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Tag: hallmarks of aging
Our energy levels matter more than we think, especially when it concerns longevity: we don’t just need energy to do, we need it to thrive.
There are 2 main types of epigenetic modifications. Learn what they as well as what factors can influence methylation.
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The Hallmarks of Aging describes altered intercellular communication as an alteration of the signals that pass between cells.
The Hallmarks of Aging describe stem cell exhaustion as failure of stem cells & their ability to supply new somatic cells to organs/tissues.
The Hallmarks of Aging describes deregulated nutrient sensing as a failure of four pathways that manage metabolism & energy production.
The Hallmarks of Aging describes cellular senescence as dysfunctional, pro-inflammatory cells which have evaded destruction.
The Hallmarks of Aging describes telomere attrition as the erosion of the protective telomeres that cap the ends of our chromosomes.
The Hallmarks of Aging describes mitochondrial dysfunction as the decline of mitochondria and their ability to produce energy for the cell.
The Hallmarks of Aging describes the loss of proteostasis as the failure of our protein production machinery and is a reason we age.
What are epigenetic alterations, and what are the consequences of epigenetic alterations? Learn more about this important Hallmark of Aging.
The Hallmarks of Aging describe genomic instability as damage to DNA that’s imperfectly repaired or not repaired at all. What does that mean?