Evaluation of phenotypic and molecular typing techniques for determining diversity in Erwinia carotovora subspp. atroseptica
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AuthorToth, I. K.; Bertheau, Y.; Hyman, L. J.; Laplaze, L.; Lopez, M. M.; McNicol, J.; Niepold, F.; Persson, P.; Salmond, G. P. C.; Sletten, A.; van der Wolf, J. M.; Perombelon, M. C. M.
Cita bibliográficaToth, I. K., Bertheau, Y., Hyman, L. J., Laplaze, L., Lopez, M.M., McNicol, J., Niepold, F., Persson, P., Salmond, G. P. C., Sletten, A., van der Wolf, J.M., Perombelon, M.C. M. (1999). Evaluation of phenotypic and molecular typing techniques for determining diversity in Erwinia carotovora subspp. atroseptica. Journal of applied microbiology, 87(5), 770-781.
A number of phenotypic and molecular fingerprinting techniques, including physiological profiling (Biolog), restriction fragment length polymorphism (RFLP), enterobacterial repetitive intergenic consensus (ERIC) and a phage typing system, were evaluated for their ability to differentiate between 60 strains of Erwinia carotovora ssp. atroseptica (Eca) from eight west European countries. These techniques were compared with other fingerprinting techniques, random amplified polymorphic DNA (RAPD) and Ouchterlony double diffusion (ODD), previously used to type this pathogen. Where possible, data were represented as dendrograms and groups/subgroups of strains identified. Simpson's index of diversity (Simpson's D) was used to compare groupings obtained with the different techniques which, with the exception of Biolog, gave values of 0.46 (RFLP), 0.39 (ERIC), 0.83 (phage typng), 0.82 (RAPD) and 0.26 (ODD). Of the techniques tested, phage typing showed the highest level of diversity within Eca, and this technique will now form the basis of studies into the epidemiology of blackleg disease.