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An abundance of long non-coding RNA (lncRNA) present in most species from yeast to human are involved in transcriptional regulation, dosage compensation and imprinting. This underscores the importance of lncRNA as functional RNA despite the fact that they do not produce proteins. Two recent papers in Cell have demonstrated that transcription of the non-conserved lncRNAs, but not the RNAs themselves, is necessary to introduce co-transcriptional regulatory histone marks to regulate gene expression.
Functional human cardiomyocytes hold great promise in cell transplantation-based therapy to treat many heart diseases. To meet this devastating and clinical need, researchers are infatuated with developing novel technologies and methodologies to efficiently generate cardiomyocytes through either stem cell differentiation or cell lineage transdifferentiation. Though exciting progress has been made, challenges remain to be addressed before the translation from bench side to bed side can be fulfilled.
Repair of double-strand breaks by homologous recombination requires Repair of double-strand breaks by homologous recombination requires 5′-3′ resection of the DNA ends to create 3′ single-stranded DNA tails. While much progress has been made in identifying the proteins that directly participate in end resection, how this process occurs in the context of chromatin is not well understood. Two papers in Nature report that Fun30, a poorly characterized member of the Swi2/Snf2 family of chromatin remodelers, plays a role in end processing by facilitating the Exo1 and Sgs1-Dna2 resection pathways.
Human immunodeficiency virus type 1 (HIV-1) is the cause of AIDS. In recent years it has emerged that cellular interferon-stimulated genes (ISG), play important roles in cell-intrinsic restriction of HIV replication. A publication now describes a novel strategy employed by HIV-infected cells to restrict viral replication, which involves inhibition of viral mRNA translation by the ISG Schlafen 11.
Dendrites exhibit self-avoidance, in which branches of the same neuron repel each other while overlapping with branches from neighboring neurons. A recent paper by Lefebvre and colleagues reveals that clustered protocadherins provide a basis for neuronal recognition during dendrite self-avoidance in vertebrates.
Histone lysine demethylases are chromatin modifiers that play important roles in many pathological processes such as inflammation and cancer, making them potentially attractive drug targets. In a recent study, Kruidenier et al. provided proof of concept by identifying chemical matters that inhibit demethylation mediated by the two related histone H3 lysine 27 demethylases, KDM6A and 6B (UTX and JMJD3). The KDM6 inhibitor shows remarkable substrate selectivity and can inhibit transcription of a plethora of pro-inflammatory genes in cell culture by altering H3K27me3 level at some of the KDM6 target genes.
