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Pioneer factors: nature or nurture?

Shane D Stoeber, Holly Godin, Cheng‐Jian Xu, Lu Bai

2024Critical Reviews in Biochemistry and Molecular Biology16 citationsDOIOpen Access PDF

Abstract

Chromatin is densely packed with nucleosomes, which limits the accessibility of many chromatin-associated proteins. Pioneer factors (PFs) are usually viewed as a special group of sequence-specific transcription factors (TFs) that can recognize nucleosome-embedded motifs, invade compact chromatin, and generate open chromatin regions. Through this process, PFs initiate a cascade of events that play key roles in gene regulation and cell differentiation. A current debate in the field is if PFs belong to a unique subset of TFs with intrinsic "pioneering activity", or if all TFs have the potential to function as PFs within certain cellular contexts. There are also different views regarding the key feature(s) that define pioneering activity. In this review, we present evidence from the literature related to these alternative views and discuss how to potentially reconcile them. It is possible that both intrinsic properties, like tight nucleosome binding and structural compatibility, and cellular conditions, like concentration and co-factor availability, are important for PF function.

Topics & Concepts

ChromatinNucleosomeTranscription factorBiologyComputational biologyChIA-PETGeneticsFunction (biology)GeneCell biologyEvolutionary biologyGenomics and Chromatin DynamicsProtein Degradation and InhibitorsRNA Research and Splicing
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