Determination of plasmid-associated hydrophobicity of Yersinia enterocolitica by the salting-out test

The salting-out test to identify virulent Yersinia pseudotuberculosis

A total of 54 strains including 8 serotypes of Yersinia pseudotuberculosis were examined to find out about their cell surface hydrophobicity and virulence plasmid-associated properties. All the strains which aggregated in 0.9% saline expressed the properties of calcium-dependent growth and autoagglutination. However, the hydrophilic strains did not possess virulence plasmid-associated properties. The above results suggest that the salting-out test with 0.9% saline could be an effective measure to differentiate the virulence plasmid-carrying strains of Y. pseudotuberculosis from those of plasmidless virulence.

Relationship between group B streptococcal serotypes and cell surface hydrophobicity

Cell surface hydrophobicities of streptococci of serological group B were determined by the adherence of the bacteria to hexadecane droplets. A significant adherence to hexadecane was observed with the group B streptococcal type reference strains Ib, V, Ic, R and X, but not with those of serotype Ia, II, III and IV. Cultivation of the bacteria in microcapsule-inducing media reduced the hexadecane adherence properties. The adherence to hexadecane was not related to fibrinogen binding properties of the cultures. Screening a large number of group B streptococci isolated from humans and bovines revealed that those with polysaccharide type antigen alone were generally hydrophilic, those with protein antigen alone or with protein antigen in combination with polysaccharide antigen were mostly hydrophobic. Cultivation of the bacteria under microaerobic conditions or after a single mouse passage enhanced microcapsule production and correspondingly reduced the hexadecane adherence values. Treatment of the bacteria by guanidinium chloride or by neuraminidase enhanced the hexadecane adherence. The hydrophobic component on group B streptococcal surface appeared to be partly inactivated by heat or proteolytic treatment of the bacteria.

Cell surface hydrophobicity of Actinomyces pyogenes determined by hexadecane adherence- and salt aggregation studies

Cell surface hydrophobicities of Actinomyces pyogenes were determined by measuring the adherence of the bacteria to hexadecane droplets and by salt aggregation tests. Among 42 A. pyogenes cultures tested 25 (60%) adhered strongly (adherence greater than or equal to 75%) and 17 (40%) less pronounced (adherence between 25-75%) to the hexadecane droplets. Pre-treatment of the bacteria with proteolytic enzymes completely eliminated the adherence properties whereas heat treatment had no effect. The salt aggregation studies revealed that 4 (10%) cultures aggregated in ammonium sulfate solutions of a molarity of 0.05 mol/l, 5 (12%), 14 (33%) and 3 (7%) cultures in ammonium sulfate solutions with molarities of greater than or equal to 1.5 mol/l, greater than or equal to 3 mol/l and greater than or equal to 4.5 mol/l, respectively. No aggregation at all could be observed with 16 (38%) of the cultures. Pronase treatment completely eliminated the salt aggregation reactions, trypsin- and heat treatment had no effect. The results from hexadecane adherence and salt aggregation did not correspond. The differences in surface hydrophobicities, possibly related to adherence properties of A. pyogenes, could be used for epidemiological typing of individual cultures of this bacterial species.