Transcriptomics

Dataset Information

0

Dissecting the regulatory strategies of NFkB RelA target genes in the inflammatory response reveals differential transactivation logics [BMDM]


ABSTRACT: NFkB RelA is the potent transcriptional activator of inflammatory response genes. We stringently defined a list of direct RelA target genes by integrating physical (ChIPseq) and functional (RNAseq in knockouts) datasets. We then dissected each gene's regulatory strategy by testing RelA variants in a novel primary-cell genetic complementation assay. All endogenous target genes required that RelA makes DNA-base-specific contacts, and none could be activated by the DNA binding domain alone. However, endogenous target genes differed widely in how they employ the two transactivation domains. Through model-aided analysis of the dynamic timecourse data we reveal gene-specific synergy and redundancy of TA1 and TA2. Given that post-translational modifications control TA1 activity and intrinsic affinity for coactivators determines TA2 activity, the differential TA logics suggests context-dependent vs. context-independent control of endogenous RelA-target genes. While some inflammatory initiators appear to require co-stimulatory TA1 activation, inflammatory resolvers are a part of the NFkB RelA core response.

ORGANISM(S): Mus musculus

PROVIDER: GSE132539 | GEO | 2020/01/30

REPOSITORIES: GEO

Dataset's files

Source:
Action DRS
Other
Items per page:
1 - 1 of 1

Similar Datasets

2020-01-30 | GSE132863 | GEO
2020-01-30 | GSE132774 | GEO
2020-01-30 | GSE132654 | GEO
2020-01-30 | GSE132602 | GEO
2020-01-30 | GSE132538 | GEO
2020-01-30 | GSE132792 | GEO
2020-01-30 | GSE132791 | GEO
2020-01-30 | GSE140967 | GEO
| PRJNA548321 | ENA
| PRJNA549287 | ENA