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Unstructured transcription factor interactions enable emergent specificity

Abrar A Abidi, Claudia Cattoglio, Natalie N. Tang, Vinson B. Fan, Gina M. Dailey, Amir D. Hay, Prasanthi Kunamaneni, Daniel E. Milkie, Xavier Darzacq, Eric Betzig, Robert Tjian, Thomas G. W. Graham

2026Science7 citationsDOI

Abstract

How intrinsically disordered regions (IDRs) shape chromatin binding and nuclear organization of transcription factors (TFs) remains unclear. We used proximity-assisted photoactivation (PAPA), a single-molecule protein-protein interaction sensor, to investigate how IDRs might influence TF interactions with each other and with chromatin in live cells. We found that the Sp1 DNA binding domain (DBD) interacted poorly with chromatin and did not colocalize with Sp1. Weak interaction of the isolated IDR with full-length Sp1 was enhanced by fusion to various unrelated DBDs. Live imaging of Drosophila polytene chromosomes confirmed that an IDR could confer sharp locus specificity on an otherwise nonspecific DBD. These findings suggest that TF specificity emerges on chromatin when ensembles of diverse, unstructured interactions are scaffolded by transient DNA contacts.

Topics & Concepts

ChromatinTranscription factorDNAPolytene chromosomeBiologyComputational biologyTranscription (linguistics)GeneticsCell biologyScaffold/matrix attachment regionColocalizationDNA-binding proteinProtein–protein interactionPlasma protein bindingDNA-binding domainCell nucleusBinding siteLocus (genetics)ChIA-PETReplication timingDomain (mathematical analysis)Fusion proteinAnkyrin repeatTranscriptional activityGenomics and Chromatin DynamicsDevelopmental Biology and Gene RegulationRetinal Development and Disorders
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