Suter, David M.2020-05-312020-05-312020-05-312020-06-0110.1016/j.tcb.2020.03.003https://infoscience.epfl.ch/handle/20.500.14299/169014WOS:000533615500007Transcription factors (TFs) bind to specific DNA motifs to regulate the expression of target genes. To reach their binding sites, TFs diffuse in 3D and perform local motions such as 1D sliding, hopping, or intersegmental transfer. TF-DNA interactions depend on multiple parameters, such as the chromatin environment, TF partitioning into distinct subcellular regions, and cooperativity with other DNA-binding proteins. In this review, how current understanding of the search process has initially been shaped by prokaryotic studies is discussed, as well as what is known about the parameters regulating TF search efficiency in the context of the complex eukaryotic chromatin landscape.Cell Biologyrepressor-operator interactiondiffusion-driven mechanismsfacilitated target locationcoli-lac repressorprotein translocationnucleic-acidsmitotic bookmarkinggene-expressionfactor-bindingdynamicstext::journal::journal article::review article