A full description of this capacity to interact with another eukaryotic host will undoubtedly contribute to a clearer understanding of taylorellae biology and provide new insight into the evolution of these microorganisms. Acknowledgements Julie Allombert was supported by a PhD Captisol mouse fellowship from the French Ministry of Higher Education and Research. This work was supported by grants from the European Regional Development Fund and by the Basse-Normandie Regional Council (http://www.cr-basse-normandie.fr). ANSES’s Dozulé Laboratory for Equine Diseases is a member of the Hippolia Foundation. We also wish to thank Delphine Libby-Claybrough, professional
translator and native English speaker, for reviewing this article prior to publication. References 1. Wakeley PR, Errington J, Hannon S, Roest HIJ, Carson T, Hunt B, Sawyer J, Heath P: Development of a real time PCR for the detection of Taylorella equigenitalis directly from genital swabs and discrimination from Taylorella asinigenitalis . Vet Microbiol 2006,118(3–4):247–254.PubMedCrossRef 2. Timoney PJ: Horse species
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