Mitohormesis

Mitohormesis describit virtutem mitochondriorum metabolicam, qua mitochondria sub influentium dosibus minimis periculosorum actionibus adaptivis agunt, ut ea provocantibus sequentibus melius obtineantur^[1]. Responsum mitochondriale communicationem intracellularem mitonuclearem cum nucleo cellulae requirit^[2].

Mitochondrium recensere

Conferatur pagina principalis Mitochondrium.

Hormesis in genere recensere

Phaenomenon hormesis cum effectu bi(-/tri-)phasico: Incrementum positivum, decrementum positivum, decrementum negativum.

Hormesis effectum bi-/tri-phasicum quorundam systematum biologicorum describit: Sub dosibus et minoribus ascendentibus effectus positivos (salubres) et ascendentes observari possunt. Dosibus iterum augentibus autem effectus descendentes, at positivos, perficiuntur, denique negativos (detrimentosos) (vid. imaginem).

Mitohormesis recensere

Pariter hormesis mitochondrialis sive abbreviatura mitohormesis ad metabolismi sui ipsius incitationem describendam responsum biochemicum mitochondrii proposita est^[3], quo phosphorylatione oxidativa pluria species oxygenii reactivas oriuntur cumque effectibus salutis bonis. Haec cogitatio hormesis autem in scientiis non generaliter omnibus accepta est^[4]. Quapropter restat dubius quomodo artes athleticae salubriter fiunt, incremento enim vel deminutione concentrationum radicalium oxygenii.^[5]

Notae recensere

↑ Yun J., Finkel T. (Mai 2014). "Mitohormesis". Cell metabolism 19 (5): 757-66
↑ Bárcena C., Mayoral P., Quirós P. M. (2018). "Mitohormesis, an Antiaging Paradigm". International review of cell and molecular biology 340: 35-77
↑ Schulz T. J., Zarse K., Voigt A., Urban N., Birringer M., Ristow M. (Oct 2007). "Glucose restriction extends Caenorhabditis elegans life span by inducing mitochondrial respiration and increasing oxidative stress". Cell Metabolism 6 (4): 280-93
↑ Axelrod D., Burns K., Davis D., Von Larebeke N. (2004). ""Hormesis"--an inappropriate extrapolation from the specific to the universal". International journal of occupational environmental health 10 (3): 335-9
↑ Radak Z., Chung H. Y., Koltai E., Taylor A. W., Goto S. (2008). "Exercise, oxidative stress and hormesis". Ageing Res Rev 7(1): 34-42

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[1] Yun J., Finkel T. (Mai 2014). "Mitohormesis". Cell metabolism 19 (5): 757-66

[2] Bárcena C., Mayoral P., Quirós P. M. (2018). "Mitohormesis, an Antiaging Paradigm". International review of cell and molecular biology 340: 35-77

[3] Schulz T. J., Zarse K., Voigt A., Urban N., Birringer M., Ristow M. (Oct 2007). "Glucose restriction extends Caenorhabditis elegans life span by inducing mitochondrial respiration and increasing oxidative stress". Cell Metabolism 6 (4): 280-93

[4] Axelrod D., Burns K., Davis D., Von Larebeke N. (2004). ""Hormesis"--an inappropriate extrapolation from the specific to the universal". International journal of occupational environmental health 10 (3): 335-9

[5] Radak Z., Chung H. Y., Koltai E., Taylor A. W., Goto S. (2008). "Exercise, oxidative stress and hormesis". Ageing Res Rev 7(1): 34-42

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