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Genomic Instability

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Hallmarks of Aging Miniseries No. 1 Genomic Instability

As cells age, chromosomes lose their stability. Genomic instability is a key hallmark of aging.
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Although there is much evidence linking genomic and epigenomic changes to disorders involving accelerated aging, it’s been trickier to relate these changes to natural aging. Of all the DNA lesions that occur as a result of endogenous and environmental insults, it’s clear that some (like retrotransposon movement and large chromosomal rearrangements) contribute more than others.

Underlying all the manifestations of genomic instability is compromised DNA repair. Indeed, today’s aging research focuses on age-related changes in activation of key DNA repair pathways, involving p53, ATM, histone H2A.X, XRCC4 and ligase 4. What environmental factors can hinder DNA repair? Evidence points to general physiological stress (exacerbated by behaviors like chronic alcohol consumption) and disrupted circadian rhythm. That’s right – don’t stay up all night, so your genome can recover from daytime damage!

Of course, it’s also possible that decreased DNA repair is itself a symptom, not a cause, of aging. To investigate this possibility, researchers will need to examine changes in transcriptional regulators of repair genes, such as ncRNAs, hormones, and other chromatin modulators.

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Sections of normal bovine adrenal tissue were treated with either DNase I to produce 3’OH/5’PO4 blunt-ended breaks or DNase II to produce 3’ PO4/5’ OH blunt-ended breaks. Bar - 25 µm.
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DNA fragmentation, frequently occurring late in apoptosis, has been correlated with some age-related pathologies. The ApopTag™ ISOL Dual Fluorescence Kit detects and distinguishes between typical apoptotic vs. necrotic DNA breaks induced by either DNase I or DNase II enzyme activities simultaneously in a single sample.

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