Found 110 results
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C
L. Giacani, Jeffrey, B. M., Molini, B. J., Le, H. V. T., Lukehart, S. A., Centurion-Lara, A., and Rockey, D. D., Complete genome sequence and annotation of the Treponema pallidum subsp. pallidum Chicago strain., J Bacteriol, vol. 192, no. 10, pp. 2645-6, 2010.
L. Giacani, Jeffrey, B. M., Molini, B. J., Le, H. V. T., Lukehart, S. A., Centurion-Lara, A., and Rockey, D. D., Complete genome sequence and annotation of the Treponema pallidum subsp. pallidum Chicago strain., Journal of bacteriology, vol. 192, no. 10, pp. 2645-6, 2010.
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., Mol Microbiol, vol. 15, no. 4, pp. 617-26, 1995.
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., J Microbiol Methods, vol. 68, no. 1, pp. 201-8, 2007.
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.
R. J. Suchland, Carrell, S. J., Wang, Y., Hybiske, K., Kim, D. B., Dimond, Z. E., P Hefty, S., and Rockey, D. D., Chromosomal Recombination Targets in Interspecies Lateral Gene Transfer., J Bacteriol, vol. 201, no. 23, 2019.
D. Alzhanov, Barnes, J., Hruby, D. E., and Rockey, D. D., Chlamydial development is blocked in host cells transfected with Chlamydophila caviae incA., BMC Microbiol, vol. 4, p. 24, 2004.
D. Alzhanov, Barnes, J., Hruby, D. E., and Rockey, D. D., Chlamydial development is blocked in host cells transfected with Chlamydophila caviae incA., BMC microbiology, vol. 4, p. 24, 2004.
W. J. Brown, Skeiky, Y. A. W., Probst, P., and Rockey, D. D., Chlamydial antigens colocalize within IncA-laden fibers extending from the inclusion membrane into the host cytosol., Infect Immun, vol. 70, no. 10, pp. 5860-4, 2002.
W. J. Brown, Skeiky, Y. A. W., Probst, P., and Rockey, D. D., Chlamydial antigens colocalize within IncA-laden fibers extending from the inclusion membrane into the host cytosol., Infection and immunity, vol. 70, no. 10, pp. 5860-4, 2002.
D. D. Rockey, Wang, J., Lei, L., and Zhong, G., Chlamydia vaccine candidates and tools for chlamydial antigen discovery., Expert Rev Vaccines, vol. 8, no. 10, pp. 1365-77, 2009.
D. D. Rockey, Wang, J., Lei, L., and Zhong, G., Chlamydia vaccine candidates and tools for chlamydial antigen discovery., Expert review of vaccines, vol. 8, no. 10, pp. 1365-77, 2009.
M. Xia, Suchland, R. J., Bumgarner, R. E., Peng, T., Rockey, D. D., and Stamm, W. E., Chlamydia trachomatis variant with nonfusing inclusions: growth dynamic and host-cell transcriptional response., J Infect Dis, vol. 192, no. 7, pp. 1229-36, 2005.
M. Xia, Suchland, R. J., Bumgarner, R. E., Peng, T., Rockey, D. D., and Stamm, W. E., Chlamydia trachomatis variant with nonfusing inclusions: growth dynamic and host-cell transcriptional response., The Journal of infectious diseases, vol. 192, no. 7, pp. 1229-36, 2005.
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.
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., The EMBO journal, 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., Infect Immun, 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., Infection and immunity, 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., Mol Microbiol, 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., Molecular microbiology, vol. 24, no. 1, pp. 217-28, 1997.
A
K. M. Sandoz and Rockey, D. D., Antibiotic resistance in Chlamydiae., Future Microbiol, vol. 5, no. 9, pp. 1427-42, 2010.

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