Dynamics of genome reorganization during human cardiogenesis reveal an RBM20-dependent splicing factory
Articolo
Data di Pubblicazione:
2019
Abstract:
Functional changes in spatial genome organization during human development are poorly understood. Here we report a comprehensive profile of nuclear dynamics during human cardiogenesis from pluripotent stem cells by integrating Hi-C, RNA-seq and ATAC-seq. While chromatin accessibility and gene expression show complex on/off dynamics, large-scale genome architecture changes are mostly unidirectional. Many large cardiac genes transition from a repressive to an active compartment during differentiation, coincident with upregulation. We identify a network of such gene loci that increase their association inter-chromosomally, and are targets of the muscle-specific splicing factor RBM20. Genome editing studies show that TTN pre-mRNA, the main RBM20-regulated transcript in the heart, nucleates RBM20 foci that drive spatial proximity between the TTN locus and other inter-chromosomal RBM20 targets such as CACNA1C and CAMK2D. This mechanism promotes RBM20-dependent alternative splicing of the resulting transcripts, indicating the existence of a cardiac-specific trans-interacting chromatin domain (TID) functioning as a splicing factory.
Tipologia CRIS:
03A-Articolo su Rivista
Keywords:
Cell Differentiation; Gene Expression Regulation, Developmental; Gene Regulatory Networks; Heart; Humans; Myocardium; Organogenesis; Pluripotent Stem Cells; RNA-Binding Proteins; Alternative Splicing
Elenco autori:
Bertero A.; Fields P.A.; Ramani V.; Bonora G.; Yardimci G.G.; Reinecke H.; Pabon L.; Noble W.S.; Shendure J.; Murry C.E.
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