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Literature DB >> 34657571

Shaping longevity early in life: developmental ROS and H3K4me3 set the clock.

Bryndon J Oleson¹, Daphne Bazopoulou¹, Ursula Jakob¹.

Abstract

Studies in Caenorhabditis elegans have revealed that even a genetically identical population of animals exposed to the same environment displays a remarkable level of variability in individual lifespan. Stochasticity factors, occurring seemingly by chance or at random, are thought to account for a large part of this variability. Recent studies in our lab using C. elegans now revealed that naturally occurring variations in the levels of reactive oxygen species experienced early in life contribute to the observed lifespan variability, and likely serve as stochasticity factors in aging. Here, we will highlight how developmental events can positively shape lifespan and stress responses via a redox-sensitive epigenetic regulator, and discuss the outstanding questions and future directions on the complex relationship between reactive oxygen species and aging.

Entities: Chemical

Keywords: Aging; epigenetics; h3k4me3; hormesis; longevity; reactive oxygen species; redox

Mesh：

Substances：

Year: 2021 PMID： 34657571 PMCID： PMC8794500 DOI： 10.1080/15384101.2021.1986317

Source DB: PubMed Journal: Cell Cycle ISSN： 1551-4005 Impact factor: 5.173

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References

94 in total

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Shaping longevity early in life: developmental ROS and H3K4me3 set the clock.

1. ROS-triggered phosphorylation of complex II by Fgr kinase regulates cellular adaptation to fuel use.

Review 2. Taking a "good" look at free radicals in the aging process.

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4. Effects of oxygen on protein carbonyl and aging in Caenorhabditis elegans mutants with long (age-1) and short (mev-1) life spans.

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