Abstract
Bacteria adopt alternative cell fates during development. In Bacillus subtilis, the transition from planktonic growth to biofilm formation and sporulation is controlled by a complex regulatory circuit, in which the most important event is activation of Spo0A, a transcription factor and a master regulator for genes involved in both biofilm formation and sporulation. In B. cereus, the regulatory pathway controlling biofilm formation and cell differentiation is much less clear. In this study, we show that a novel gene, comER, plays a significant role in biofilm formation as well as sporulation in both B. subtilis and B. cereus. Mutations in the comER gene result in defects in biofilm formation and a delay in spore formation in the two Bacillus species. Our evidence supports the idea that comER may be part of the regulatory circuit that controls Spo0A activation. comER likely acts upstream of sda, a gene encoding a small checkpoint protein for both sporulation and biofilm formation, by blocking the phosphor-relay and thereby Spo0A activation. In summary, our studies outlined a conserved, positive role for comER, a gene whose function was previously uncharacterized, in the regulation of biofilm formation and sporulation in the two Bacillus species.
Highlights
Bacillus subtilis and B. cereus are closely related, soil-dwelling spore-forming bacteria
Our investigations carried out in the undomesticated strains of B. subtilis (NCIB3610) and B. cereus (AR156) show that the comER gene plays an important role in the regulation of biofilm formation and sporulation in both B. subtilis and B. cereus
Results from our study further suggest that comER may be part of the regulatory pathway that controls activation of Spo0A, the master regulator essential for both biofilm formation and sporulation
Summary
Bacillus subtilis and B. cereus are closely related, soil-dwelling spore-forming bacteria In the environment, both species are found in the rhizosphere and both are considered as biological control agents that help plants fend off infections caused by plant pathogens and sometimes even fungi and parasites (Emmert and Handelsman, 1999; Berg et al, 2005; Aliye et al, 2008). Both species are found in the rhizosphere and both are considered as biological control agents that help plants fend off infections caused by plant pathogens and sometimes even fungi and parasites (Emmert and Handelsman, 1999; Berg et al, 2005; Aliye et al, 2008) They have drawn great interest in the agricultural field. For B. cereus, aside from being a biological control agent, some strains are known to cause foodborne illness or even more
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