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Consequences of producing DNA gyrase from a synthetic <i>gyrBA</i> operon in <i>Salmonella enterica</i> serovar Typhimurium

German Pozdeev, Aalap Mogre, Charles J. Dorman

2021Molecular Microbiology15 citationsDOIOpen Access PDF

Abstract

structure. Although the A and B subunits are required in equal proportions to form DNA gyrase, the gyrA and gyrB genes that encode them in Salmonella (and in many other bacteria) are at separate locations on the chromosome, are under separate transcriptional control, and are present in different copy numbers in rapidly growing bacteria. In wild-type Salmonella, gyrA is near the chromosome's replication terminus, while gyrB is near the origin. We generated a synthetic gyrBA operon at the oriC-proximal location of gyrB to test the significance of the gyrase gene position for Salmonella physiology. Although the strain producing gyrase from an operon had a modest alteration to its DNA supercoiling set points, most housekeeping functions were unaffected. However, its SPI-2 virulence genes were expressed at a reduced level and its survival was reduced in macrophage. Our data reveal that the horizontally acquired SPI-2 genes have a greater sensitivity to disturbance of DNA topology than the core genome and we discuss its significance in the context of Salmonella genome evolution and the gyrA and gyrB gene arrangements found in other bacteria.

Topics & Concepts

DNA gyraseSalmonella entericaBiologySalmonellaOperonSerotypeMicrobiologyEnterobacteriaceaeBacteriaVirologyEscherichia coliGeneticsGeneBacterial Genetics and BiotechnologyPhotosynthetic Processes and MechanismsDNA Repair Mechanisms
Consequences of producing DNA gyrase from a synthetic <i>gyrBA</i> operon in <i>Salmonella enterica</i> serovar Typhimurium | Litcius