Abstract
We use hydra as a model system to understand how growth and differentiation and, as a consequence of this, pattern formation are controlled at the molecular level. We have found that four substances control head and foot formation in hydra: an activator and an inhibitor of head formation and an activator and an inhibitor of foot formation. The two activators are peptides with molecular weights around 1000 daltons, the inhibitors are smaller in molecular weight (<500), have an overall positive charge and do not contain peptide bonds. In normal animals all four substances are present and most likely produced by nerve cells. We hope to understand how these substances act and interact to create the spatial and temporal pattern of growth and differentiation typical for hydra.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bodenmüller, H., Schaller, H.C., Darai, G.: Neurosci. Lett.16, 71 (1980)
Gierer, A., et al.: Nature New Biol.239, 98 (1972)
Grimmelikhuijzen, C.J.C., Schaller, H.C.: Trends Biochem. Sci.4, 265 (1979)
Schaller, H.C.: Cell Differ.4, 265 (1975)
Schaller, H.C.: W. Roux' Arch.180, 287 (1976)
Schaller, H.C., in: Molecular Control of Proliferation und Differentiation, p. 231 (J. Papaconstantinou, W.J. Rutter, eds.). New York: Academic Press 1978
Schaller, H.C.: Trends Neurosci.1, 120 (1979)
Schaller, H.C., Schmidt, T., Grimmelikhuijzen, C.J.P.: W. Roux' Arch.186, 139 (1979)
Schmidt, T., Schaller, H.C.: Cell Differ.5, 151 (1976)
Author information
Authors and Affiliations
Additional information
Vortrag anläßlich der 111. Versammlung der Gesellschaft Deutscher Naturforscher und Ärzte, Hamburg, 21–25. September 1980
Rights and permissions
About this article
Cite this article
Chica Schaller, H., Bodenmüller, H. Morphogene substanzen ausHydra . Naturwissenschaften 68, 252–256 (1981). https://doi.org/10.1007/BF01047327
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF01047327