Litcius/Paper detail

Z-DNA formation in promoters conserved between human and mouse are associated with increased transcription reinitiation rates

Nazar Beknazarov, Dmitry A. Konovalov, Alan Herbert, Maria Poptsova

2024Scientific Reports21 citationsDOIOpen Access PDF

Abstract

A long-standing question concerns the role of Z-DNA in transcription. Here we use a deep learning approach DeepZ that predicts Z-flipons based on DNA sequence, structural properties of nucleotides and omics data. We examined Z-flipons that are conserved between human and mouse genomes after generating whole-genome Z-flipon maps and then validated them by orthogonal approaches based on high resolution chemical mapping of Z-DNA and the transformer algorithm Z-DNABERT. For human and mouse, we revealed similar pattern of transcription factors, chromatin remodelers, and histone marks associated with conserved Z-flipons. We found significant enrichment of Z-flipons in alternative and bidirectional promoters associated with neurogenesis genes. We show that conserved Z-flipons are associated with increased experimentally determined transcription reinitiation rates compared to promoters without Z-flipons, but without affecting elongation or pausing. Our findings support a model where Z-flipons engage Transcription Factor E and impact phenotype by enabling the reset of preinitiation complexes when active, and the suppression of gene expression when engaged by repressive chromatin complexes.

Topics & Concepts

PromoterTranscription preinitiation complexBiologyChromatinTranscription (linguistics)DNATranscription factorGeneticsConserved sequenceHistoneGeneHuman genomeGenomeDNA sequencingComputational biologyGene expressionPeptide sequenceLinguisticsPhilosophyGenomics and Chromatin DynamicsRNA Research and SplicingRNA Interference and Gene Delivery