Calorie restriction decreases endogenous H2O2 generation per O2 consumed and increases viability in S. cerevisiae (2004)
- Authors:
- Autor USP: KOWALTOWSKI, ALICIA JULIANA - IQ
- Unidade: IQ
- Subjects: SACCHAROMYCES; BIOQUÍMICA
- Language: Inglês
- Imprenta:
- Source:
- Título do periódico: Programa e Resumos
- Conference titles: Reunião Anual da Sociedade Brasileira de Bioquímica e Biologia Molecular
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ABNT
BARROS, Mario Henrique de; BANDY, Brian; TAHARA, Erich Birelli; KOWALTOWSKI, Alicia Juliana. Calorie restriction decreases endogenous H2O2 generation per O2 consumed and increases viability in S. cerevisiae. Anais.. São Paulo: SBBq, 2004. -
APA
Barros, M. H. de, Bandy, B., Tahara, E. B., & Kowaltowski, A. J. (2004). Calorie restriction decreases endogenous H2O2 generation per O2 consumed and increases viability in S. cerevisiae. In Programa e Resumos. São Paulo: SBBq. -
NLM
Barros MH de, Bandy B, Tahara EB, Kowaltowski AJ. Calorie restriction decreases endogenous H2O2 generation per O2 consumed and increases viability in S. cerevisiae. Programa e Resumos. 2004 ; -
Vancouver
Barros MH de, Bandy B, Tahara EB, Kowaltowski AJ. Calorie restriction decreases endogenous H2O2 generation per O2 consumed and increases viability in S. cerevisiae. Programa e Resumos. 2004 ; - Mitochondrial ATP-sensitive 'K POT. +' channels increase ischemic ATP levels and prevent reperfusion injury
- An inner membrane potassium uniporter in plant mitochondria
- BCL-2 family proteins regulate mitochondrial reactive oxygen release and protect against oxidative damage
- Mitochondrial reactive oxygen species
- Mitochondrial ATP-sensitive 'K POT. +' channels
- The role of glucose restriction on amino acid metabolism and lifespan in yeast
- Modulation of mitochondrial ATP-sensitive 'K POT. +' channel activity by reactive oxygen and nitrogen species
- Participação da mitocôndria na regulação da viabilidade celular
- Intermittent fasting modulates hypothalamic control of feeding and body mass
- Study of the role of Rtg-dependent retrograde signaling pathway in mitochondrial activity maintenance of S. cerevisiae
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