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D. Patel, Danelishvili, L., Yamazaki, Y., Alonso, M., Paustian, M. L., Bannantine, J. P., Meunier-Goddik, L., and Bermudez, L. E., The ability of Mycobacterium avium subsp. paratuberculosis to enter bovine epithelial cells is influenced by preexposure to a hyperosmolar environment and intracellular passage in bovine mammary epithelial cells., Infect Immun, vol. 74, no. 5, pp. 2849-55, 2006.
D. Patel, Danelishvili, L., Yamazaki, Y., Alonso, M., Paustian, M. L., Bannantine, J. P., Meunier-Goddik, L., and Bermudez, L. E., The ability of Mycobacterium avium subsp. paratuberculosis to enter bovine epithelial cells is influenced by preexposure to a hyperosmolar environment and intracellular passage in bovine mammary epithelial cells., Infect Immun, vol. 74, no. 5, pp. 2849-55, 2006.
D. Patel, Danelishvili, L., Yamazaki, Y., Alonso, M., Paustian, M. L., Bannantine, J. P., Meunier-Goddik, L., and Bermudez, L. E., The ability of Mycobacterium avium subsp. paratuberculosis to enter bovine epithelial cells is influenced by preexposure to a hyperosmolar environment and intracellular passage in bovine mammary epithelial cells., Infection and immunity, vol. 74, no. 5, pp. 2849-55, 2006.
D. Patel, Danelishvili, L., Yamazaki, Y., Alonso, M., Paustian, M. L., Bannantine, J. P., Meunier-Goddik, L., and Bermudez, L. E., The ability of Mycobacterium avium subsp. paratuberculosis to enter bovine epithelial cells is influenced by preexposure to a hyperosmolar environment and intracellular passage in bovine mammary epithelial cells., Infection and immunity, vol. 74, no. 5, pp. 2849-55, 2006.
Y. Yamazaki, Danelishvili, L., Wu, M., Hidaka, E., Katsuyama, T., Stang, B. V., Petrofsky, M., Bildfell, R. J., and Bermudez, L. E., The ability to form biofilm influences Mycobacterium avium invasion and translocation of bronchial epithelial cells., Cellular microbiology, vol. 8, no. 5, pp. 806-14, 2006.
Y. Yamazaki, Danelishvili, L., Wu, M., Hidaka, E., Katsuyama, T., Stang, B., Petrofsky, M., Bildfell, R., and Bermudez, L. E., The ability to form biofilm influences Mycobacterium avium invasion and translocation of bronchial epithelial cells., Cell Microbiol, vol. 8, no. 5, pp. 806-14, 2006.
L. E. Bermudez, Inderlied, C. B., Kolonoski, P., Petrofsky, M., Aralar, P., Wu, M., and Young, L. S., Activity of moxifloxacin by itself and in combination with ethambutol, rifabutin, and azithromycin in vitro and in vivo against Mycobacterium avium., Antimicrobial agents and chemotherapy, vol. 45, no. 1, pp. 217-22, 2001.
C. M Kuehl-Kovarik, Partin, K. M., and Magnusson, K. R., Acute dissociation for analyses of NMDA receptor function in cortical neurons during aging., Journal of neuroscience methods, vol. 129, no. 1, pp. 11-7, 2003.
J. A. Hall, Harwell, A. M., Van Saun, R. J., Vorachek, W. R., Stewart, W. C., Galbraith, M. L., Hooper, K. J., Hunter, J. K., Mosher, W. D., and Pirelli, G. J., Agronomic biofortification with selenium: Effects on whole blood selenium and humoral immunity in beef cattle., Animal Feed Science and Technology, vol. 164, pp. 184-190, 2011.
R. L. Greer, Dong, X., Moraes, A. Carolina F., Zielke, R. A., Fernandes, G. R., Peremyslova, E., Vasquez-Perez, S., Schoenborn, A. A., Gomes, E. P., Pereira, A. C., Ferreira, S. R. G., Yao, M., Fuss, I. J., Strober, W., Sikora, A. E., Taylor, G. A., Gulati, A. S., Morgun, A., and Shulzhenko, N., Akkermansia muciniphila mediates negative effects of IFNγ on glucose metabolism., Nat Commun, vol. 7, p. 13329, 2016.
R. L. Greer, Dong, X., Moraes, A. Carolina F., Zielke, R. A., Fernandes, G. R., Peremyslova, E., Vasquez-Perez, S., Schoenborn, A. A., Gomes, E. P., Pereira, A. C., Ferreira, S. R. G., Yao, M., Fuss, I. J., Strober, W., Sikora, A. E., Taylor, G. A., Gulati, A. S., Morgun, A., and Shulzhenko, N., Akkermansia muciniphila mediates negative effects of IFNγ on glucose metabolism., Nat Commun, vol. 7, p. 13329, 2016.
