Found 1505 results
Author [ Title(Asc)] Type Year
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C
T. Hackstadt, Rockey, D. D., Heinzen, R. A., and Scidmore, M. A., Chlamydia trachomatis interrupts an exocytic pathway to acquire endogenously synthesized sphingomyelin in transit from the Golgi apparatus to the plasma membrane., EMBO J, vol. 15, no. 5, pp. 964-77, 1996.
J. P. Bannantine, Stamm, W. E., Suchland, R. J., and Rockey, D. D., Chlamydia trachomatis IncA is localized to the inclusion membrane and is recognized by antisera from infected humans and primates., Infection and immunity, vol. 66, no. 12, pp. 6017-21, 1998.
J. P. Bannantine, Stamm, W. E., Suchland, R. J., and Rockey, D. D., Chlamydia trachomatis IncA is localized to the inclusion membrane and is recognized by antisera from infected humans and primates., Infect Immun, vol. 66, no. 12, pp. 6017-21, 1998.
E. D. Cram, Rockey, D. D., and Dolan, B. P., Chlamydia spp. development is differentially altered by treatment with the LpxC inhibitor LPC-011., BMC Microbiol, vol. 17, no. 1, p. 98, 2017.
D. D. Rockey, Grosenbach, D., Hruby, D. E., Peacock, M. G., Heinzen, R. A., and Hackstadt, T., Chlamydia psittaci IncA is phosphorylated by the host cell and is exposed on the cytoplasmic face of the developing inclusion., Molecular microbiology, vol. 24, no. 1, pp. 217-28, 1997.
D. D. Rockey, Grosenbach, D., Hruby, D. E., Peacock, M. G., Heinzen, R. A., and Hackstadt, T., Chlamydia psittaci IncA is phosphorylated by the host cell and is exposed on the cytoplasmic face of the developing inclusion., Mol Microbiol, vol. 24, no. 1, pp. 217-28, 1997.
M. A. Boin, Austin, M. J., and Häse, C. C., Chemotaxis in Vibrio cholerae., FEMS microbiology letters, vol. 239, no. 1, pp. 1-8, 2004.
A. Al Fatease, Shah, V., Nguyen, D. X., Cote, B., LeBlanc, N., Rao, D. A., and Alani, A. W. G., Chemosensitization and mitigation of Adriamycin-induced cardiotoxicity using combinational polymeric micelles for co-delivery of quercetin/resveratrol and resveratrol/curcumin in ovarian cancer., Nanomedicine, vol. 19, pp. 39-48, 2019.
D. J. Castro, Yu, Z., Löhr, C. V., Pereira, C. B., Giovanini, J. N., Fischer, K. A., Orner, G. A., Dashwood, R. H., and Williams, D. E., Chemoprevention of dibenzo[a,l]pyrene transplacental carcinogenesis in mice born to mothers administered green tea: primary role of caffeine., Carcinogenesis, vol. 29, no. 8, pp. 1581-6, 2008.
P. Dibrov, Dzioba, J., Gosink, K. K., and Häse, C. C., Chemiosmotic mechanism of antimicrobial activity of Ag(+) in Vibrio cholerae., Antimicrobial agents and chemotherapy, vol. 46, no. 8, pp. 2668-70, 2002.
F. Debart, Abes, S., Deglane, G., Moulton, H. M., Clair, P., Gait, M. J., Vasseur, J. - J., and Lebleu, B., Chemical modifications to improve the cellular uptake of oligonucleotides., Current topics in medicinal chemistry, vol. 7, no. 7, pp. 727-37, 2007.
D. L. Swenson, Warfield, K. L., Warren, T. K., Lovejoy, C., Hassinger, J. N., Ruthel, G., Blouch, R. E., Moulton, H. M., Weller, D. D., Iversen, P. L., and Bavari, S., Chemical modifications of antisense morpholino oligomers enhance their efficacy against Ebola virus infection., Antimicrobial agents and chemotherapy, vol. 53, no. 5, pp. 2089-99, 2009.
