Search Results - "Hackstadt, T"

A Chlamydial Type III Translocated Protein Is Tyrosine-Phosphorylated at the Site of Entry and Associated with Recruitment of Actin by Clifton, D. R., Fields, K. A., Grieshaber, S. S., Dooley, C. A., Fischer, E. R., Mead, D. J., Carabeo, R. A., Hackstadt, T., Falkow, Stanley

“…The obligate intracellular bacterium Chlamydia trachomatis rapidly induces its own entry into host cells. Initial attachment is mediated by electrostatic…”
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Mammalian 14‐3‐3β associates with the Chlamydia trachomatis inclusion membrane via its interaction with IncG by Scidmore, M. A., Hackstadt, T.

“…Chlamydiae replicate intracellularly within a vacuole that is modified early in infection to become fusogenic with a subset of exocytic vesicles. We have…”
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Evidence for the secretion of Chlamydia trachomatis CopN by a type III secretion mechanism by Fields, K. A., Hackstadt, T.

“…The medically significant, obligate intracellular pathogen Chlamydia trachomatis replicates within vacuoles termed inclusions. A developmental cycle is…”
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Biochemical and Localization Analyses of Putative Type III Secretion Translocator Proteins CopB and CopB2 of Chlamydia trachomatis Reveal Significant Distinctions by CHELLAS-GERY, B, WOLF, K, TISONCIK, J, HACKSTADT, T, FIELDS, K. A

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Chlamydia trachomatis type III secretion: evidence for a functional apparatus during early‐cycle development by Fields, K. A., Mead, D. J., Dooley, C. A., Hackstadt, T.

“…Summary The obligate intracellular bacterium Chlamydia trachomatis occupies a parasitophorous vacuole termed an inclusion. During its intracellular…”
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Three temporal classes of gene expression during the Chlamydia trachomatis developmental cycle by Shaw, E. I., Dooley, C. A., Fischer, E. R., Scidmore, M. A., Fields, K. A., Hackstadt, T.

“…The obligate intracellular bacterium Chlamydia trachomatis has a unique developmental cycle that involves functionally and morphologically distinct cell types…”
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Chlamydia trachomatis interrupts an exocytic pathway to acquire endogenously synthesized sphingomyelin in transit from the Golgi apparatus to the plasma membrane by Hackstadt, T., Rockey, D. D., Heinzen, R. A., Scidmore, M. A.

“…Chlamydia trachomatis acquires C6‐NBD‐sphingomyelin endogenously synthesized from C6‐NBD‐ceramide and transported to the vesicle (inclusion) in which they…”
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Sphingomyelin trafficking in Chlamydia pneumoniae‐infected cells by Wolf, Katerina, Hackstadt, Ted

“…Chlamydia pneumoniae is a bacterial obligate intracellular parasite with a developmental cycle common to all members of the genus Chlamydia. Like other…”
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Lipid Metabolism in Chlamydia trachomatis-Infected Cells: Directed Trafficking of Golgi-Derived Sphingolipids to the Chlamydial Inclusion by Hackstadt, Ted, Scidmore, Marci A., Rockey, Daniel D.

“…Chlamydia trachomatis undergoes its entire life cycle within an uncharacterized intracellular vesicle that does not fuse with lysosomes. We used a fluorescent…”
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Differential interaction with endocytic and exocytic pathways distinguish parasitophorous vacuoles of Coxiella burnetii and Chlamydia trachomatis by HEINZEN, R. A, SCIDMORE, M. A, ROCKEY, D. D, HACKSTADT, T

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Inhibition of Fusion of Chlamydia trachomatis Inclusions at 32°C Correlates with Restricted Export of IncA by FIELDS, K. A, FISCHER, E, HACKSTADT, T

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Isolation and Characterization of a Mutant Chinese Hamster Ovary Cell Line That Is Resistant to Chlamydia trachomatis Infection at a Novel Step in the Attachment Process by CARABEO, Reynaldo A, HACKSTADT, T. E. D

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Cloning and characterization of a Chlamydia psittaci gene coding for a protein localized in the inclusion membrane of infected cells by Rockey, D D, Heinzen, R A, Hackstadt, T

“…Chlamydiae are obligate intracellular bacteria which occupy a non-acidified vacuole (the inclusion) throughout their developmental cycle. Little is known about…”
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Sphingolipids and Glycoproteins Are Differentially Trafficked to the Chlamydia trachomatis Inclusion by Scidmore, Marci A., Fischer, Elizabeth R., Hackstadt, Ted

“…Chlamydia trachomatis is an obligate intracellular pathogen that multiplies within the confines of a membrane-bound vacuole called an inclusion. Approximately…”
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Directional actin polymerization associated with spotted fever group Rickettsia infection of Vero cells by HEINZEN, R. A, HAYES, S. F, PEACOCK, M. G, HACKSTADT, T

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A Recombinant Chlamydia trachomatis Major Outer Membrane Protein Binds to Heparan Sulfate Receptors on Epithelial Cells by Su, Hua, Raymond, Lynne, Rockey, Daniel D., Fischer, Elizabeth, Hackstadt, Ted, Caldwell, Harlan D.

“…Chlamydial attachment to columnar conjunctival or urogenital epithelial cells is an initial and critical step in the pathogenesis of chlamydial mucosal…”
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The Chlamydia trachomatis parasitophorous vacuolar membrane is not passively permeable to low-molecular-weight compounds by HEINZEN, R. A, HACKSTADT, T

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Tandem genes of Chlamydia psittaci that encode proteins localized to the inclusion membrane by Bannantine, J. P., Rockey, D. D., Hackstadt, T.

“…Chlamydiae are obligate intracellular bacteria that replicate within a non‐acidified vacuole, termed an inclusion. To identify chlamydial proteins that are…”
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Vesicular interactions of the Chlamydia trachomatis inclusion are determined by chlamydial early protein synthesis rather than route of entry by SCIDMORE, M. A, ROCKEY, D. D, FISCHER, E. R, HEINZEN, R. A, HACKSTADT, T

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Biosafety concerns and Coxiella burnetii by Hackstadt, Ted

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