Found 1825 results
Author Title [ Type(Desc)] Year
Journal Article
L. E. Bermudez, Young, L. S., and Enkel, H., Interaction of Mycobacterium avium complex with human macrophages: roles of membrane receptors and serum proteins., Infection and immunity, vol. 59, no. 5, pp. 1697-702, 1991.
J. D. Cirillo, Falkow, S., Tompkins, L. S., and Bermudez, L. E., Interaction of Mycobacterium avium with environmental amoebae enhances virulence., Infection and immunity, vol. 65, no. 9, pp. 3759-67, 1997.
N. Mohagheghpour, van Vollenhoven, A., Goodman, J., and Bermudez, L. E., Interaction of Mycobacterium avium with human monocyte-derived dendritic cells., Infection and immunity, vol. 68, no. 10, pp. 5824-9, 2000.
C. A. M. Silva, Danelishvili, L., McNamara, M., Berredo-Pinho, M., Bildfell, R. J., Biet, F., Rodrigues, L. S., Oliveira, A. V., Bermudez, L. E., and Pessolani, M. C. V., Interaction of Mycobacterium leprae with Human Airway Epithelial Cells: Adherence, Entry, Survival, and Identification of Potential Adhesins by Surface Proteome Analysis., Infection and immunity, vol. 81, no. 7, pp. 2645-59, 2013.
C. A. M. Silva, Danelishvili, L., McNamara, M., Berredo-Pinho, M., Bildfell, R., Biet, F., Rodrigues, L. S., Oliveira, A. V., Bermudez, L. E., and Pessolani, M. C. V., Interaction of Mycobacterium leprae with human airway epithelial cells: adherence, entry, survival, and identification of potential adhesins by surface proteome analysis., Infect Immun, vol. 81, no. 7, pp. 2645-59, 2013.
D. Paredes-Sabja and Sarker, M. R., Interactions between Clostridium perfringens spores and Raw 264.7 macrophages., Anaerobe, vol. 18, no. 1, pp. 148-56, 2012.
A. E. Jolles, Ezenwa, V. O., Etienne, R. S., Turner, W. C., and Olff, H., Interactions between macroparasites and microparasites drive infection patterns in free-ranging African buffalo., Ecology, vol. 89, no. 8, pp. 2239-50, 2008.
A. E. Jolles, Ezenwa, V. O., Etienne, R. S., Turner, W. C., and Olff, H., Interactions between macroparasites and microparasites drive infection patterns in free-ranging African buffalo., Ecology, vol. 89, no. 8, pp. 2239-50, 2008.
C. L. Nunn, Brezine, C., Jolles, A. E., and Ezenwa, V. O., Interactions between micro- and macroparasites predict microparasite species richness across primates., Am Nat, vol. 183, no. 4, pp. 494-505, 2014.
C. A. Manore, Inter-epidemic and between-season persistence of rift valley fever: vertical transmission or cryptic cycling?, Transbound Emerg Dis, vol. 62, no. 1, pp. 13-23, 2015.
L. E. Bermudez, Wu, M., and Young, L. S., Interleukin-12-stimulated natural killer cells can activate human macrophages to inhibit growth of Mycobacterium avium., Infection and immunity, vol. 63, no. 10, pp. 4099-104, 1995.
A. Morgun, Shulzhenko, N., Rampim, G. F., Medina, J. O. P., Machado, P. G. P., Diniz, R. V. Z., Almeida, D. R., and Gerbase-Delima, M., Interleukin-2 gene polymorphism is associated with renal but not cardiac transplant outcome., Transplantation proceedings, vol. 35, no. 4, pp. 1344-5, 2003.
L. E. Bermudez, Wu, M., Petrofsky, M., and Young, L. S., Interleukin-6 antagonizes tumor necrosis factor-mediated mycobacteriostatic and mycobactericidal activities in macrophages., Infection and immunity, vol. 60, no. 10, pp. 4245-52, 1992.
T. Tantawichien, Young, L. S., and Bermudez, L. E., Interleukin-7 induces anti-Mycobacterium avium activity in human monocyte-derived macrophages., The Journal of infectious diseases, vol. 174, no. 3, pp. 574-82, 1996.
J. M. Wilson, McKenzie, E. C., and Duesterdieck-Zellmer, K. F., International Survey Regarding the Use of Rehabilitation Modalities in Horses., Front Vet Sci, vol. 5, p. 120, 2018.
D. Vyshenska, Lam, K. C., Shulzhenko, N., and Morgun, A., Interplay between viruses and bacterial microbiota in cancer development., Semin Immunol, vol. 32, pp. 14-24, 2017.
L. Duler, LeBlanc, N., Cooley, S. D., Nemanic, S., and Scollan, K., Interreader agreement of radiographic left atrial enlargement in dogs and comparison to echocardiographic left atrial assessment., J Vet Cardiol, vol. 20, no. 5, pp. 319-329, 2018.
J. A. Brothwell, Muramatsu, M. K., Toh, E., Rockey, D. D., Putman, T. E., Barta, M. L., P Hefty, S., Suchland, R. J., and Nelson, D. E., Interrogating Genes That Mediate Chlamydia trachomatis Survival in Cell Culture Using Conditional Mutants and Recombination., J Bacteriol, vol. 198, no. 15, pp. 2131-9, 2016.
J. D. Cirillo, Cirillo, S. L., Yan, L., Bermudez, L. E., Falkow, S., and Tompkins, L. S., Intracellular growth in Acanthamoeba castellanii affects monocyte entry mechanisms and enhances virulence of Legionella pneumophila., Infection and immunity, vol. 67, no. 9, pp. 4427-34, 1999.
L. E. Bermudez, Wu, M., and Young, L. S., Intracellular killing of Mycobacterium avium complex by rifapentine and liposome-encapsulated amikacin., The Journal of infectious diseases, vol. 156, no. 3, pp. 510-3, 1987.
L. E. Bermudez, Petrofsky, M., and Sangari, F., Intracellular phenotype of Mycobacterium avium enters macrophages primarily by a macropinocytosis-like mechanism and survives in a compartment that differs from that with extracellular phenotype., Cell biology international, vol. 28, no. 5, pp. 411-9, 2004.
N. Shulzhenko, Morgun, A., Zheng, X. X., Diniz, R. V., Almeida, D. R., Ma, N., Strom, T. B., and Gerbase-Delima, M., Intragraft activation of genes encoding cytotoxic T lymphocyte effector molecules precedes the histological evidence of rejection in human cardiac transplantation., Transplantation, vol. 72, no. 10, pp. 1705-8, 2001.
M. L. Kent, Murray, K. N., Hobbs, M. R., Weiss, L. M., Spagnoli, S. T., and Sanders, J. L., Intranuclear inclusions consistent with a Nucleospora sp. in a lymphoid lesion in a laboratory zebrafish, Danio rerio (Hamilton 1822)., J Fish Dis, vol. 44, no. 1, pp. 107-112, 2021.
W. Viratyosin, Campbell, L. Ann, Kuo, C. - C., and Rockey, D. D., Intrastrain and interstrain genetic variation within a paralogous gene family in Chlamydia pneumoniae., BMC microbiology, vol. 2, p. 38, 2002.
W. Viratyosin, Campbell, L. Ann, Kuo, C. - C., and Rockey, D. D., Intrastrain and interstrain genetic variation within a paralogous gene family in Chlamydia pneumoniae., BMC Microbiol, vol. 2, p. 38, 2002.

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