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Context transcription factors establish cooperative environments and mediate enhancer communication
JF. Kribelbauer-Swietek, O. Pushkarev, V. Gardeux, K. Faltejskova, J. Russeil, G. van Mierlo, B. Deplancke
Language English Country United States
Document type Journal Article
Grant support
310030_197082
Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung (Swiss National Science Foundation)
860002
EC | Horizon 2020 Framework Programme (EU Framework Programme for Research and Innovation H2020)
895426
EC | Horizon 2020 Framework Programme (EU Framework Programme for Research and Innovation H2020)
101026623
EC | Horizon 2020 Framework Programme (EU Framework Programme for Research and Innovation H2020)
2020-895
European Molecular Biology Organization (EMBO)
1139-2019
European Molecular Biology Organization (EMBO)
NLK
ProQuest Central
from 2000-01-01 to 1 year ago
Health & Medicine (ProQuest)
from 2000-01-01 to 1 year ago
Public Health Database (ProQuest)
from 2000-01-01 to 1 year ago
- MeSH
- Chromatin * genetics metabolism MeSH
- Humans MeSH
- Quantitative Trait Loci * MeSH
- Mice MeSH
- Gene Expression Regulation MeSH
- Transcription Factors * metabolism genetics MeSH
- Protein Binding MeSH
- Binding Sites genetics MeSH
- Enhancer Elements, Genetic * MeSH
- Animals MeSH
- Check Tag
- Humans MeSH
- Mice MeSH
- Animals MeSH
- Publication type
- Journal Article MeSH
Many enhancers control gene expression by assembling regulatory factor clusters, also referred to as condensates. This process is vital for facilitating enhancer communication and establishing cellular identity. However, how DNA sequence and transcription factor (TF) binding instruct the formation of high regulatory factor environments remains poorly understood. Here we developed a new approach leveraging enhancer-centric chromatin accessibility quantitative trait loci (caQTLs) to nominate regulatory factor clusters genome-wide. By analyzing TF-binding signatures within the context of caQTLs and comparing episomal versus endogenous enhancer activities, we discovered a class of regulators, 'context-only' TFs, that amplify the activity of cell type-specific caQTL-binding TFs, that is, 'context-initiator' TFs. Similar to super-enhancers, enhancers enriched for context-only TF-binding sites display high coactivator binding and sensitivity to bromodomain-inhibiting molecules. We further show that binding sites for context-only and context-initiator TFs underlie enhancer coordination, providing a mechanistic rationale for how a loose TF syntax confers regulatory specificity.
References provided by Crossref.org
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