Calorie restriction activates the biosynthesis of cardiolipin and its distribution between menbranes (2016)
- Authors:
- Autor USP: KOWALTOWSKI, ALÍCIA JULIANA - IQ
- Unidade: IQ
- Subjects: FOSFOLIPÍDEOS; MITOCÔNDRIAS
- Language: Inglês
- Imprenta:
- Publisher: Sociedade Brasileira de Bioquímica e Biologia Molecular (SBBq)
- Publisher place: Natal
- Date published: 2016
- Source:
- Título: Abstracts
- Conference titles: Annual Meeting of the Brazilian Society for Biochemistry and Molecular Biology (SBBq)
-
ABNT
MARTINEZ, Luis Alberto Luevano et al. Calorie restriction activates the biosynthesis of cardiolipin and its distribution between menbranes. 2016, Anais.. Natal: Sociedade Brasileira de Bioquímica e Biologia Molecular (SBBq), 2016. . Acesso em: 21 jan. 2026. -
APA
Martinez, L. A. L., Forni, M. F., Peloggia, J., & Kowaltowski, A. J. (2016). Calorie restriction activates the biosynthesis of cardiolipin and its distribution between menbranes. In Abstracts. Natal: Sociedade Brasileira de Bioquímica e Biologia Molecular (SBBq). -
NLM
Martinez LAL, Forni MF, Peloggia J, Kowaltowski AJ. Calorie restriction activates the biosynthesis of cardiolipin and its distribution between menbranes. Abstracts. 2016 ;[citado 2026 jan. 21 ] -
Vancouver
Martinez LAL, Forni MF, Peloggia J, Kowaltowski AJ. Calorie restriction activates the biosynthesis of cardiolipin and its distribution between menbranes. Abstracts. 2016 ;[citado 2026 jan. 21 ] - Higher respiratory activity decreases mitochondrial reactive oxygen release and increases life span in Saccharomyces cerevisiae
- Study of the role of Rtg-dependent retrograde signaling pathway in mitochondrial activity maintenance of S. cerevisiae
- Bioenergetic consequences of opening the ATP-sensitive `K POT. +´ channel of heart mitochondria
- Redox properties of ATP-sensitive 'K POT. +' channels in brain mitochondria
- Mitochondrial ATP-sensitive 'K POT. +' channels
- Mechanisms in which preconditioning and mitochondrial ATP-sensitive 'K POT. +' channels protect against damage promoted by ischemia/reperfusion
- Respiration, oxidative stress and chronological life span in S. cerevisiae
- ATP-sensitive 'K POT +'channels in brain mitochondria are redox-sensitive and regulate reactive oxygen release
- Mitochondrial permeability transition is delayed by ATP-sensitive 'K POT. +' channel ('Mitok IND. ATP') opening
- Phosphate uptake increases mitochondrial H2O2 release
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