The SID was calculated using the data from 123 learn more isolates that were typed with all three typing procedures using the following formula:
Where N is the total number of isolates in the typing scheme, s is the total number of distinct patterns discriminated mTOR inhibitor by each typing method and strategy, and n j is the number of isolates belonging to the jth pattern. Confidence intervals of 95% were calculated according to Grundmann et al. [55]. Acknowledgements The authors would like to thank Finn Saxegaard and Tone Bjordal Johansen (National Veterinary Institute, Oslo, Norway) and Professor Sinikka Pelkonen (National Veterinary and Food Institute, EELA, Kuopio, Finland) for supplying isolates and Dennis Henderson (Scottish Agricultural College, Perth, Scotland) for technical assistance. The work was funded by the European Commission (Contract Nos QLK2-CT-2001-01420 and QLK2-CT-2001-0879). KS, SD, IH, LM and RZ were funded by the Scottish Government Rural and Environment Research and Analysis Directorate, FB and VT were supported by the Institut National de la
Recherche Agronomique and Agence Française de Sécurité Sanitaire des Aliments (contract 146 AIP P00297) and IP and MK by the Ministry of Agriculture of the Czech Republic (grant No. MZE 0002716202). Electronic supplementary material Additional file 1: Complete dataset. Complete dataset with information on host species of origin, clinical sample used for isolation, geographical location NVP-BSK805 chemical structure and typing data for individual isolates included in the study. (XLS 43 KB) Additional file 2: Supplementary tables listing the genotypes obtained with the combined typing techniques of IS900-RFLP, PFGE and MIRU-VNTR and documenting the distribution of Map molecular types according to geographical location and host species. (PDF 48 KB) References 1. Kennedy DJ, Benedictus G: Control of Mycobacterium avium subsp. paratuberculosis infection in agricultural species. Rev Sci Tech Off Int Epiz 2001, 20:151–179. 2. Nielsen SS, Toft N: A review of prevalences of paratuberculosis
in farmed animals in Europe. Prev Vet Med 2009, 88:1–14.CrossRefPubMed 3. Greig A, Stevenson K, Henderson D, Perez V, Hughes V, Pavlik I, Hines ME, McKendrick I, Sharp JM: Epidemiological study of paratuberculosis in wild Acyl CoA dehydrogenase rabbits in Scotland. J Clin Microbiol 1999, 37:1746–1751.PubMed 4. Beard PM, Henderson D, Daniels MJ, Pirie A, Buxton D, Greig A, Hutchings MR, McKendrick I, Rhind S, Stevenson K, Sharp JM: Evidence of paratuberculosis in fox ( Vulpes vulpes ) and stoat ( Mustela erminea ). Vet Rec 1999, 145:612–613.CrossRef 5. Beard PM, Daniels MJ, Henderson D, Pirie A, Rudge K, Buxton D, Rhind S, Greig A, Hutchings MR, McKendrick I, Stevenson K, Sharp JM: Paratuberculosis infection of non-ruminant wildlife in Scotland. J Clin Microbiol 2001, 39:1517–1521.CrossRefPubMed 6.