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Literature DB >> 14965350

Mitochondria: are they the seat of senescence?

Abstract

The frequently quoted figure for the fractional univalent reduction of oxygen to superoxide in mitochondria is certainly too high by at least one order of magnitude. This is so because the higher number (2%) was derived from mitochondria whose cytochrome c oxidase was blocked with cyanide. Nevertheless, even the more correct number (0.1%) means that the production of O(2)(-) and H(2)O(2) in mitochondria is large and apt to result in damage to macromolecules in spite of such defensive enzymes as superoxide dismutases and glutathione peroxidase. The data available for nematodes and flies provide a compelling case for the view that the accumulation of oxidative damage to specific mitochondrial proteins leads to the progressive dysfunction that we see as senescence. The data available from work with mammals are much weaker and do not yet allow a strong position to be taken.

Entities: Chemical

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Year: 2004 PMID： 14965350 DOI： 10.1046/j.1474-9728.2003.00075.x

Source DB: PubMed Journal: Aging Cell ISSN： 1474-9718 Impact factor: 9.304

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Cited

56 in total

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Review 2. Mitochondria and cardioprotection.

Authors: Fabio Di Lisa; Marcella Canton; Roberta Menabò; Nina Kaludercic; Paolo Bernardi
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3. Ubiquinol-10 supplementation activates mitochondria functions to decelerate senescence in senescence-accelerated mice.

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Journal: Antioxid Redox Signal Date: 2013-12-14 Impact factor: 8.401

4. Ammonia exposure and subsequent recovery trigger oxidative stress responses in juveniles of Brazilian flounder Paralichthys orbignyanus.

Authors: Lucas Campos Maltez; Giovanna Rodrigues Stringhetta; Alain Danilo Enamorado; Marcelo Hideo Okamoto; Luis Alberto Romano; José María Monserrat; Luís André Sampaio; Luciano Garcia
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5. Physiological oxidative stress after arousal from hibernation in Arctic ground squirrel.

Authors: Adrienne L Orr; Lonita A Lohse; Kelly L Drew; Marcelo Hermes-Lima
Journal: Comp Biochem Physiol A Mol Integr Physiol Date: 2009-02-20 Impact factor: 2.320

Review 6. Role of mitochondrial oxidative stress in hypertension.

Authors: Sergey I Dikalov; Zoltan Ungvari
Journal: Am J Physiol Heart Circ Physiol Date: 2013-09-16 Impact factor: 4.733

Review 7. Mitochondria and Reactive Oxygen Species in Aging and Age-Related Diseases.

Authors: Carlotta Giorgi; Saverio Marchi; Ines C M Simoes; Ziyu Ren; Giampaolo Morciano; Mariasole Perrone; Paulina Patalas-Krawczyk; Sabine Borchard; Paulina Jędrak; Karolina Pierzynowska; Jędrzej Szymański; David Q Wang; Piero Portincasa; Grzegorz Węgrzyn; Hans Zischka; Pawel Dobrzyn; Massimo Bonora; Jerzy Duszynski; Alessandro Rimessi; Agnieszka Karkucinska-Wieckowska; Agnieszka Dobrzyn; Gyorgy Szabadkai; Barbara Zavan; Paulo J Oliveira; Vilma A Sardao; Paolo Pinton; Mariusz R Wieckowski
Journal: Int Rev Cell Mol Biol Date: 2018-06-22 Impact factor: 6.813

8. Signalling processes in endothelial ageing in relation to chronic oxidative stress and their potential therapeutic implications in humans.

Authors: Bernd van der Loo; Stefan Schildknecht; Rebecca Zee; Markus M Bachschmid
Journal: Exp Physiol Date: 2008-11-07 Impact factor: 2.969

9. The neurogenic basic helix-loop-helix transcription factor NeuroD6 confers tolerance to oxidative stress by triggering an antioxidant response and sustaining the mitochondrial biomass.

Authors: Martine Uittenbogaard; Kristin Kathleen Baxter; Anne Chiaramello
Journal: ASN Neuro Date: 2010-05-24 Impact factor: 4.146

10. Hydrogen peroxide stimulates activity and alters behavior in Drosophila melanogaster.

Authors: Dhruv Grover; Daniel Ford; Christopher Brown; Nicholas Hoe; Aysen Erdem; Simon Tavaré; John Tower
Journal: PLoS One Date: 2009-10-28 Impact factor: 3.240