Upon first glance at a bacterial genome, pseudoenzymes appear unremarkable due to their lack of critical motifs that facilitate catalysis. These pseudoenzymes exist within signal transduction enzymes including histidine kinases, response regulators, diguanylate cyclases, and phosphodiesterases. Here, we summarize recent studies of bacterial pseudo-histidine kinases and pseudo-response regulators that regulate cell division, capsule formation, and the circadian rhythm. These examples illuminate the mechanistic potential of catalytically dead signaling enzymes and their impact upon bacterial signal transduction. Moreover, proteins lacking characteristic catalytic features of two-component systems reveal the sophisticated underlying potential of canonical two-component systems.
Copyright © 2021 Elsevier Ltd. All rights reserved.