AI Article Synopsis

  • Scientists are studying how a special protein called SMCHD1 works with DNA to control which genes are active or silent in cells.
  • A new mutation in this protein makes it better at silencing certain genes, which can mess up how certain genes are turned on or off in mice.
  • The research suggests that SMCHD1 has a tricky job; it affects gene silencing but doesn't always protect the DNA in the ways scientists thought before.

Article Abstract

The interplay between 3D chromatin architecture and gene silencing is incompletely understood. Here, we report a novel point mutation in the non-canonical SMC protein SMCHD1 that enhances its silencing capacity at endogenous developmental targets. Moreover, it also results in enhanced silencing at the facioscapulohumeral muscular dystrophy associated macrosatellite-array, D4Z4, resulting in enhanced repression of DUX4 encoded by this repeat. Heightened SMCHD1 silencing perturbs developmental Hox gene activation, causing a homeotic transformation in mice. Paradoxically, the mutant SMCHD1 appears to enhance insulation against other epigenetic regulators, including PRC2 and CTCF, while depleting long range chromatin interactions akin to what is observed in the absence of SMCHD1. These data suggest that SMCHD1's role in long range chromatin interactions is not directly linked to gene silencing or insulating the chromatin, refining the model for how the different levels of SMCHD1-mediated chromatin regulation interact to bring about gene silencing in normal development and disease.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10519958PMC
http://dx.doi.org/10.1038/s41467-023-40992-6DOI Listing

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