Candida albicans-induzierte Genexpression in primären ... - OPUS
Candida albicans-induzierte Genexpression in primären ... - OPUS
Candida albicans-induzierte Genexpression in primären ... - OPUS
Sie wollen auch ein ePaper? Erhöhen Sie die Reichweite Ihrer Titel.
YUMPU macht aus Druck-PDFs automatisch weboptimierte ePaper, die Google liebt.
53. Graham, F.L. and van der Eb, A.J. (1973) Transformation of rat cells by DNA<br />
of human adenovirus 5. Virology, 54, 536-539.<br />
54. Gratchev, A., Kzhyshkowska, J., Utikal, J. and Goerdt, S. (2005) Interleuk<strong>in</strong>-4<br />
and dexamethasone counterregulate extracellular matrix remodell<strong>in</strong>g and<br />
phagocytosis <strong>in</strong> type-2 macrophages. Scand J Immunol, 61, 10-17.<br />
55. Groger, M., Holnthoner, W., Maurer, D., Lechleitner, S., Wolff, K., Mayr, B.B.,<br />
Lubitz, W. and Petzelbauer, P. (2000) Dermal microvascular endothelial cells<br />
express the 180-kDa macrophage mannose receptor <strong>in</strong> situ and <strong>in</strong> vitro. J<br />
Immunol, 165, 5428-5434.<br />
56. Hailman, E., Lichenste<strong>in</strong>, H.S., Wurfel, M.M., Miller, D.S., Johnson, D.A.,<br />
Kelley, M., Busse, L.A., Zukowski, M.M. and Wright, S.D. (1994)<br />
Lipopolysaccharide (LPS)-b<strong>in</strong>d<strong>in</strong>g prote<strong>in</strong> accelerates the b<strong>in</strong>d<strong>in</strong>g of LPS to<br />
CD14. J Exp Med, 179, 269-277.<br />
57. Hashimoto, C., Hudson, K.L. and Anderson, K.V. (1988) The Toll gene of<br />
Drosophila, required for dorsal-ventral embryonic polarity, appears to encode<br />
a transmembrane prote<strong>in</strong>. Cell, 52, 269-279.<br />
58. Hawser, S.P. and Douglas, L.J. (1994) Biofilm formation by <strong>Candida</strong> species<br />
on the surface of catheter materials <strong>in</strong> vitro. Infect Immun, 62, 915-921.<br />
59. Hippenstiel, S., Soeth, S., Kellas, B., Fuhrmann, O., Seybold, J., Krull, M.,<br />
Eichel-Streiber, C., Goebeler, M., Ludwig, S. and Suttorp, N. (2000) Rho<br />
prote<strong>in</strong>s and the p38-MAPK pathway are important mediators for LPS-<strong>in</strong>duced<br />
<strong>in</strong>terleuk<strong>in</strong>-8 expression <strong>in</strong> human endothelial cells. Blood, 95, 3044-3051.<br />
60. Höffken, G. (1989) Fungal <strong>in</strong>fections dur<strong>in</strong>g neutropenia; The role of<br />
prophylaxis. Mycoses, 32, 88-95.<br />
61. Hoffmann, E., Dittrich-Breiholz, O., Holtmann, H. and Kracht, M. (2002)<br />
Multiple control of <strong>in</strong>terleuk<strong>in</strong>-8 gene expression. J Leukoc Biol, 72, 847-855.<br />
62. Holtmann, H., Enn<strong>in</strong>ga, J., Kalble, S., Thiefes, A., Dorrie, A., Broemer, M.,<br />
W<strong>in</strong>zen, R., Wilhelm, A., N<strong>in</strong>omiya-Tsuji, J., Matsumoto, K., Resch, K. and<br />
Kracht, M. (2001) The MAPK k<strong>in</strong>ase k<strong>in</strong>ase TAK1 plays a central role <strong>in</strong><br />
coupl<strong>in</strong>g the <strong>in</strong>terleuk<strong>in</strong>-1 receptor to both transcriptional and RNA-targeted<br />
mechanisms of gene regulation. J Biol Chem, 276, 3508-3516.<br />
63. Holtmann, H., W<strong>in</strong>zen, R., Holland, P., Eickemeier, S., Hoffmann, E., Wallach,<br />
D., Mal<strong>in</strong><strong>in</strong>, N.L., Cooper, J.A., Resch, K. and Kracht, M. (1999) Induction of<br />
122