Multifunctional Intrinsically Disordered Regions in Transcription Factors

Abstract

Eukaryotic transcription factors (TFs) are the final integrators of a complex molecular feedback mechanism that interfaces with the genome, consolidating information for transcriptional regulation. TFs consist of both structured DNA-binding domains and long intrinsically disordered regions (IDRs) embedded with motifs linked to transcriptional control. It is now well established that the dynamic multifunctionality of IDRs is the basis for a wide spectrum of TF functions necessary to navigate and regulate the human genome. This review dissects the chemical features of TF IDRs that endow them with structural plasticity that is central to their functions in the nucleus. Sequence analysis of a set of over 1600 human TFs through AlphaFold was used to identify key features of their IDRs. Recent studies were then highlighted to illustrate IDR involvement in processes such as protein interactions, DNA binding and specificity, chromatin opening, and phase separation. To expand our understanding of TF functions, future directions are suggested for integrating experiments and simulations, from in vitro to living systems.