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[26] Kettemann, A., Neuss-Radu, M.: Analysis qf a System modeling the chemotactic
behavior qf hematopoietic stem cells. Submitted to Journal for Mathematical Biology
(2007)
[27] Kusserow A., Pang K., Sturm C., Hrouda M., Lentfer J., Schmidt H. A.,Technau
U., von Haeseler A., Hobmayer B., Martindale M.Q., Holsteinl T.W.: Unexpected
complexity qf the Wntgene family in a sea anemone. Nature, 433. 156-160 (2005)
[28] Liesegang R.E.: Beiträge zu einer Kolloidchemie des Lebens. 1. Auflage Steinkopff
Verlag, Dresden und Leipzig (1909)
[29] Marciniak-Czochra A: Receptor-based models with diffusion-driven instability for
pattem formation in hydra.f Biol. Sys. 11: 293—324 (2003).
[30] Marciniak-Czochra A: Receptor-based models with hysteresis for pattern formation in
hydra. Math. Biosci. 199, 97—119. (2006)
[31] Murray J. D.: Mathematical Biology, Springer-Verlag (1989)
[32] Neuss-Radu, M , Jäger W.: Effective transmission conditions for reaction-diffusion
processes in domains separated by an interface. SIAMJ. Math. Analysis accepted (2007)
[33] Runge F. F: Der Bildungstrieb der Stoffe. Veranschaulicht in selbständig gewachsenen
Bildern, Oranienburg (1855)
[34] Sherratt, J.A., Maini P.K., Jäger W., Müller W. A.: A Receptor Based Model for
Pattern Formation in Hydra. Forma 10, 77—95, (1995)
[35] Stürzbecher V: Bilder, die sich selber malen, Spektrum der Wissenschaft, 4/2001
[36] Thompson D’Arcy W: On Growth and Form. Cambridge Univ. Press, Cam-
bridge (1917)
[37] Turing A.M.: The Chemical Basis of Morphogenesis. Phil.Trans.Roy. Soc. London
B237, 37-72 (1952)