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Histone methyltransferase activity programs nuclear peripheral genome positioning.

Developmental biology (2020-07-28)
Kelvin See, Anna A Kiseleva, Cheryl L Smith, Feiyan Liu, Jun Li, Andrey Poleshko, Jonathan A Epstein
ABSTRAKT

Spatial organization of the genome in the nucleus plays a critical role in development and regulation of transcription. A genomic region that resides at the nuclear periphery is part of the chromatin layer marked with histone H3 lysine 9 dimethyl (H3K9me2), but chromatin reorganization during cell differentiation can cause movement in and out of this nuclear compartment with patterns specific for individual cell fates. Here we describe a CRISPR-based system that allows visualization coupled with forced spatial relocalization of a target genomic locus in live cells. We demonstrate that a specified locus can be tethered to the nuclear periphery through direct binding to a dCas9-Lap2β fusion protein at the nuclear membrane, or via targeting of a histone methyltransferase (HMT), G9a fused to dCas9, that promotes H3K9me2 labeling and localization to the nuclear periphery. The enzymatic activity of the HMT is sufficient to promote this repositioning, while disruption of the catalytic activity abolishes the localization effect. We further demonstrate that dCas9-G9a-mediated localization to the nuclear periphery is independent of nuclear actin polymerization. Our data suggest a function for epigenetic histone modifying enzymes in spatial chromatin organization and provide a system for tracking and labeling targeted genomic regions in live cells.

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