New C2c2 CRISPR Turns The Tables on RNAJune 15, 2016In the CRISPR hype up to now, DNA has gotten a raw deal. In all known CRISPR systems, RNA guides gang up with protein effectors (e.g., Cas9 and Cpf1) to chop up poor, abused DNA helices. Now, a new CRISPR protein – C2c2 – is giving DNA a reprieve, turning the tables on RNA instead. […]
Freeze-Dried, Zika-Detecting Gene CircuitsJune 15, 2016Freeze-drying has claimed to be the technology the future before, but its fruits – from strawberries to ice cream – have never quite lived up to the hype. However, synthetic gene circuits recently joined the picnic with a powerful new use for the process; they can be freeze dried onto filter paper along with cell-free […]
Tracing Cell Lineages with CRISPR/Cas9-Based Genetic BarcodesJune 15, 2016Digital barcodes are a pervasive and highly utile means of tracking just about anything that you can imagine. Through the application of barcode technology we can create a grand overview of the journey each book, beer, burger, or boat took to travel from A to Z. Scientists would love a similar system to track cells […]
The Mixed Messages of Bivalent ChromatinJune 14, 2016Navigating the epigenetic landscape is no easy feat. Clear markings and smooth rides through its canals can quickly give way to a hectic hodgepodge of mixed signals and uncertain routes. A great example is bivalent chromatin, which contains marks of both activation and repression. Characterized by Bernstein et al. in 2006, the most studied bivalent […]
From Brains to Bone – How Oncohistones Cause TumorigenesisJune 7, 2016A flurry of studies over recent years has revealed a significant link between mutations in histone H3 genes and tumorigenesis, although how such H3 mutations (or “oncohistones”) mediate tumorigenesis had only been assessed in certain brain tumors. However, two new studies in Science have now revealed how oncohistones can promote tumorigenesis in mesenchymal tissues, which […]