Litcius/Paper detail

The <i>B. subtilis</i> Rok protein is an atypical H-NS-like protein irresponsive to physico-chemical cues

Amanda M. Erkelens, Liang Qin, Bert van Erp, Andrés Miguel-Arribas, David Abia, Helena G J Keek, Dorijn Markus, Marc K M Cajili, Samuel Schwab, Wilfried J. J. Meijer, Remus T. Dame

2022Nucleic Acids Research26 citationsDOIOpen Access PDF

Abstract

Nucleoid-associated proteins (NAPs) play a central role in chromosome organization and environment-responsive transcription regulation. The Bacillus subtilis-encoded NAP Rok binds preferentially AT-rich regions of the genome, which often contain genes of foreign origin that are silenced by Rok binding. Additionally, Rok plays a role in chromosome architecture by binding in genomic clusters and promoting chromosomal loop formation. Based on this, Rok was proposed to be a functional homolog of E. coli H-NS. However, it is largely unclear how Rok binds DNA, how it represses transcription and whether Rok mediates environment-responsive gene regulation. Here, we investigated Rok's DNA binding properties and the effects of physico-chemical conditions thereon. We demonstrate that Rok is a DNA bridging protein similar to prototypical H-NS-like proteins. However, unlike these proteins, the DNA bridging ability of Rok is not affected by changes in physico-chemical conditions. The DNA binding properties of the Rok interaction partner sRok are affected by salt concentration. This suggests that in a minority of Bacillus strains Rok activity can be modulated by sRok, and thus respond indirectly to environmental stimuli. Despite several functional similarities, the absence of a direct response to physico-chemical changes establishes Rok as disparate member of the H-NS family.

Topics & Concepts

BiologyBacillus subtilisNucleoidDNATranscription (linguistics)GeneGeneticsCell biologyDNA-binding proteinTranscription factorBacteriaEscherichia coliPhilosophyLinguisticsBacteriophages and microbial interactionsBacterial Genetics and BiotechnologyAdvanced biosensing and bioanalysis techniques