Project description:DNA methylation insulates exons from CTCF loops with nuclear speckles

Project description:DNA methylation insulates exons from CTCF loops with nuclear speckles (HiChIP)

Project description:DNA methylation insulates exons from CTCF loops with nuclear speckles (ChiP-Seq)

Project description:DNA methylation insulates exons from CTCF loops with nuclear speckles (RNA-Seq)

Project description:CTCF is necessary for the formation and maintenance of many DNA loops and Topologically Associating Domains, but the genomic features that influence CTCF looping are incompletely understood. We characterized the downstream effects of treating cells with a DNMT1 inhibitor and acute depletion of nuclear speckles to study the factors that influence CTCF looping.

Project description:CTCF is necessary for the formation and maintenance of many DNA loops and Topologically Associating Domains, but the genomic features that influence CTCF looping are incompletely understood. We characterized the downstream effects of treating cells with a DNMT1 inhibitor and acute depletion of nuclear speckles to study the factors that influence CTCF looping.

Project description:CTCF is necessary for the formation and maintenance of many DNA loops and Topologically Associating Domains, but the genomic features that influence CTCF looping are incompletely understood. We characterized the downstream effects of treating cells with a DNMT1 inhibitor and acute depletion of nuclear speckles to study the factors that influence CTCF looping.

Project description:CTCF is necessary for the formation and maintenance of many DNA loops and Topologically Associating Domains, but the genomic features that influence CTCF looping are incompletely understood. We characterized the downstream effects of treating cells with a DNMT1 inhibitor and acute depletion of nuclear speckles to study the factors that influence CTCF looping.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:To investigate the function of p-hTERT in nuclear speckles, we isolated hTERT complex by immunoprecipitation with an anti-hTERT mAb from nuclear speckles purified biochemically and conducted RIP-seq analysis for RNAs associated with hTERT in nuclear speckles.