Publikationen von H Meinhardt
Alle Typen
Buchkapitel (4)
41.
Buchkapitel
Pattern Forming Reactions and the Generation of Primary Embryonic Axes. In: Morphogenesis and Pattern Formation in Biological Systems: Experiments and Models, S. 3 - 19 (Hg. Sekimura, T.; Noji, S.; Ueno, N.; Maini, P.). Springer, Tokyo, Japan (2003)
42.
Buchkapitel
Models for pattern formation and the position-specific activation of genes. In: On Growth, Form and Computers, 7, S. 135 - 155 (Hg. Kumar, S.; Bentley, P.). Academic Press Elsevier, Amsterdam, The Netherlands (2003)
43.
Buchkapitel
Nichtlineare Selbstverstärkung: Die treibende Kraft in der biologischen Musterbildung. In: Komplexe Systeme und Nichtlineare Dynamik in Natur und Gesellschaft: Komplexitätsforschung in Deutschland auf dem Weg ins nächste Jahrhundert, S. 146 - 165 (Hg. Mainzer, K.). Springer, Berlin, Germany (1999)
Konferenzbeitrag (2)
44.
Konferenzbeitrag
Beyond spots and stripes: Generation of more complex patterns by modification and additions of the basic reaction. In: Mathematical Models for Biological Pattern Formation, S. 143 - 165 (Hg. Maini, P.; Othmer, H.). IMA Program on Mathematics in Biology: Theoretical Problems in Developmental Biology and Immunology, 1998. Springer, New York, NY, USA (2001)
45.
Konferenzbeitrag
Pattern formation by coupled oscillations: The pigmentation patterns on the shells of molluscs. In: Mathematical Topics in Population Biology, Morphogenesis and Neurosciences: Proceedings of an International Symposium held in Kyoto, November 10–15, 1985, S. 184 - 198 (Hg. Teramoto, E.; Yamaguti, M.). Mathematical Topics in Population Biology, Morphogenesis and Neurosciences, Kyoto, Japan, 10. November 1985 - 15. November 1985. Springer, Berlin, Germany (1987)
Vortrag (3)
46.
Vortrag
Turing's Pioneering Paper "The Chemical Basis of Morphogenesis" and the Subsequent Development of Theories of Biological Pattern Formation. The Alan Turing Centenary Conference, Manchester, UK (2012)
47.
Vortrag
Never reaching a stable steady state: highly dynamic patterning mechanisms and their application to chemotaxis. Indian Institute of Science, Bangalore, India (2011)
48.
Vortrag
Drosophila Apontic acts as a feedback inhibitor of JAK/STAT signaling and is required to limit an invasive cell population. 67th Annual Meeting of the Society for Developmental Biology (SDB 2008), Philadelphia, PA, USA (2008)