AUTHOR=Liu Na , Jiang Ting , Cui Wen-Peng , Qi Xiao-Qing , Li Xue-Gong , Lu Yuan , Wu Long-Fei , Zhang Wei-Jia 

TITLE=The TorRS two component system regulates expression of TMAO reductase in response to high hydrostatic pressure in Vibrio fluvialis

JOURNAL=Frontiers in Microbiology

VOLUME=14

YEAR=2023

URL=https://www.frontiersin.org/journals/microbiology/articles/10.3389/fmicb.2023.1291578

DOI=10.3389/fmicb.2023.1291578

ISSN=1664-302X

ABSTRACT=<p>High hydrostatic pressure (HHP) regulated gene expression is one of the most commonly adopted strategies for microbial adaptation to the deep-sea environments. Previously we showed that the HHP-inducible trimethylamine N-oxide (TMAO) reductase improves the pressure tolerance of deep-sea strain <italic>Vibrio fluvialis</italic> QY27. Here, we investigated the molecular mechanism of HHP-responsive regulation of TMAO reductase TorA. By constructing <italic>torR</italic> and <italic>torS</italic> deletion mutants, we demonstrated that the two-component regulator TorR and sensor TorS are responsible for the HHP-responsive regulation of <italic>torA</italic>. Unlike known HHP-responsive regulatory system, the abundance of <italic>torR</italic> and <italic>torS</italic> was not affected by HHP. Complementation of the Δ<italic>torS</italic> mutant with TorS altered at conserved phosphorylation sites revealed that the three sites were indispensable for substrate-induced regulation, but only the histidine located in the alternative transmitter domain was involved in pressure-responsive regulation. Taken together, we demonstrated that the induction of TMAO reductase by HHP is mediated through the TorRS system and proposed a bifurcation of signal transduction in pressure-responsive regulation from the substrate-induction. This work provides novel knowledge of the pressure regulated gene expression and will promote the understanding of the microbial adaptation to the deep-sea HHP environment.</p>