Polymorphic Posttranslational Modification of Alkaline Phosphatase in Escherichia coli

Abstract

Natural isolates of Escherichia coli have been examined by polyacrylamide gel electrophoresis for variant isozyme patterns of alkaline phosphatase. The polypeptide chains of this enzyme normally exist in two forms—an unmodified polypeptide product of the phoA gene and a posttranslationally modified version of the same polypeptide that has had its N-terminal arginine removed through the action of the iap gene product. These two forms of the polypeptide aggregate as dimers and thus normally form three electrophoretically distinguishable alkaline phosphatase isozymes. Among 104 strains screened, three had variant isozyme patterns. Two of these were deficient in the posttranslationally modified polypeptide, and cotransduction with cysI indicates that they carry mutant iap genes. The third variant is deficient in the unmodified form of the polypeptide. These results provide an unambiguous case of polymorphic posttranslational modification in E. coli.