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https://www.selleckchem.com/products/-epicatechin.html Epigenetics regulation plays a critical role in determining cell identity by controlling the accessibility of lineage-specific regulatory regions. In muscle stem cells, epigenetic mechanisms of how chromatin accessibility is modulated during cell fate determination are not fully understood. Here, we identified a long noncoding RNA, LncMyoD, that functions as a chromatin modulator for myogenic lineage determination and progression. The depletion of LncMyoD in muscle stem cells led to the down-regulation of myogenic genes and defects in myogenic differentiation. LncMyoD exclusively binds with MyoD and not with other myogenic regulatory factors and promotes transactivation of target genes. The mechanistic study revealed that loss of LncMyoD prevents the establishment of a permissive chromatin environment at myogenic E-box-containing regions, therefore restricting the binding of MyoD. Furthermore, the depletion of LncMyoD strongly impairs the reprogramming of fibroblasts into the myogenic lineage. Taken together, our study shows that LncMyoD associates with MyoD and promotes myogenic gene expression through modulating MyoD accessibility to chromatin, thereby regulating myogenic lineage determination and progression.In eukaryotes, RNA polymerase II (RNApII) transcribes messenger RNA from template DNA. Decades of experiments have identified the proteins needed for transcription activation, initiation complex assembly, and productive elongation. However, the dynamics of recruitment of these proteins to transcription complexes, and of the transitions between these steps, are poorly understood. We used multiwavelength single-molecule fluorescence microscopy to directly image and quantitate these dynamics in a budding yeast nuclear extract that reconstitutes activator-dependent transcription in vitro. A strong activator (Gal4-VP16) greatly stimulated reversible binding of individual RNApII molecules to template DNA. Bindi
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