Comparative analysis of C3 and botulinal neurotoxin genes and their environment in Clostridium botulinum types C and D

Abstract

The C3 exoenzyme gene is located on a bacteriophage in Clostridium botulinum types C and D (M. R. Popoff, D. Hauser, P. Boquet, M. W. Eklund, and D. M. Gill, Infect. Immun. 59:3673-3679, 1991). A derivative CN phage from phage C of C. botulinum Stockholm (C-St) (K. Oguma, H. Iida, and K. Inoue, Jpn. J. Microbiol. 19:167-172, 1975), isolated as neurotoxin negative, also does not produce exoenzyme C3. The botulinal neurotoxin C1 gene is present on the CN phage but contains a stop mutation in the DNA region encoding the N-terminal part of the heavy chain (codon 553). The putative truncated botulinal neurotoxin C1 protein was not recovered in a C. botulinum strain harboring the CN phage. We found that the C3 gene is localized on a 21.5-kbp DNA fragment flanked by the core motif 5'-AAGGAG-3' in DNAs of phage C of C. botulinum 468 (C-468), C-St phage, and phage D of C. botulinum 1873 (D-1873). The 21.5-kbp DNA fragment is deleted in CN phage DNA, and the motif 5'-AAGGAG-3' is present only in one copy at the deletion junction, but the deletion in the CN phage could be nonspecific, since this phage was obtained by nitrosoguanidine treatment. These findings could indicate that the C3 gene is localized on a 21.5-kbp mobile element. C. botulinum type C strain 003-9 produces a C3 exoenzyme (Y. Nemoto, T. Namba, S. Kozaki, and S. Narumiya, J. Biol. Chem. 266:19312-19319, 1991), and Staphylococcus aureus E1 produces a related C3 enzyme which is named epidernmal cell differentiation inhibitor (S. Inoue, M. Sugai, Y. Murooka, S. Y. Paik, Y. M. Hong, H. Oghai, and H. Suginaka, Biochem. Biophys. Res. Comm. 174:459-464, 1991) and which shares 80.6 and 56.6% similarity, respectively with the C3 enzymes from C-468 or C-St and D-1873 phages athe amino acid level. The features of the putative 21.5-kbp transposon were not found in C. botulinum 003-9 and S. aureus E1, as determined by analysis of the C3 and epidermal cell differentiation inhibitor gene-flanking DNA regions. These data suggest a common ancestral origin and divergent evolution of the C3 genes in these three groups of bacterial strains and dissemination of a 21.5-kbp element carrying the C3 gene C-468, C-St, and D-1873 phages.