genetically programed by the mTOR-Zeste-Phae1 axis
Matsumura Takashi; Ryuda Masasuke; Matsumoto Hitoshi; ...
The 16th Japanese Drosophila Research Conference (JDRC16)/2024-09-17--2024-09-19 - A genetic program promotes stress-induced organismal death in the fruit fly Drosophila melanogaster
Matsumura Takashi; Ryuda Masasuke; Matsumoto Hitoshi; ...
XXVII International Congress of Entomology/2024-08-25--2024-08-30 - Stress-induced organismal death is genetically programed by the Zeste-Phae1 axis
Matsumura Takashi; Ryuda Masasuke; Kamiyama Takumi; Ma...
27th European Drosophila Research Conference/2023-10-20--2023-10-23
- Stress-induced organismal death is genetically programed by the mTOR-Zeste-Phae1 axis
(Last updated: 2024-08-23)