Analyzing the role of a dual-function diguanylate cyclase/phosphodiesterase for attachment and motility in Agrobacterium tumefaciens
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Cyclic diguanylate monophosphate (c-di-GMP) is a second messenger that controls the signaling pathway for the motile to sessile transition in many bacteria. Diguanylate cyclases (DGCs), characterized by a GGDEF domain, are responsible for the synthesis of c-di-GMP. c-di-GMP is degraded by EAL and HD-GYP domains that exhibit phosphodiesterase activity (PDE). In Agrobacterium tumefaciens , out of 31 predicted proteins regulating the c-di-GMP levels, this work focuses on the predicted dual-function DGC/PDE, DcpB. We show that DcpB is a cycle-dependent PDE under our experimental conditions, resulting in cell cycle-dependent control of motility and biofilm formation in A. tumefaciens . DcpB also exhibits polar and mid-cell localization. Finally, we identify genetic interactions between dcpB and a LacI-family transcriptional regulators, thuR , suggesting additional regulatory inputs for DcpB-dependent phenotypes.
Importance
c-di-GMP is a universal secondary messenger known to control various biological processes in bacteria including attachment, motility, virulence, and cell cycle progression. In A. tumefaciens , there are 31 predicted c-di-GMP-metabolizing proteins predicted to affect the c-di-GMP pool, raising the question of why so many proteins are involved and how the activities of these proteins are coordinated. This work describes a cell cycle-dependent PDE activity that helps coordinate cell cycle progression and developmental phenotypes including biofilm formation and motility.
