DNA methylation is an epigenetic modification crucial to normal development, with its dysregulation leading to various diseases including cancer. As interest in epigenomics grows, an innovative ...

In part 2 of this webinar, Dr. Emily Hodges, assistant professor of biochemistry at Vanderbilt University, will reveal new data that illustrates how the Hodges Lab is utilizing the 6-base genome to ...

DNA and RNA methylation, initially thought to operate as distinct pathways, have been shown to interact closely, shifting our understanding of gene regulation. A team of researchers from the ...

The epigenetic modification, DNA methylation, is characterized by 5-methylcytosine (5-mC) and found in specific genomic locations, most notably regulatory regions such as promoters and enhancers.

"We find that epigenetic clocks based on the entropy of methylation states predict chronological age with similar accuracy as common approaches that are based on methylation levels of individual ...

Astrocytes shed their supportive role and unlock hidden neurogenic potential, offering new hope for brain injury recovery through cutting-edge epigenetic reprogramming. Study: DNA methylation controls ...

“Our results suggest that rDNA promoter methylation and the age-related loss of active rDNA TU, which are a hallmark of the aging process, start only after reaching sexual maturity.” “Our results ...