Systematic epigenome editing captures the context-dependent instructive function of chromatin modifications
European Molecular Biology Laboratory · European Molecular Biology Organization · +1 more institution
Abstract
Chromatin modifications are linked with regulating patterns of gene expression, but their causal role and context-dependent impact on transcription remains unresolved. Here we develop a modular epigenome editing platform that programs nine key chromatin modifications, or combinations thereof, to precise loci in living cells. We couple this with single-cell readouts to systematically quantitate the magnitude and heterogeneity of transcriptional responses elicited by each specific chromatin modification. Among these, we show that installing histone H3 lysine 4 trimethylation (H3K4me3) at promoters can causally instruct transcription by hierarchically remodeling the chromatin landscape. We further dissect how DNA…
Citation impact
- FWCI
- 23.71
- Percentile
- 100%
- References
- 70
Authors
5- CPCristina Policarpi
European Molecular Biology Laboratory
- MMMarzia Munafò
European Molecular Biology Laboratory
- STStylianos Tsagkris
European Molecular Biology Laboratory
- VCValentina Carlini
European Molecular Biology Organization, Heidelberg University, European Molecular Biology Laboratory
- JAJamie A. HackettCorresponding
European Molecular Biology Organization, European Molecular Biology Laboratory
Topics & keywords
- Epigenome
- Biology
- Chromatin
- Context (archaeology)
- Computational biology
- Function (biology)
- Epigenomics
- Genetics