Intrinsic disorder controls two functionally distinct dimers of the master transcription factor PU.1

Transcription factors comprise a major reservoir of conformational disorder in the eukaryotic proteome. The hematopoietic master regulator PU.1 presents a well-defined model of the most common configuration of intrinsically disordered regions (IDRs) in transcription factors. We report that the struc...

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Published in:Science advances 2020-02, Vol.6 (8), p.eaay3178-eaay3178
Main Authors: Xhani, Suela, Lee, Sangchoon, Kim, Hye Mi, Wang, Siming, Esaki, Shingo, Ha, Van L T, Khanezarrin, Mahtab, Fernandez, Giselle L, Albrecht, Amanda V, Aramini, James M, Germann, Markus W, Poon, Gregory M K
Format: Article
Language:English
Subjects:
Biophysics
Genetics
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Summary:Transcription factors comprise a major reservoir of conformational disorder in the eukaryotic proteome. The hematopoietic master regulator PU.1 presents a well-defined model of the most common configuration of intrinsically disordered regions (IDRs) in transcription factors. We report that the structured DNA binding domain (DBD) of PU.1 regulates gene expression via antagonistic dimeric states that are reciprocally controlled by cognate DNA on the one hand and by its proximal anionic IDR on the other. The two conformers are mediated by distinct regions of the DBD without structured contributions from the tethered IDRs. Unlike DNA-bound complexes, the unbound dimer is markedly destabilized. Dimerization without DNA is promoted by progressive phosphomimetic substitutions of IDR residues that are phosphorylated in immune activation and stimulated by anionic crowding agents. These results suggest a previously unidentified, nonstructural role for charged IDRs in conformational control by mitigating electrostatic penalties that would mask the interactions of highly cationic DBDs.
ISSN:2375-2548
2375-2548
DOI:10.1126/sciadv.aay3178