Longevity genomics across species
M Kaeberlein - Current Genomics, 2007 - ingentaconnect.com
Current Genomics, 2007•ingentaconnect.com
Unbiased genome-wide studies of longevity in S. cerevisiae and C. elegans have led to the
identification of more than one hundred genes that determine life span in one or both
organisms. Key pathways have been uncovered linking nutrient and growth factor cues to
longevity. Quantitative measures of the degree to which aging is evolutionary conserved are
now possible. A major challenge for the future is determining which of these genes play a
similar role in human aging and using that information to develop therapies toward age …
identification of more than one hundred genes that determine life span in one or both
organisms. Key pathways have been uncovered linking nutrient and growth factor cues to
longevity. Quantitative measures of the degree to which aging is evolutionary conserved are
now possible. A major challenge for the future is determining which of these genes play a
similar role in human aging and using that information to develop therapies toward age …
Unbiased genome-wide studies of longevity in S. cerevisiae and C. elegans have led to the identification of more than one hundred genes that determine life span in one or both organisms. Key pathways have been uncovered linking nutrient and growth factor cues to longevity. Quantitative measures of the degree to which aging is evolutionary conserved are now possible. A major challenge for the future is determining which of these genes play a similar role in human aging and using that information to develop therapies toward age-associated diseases.
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