A. Morgun, Shulzhenko, N., Unterkircher, C. S., Pereira, A. B., Silva, M. S., Nishida, S. K., Almeida, D. R., Diniz, R. V., Carvalho, A. C., Franco, M., Souza, M. M., and Gerbase-Delima, M., Allo- and autoantibodies in human cardiac allograft recipients., Transplantation proceedings, vol. 31, no. 7, pp. 2976-7, 1999.
M. Pastey and Samal, S. K., Analysis of bovine respiratory syncytial virus envelope glycoproteins in cell fusion., The Journal of general virology, vol. 78 ( Pt 8), pp. 1885-9, 1997.
J. C. Chase, Dawson-Coates, J. A., Haddow, J. D., Stewart, M. H., Haines, L. R., Whitaker, D. J., Ken, M. L., Olafson, R. W., and Pearson, T. W., Analysis of Kudoa thyrsites (Myxozoa: Myxosporea) spore antigens using monoclonal antibodies., Dis Aquat Organ, vol. 45, no. 2, pp. 121-9, 2001.
M. Pastey and Samal, S. K., Analysis of the bovine respiratory syncytial virus fusion protein (F) using monoclonal antibodies., Veterinary microbiology, vol. 58, no. 2-4, pp. 175-85, 1997.
G. Wang, Zhang, P., Paredes-Sabja, D., Green, C., Setlow, P., Sarker, M. R., and Li, Y. - Q., Analysis of the germination of individual Clostridium perfringens spores and its heterogeneity., Journal of applied microbiology, vol. 111, no. 5, pp. 1212-23, 2011.
G. Chen, Severo, M. S., Sakhon, O. S., Choy, A., Herron, M. J., Felsheim, R. F., Wiryawan, H., Liao, J., Johns, J. L., Munderloh, U. G., Sutterwala, F. S., Kotsyfakis, M., and Pedra, J. H. F., Anaplasma phagocytophilum dihydrolipoamide dehydrogenase 1 affects host-derived immunopathology during microbial colonization., Infect Immun, vol. 80, no. 9, pp. 3194-205, 2012.
D. S. Galloway, Ko, J. C. H., H Reaugh, F., Mandsager, R. E., Payton, M. E., Inoue, T., and Portillo, E., Anesthetic indices of sevoflurane and isoflurane in unpremedicated dogs., Journal of the American Veterinary Medical Association, vol. 225, no. 5, pp. 700-4, 2004.
D. S. Galloway, Ko, J. C. H., H Reaugh, F., Mandsager, R. E., Payton, M. E., Inoue, T., and Portillo, E., Anesthetic indices of sevoflurane and isoflurane in unpremedicated dogs., Journal of the American Veterinary Medical Association, vol. 225, no. 5, pp. 700-4, 2004.
L. E. Bermudez, Petrofsky, M., Kolonoski, P., and Young, L. S., An animal model of Mycobacterium avium complex disseminated infection after colonization of the intestinal tract., The Journal of infectious diseases, vol. 165, no. 1, pp. 75-9, 1992.
B. W. Neuman, Stein, D. A., Kroeker, A. D., Paulino, A. D., Moulton, H. M., Iversen, P. L., and Buchmeier, M. J., Antisense morpholino-oligomers directed against the 5' end of the genome inhibit coronavirus proliferation and growth., Journal of virology, vol. 78, no. 11, pp. 5891-9, 2004.
L. E. Bermudez, Parker, A., and Petrofsky, M., Apoptosis of Mycobacterium avium-infected macrophages is mediated by both tumour necrosis factor (TNF) and Fas, and involves the activation of caspases., Clinical and experimental immunology, vol. 116, no. 1, pp. 94-9, 1999.
L. E. Bermudez, Parker, A., and Petrofsky, M., Apoptosis of Mycobacterium avium-infected macrophages is mediated by both tumour necrosis factor (TNF) and Fas, and involves the activation of caspases., Clinical and experimental immunology, vol. 116, no. 1, pp. 94-9, 1999.
A. N. Reed, Putman, T., Sullivan, C., and Jin, L., Application of a nanoflare probe specific to a latency associated transcript for isolation of KHV latently infected cells., Virus research, vol. 208, pp. 129-35, 2015.
P. L. Merrill, Tepper, J., Walster, C. I., Palić, D., Miller-Morgan, T. J., and Johnston, C. J., Aquatic veterinary medicine., The Veterinary record, vol. 160, no. 13, p. 452, 2007.

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