Chromatin-Con 2023: Epigenetics of Aging Online ConferenceJanuary 19, 2023Our friends and colleagues at Active Motif will be hosting an online conference focusing on the epigenetics of aging. Tune in if you can…Just take a look at the list of speakers and we’re sure you won’t want to miss it! Click over to the Active Motif website for more details and to register: Chromatin-Con […]
eBook: Epigenetics of AgingJanuary 16, 2023Aging and longevity research has moved to the forefront of epigenetics in recent years. From DNA Methylation, to the Exposome and “translational inheritance” we are all avidly interested in this topic. In this eBook we review recent and intriguing research into this topic. Table of Contents Novel Multiomic Epigenetic Clock May Decipher How Epigenetic Aging […]
eBook: Epigenetics & DNA MethylationNovember 21, 2022One of the longest-known and most studied epigenetic markers is DNA methylation, which can regulate gene expression and genomic organization in nearly all organisms. In eukaryotes, the primary modification of DNA is found in cytosines (C), where DNA Methyltransferases mediate the transfer of a methyl group to cytosines, converting them to 5-methylcytosine (5-mC), minor modifications […]
Keeping Aging in LINE by Stabilizing HeterochromatinSeptember 11, 2022Like many aspects of our lives, epigenetic processes can get out of control during aging. Now, exciting new findings have revealed that the secret to keeping our aging epigenomes “in line” is removing LINE-1 RNA from cells, which stabilizes heterochromatin and reverses signs of aging! Previous studies have shown how age-associated heterochromatin loss associates with […]
Novel Multiomic Epigenetic Clock May Decipher How Epigenetic Aging Impacts Cell FunctionAugust 23, 2022Timely advances have demonstrated that significant changes to DNA methylation levels accompany the creaking knees, failing eyes, and changing tastes in music (!) associated with the human aging process. A well-timed study now builds upon these past studies to describe a multiomic-based approach with the potential to forge links between epigenetic aging and the gene […]