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 lethal stress response in insects	2021-04 -- 2024-03	Takashi MATSUMURA	Japan Society for the Promotion of Science (JSPS)/Grant-in-Aid for JSPS Fellows	4,810,000Yen
Analysis of stress response in insects	2019-04 -- 2021-03	Takashi MATSUMURA	Japan Society for the Promotion of Science/Grant-in-Aid for JSPS Fellows	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
  
  PubMed
• 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
  
  PubMed
• 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
  
  PubMed
• 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
  
  PubMed
• 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
  
  PubMed
• 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
  
  PubMed
• 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
  
  PubMed
• 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
  
  PubMed
• 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
  
  PubMed
• 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
  
  PubMed

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
• The Zeste-Phae1 axis is responsible for stress-induced organismal death in the fruit fly Drosophila melanogaster
  Takashi Matsumura; Masasuke Ryuda; Hitoshi Matsumoto; ...
  The 67th Annual Meeting of the Japanese Society of Applied Entomology and Zoology/2023-03-13--2023-03-15
• The induction of organismal death requires Zeste-mediated transcriptional up-regulation of a stress-responsive protease gene Phaedra1
  Matsumura Takashi; Ryuda Masasuke; Matsumoto Hitoshi; ...
  The 15th Japan Drosophila Research Conference/2022-09-12--2022-09-14
• 個体死誘導に関わるキイロショウジョウバエ新規ストレス応答性プロテアーゼの同定と機能解析
  松村 崇志; 龍田 勝輔; 松本 均; 上山 拓己(; 近藤 周; 丹羽 隆介
  第４４回日本分子生物学会大会/2021-12-01--2021-12-03
• Identification and characterization of a novel stress response protease that mediates organismal death induction in Drosophila melanogaster
  Matsumura Takashi; Ryuda Masasuke; Matsumoto Hitoshi; ...
  The 14th Japan Drosophila Research Conference/2021-09-13--2021-09-16
• 昆虫の個体死誘導に関わる新規ストレス応答性プロテアーゼの解析
  松村 崇志; 早川 洋一
  第９３回日本生化学会大会/2020-09-14--2020-09-16
• ストレス応答性プロテアーゼ Phaedra1 の発現機構と生理機能
  松村 崇志; 早川 洋一
  第 64 回日本応用動物昆虫学会大会/2020-03-15--2020-03-17
• 昆虫のストレス応答性の解析
  松村 崇志; 早川 洋一
  第 89 回日本動物学会大会/2018-09-13--2018-09-15
• 昆虫サイトカイン Stress responsive peptide (SRP)の発現機構と生理機能
  松村 崇志; 早川 洋一
  第 62 回日本応用動物昆虫学会大会/2018-03-25--2018-03-27
• A new bioassay using insects to evaluate stress-resistance induction activity of dietary supplements contents.
  Matsumura Takashi; Komuta Chihiro; Hayakawa Yoichi
  The 25th Annual Meeting of International Congress on Nutrition and Integrative Medicine (ICNIM2017)/2017-07-08--2017-07-09
• アワヨトウにおけるストレス順応性獲得の分子機構
  松村 崇志; 早川 洋一
  第 61 回日本応用動物昆虫学会大会/2017-03-27--2017-03-29
• 昆虫の熱ストレス順応性獲得の分子機構
  松村 崇志
  日本動物学会・日本植物学会・日本生態学会合同佐賀支部例会（動物学分野）/2016-11-19
• アワヨトウの高温順応性獲得の分子機構
  松村 崇志; 早川 洋一
  第９２回日本応用動物昆虫学会九州支部・九州病害虫研究会共催大会/2016-11-09

(Last updated: 2025-08-20)