Construction and Characterization of a Lactose-Inducible Promoter System for Controlled Gene Expression inClostridium perfringens
ABSTRACTClostridium perfringensis a Gram-positive anaerobic pathogen which causes many diseases in humans and animals. While some genetic tools exist for working withC. perfringens, a tightly regulated, inducible promoter system is currently lacking. Therefore, we constructed a plasmid-based promoter system that provided regulated expression when lactose was added. This plasmid (pKRAH1) is anEscherichia coli-C. perfringensshuttle vector containing the gene encoding a transcriptional regulator, BgaR, and a divergent promoter upstream of genebgaL(bgaR-PbgaL). To measure transcription at thebgaLpromoter in pKRAH1, theE. colireporter genegusA, encoding β-glucuronidase, was placed downstream of the PbgaLpromoter to make plasmid pAH2. When transformed into three strains ofC. perfringens, pAH2 exhibited lactose-inducible expression.C. perfringensstrain 13, a commonly studied strain, has endogenous β-glucuronidase activity. We mutated genebglR, encoding a putative β-glucuronidase, and observed an 89% decrease in endogenous activity with no lactose. This combination of a system for regulated gene expression and a mutant of strain 13 with low β-glucuronidase activity are useful tools for studying gene regulation and protein expression in an important pathogenic bacterium. We used this system to express theyfp-pilBgene, comprised of a yellow fluorescent protein (YFP)-encoding gene fused to an assembly ATPase gene involved in type IV pilus-dependent gliding motility inC. perfringens. Expression in the wild-type strain showed that YFP-PilB localized mostly to the poles of cells, but in apilCmutant it localized throughout the cell, demonstrating that the membrane protein PilC is required for polar localization of PilB.