The combination of 15-loci MIRU-VNTR typing with spoligotyping is useful for primary analysis of M. tuberculosis strains; however, additional use of MIRU 23 should be considered. Strains clustered by PCR-based methods should be further analysed by IS6110-RFLP typing.
Yersinia enterocolitica serotype O : 3 produces two types of lipopolysaccharide (LPS) molecules to its surface. In both types the lipid A (LA) structure is substituted by inner core (IC) octasaccharide to which either outer core (OC) hexasaccharide or homopolymeric O-polysaccharide (OPS) is linked. In addition, enterobacterial common antigen (ECA) can be covalently linked to LPS, however, via an unknown linkage. To elucidate the relationship between ECA and LPS in Y. enterocolitica O : 3 and the effect of temperature on their expression, LPS was isolated from bacteria grown at 22 6C and 37 6C by consequent hot phenol/water and phenol-chloroform-light petroleum extractions to obtain LPS preparations free of ECA linked to glycerophospholipid. In immunoblotting, monoclonal antibodies TomA6 and 898, specific for OPS and ECA, respectively, reacted both with ladder-like bands and with a slower-migrating smear suggesting that the ECA and OPS epitopes coexist on the same molecules. These results were supported by immunoblotting with a monovalent Y. enterocolitica O : 3 ECAspecific rabbit antiserum. Also, two or three 898-positive (and monovalent-positive) TomA6-negative bands migrated at the level of the LA-IC band in LPS samples from certain OC mutants, most likely representing LA-IC molecules carrying 1-3 ECA repeat units but no OPS. These bands were also present in Y. enterocolitica O : 9 OC mutants; however, coexistence of ECA and OPS in the same molecules could not be detected. Finally, the LA-IC-ECA bands were missing from LPS of bacteria grown at 37 6C and also the general reduction in wild-type bacteria of ECA-specific monovalentreactive material at 37 6C suggested that temperature regulates the expression of ECA. Indeed, RNAsequencing analysis showed significant downregulation of the ECA biosynthetic gene cluster at 37 6C.
The O-polysaccharide (OPS, O-Ag) cap of LPS is a major virulence factor of Yersinia species and also serves as a receptor for the binding of lytic bacteriophage φR1-37. Currently, the OPS-based serotyping scheme for the Yersinia pseudotuberculosis complex includes 21 known O-serotypes that follow three distinct lineages: Y. pseudotuberculosis sensu stricto, Y. similis and the Korean group of strains. Elucidation of the Y. pseudotuberculosis complex OPS structures and characterization of the OPS genetics (altogether 18 O-serotypes studied thus far) allows a better understanding of the relationships among the various O serotypes and will facilitate the analysis of the evolutionary processes giving rise to new serotypes. Here we present the characterization of the OPS structure and gene cluster of Y. similis O:9. Bacteriophage φR1-37, which uses the Y. similis O:9 OPS as a receptor, also infects a number of Y. enterocolitica serotypes, including O:3, O:5,27, O:9 and O:50. The Y. similis O:9 OPS structure resembled none of the receptor structures of the Y. enterocolitica strains, suggesting that φR1-37 can recognize several surface receptors, thus promoting broad host specificity.
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