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Bacillus subtilis Stressosome Sensor Protein Sequences Govern the Ability To Distinguish among Environmental Stressors and Elicit Different σ <sup>B</sup> Response Profiles

Christopher W. Hamm, Daxton R. Butler, Matthew T. Cabeen

2022mBio13 citationsDOIOpen Access PDF

Abstract

Bacterial survival depends on appropriate responses to diverse stressors. The general stress-response system in the environmental model bacterium Bacillus subtilis is constantly poised for an immediate response and uses unusual stress-sensing protein complexes called stressosomes. Stressosomes typically contain four different types of putative sensing protein. We asked whether each type of sensor has a distinct role in mediating response dynamics to different environmental stressors. We find that one sensor type always mediates a transient response, while the others show distinct response magnitude and timing to different stressors. We also find that a transient response is exceptional, as several engineered hybrid proteins did not show strong transient responses. Our work reveals functional distinctions among subunits of the stressosome complex and represents a step toward understanding how the general stress response of B. subtilis ensures its survival in natural environmental settings.

Topics & Concepts

StressorBacillus subtilisBiologyPopulationFight-or-flight responseAdaptive responseEnvironmental stressGeneticsBacteriaCell biologyEvolutionary biologyGeneNeuroscienceDemographySociologyBacterial Genetics and BiotechnologyProtein Structure and DynamicsBacterial biofilms and quorum sensing
Bacillus subtilis Stressosome Sensor Protein Sequences Govern the Ability To Distinguish among Environmental Stressors and Elicit Different σ <sup>B</sup> Response Profiles | Litcius