Items where Author is "Groppe, J."
Jump to: Article Number of items: 7. ArticleGroppe, J. and Greenwald, J. and Wiater, E. and Rodriguez-Leon, J. and Economides, A. N. and Kwiatkowski, W. and Baban, K. and Affolter, M. and Vale, W. W. and Izpisua Belmonte, J. C. and Choe, S.. (2003) Structural basis of BMP signaling inhibition by Noggin, a novel twelve-membered cystine knot protein. The Journal of bone and joint surgery, Vol. 85A, Suppl 3. pp. 52-58. Groppe, J. and Greenwald, J. and Wiater, E. and Rodriguez-Leon, J. and Economides, A. N. and Kwiatkowski, W. and Affolter, M. and Vale, W. W. and Belmonte, J. C. I. and Choe, S.. (2002) Structural basis of BMP signalling inhibition by the cystine knot protein Noggin. Nature, Vol. 420. pp. 636-642. Nussbaumer, U. and Halder, G. and Groppe, J. and Affolter, M. and Montagne, J.. (2000) Expression of the blistered/DSRF gene is controlled by different morphogens during Drosophila trachea and wing development. Mechanisms of Development, Vol. 96 , H. 1. pp. 27-36. Groppe, J. and Rumpel, K. and Economides, A. N. and Stahl, N. and Sebald, W. and Affolter, M.. (1998) Biochemical and biophysical characterization of refolded Drosophila DPP : a homolog of bone morphogenetic proteins 2 and 4. Journal of Biological Chemistry, Vol. 273, H. 44. pp. 29052-29065. Montagne, J. and Groppe, J. and Guillemin, K. and Krasnow, M. A. and Gehring, W. J. and Affolter, M.. (1996) The Drosophila Serum Response Factor gene is required for the formation of intervein tissue of the wing and is allelic to blistered. Development, Vol. 122, H. 9. pp. 2589-2597. Guillemin, K. and Groppe, J. and Ducker, K. and Treisman, R. and Hafen, E. and Affolter, M. and Krasnow, M. A.. (1996) The pruned gene encodes the Drosophila serum response factor and regulates cytoplasmic outgrowth during terminal branching of the tracheal system. Development, Vol. 122, H. 5. pp. 1353-1362. Affolter, M. and Montagne, J. and Walldorf, U. and Groppe, J. and Kloter, U. and LaRosa, M. and Gehring, W. J.. (1994) The Drosophila SRF homolog is expressed in a subset of tracheal cells and maps within a genomic region required for tracheal development. Development, Vol. 120, H. 4. pp. 743-753. |