[HTML][HTML] The plasticity of aging: insights from long-lived mutants
C Kenyon - Cell, 2005 - cell.com
C Kenyon
Cell, 2005•cell.comMutations in genes affecting endocrine signaling, stress responses, metabolism, and
telomeres can all increase the life spans of model organisms. These mutations have
revealed evolutionarily conserved pathways for aging, some of which appear to extend life
span in response to sensory cues, caloric restriction, or stress. Many mutations affecting
longevity pathways delay age-related disease, and the molecular analysis of these
pathways is leading to a mechanistic understanding of how these two processes—aging …
telomeres can all increase the life spans of model organisms. These mutations have
revealed evolutionarily conserved pathways for aging, some of which appear to extend life
span in response to sensory cues, caloric restriction, or stress. Many mutations affecting
longevity pathways delay age-related disease, and the molecular analysis of these
pathways is leading to a mechanistic understanding of how these two processes—aging …
Mutations in genes affecting endocrine signaling, stress responses, metabolism, and telomeres can all increase the life spans of model organisms. These mutations have revealed evolutionarily conserved pathways for aging, some of which appear to extend life span in response to sensory cues, caloric restriction, or stress. Many mutations affecting longevity pathways delay age-related disease, and the molecular analysis of these pathways is leading to a mechanistic understanding of how these two processes—aging and disease susceptibility—are linked.
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