CoRSIVs in Cows? Targeting a DNA Methylation Bullseye May Improve Livestock Farming!August 5, 2024Finding informative epigenetic targets in the genome is no easy task; however, cleverly composed studies previously reported on the discovery of correlated regions of systemic interindividual variation (or CoRSIVs) in humans – DNA methylation patterns that vary between individuals but remain consistent across tissues. Now, this talented team sets its sights on understanding this level […]
A CHARMing Epigenetic Editor Enchants Endogenous DNA Methylation Machinery to Pause Prion DiseaseJuly 8, 2024While George Clooney or Cate Blanchett exude a degree of charm, a captivating new epigenetic advance may outdo them both! A new study now describes a compact epigenetic editor known as “CHARM” that engages the cell’s own DNA methylation machinery to stop a fatal neurodegenerative disease in its tracks. A charismatic crew guided by Sonia […]
cfDNA Methylation Analysis Captures the Double Trouble of Inflammaging!July 1, 2024Analyzing cell-free (cf)DNA methylation from liquid biopsies represents a non-invasive approach to profile various diseases, but what if it could help us understand the devious duo of inflammaging – aging and inflammation? A talented team has dealt with this “double trouble” by applying enzymatic methyl-seq (EM-seq) to evaluate cfDNA methylation patterns. Researchers headed by Jian-Ping […]
DNA Methylation Differences in Imprinting Control Regions Contribute to Ethnic Disparities in Alzheimer’s Disease RiskMay 28, 2024Non-Hispanic Black (NHB) patients have a two-fold higher risk of developing Alzheimer’s disease than non-Hispanic White (NHW) patients for unknown reasons; now, a fascinating epigenetics study reveals the involvement of DNA methylation at imprinting control regions (ICRs). Researchers headed by Randy L. Jirtle and Cathrine Hoyo (North Carolina State University) explored ethnic variation in disease […]
eBook: DNA Methylation 2024May 15, 2024DNA methylation, whether in cells or in a cell-free environment, is one of the most powerful and most studied epigenetic regulators of gene expression and genomic organization. This is true for nearly all organisms, leading to the emergence of numerous methods for mapping 5-mC and 5-hmC and other modification states. There are many approaches for […]
Pregnancy Epigenetically Ages Mothers – But Breastfeeding May Reverse ItApril 22, 2024Our mothers might be onto something when they jokingly blame us for their gray hair and wrinkles. In two recent studies, DNA methylation-based epigenetic clocks show that pregnancy, with its far-ranging emotional and physical changes, increases the biological ages of mothers. On the bright side, the effects were reversible in those who breastfed, according to […]
A Selfish, Poisonous Element Could Set the Evolutionary Stage for Genomic ImprintingApril 15, 2024A selfish toddler might throw a tantrum to get their way, but in worms, a “selfish” piece of DNA known as a toxin-antidote (TA) element uses something more sinister—poison. Researchers have just discovered a parent-of-origin effect with this nematode element that could be an evolutionary precursor of genomic imprinting. Led by Alejandro Burga (Institute of Molecular […]
EvoETR Epigenome Editor Helps Maintain Cholesterol Levels by Silencing Pcsk9March 25, 2024Ever wanted to cut a bad thing out of your life? Well, perhaps the secret to success doesn’t involve any cutting (of your DNA). In some people, a mutant PCSK9 gene interferes with the liver’s job to get rid of LDL, aka “bad” cholesterol. Now, researchers have developed an all-in-one “evolved engineered transcriptional repressor” (EvoETR) […]
No Epigenetic Modification is an Island: How Reader Proteins Functionally Interpret Complex Chromatin StatesMarch 25, 2024Like no man is an island and instead relies on those surrounding them, single epigenetic modifications generally do not function in solitary. Now, an absorbing new study from a synergistic epigenomics squad reports how epigenetic reader proteins functionally interpret chromatin states made up of complex combinations of disparate epigenetic modifications. A highly collaborative team guided […]
SIMPLE-seq Collaborates Chemistries to Report Single-Cell 5mC and 5hmCFebruary 20, 2024Collaborations work best when team members’ abilities complement each other. That’s what makes SIMPLE-seq work so well—it’s a simple, easy combination of two methods that complement each other to provide both 5-methylcytosine (5mC) and 5-hydroxymethylcytosine (5hmC) datasets in one experiment in single cells and molecules. Continuing on the recent theme of methods that report both 5mC […]
