Litcius/Paper detail

p300 is an obligate integrator of combinatorial transcription factor inputs

John J. Ferrie, Jonathan P. Karr, Thomas G.W. Graham, Gina M. Dailey, Gloria Zhang, Robert Tjian, Xavier Darzacq

2023Molecular Cell53 citationsDOIOpen Access PDF

Abstract

Transcription coactivators are proteins or protein complexes that mediate transcription factor (TF) function. However, they lack DNA-binding capacity, prompting the question of how they engage target loci. Three non-exclusive hypotheses have been posited: coactivators are recruited by complexing with TFs, by binding histones through epigenetic reader domains, or by partitioning into condensates through their extensive intrinsically disordered regions. Using p300 as a prototypical coactivator, we systematically mutated its annotated domains and show by single-molecule tracking in live U2OS cells that coactivator-chromatin binding depends entirely on combinatorial binding of multiple TF-interaction domains. Furthermore, we demonstrate that acetyltransferase activity opposes p300-chromatin association and that the N-terminal TF-interaction domains regulate that activity. Single TF-interaction domains are insufficient for chromatin binding and regulation of catalytic activity, implying a principle that we speculate could broadly apply to eukaryotic gene regulation: a TF must act in coordination with other TFs to recruit coactivator activity.

Topics & Concepts

CoactivatorBiologyTranscription factorChromatinHistoneGeneticsHistone acetyltransferaseDNA-binding proteinCell biologyEpigeneticsComputational biologyGeneGenomics and Chromatin DynamicsProtein Degradation and InhibitorsRNA Research and Splicing