[The heterogeneity of collection strains of Yersinia pseudotuberculosis and their molecular biological properties]. / Geterogennost' muzeinykh shtammov Yersinia pseudotuberculosis i ikh molekuliarno-biologicheskie svoistva.

The capacity of Y. pseudotuberculosis strains for disassociation with the appearance of S- and P-forms has been studied. Strains 852 and 9547 show high stability in S-forms, their conversion into R-forms occurring at 40-42 degrees C. Strain 6953 shows pronounced polymorphism and instability of its associations at different growth temperatures. Strain 9532 exists in S- and R-forms which retain their stability during numerous subculturings at different growth temperatures and prolonged storage. This strain has plasmids of 130, 72.2, 5.7 kb. All plasmids are retained in S- and R-forms, i. e. the dissociation of the strain is not accompanied by the loss of plasmids. The conversion of the strain from the S-form into the R-form leads to changes in the structure of lipopolysaccharide and the composition of low-molecular (less than 23 kD) proteins in the outer and inner membranes. In tests on guinea pigs the LD50 of the R-form of the strain is tenfold greater than that of its S-form. The dissociants of strain 9532 are transformed by plasmid DNA with equal efficiency and equally inherit them without selective pressure.

Viral chimeric protein including a determinant of myelin basic protein is capable of inducing allergic encephalomyelitis in guinea pigs.

A hybrid vaccinia virus expressing a chimeric protein consisting of thymidine kinase and the encephalitogenic determinant, S1, from guinea pig myelin basic protein was constructed. Infection of guinea pigs with the virus resulted in the development of allergic encephalomyelitis.