DIDO3 acts at the interface of RNAPII transcription and chromatin structure regulation

Abstract: Chromatin structure and organization has a key role in gene expression regulation. Here, we integrated ChIP-seq, RNA-seq, Hi-C, epigenetic, and cancer-related mutations data to get insight into the role of Death Inducer Obliterator gene (Dido1) in RNA pol II (RNAPII) transcription and chromatin structure regulation. Analysis of ChIP-seq data of DIDO3, the largest protein isoform of Dido1, revealed binding-sites overlap about 70% with RNAPII and H3K36me3 in the mouse genome, but also significant overlap 10-30% … Show more

“…Candidate genes such as Wdr5 (WD repeat-containing protein 5), Dnmts (DNA methyltransferases), and the methyltransferase Suz12 (part of the Polycomb 2 repressor complex) (Table 1), all of which are influenced by Dido, have also been discussed as possible epigenetic modification components in EMT [45,46]. The significance of Dido in this field was recently underlined by an exhaustive computational study that integrated multi-omics data and Dido domain composition, to propose a molecular mechanism for Dido3 in RNA pol II pausing and long-range chromatin interactions, which have pleiotropic consequences [47].…”

The Impact of Dido on the Epithelial-Mesenchymal Transition

“…Candidate genes such as Wdr5 (WD repeat-containing protein 5), Dnmts (DNA methyltransferases), and the methyltransferase Suz12 (part of the Polycomb 2 repressor complex) (Table 1), all of which are influenced by Dido, have also been discussed as possible epigenetic modification components in EMT [45,46]. The significance of Dido in this field was recently underlined by an exhaustive computational study that integrated multi-omics data and Dido domain composition, to propose a molecular mechanism for Dido3 in RNA pol II pausing and long-range chromatin interactions, which have pleiotropic consequences [47].…”

The Impact of Dido on the Epithelial-Mesenchymal Transition