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

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

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 …

Several articles describe highly accurate age estimation methods based on human DNA-
methylation data. It is not yet known whether similar epigenetic aging clocks can be …

Robust biomarkers of chronological age have been developed in humans and model
mammalian species such as rats and mice using DNA methylation data. The concept of …

Aging is often perceived as a degenerative process resulting from random accrual of cellular
damage over time. Despite this, age can be accurately estimated by epigenetic clocks based …

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

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 …

Background DNA methylation changes at a discrete set of sites in the human genome are
predictive of chronological and biological age. However, it is not known whether these …