Genetic and molecular analyses of Escherichia coli K1 antigen genes

Abstract

The plasmid pSR23, composed of a 34-kilobase E. coli chromosomal fragment inserted into the BamHI site of the pHC79 cosmid cloning vector, contains genes encoding biosynthesis of the K1 capsular polysaccharide. Deletions, subclones, and Tn5 insertion mutants were used to localize the K1 genes on pSR23. The only deletion derivative of pSR23 that retained the K1 phenotype lacked a 2.7-kilobase EcoRI fragment. Subclones containing HindIII and EcoRI fragments of pSR23 did not produce K1. Cells harboring pSR27, a subclone containing a 23-kilobase BamHI fragment, synthesized K1 that was not detectable extracellularly. Six acapsular Tn5 insertion mutants of three phenotypic classes were observed. Class I mutants synthesized K1 only when N-acetylneuraminic acid (NANA) was provided in the medium. Reduced amounts of K1 were detectable in cell extracts of class II mutants. Class III mutants did not produce detectable K1 in either extracts or when cells were provided exogenous NANA. All mutants had sialyltransferase activity. Analysis in the E. coli minicell system of proteins expressed by derivatives of pSR23 identified a minimum of 12 polypeptides, ranging in size from 18,000 to 80,000 daltons, involved in K1 biosynthesis. The 16-kilobase coding capacity required for the proteins was located in three gene clusters designated A, B, and C. We propose that the A cluster contains a NANA operon of two genes that code for proteins with apparent molecular weights of 45,000 and 50,000. The A region also includes a 2-kilobase segment involved in regulation of K1 synthesis. The B region encoding five protein species appears responsible for the translocation of the polymer from its site of synthesis on the cytoplasmic membrane to the cell surface. The C region encodes four protein species. Since the three gene clusters appear to be coordinately regulated. we propose that they constitute a kps regulon.