The specificity of ParR binding determines the compatibility of conjugative plasmids inClostridium perfringens

Abstract

ABSTRACTPlasmids that encode the same replication machinery are generally unable to coexist in the same bacterial cell. However,Clostridium perfringensstrains often carry multiple conjugative toxin or antibiotic resistance plasmids that are closely related and encode similar Rep proteins. In many bacteria, plasmid partitioning upon cell division involves a ParMRC system and there are ~10 different ParMRC families inC. perfringens, with differences in amino acid sequences between each ParM family (15% − 54% identity). Since plasmids encoding genes belonging to the same ParMRC family are not observed in the same strain, these families appear to represent the basis for plasmid compatibility inC. perfringens. To understand this process, we examined the key recognition steps between ParR DNA-binding proteins and theirparCbinding sites. The ParR proteins bound to sequences within aparCsite from the same ParMRC family, but could not interact with aparCsite from a different ParMRC family. These data provide evidence that compatibility of the conjugative toxin plasmids ofC. perfringensis mediated by theirparMRC-like partitioning systems. This process provides a selective advantage by enabling the host bacterium to maintain separate plasmids that encode toxins that are specific for different host targets.