Virulence plasmid‐associated adhesion of Escherichia coli and its significance for chlorine resistance

of the ColV, I‐K94 virulence plasmid into strains of Escherichia coli led (for four out of five strains tested) to a marked increase in the ability of organisms to adhere to glass beads. For strain 1829, the plasmid led to increased attachment to other materials including sand, agar, agarose, chitin and cellulose. The increased adhesion to glass beads was due to the presence of the plasmid and not to its introduction into a variant with altered adhesive properties. The plasmidencoded VmpA protein did not appear to be necessary for the ColV, I‐K94‐promoted adhesion but adhesion was absolutely dependent on the presence of derepressed levels of transfer components in the ColV + strains and partially dependent on the presence of colicin components. The extent of the plasmid‐promoted adhesion was greatest for organisms grown at 30°, 37° or 42°C and adhesion was almost abolished by growth at 21° or 25°C; this finding is in accord with transfer and colicin components being involved in adhesion. Of several other plasmids tested for their effects on adhesion, those with derepressed transfer properties showed a marked effect as did the RI resistance plasmid. Because of the ease of handling glass bead‐attached organisms, such preparations were used as a model for studying the relevance of attachment to the resistance of E. coli to chlorination in the water purification process. Organisms of 1829 ColV, I‐K94, attached to glass beads, were more resistant to damage and killing by chlorine than were unattached organisms. Three findings suggest that such chlorine resistance may be significant for survival during water chlorination. Firstly, ColV, I‐K94 + bacteria became attached if incubated in sewage effluent with glass beads at 20°C. Secondly, ColV + organisms already attached to glass beads maintained their attachment during 24 h incubation in effluent at 20°C and thirdly such effluent incubated organisms remained chlorine resistant provided that they retained their attachment.