%0 Journal Article %A Rietra, P. J. G. M. %A Willshaw, G. A. %A Smith, H. R. %A Field, A. M. %A Scotland, S. M. %A Rowe, B. %T Comparison of Vero-cytotoxin-encoding Phages from Escherichia coli of Human and Bovine Origin %D 1989 %J Microbiology, %V 135 %N 8 %P 2307-2318 %@ 1465-2080 %R https://doi.org/10.1099/00221287-135-8-2307 %I Microbiology Society, %X Phages encoding production of Vero cytotoxins VT1 or VT2 were isolated from strains of Escherichia coli of human and bovine origin. Two human strains of serotype Ol57: H7 produced both VT1 and VT2 and each carried two separate phages encoding either VT1 or VT2. The phages were morphologically similar to each other and to a VT2 phage previously isolated from a strain of serotype O157: H-; all had regular hexagonal heads and short tails. The phages had similar genome sizes and DNA hybridization and restriction enzyme digestion showed that the DNAs were very closely related. This contrasts with another report that one of the strains tested (933) released two clearly distinguishable phages separately encoding VT1 and VT2. The 0157 phages differed from a VT1 phage isolated from a bovine E. coli strain belonging to serotype O26: H11 and from the reference VT1 phage isolated previously from a human strain, H19, of serotype O26: H11. The two 026 phages were morphologically similar with elongated heads and long tails. They had similar genome sizes and DNA hybridization indicated a high level of homology between them. Hybridization of an O157 phage DNA probe to DNA of the 026 phages, and vice versa, showed there was some cross-hybridization between the two types of phage. A phage from a bovine strain of serotype O29: H34 had a regular hexagonal head and short tail resembling those of the O157 phages. The DNA was distinguishable from that of all the other phages tested in restriction digest patterns but hybridized significantly to that of an O157 phage. Hybridization of the phage genomes with VT1 and VT2 gene probes showed that sequences encoding these toxins were highly conserved in the different phages from strains belonging to the three serogroups. %U https://www.microbiologyresearch.org/content/journal/micro/10.1099/00221287-135-8-2307