Only three of the eleven species of the genus Yersinia are associated with disease. Y. pestis is the causative agent of plague, Y. pseudotuberculosis and several pathogenic bio/serovars of the species Y. enterocolitica cause yersiniosis. New Y. enterocolitica subspecies with diagnostic relevance have been proposed allowing the differentiation of European and American isolates. The ISO-standard (ISO 102739) summarizes the knowledge gained from enrichment and isolation of Y. enterocolitica from food and feed samples. The final biochemical identification must be carried out by classical tube testing, as commercially available test-systems are not sensitive and specific. For the assessment of the presumptive pathogenicity of a Y. enterocolitica isolate empiric virulence markers can be replaced by PCR assays targeting plasmoidal or chromosomal genes. Their evaluation in terms of routine diagnostic procedures is still missing. The definite identification of Y. enterocolitica isolates can also be achieved by sequencing the 16S rRNA gene. Immunoblot based on plasmoidal encoded Yersinia proteins enables the serological determination of animal and human infections. The development of simple, sensitive and specific rapid identification systems applicable for the direct and indirect diagnosis for veterinary use is a challenge for the future.
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Only three of the eleven species of the genus Yersinia are associated with disease. Y. pestis is the causative agent of plague, Y. pseudotuberculosis and several pathogenic bio/serovars of the species Y. enterocolitica cause yersiniosis. New Y. enterocolitica subspecies with diagnostic relevance have been proposed allowing the differentiation of European and American isolates. The ISO-standard (ISO 102739) summarizes the knowledge gained from enrichment and isolation of Y. enterocolitica from fo...
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