Age‐associated DNA‐methylation profiles have been used successfully to develop highly
accurate biomarkers of age (" epigenetic clocks") in humans, mice, dogs, and other species …

Human DNA methylation profiles have been used successfully to develop highly accurate
biomarkers of aging (“epigenetic clocks”). Although these human epigenetic clocks are not …

DNA methylation-based biomarkers of aging have been developed for many mammals but
not yet for the vervet monkey (Chlorocebus sabaeus), which is a valuable non-human …

DNA methylation profiles have been used to develop biomarkers of aging known as
epigenetic clocks, which predict chronological age with remarkable accuracy and show …

Methylation levels at specific CpG positions in the genome have been used to develop
accurate estimators of chronological age in humans, mice, and other species. Although …

To address how conserved DNA methylation-based epigenetic aging is in diverse branches
of the tree of life, we generated DNA methylation data from African clawed frogs (Xenopus …

Human DNA methylation data have previously been used to develop highly accurate
biomarkers of aging (“epigenetic clocks”). Subsequent studies demonstrate that similar …

Epigenetic clocks comprise a set of CpG sites whose DNA methylation levels measure
subject age. These clocks are acknowledged as a highly accurate molecular correlate of …

Inferring the chronological and biological age of individuals is fundamental to population
ecology and our understanding of ageing itself, its evolution, and the biological processes …

Human DNA-methylation data have been used to develop highly accurate biomarkers of
aging (" epigenetic clocks"). Recent studies demonstrate that similar epigenetic clocks for …