Publications of O. Brandau

Journal Article (14)

1.
Journal Article
Otten, J.; van der Ven, P. F. M.; Vakeel, P.; Eulitz, S.; Kirfel, G.; Brandau, O.; Boesl, M.; Schrickel, J. W.; Linhart, M.; Hayess, K. et al.; Naya, F. J.; Milting, H.; Meyer, R.; Furst, D. O.: Complete loss of murine Xin results in a mild cardiac phenotype with altered distribution of intercalated discs. Cardiovascular Research 85 (4), pp. 739 - 750 (2010)
2.
Journal Article
Meuter, S.; Schaerli, P.; Stuber-Roos, R.; Brandau, O.; Boesl, M. R.; von Andrian, U. H.; Moser, B.: Murine CXCL14 is dispensable for dendritic cell function and localization within peripheral tissues. Immunology 125 (Suppl. Suppl. 1), p. 92 - 92 (2008)
3.
Journal Article
Butz, S.; Petri, B.; Volkery, S.; Wegmann, F.; Moser, C.; Khandoga, A. G.; Khandoga, A.; Brandau, O.; vom Hagen, F.; Hammes, H. P. et al.; Fässler, R.; Krombach, F.; Vestweber, D.: In vivo analysis of the tight junction associated adhesion molecule ESAM. European Journal of Cell Biology 87 (Suppl. Suppl. 58), pp. 42 - 43 (2008)
4.
Journal Article
Butz, S.; Wegmann, F.; Petri, B.; Volkery, S.; Khandoga, A. G.; Moser, C.; Khandoga, A.; Li, H.; Nasdala, I.; Brandau, O. et al.; Fässler, R.; Krombach, F.; Vestweber, D.: ESAM supports neutrophil emigration into inflamed tissue, activation of Rho, and VEGF-induced vascular permeability. European Journal of Cell Biology 86 (Suppl. Suppl. 57), p. 49 - 49 (2007)
5.
Journal Article
Meuter, S.; Schaerli, P.; Roos, R. S.; Brandau, O.; Bösl, M. R.; von Andrian, U. H.; Moser, B.: Murine CXCL14 is dispensable for dendritic cell function and localization within peripheral tissues. Molecular and Cellular Biology 27 (3), pp. 983 - 992 (2007)
6.
Journal Article
Wegmann, F.; Petri, B.; Khandoga, A. G.; Moser, C.; Khandoga, A.; Volkery, S.; Li, H.; Nasdala, I.; Brandau, O.; Fässler, R. et al.; Butz, S.; Krombach, F.; Vestweber, D.: ESAM supports neutrophil extravasation, activation of Rho, and VEGF-induced vascular permeability. Journal of Experimental Medicine 203 (7), pp. 1671 - 1677 (2006)
7.
Journal Article
Butz, S.; Wegmann, F.; Petri, B.; Khandoga, A. G.; Moser, C.; Khandoga, A.; Volkery, S.; Li, H.; Nasdala, I.; Brandau, O. et al.; Fässler, R.; Krombach, F.; Vestweber, D.: ESAM supports neutrophil extravasation, activation of Rho and VEGF-induced vascular permeability. Journal of Vascular Research 43 (6), p. 536 - 536 (2006)
8.
Journal Article
Docheva, D.; Hunziker, E. B.; Fässler, R.; Brandau, O.: Tenomodulin is necessary for tenocyte proliferation and tendon maturation. Molecular and Cellular Biology 25 (2), pp. 699 - 705 (2005)
9.
Journal Article
Brandau, O.; Fässler, R.: Analysis of integrin function by gene targeting in mice. Handbook of Experimental Pharmacology 159, pp. 193 - 228 (2004)
10.
Journal Article
Zhou, X. H.; Brandau, O.; Feng, K.; Oohashi, T.; Ninomiya, Y.; Rauch, U.; Fässler, R.: The murine Ten-m/Odz genes show distinct but overlapping expression patterns during development and in adult brain. Gene Expression Patterns 3 (4), pp. 397 - 405 (2003)
11.
Journal Article
Braun, A.; Bordoy, R.; Stanchi, F.; Moser, M.; Kostka, G.; Ehler, E.; Brandau, O.; Fässler, R.: PINCH2 is a new five LIM domain protein, homologous to PINCH and localized to focal adhesions. Experimental Cell Research 284 (2), pp. 239 - 248 (2003)
12.
Journal Article
Brandau, O.; Aszodi, A.; Hunziker, E. B.; Neame, P. J.; Vestweber, D.; Fässler, R.: Chondromodulin-I is dispensable during enchondral ossification and eye development. Molecular and Cellular Biology 22, pp. 6627 - 6635 (2002)
13.
Journal Article
Thiselton, D. L.; McDowall, J.; Brandau, O.; Ramser, J.; d'Esposito, F.; Bhattacharya, S. S.; Ross, M. T.; Hardcastle, A. J.; Meindl, A.: An integrated, functionally annotated gene map of the DXS8026- ELK1 interval on human Xp11.3-Xp11.23: Potential hotspot for neurogenetic disorders. Genomics 79 (4), pp. 560 - 572 (2002)
14.
Journal Article
Braun, A.; Aszodi, A.; Hellebrand, H.; Berna, A.; Fässler, R.; Brandau, O.: Genomic organization of profilin-III and evidence for a transcript expressed exclusively in testis. Gene 283 (1-2), pp. 219 - 225 (2002)
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