Found 1129 results
Author Title [ Type(Asc)] Year
Journal Article
A. M. Hau, Greenwood, J. A., Löhr, C. V., Serrill, J. D., Proteau, P. J., Ganley, I. G., McPhail, K. L., and Ishmael, J. E., Coibamide A induces mTOR-independent autophagy and cell death in human glioblastoma cells., PloS one, vol. 8, no. 6, p. e65250, 2013.
C. Kioussi, Appu, M., Löhr, C. V., Fischer, K. A., Bajaj, G., Leid, M., and Ishmael, J. E., Co-expression of myosin II regulatory light chain and the NMDAR1 subunit in neonatal and adult mouse brain., Brain research bulletin, vol. 74, no. 6, pp. 439-51, 2007.
J. Li, Ma, M., Sarker, M. R., and McClane, B. A., CodY is a global regulator of virulence-associated properties for Clostridium perfringens type D strain CN3718., mBio, vol. 4, no. 5, pp. e00770-13, 2013.
A. Graupmann-Kuzma, Valentine, B. A., Shubitz, L. F., Dial, S. M., Watrous, B. J., and Tornquist, S. J., Coccidioidomycosis in dogs and cats: a review., Journal of the American Animal Hospital Association, vol. 44, no. 5, pp. 226-35, 2008.
S. J. Billington, Wieckowski, E. U., Sarker, M. R., Bueschel, D., Songer, J. G., and McClane, B. A., Clostridium perfringens type E animal enteritis isolates with highly conserved, silent enterotoxin gene sequences., Infection and immunity, vol. 66, no. 9, pp. 4531-6, 1998.
D. Paredes-Sabja, Sarker, N., and Sarker, M. R., Clostridium perfringens tpeL is expressed during sporulation., Microbial pathogenesis, vol. 51, no. 5, pp. 384-8, 2011.
D. Paredes-Sabja and Sarker, M. R., Clostridium perfringens sporulation and its relevance to pathogenesis., Future microbiology, vol. 4, no. 5, pp. 519-25, 2009.
D. Paredes-Sabja, J Torres, A., Setlow, P., and Sarker, M. R., Clostridium perfringens spore germination: characterization of germinants and their receptors., Journal of bacteriology, vol. 190, no. 4, pp. 1190-201, 2008.
S. Banawas, Paredes-Sabja, D., Korza, G., Li, Y., Hao, B., Setlow, P., and Sarker, M. R., The Clostridium perfringens germinant receptor protein GerKC is located in the spore inner membrane and is crucial for spore germination., Journal of bacteriology, vol. 195, no. 22, pp. 5084-91, 2013.
J. Barra-Carrasco, Olguín-Araneda, V., Plaza-Garrido, A., Miranda-Cárdenas, C., Cofré-Araneda, G., Pizarro-Guajardo, M., Sarker, M. R., and Paredes-Sabja, D., The Clostridium difficile exosporium cysteine (CdeC)-rich protein is required for exosporium morphogenesis and coat assembly., Journal of bacteriology, vol. 195, no. 17, pp. 3863-75, 2013.
D. D. Rockey, Heinzen, R. A., and Hackstadt, T., Cloning and characterization of a Chlamydia psittaci gene coding for a protein localized in the inclusion membrane of infected cells., Molecular microbiology, vol. 15, no. 4, pp. 617-26, 1995.
D. T. Alzhanov, Suchland, R. J., Bakke, A. C., Stamm, W. E., and Rockey, D. D., Clonal isolation of chlamydia-infected cells using flow cytometry., Journal of microbiological methods, vol. 68, no. 1, pp. 201-8, 2007.
K. J. Tonsfeldt and Chappell, P. E., Clocks on top: the role of the circadian clock in the hypothalamic and pituitary regulation of endocrine physiology., Molecular and cellular endocrinology, vol. 349, no. 1, pp. 3-12, 2012.
P. E. Chappell, Clocks and the black box: circadian influences on gonadotropin-releasing hormone secretion., Journal of neuroendocrinology, vol. 17, no. 2, pp. 119-30, 2005.
M. M. Garner, Ramsell, K., Morera, N., Juan-Sallés, C., Jiménez, J., Ardiaca, M., Montesinos, A., Teifke, J. P., Löhr, C. V., Evermann, J. F., Baszler, T. V., Nordhausen, R. W., Wise, A. G., Maes, R. K., and Kiupel, M., Clinicopathologic features of a systemic coronavirus-associated disease resembling feline infectious peritonitis in the domestic ferret (Mustela putorius)., Veterinary pathology, vol. 45, no. 2, pp. 236-46, 2008.
J. A. Hall, Clinically evaluating gastric diseases in dogs and cats, Veterinary Medicine, vol. 95, no. 1, pp. 450-465, 2000.
L. L. Blythe, Hultgren, B. D., Craig, A. M., Appell, L. H., Lassen, E. D., Mattson, D. E., and Duffield, D., Clinical, viral, and genetic evaluation of equine degenerative myeloencephalopathy in a family of Appaloosas., Journal of the American Veterinary Medical Association, vol. 198, no. 6, pp. 1005-13, 1991.
R. V. Shawley and Mandsager, R. E., Clinical use of positive-pressure ventilation in the horse., The Veterinary clinics of North America. Equine practice, vol. 6, no. 3, pp. 575-85, 1990.
D. M. Mulrooney, Johnson, M. R., Smith, B. B., and Zimmerman, G. L., Clinical reference values for serum protein electrophoresis for the llama (Lama glama)., American journal of veterinary research, vol. 50, no. 11, pp. 1889-92, 1989.
S. J. Tornquist, Clinical pathology of llamas and alpacas., The Veterinary clinics of North America. Food animal practice, vol. 25, no. 2, pp. 311-22, 2009.
R. Roy MacGregor, Hafner, R., Wu, J. W., Murphy, R. L., Perlman, D. C., Bermudez, L. E., Inderlied, C. B., Picker, L. J., Wallis, R. S., Andersen, J. W., Mahon, L. F., Koletar, S. L., and Peterson, D. M., Clinical, microbiological, and immunological characteristics in HIV-infected subjects at risk for disseminated Mycobacterium avium complex disease: an AACTG study., AIDS research and human retroviruses, vol. 21, no. 8, pp. 689-95, 2005.
E. D. Lassen, Pearson, E. G., Long, P., Schmotzer, W. B., Kaneps, A. J., and Riebold, T. W., Clinical biochemical values of llamas: reference values., American journal of veterinary research, vol. 47, no. 10, pp. 2278-80, 1986.
S. A. Semevolos, Ducharme, N. G., and Hackett, R. P., Clinical assessment and outcome of three techniques for jejunal resection and anastomosis in horses: 59 cases (1989-2000)., Journal of the American Veterinary Medical Association, vol. 220, no. 2, pp. 215-8, 2002.
L. E. Bermudez, Nash, K., Petrofsky, M., Young, L. S., and Inderlied, C. B., Clarithromycin-resistant mycobacterium avium is still susceptible to treatment with clarithromycin and is virulent in mice., Antimicrobial agents and chemotherapy, vol. 44, no. 10, pp. 2619-22, 2000.
L. E. Bermudez, Petrofsky, M., Wu, M., and Young, L. S., Clarithromycin significantly improves interleukin-12-mediated anti-Mycobacterium avium activity and abolishes toxicity in mice., The Journal of infectious diseases, vol. 178, no. 3, pp. 896-9, 1998.

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