The response threshold of Salmonella PilZ domain proteins is determined by their binding affinities for c‐di‐GMP |
| |
Authors: | Ingrid Swanson Pultz Matthias Christen Hemantha Don Kulasekara Andrew Kennard Bridget Kulasekara Samuel I Miller |
| |
Institution: | 1. Department of Microbiology, University of Washington, , Seattle, WA, 91895 USA;2. Department of Molecular and Cellular Biology, University of Washington, , Seattle, WA, 91895 USA;3. Department of Medicine, University of Washington, , Seattle, WA, 91895 USA;4. Department of Genome Sciences, University of Washington, , Seattle, WA, 91895 USA |
| |
Abstract: | c‐di‐GMP is a bacterial second messenger that is enzymatically synthesized and degraded in response to environmental signals. Cellular processes are affected when c‐di‐GMP binds to receptors which include proteins that contain the PilZ domain. Although each c‐di‐GMP synthesis or degradation enzyme metabolizes the same molecule, many of these enzymes can be linked to specific downstream processes. Here we present evidence that c‐di‐GMP signalling specificity is achieved through differences in affinities of receptor macromolecules. We show that the PilZ domain proteins of Salmonella Typhimurium, YcgR and BcsA, demonstrate a 43‐fold difference in their affinity for c‐di‐GMP. Modulation of the affinities of these proteins altered their activities in a predictable manner in vivo. Inactivation of yhjH, which encodes a predicted c‐di‐GMP degrading enzyme, increased the fraction of the cellular population that demonstrated c‐di‐GMP levels high enough to bind to the higher‐affinity YcgR protein and inhibit motility, but not high enough to bind to the lower‐affinity BcsA protein and stimulate cellulose production. Finally, PilZ domain proteins of Pseudomonas aeruginosa demonstrated a 145‐fold difference in binding affinities, suggesting that regulation by binding affinity may be a conserved mechanism that allows organisms with many c‐di‐GMP binding macromolecules to rapidly integrate multiple environmental signals into one output. |
| |
Keywords: | |
|
|