Journal ArticleDOI
Experimental studies on axial polarity in hydra
Owen K. Wilby,Gerald Webster +1 more
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There is evidence which suggests that the polarity of regeneration in hydra is determined by axial gradients of some sort, and the experimental results suggest that the axial gradient behaves as a gradient of a substance.Abstract:
There is evidence which suggests that the polarity of regeneration in hydra is determined by axial gradients of some sort. The mechanisms which may be involved in the establishment and maintenance of the gradients have been investigated by studying the reversal of polarity in graft combinations.
Complete polarity reversal can be effected by a grafted hypostome or by a grafted hypostome and peduncle. Partial polarity reversal can be effected by a graft of a peduncle only. Changes in regional properties associated with polarity changes have been investigated using isolation and transplantation techniques.
The experimental results suggest that the axial gradient behaves as a gradient of a substance. Such a gradient could be produced by either ( a ) simple diffusion of a substance from a source or ( b ) unidirectional transport of a substance plus back-diffusion. Some of the experimental results are incompatible with mechanism ( a ). All the experimental results are compatible with mechanism ( b ).
Some of the problems raised by the interpretation of the axial gradient in terms of a polarized transport model are briefly discussed.read more
Citations
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Journal ArticleDOI
A theory of biological pattern formation.
Alfred Gierer,Hans Meinhardt +1 more
TL;DR: It is shown that relatively simple molecular mechanisms based on auto- and cross catalysis can account for a primary pattern of morphogens to determine pattern formation of the tissue, and the theory is applied to quantitative data on hydra and is shown to account for activation and inhibition of secondary head formation.
Journal ArticleDOI
Biological pattern formation: from basic mechanisms to complex structures
A. J. Koch,Hans Meinhardt +1 more
TL;DR: In this paper, simple models are discussed that describe the generation of patterns out of an initially nearly homogeneous state, based on nonlinear interactions of at least two chemicals and on their diffusion.
Biological pattern formation: fmm basic mechanisms ta complex structures
A. J. Koch,H. Meinhardt +1 more
TL;DR: Numerical simulations show that simple models that describe the generation of patterns out of an initially nearly homogeneous state account for many basic biological observations such as the regeneration of a pattern after excision of tissue or the production of regular arrays of organs during (or after) completion of growth.
Book ChapterDOI
Chapter 6 Positional Information and Pattern Formation
TL;DR: In pressing the possibility of universality, the chapter deliberately takes an extreme stand, but at least it serves to counterbalance the special-substance inductive view of pattern formation.
Journal ArticleDOI
Regeneration of Hydra from Reaggregated Cells
Alfred Gierer,Stefan Berking,Hans R. Bode,Hans R. Bode,Charles N. David,K. Flick,Gerald Hansmann,Hubert Schaller,E. Trenkner +8 more
TL;DR: The regeneration of serially grafted aggregates derived from different parts of hydra tissue demonstrates that the polarity of morphogenesis in hydra is the result of the cellular composition of the tissue, not cellular orientation.
References
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Journal ArticleDOI
Gradients in the Insect Segment: The Orientation of Hairs in the Milkweed Bug Oncopeltus Fasciatus
TL;DR: The sand model helps in a description of the hypothetical chemical basis of the gradient in the insect segment and the relationship between the gradient and pattern is briefly discussed.
Journal ArticleDOI
Morphogenesis and pattern formation in hydroids
TL;DR: The formation of the hypostome and the regeneration of distal structures, and the establishment and maintenance of the axial gradients in Hydra are studied.
Book ChapterDOI
Polarity and Patterns in the Postembryonic Development of Insects
TL;DR: This chapter describes how work with insects has produced some central information and discusses the five features of developing systems, polarity, determination, pattern formation, regulation, and differentiation in relation to development of postembryonic insects.