According to breakthrough research, families affected by Down’s Syndrome may one day have the opportunity to alleviate many of the syndrome’s harmful aspects. Regardless of the ethical concerns around this treatment, which we won’t debate here, we think just the approach and mechanism developed within this study are worthy of a shout out. A cunning […]
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Search Results for: epigenetic editing
Non-Coding RNAs in Epigenetics
We interviewed John Mattick a few years back as we were getting ready to launch EpiGenie, but couldn’t manage to get the transcripts all edited and ready for show time. So, when we ran accross this interview in what was Invitrogen’s Quest magazine we were excited, then bummed because we didn’t run it first, then […]
Now In Print! – New Technologies Leave their Mark on Imprinting Control Regions
Genomic imprinting typically lets our parents leave their mark on our genomes; however, new technological advances are now allowing us to leave our mark on imprinting! The first of our epigenetic exposés that went into print reports on how multiple modalities uncovered complex epigenetic crosstalk that regulates allele-specific gene expression at potential imprinting control regions […]
EpiGo-KRAB: A New, Live-action Tool to Edit and Visualize Heterochromatin Formation in Living Color
Like any live-action remake, vibrant colors are essential for a new epigenetic editing tool that simultaneously introduces H3K9me3 at hundreds of targeted loci while also allowing for HD visualization of the heterochromatic results. Now, let’s meet the stars of this show that were cast by a team led by Hanhui Ma from ShanghaiTech University. H3K9me3 […]
Filling in the Blanks: DNA Methylation-Dependent Glycosylation of Chromatin Modifiers Represses Transcription
You might think our portrait of the marks that make up the epigenetic landscape is nearing completion, but a new feature is now filling in some of the blank space behind a key regulatory mechanism. It has been long known that DNA methylation represses transcription via the recruitment of methylation-dependent repressive factors. The components of […]