W. B. Schmotzer, Hultgren, B. D., Huber, M. J., Watrous, B. J., Riebold, T. W., Wagner, P. C., and Shires, G. M., Chemical involution of the equine parotid salivary gland., Veterinary surgery : VS, vol. 20, no. 2, pp. 128-32, 1991.
D. S. Russell, Townsend, K. L., Gorman, E., Bracha, S., Curran, K. M., and Milovancev, M., Characterizing Microscopical Invasion Patterns in Canine Mast Cell Tumours and Soft Tissue Sarcomas., J Comp Pathol, vol. 157, no. 4, pp. 231-240, 2017.
M. A. Boin and Häse, C. C., Characterization of Vibrio cholerae aerotaxis., FEMS microbiology letters, vol. 276, no. 2, pp. 193-201, 2007.
C. V. Löhr, Teifke, J. P., Failing, K., and Weiss, E., Characterization of the proliferation state in canine mammary tumors by the standardized AgNOR method with postfixation and immunohistologic detection of Ki-67 and PCNA., Veterinary pathology, vol. 34, no. 3, pp. 212-21, 1997.
S. Marsilio, Pilla, R., Sarawichitr, B., Chow, B., Hill, S. L., Ackermann, M. R., J Estep, S., Lidbury, J. A., Steiner, J. M., and Suchodolski, J. S., Characterization of the fecal microbiome in cats with inflammatory bowel disease or alimentary small cell lymphoma., Sci Rep, vol. 9, no. 1, p. 19208, 2019.
M. Pizarro-Guajardo, Olguín-Araneda, V., Barra-Carrasco, J., Brito-Silva, C., Sarker, M. R., and Paredes-Sabja, D., Characterization of the collagen-like exosporium protein, BclA1, of Clostridium difficile spores., Anaerobe, vol. 25, pp. 18-30, 2014.
C. V. Löhr, Brayton, K. A., Barbet, A. F., and Palmer, G. H., Characterization of the Anaplasma marginale msp2 locus and its synteny with the omp1/p30 loci of Ehrlichia chaffeensis and E. canis., Gene, vol. 325, pp. 115-21, 2004.
D. E. Wachenheim, Blythe, L. L., and Craig, A. M., Characterization of rumen bacterial pyrrolizidine alkaloid biotransformation in ruminants of various species., Veterinary and human toxicology, vol. 34, no. 6, pp. 513-7, 1992.
S. S. Chiplunkar, Silva, C. A., Bermudez, L. E., and Danelishvili, L., Characterization of membrane vesicles released by Mycobacterium avium in response to environment mimicking the macrophage phagosome., Future Microbiol, vol. 14, pp. 293-313, 2019.
F. J. Sangari, Bächli, M., Bermudez, L. E., and Bodmer, T., Characterization of IS666, a newly described insertion element of Mycobacterium avium., Microbial & comparative genomics, vol. 5, no. 4, pp. 181-8, 2000.
L. H. Waitt and Cebra, C. K., Characterization of hypertriglyceridemia and response to treatment with insulin in horses, ponies, and donkeys: 44 cases (1995-2005)., Journal of the American Veterinary Medical Association, vol. 234, no. 7, pp. 915-9, 2009.
L. H. Waitt and Cebra, C. K., Characterization of hypertriglyceridemia and response to treatment with insulin in llamas and alpacas: 31 cases (1995-2005)., Journal of the American Veterinary Medical Association, vol. 232, no. 9, pp. 1362-7, 2008.
D. Paredes-Sabja, Setlow, B., Setlow, P., and Sarker, M. R., Characterization of Clostridium perfringens spores that lack SpoVA proteins and dipicolinic acid., Journal of bacteriology, vol. 190, no. 13, pp. 4648-59, 2008.

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