Brain Cells Choose Cilia Over Social Media to Make Exciting New Connections!September 19, 2022When was the last time you made an exciting new connection? At an international conference, the coffee shop, or social media? A welcoming new study now provides evidence that brain cells don’t go to these lengths or even have to take a standard synaptic approach; instead, they use a connection – an axo-ciliary synapse – […]
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 […]
Multiomic Face-off Finds the Factors that Lead to Look-alikes!September 6, 2022Have you ever heard of someone bumping into their doppelgänger and wondered how the forces of biology conspired to make two unrelated people look alike? In a recent study, a few familiar faces took advantage of a photographer’s keen eye and a multiomic “face-off” to find those factors that lead two strangers to look alike! […]
eBook: Single-cell Methods in Epigenetics and GenomicsAugust 24, 2022Single-Cell methodologies can be the most comprehensive way to identify cell subpopulations with different transcriptome and epigenetic profiles within complex samples, eliminating the need for isolation strategies like FACS or magnetic sorting that could alter the biology due to sample manipulation. These methods are proving to be invaluable for Identifying novel cells that modulate response […]
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 […]
