Found 229 results
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Journal Article
L. Danelishvili, Poort, M. J., and Bermudez, L. E., Identification of Mycobacterium avium genes up-regulated in cultured macrophages and in mice., FEMS microbiology letters, vol. 239, no. 1, pp. 41-9, 2004.
E. Miltner, Daroogheh, K., Mehta, P. K., Cirillo, S. L. G., Cirillo, J. D., and Bermudez, L. E., Identification of Mycobacterium avium genes that affect invasion of the intestinal epithelium., Infection and immunity, vol. 73, no. 7, pp. 4214-21, 2005.
L. Danelishvili, Stang, B., and Bermudez, L. E., Identification of Mycobacterium avium genes expressed during in vivo infection and the role of the oligopeptide transporter OppA in virulence., Microb Pathog, vol. 76, pp. 67-76, 2014.
L. Danelishvili, Stang, B. V., and Bermudez, L. E., Identification of Mycobacterium avium genes expressed during in vivo infection and the role of the oligopeptide transporter OppA in virulence., Microbial pathogenesis, vol. 76, pp. 67-76, 2014.
N. Motamedi, Danelishvili, L., and Bermudez, L. E., Identification of Mycobacterium avium genes associated with resistance to host antimicrobial peptides., Journal of medical microbiology, vol. 63, no. Pt 7, pp. 923-30, 2014.
N. Motamedi, Danelishvili, L., and Bermudez, L. E., Identification of Mycobacterium avium genes associated with resistance to host antimicrobial peptides., J Med Microbiol, vol. 63, no. Pt 7, pp. 923-930, 2014.
L. E. Bermudez, Inderlied, C. B., Kolonoski, P., Chee, C. B., Aralar, P., Petrofsky, M., Parman, T., Green, C. E., Lewin, A. H., Ellis, W. Y., and Young, L. S., Identification of (+)-Erythro-Mefloquine as an Active Enantiomer with Greater Efficacy than Mefloquine against Mycobacterium avium Infection in Mice., Antimicrobial agents and chemotherapy, vol. 56, no. 8, pp. 4202-6, 2012.
L. E. Bermudez and Petrofsky, M., Host defense against Mycobacterium avium does not have an absolute requirement for major histocompatibility complex class I-restricted T cells., Infection and immunity, vol. 67, no. 6, pp. 3108-11, 1999.
J. A. Maddry, Bansal, N., Bermudez, L. E., Comber, R. N., Orme, I. M., Suling, W. J., Wilson, L. N., and Reynolds, R. C., Homologated aza analogs of arabinose as antimycobacterial agents., Bioorganic & medicinal chemistry letters, vol. 8, no. 3, pp. 237-42, 1998.
L. E. Bermudez, Parker, A., and Goodman, J. R., Growth within macrophages increases the efficiency of Mycobacterium avium in invading other macrophages by a complement receptor-independent pathway., Infection and immunity, vol. 65, no. 5, pp. 1916-25, 1997.
L. E. Bermudez, Sangari, F. J., and Parker, A., Green fluorescent protein in the measurement of bacteria-host interactions., Methods in enzymology, vol. 302, pp. 285-95, 1999.
L. Danelishvili, Wu, M., Young, L. S., and Bermudez, L. E., Genomic approach to identifying the putative target of and mechanisms of resistance to mefloquine in mycobacteria., Antimicrob Agents Chemother, vol. 49, no. 9, pp. 3707-14, 2005.
L. Danelishvili, Wu, M., Young, L. S., and Bermudez, L. E., Genomic approach to identifying the putative target of and mechanisms of resistance to mefloquine in mycobacteria., Antimicrobial agents and chemotherapy, vol. 49, no. 9, pp. 3707-14, 2005.
M. M. Samrakandi, Cirillo, S. L. G., Ridenour, D. A., Bermudez, L. E., and Cirillo, J. D., Genetic and phenotypic differences between Legionella pneumophila strains., Journal of clinical microbiology, vol. 40, no. 4, pp. 1352-62, 2002.
D. Wagner, Sangari, F. J., Parker, A., and Bermudez, L. E., fecB, a gene potentially involved in iron transport in Mycobacterium avium, is not induced within macrophages., FEMS microbiology letters, vol. 247, no. 2, pp. 185-91, 2005.
T. Dam, Danelishvili, L., Wu, M., and Bermudez, L. E., The fadD2 gene is required for efficient Mycobacterium avium invasion of mucosal epithelial cells., The Journal of infectious diseases, vol. 193, no. 8, pp. 1135-42, 2006.
T. Dam, Danelishvili, L., Wu, M., and Bermudez, L. E., The fadD2 gene is required for efficient Mycobacterium avium invasion of mucosal epithelial cells., J Infect Dis, vol. 193, no. 8, pp. 1135-42, 2006.
L. E. Bermudez and Young, L. S., Factors affecting invasion of HT-29 and HEp-2 epithelial cells by organisms of the Mycobacterium avium complex., Infection and immunity, vol. 62, no. 5, pp. 2021-6, 1994.
A. E. Parker and Bermudez, L. E., Expression of the green fluorescent protein (GFP) in mycobacterium avium as a tool to study the interaction between Mycobacteria and host cells., Microbial pathogenesis, vol. 22, no. 4, pp. 193-8, 1997.
L. E. Bermudez, Petrofsky, M., and Goodman, J., Exposure to low oxygen tension and increased osmolarity enhance the ability of Mycobacterium avium to enter intestinal epithelial (HT-29) cells., Infection and immunity, vol. 65, no. 9, pp. 3768-73, 1997.
L. E. Bermudez, Young, L. S., Martinelli, J., and Petrofsky, M., Exposure to ethanol up-regulates the expression of Mycobacterium avium complex proteins associated with bacterial virulence., The Journal of infectious diseases, vol. 168, no. 4, pp. 961-8, 1993.
R. Rojony, Danelishvili, L., Campeau, A., Wozniak, J. M., Gonzalez, D. J., and Bermudez, L. E., Exposure of to Environmental Stress and Clinically Used Antibiotics Reveals Common Proteome Response among Pathogenic Mycobacteria., Microorganisms, vol. 8, no. 5, 2020.
L. Danelishvili, Armstrong, E., Miyasako, E., Jeffrey, B., and Bermudez, L. E., Exposure of subsp. to Metal Concentrations of the Phagosome Environment Enhances the Selection of Persistent Subpopulation to Antibiotic Treatment., Antibiotics (Basel), vol. 9, no. 12, 2020.
M. J. Harriff, Bermudez, L. E., and Kent, M. L., Experimental exposure of zebrafish, Danio rerio (Hamilton), to Mycobacterium marinum and Mycobacterium peregrinum reveals the gastrointestinal tract as the primary route of infection: a potential model for environmental mycobacterial infection., Journal of fish diseases, vol. 30, no. 10, pp. 587-600, 2007.
L. E. Bermudez, Danelishvili, L., Babrack, L., and Pham, T., Evidence for genes associated with the ability of Mycobacterium avium subsp. hominissuis to escape apoptotic macrophages., Front Cell Infect Microbiol, vol. 5, p. 63, 2015.

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