Boerlin, P., Peter, O., Bretz, A.-G., Postic, D. & Piffaretti, J.-C. (1992). Population genetic analysis of Borrelia burgdorferi isolates by multilocus enzyme electrophoresis. Infect Immun 60, 1677-1683.

Borcic, B., Kaic, B. & Krajl, V. (1999). Some epidemiological data on TBE and Lyme borreliosis in Croatia. Zentbl Bakteriol 289, 540-547.

Burkot, T. R., Schneider, B. S., Pieniazek, N. J., Happ, C. M., Rutherford, J. S., Slemenda, S. B., Hoffmeister, E., Maupin, G. O. & Zeidner, N. S. (2000). Babesia microti and Borrelia bissettii transmission by Ixodes spinipalpis ticks among prairie voles, Microtus ochrogaster, in Colorado. Parasitology 121, 595-599.

Congalton, R. G. (1991). A review of assessing the accuracy of classifications of remotely sensed data. Remote Sens Environ 37, 35-46.

Daniel, M. & Kolar, J. (1990). Using satellite data to forecast the occurrence of the common tick Ixodes ricinus (L.). J Hyg Epidemiol Microbiol Immunol 45, 243-252.

de Silva, A. M. & Fikrig, E. (1997). Borrelia burgdorferi genes selectively expressed in ticks and mammals. Parasitol Today 13, 267-270.

Dister, S. W., Fish, D., Bros, S. M., Frank, D. H. & Wood, B. L. (1997). Landscape characterization of peridomestic risk for Lyme disease using satellite imagery. Am J Trop Med Hyg 57, 687-692.

Dolan, M. C., Piesman, J., Mbow, M. L., Maupin, G. O., Peter, O., Brossard, M. & Golde, W. T. (1998). Vector competence of Ixodes scapularis and Ixodes ricinus (Acari: Ixodidae) for three genospecies of Borrelia burgdorferi. J Med Entomol 35, 465-470.

Domingo, E., Escarmis, C., Sevilla, N. & Martinez, M.-A. (1997). Population dynamics and molecular evolution of RNA viruses. In Factors in the Emergence of Arbovirus Diseases, pp. 273-278. Edited by J. F. Saluzzo. Paris: Elsevier.

Dykhuizen, D. E. & Baranton, G. (2001). The implications of a low rate of horizontal transfer in Borrelia. Trends Microbiol 9, 344-350.

Dykhuizen, D. E., Polin, D. S., Dunn, J. J., Wilske, B., Preac-Mursic, V., Dattwyler, R. J. & Luft, B. J. (1993). Borrelia burgdorferi is clonal: implications for taxonomy and vaccine development. Proc Natl Acad Sci U S A 90, 10163-10167.

Foretz, M., Postic, D. & Baranton, G. (1997). Phylogenetic analysis of Borrelia burgdorferi sensu stricto by arbitrarily primed PCR and pulsed-field gel electrophoresis. Int J Syst Bacteriol 47, 11-18.

Gao, G. F., Hussain, M. H., Reid, H. W. & Gould, E. A. (1993). Classification of a new member of the TBE flavivirus subgroup by its immunological, pathogenetic and molecular characteristics: identification of subgroup-specific pentapeptides. Virus Res 30, 129-144.

Gaunt, M. W., Sail, A. A., de Lamballerie, X., Falconar, A. K., Dzhivanian, T. & Gould, E. A. (2001). Phylogenetic relationships of flaviviruses correlate with their epidemiology, disease association and biogeography. J Gen Virol 82, 18671876.

Gern, L., Zhu, Z. & Aeschlimann, A. (1990). Development of Borrelia burgdorferi in Ixodes ricinus females during blood feeding. Ann Parasitol Hum Comp 65, 89-93.

Gern, L., Rouvinez, E., Toutoungi, L. N. & Godfroid, E. (1997). Transmission cycles of Borrelia burgdorferi sensu lato involving Ixodes ricinus and/or I. hexagonus ticks and the European hedgehog, Erinaceus europaeus, in suburban and urban areas in Switzerland. Folia Parasitol44, 309-314.

Gilbert, L., Jones, L. D., Hudson, P. J., Gould, E. A. & Reid, H. W. (2000). Role of small mammals in the persistence of Louping-ill virus: field survey and tick co-feeding studies. Med Vet Entomol 14, 277-282.

Gilmore, R. D. & Piesman, J. (2000). Inhibition of Borrelia burgdorferi migration from the midgut to the salivary glands following feeding by ticks on OspC-immunized mice. Infect Immun 68, 411-414.

Glass, G. E., Schwarz, B. S., Morgan, J. M., III, Johnson, D. T., Noy, P. M. & Israel, E. (1995). Environmental risk factors for Lyme disease identified with geographic information systems. Am J Public Health 85, 944-948.

Godfroid, E., Hu, C. M., Humair, P.-F., Bollen, A. & Gern, L. (2003). PCR-reverse line blot typing method underscores the genomic heterogeneity of Borrelia valaisiana species and suggests its potential involvement in Lyme disease. J Clin Microbiol 41, 3690-3698.

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