Litcius/Paper detail

Rap-Phr Systems from Plasmids pAW63 and pHT8-1 Act Together To Regulate Sporulation in the Bacillus thuringiensis Serovar kurstaki HD73 Strain

Priscilla Cardoso, Fernanda Fazion, Stéphane Perchat, Christophe Buisson, Gislayne Trindade Vilas-Bôas, Didier Lereclus

2020Applied and Environmental Microbiology17 citationsDOIOpen Access PDF

Abstract

The life cycle of Bacillus thuringiensis in insect larvae is regulated by quorum-sensing systems of the RNPP family. After the toxemia caused by Cry insecticidal toxins, the sequential activation of these systems allows the bacterium to trigger first a state of virulence (regulated by PlcR-PapR) and then a necrotrophic lifestyle (regulated by NprR-NprX); ultimately, sporulation is controlled by the Rap-Phr systems. Our study describes a new rap-phr operon carried by a B. thuringiensis plasmid and shows that the Rap protein has a moderate effect on sporulation. However, this system, in combination with another plasmidic rap-phr operon, provides effective control of sporulation when the bacteria develop in the cadavers of infected insect larvae. Overall, this study highlights the important adaptive role of the plasmid Rap-Phr systems in the developmental fate of B. thuringiensis and its survival within its ecological niche.

Topics & Concepts

Bacillus thuringiensisPlasmidOperonBiologyMicrobiologyQuorum sensingVirulenceSporeBacteriaStrain (injury)BiofilmGeneticsEscherichia coliGeneAnatomyInsect Resistance and GeneticsBacillus and Francisella bacterial researchInsect and Pesticide Research