Abstract
Experiments with the limbs of amphibians, roach legs, and fly wing disks suggested to French et al. (1976) some simple rules governing growth and pattern formation in the insects and in higher animals. To apply these rules (Chapter 16), we must first find a point on a ring associated with each point on the animal’s two-dimensional surface. French et al. argue that morphogenesis is conducted primarily within two-dimensional sheets of cells and that within these sheets cells know their identity in part as a point on a ring, which we might think of as an angle or a phase. The pattern of phase (together with a second, independent quantity) across the two-dimensional sheet determines the qualitative pattern of growth and differentiation. In particular, phase singularities play a crucial role, for example determining the number and handedness of limbs (Glass, 1977).
The shop seemed to be full of all manner of curious things—but the oddest part of it was that, whenever she looked hard at any shelf, to make out exactly what it had on it, that particular shelf was always quite empty, though the others round it were crowded as full as they could hold.
Through the Looking Glass
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© 1980 Springer Science+Business Media New York
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Winfree, A.T. (1980). Arthropod Cuticle. In: The Geometry of Biological Time. Biomathematics. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-22492-2_18
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DOI: https://doi.org/10.1007/978-3-662-22492-2_18
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