Abstract
This report focuses on dorso-ventral patterning in the segmented region of the Drosophila melanogaster embryo. According to the concept of positional information, this pattern results from the different response of cells to the Dorsal-protein morphogen. This protein shows a distribution gradient along the dorso-ventral axis, with the highest concentration on the ventral side. Using the generalized logical formalism developed by R. Thomas and co-workers, the different cellular responses were analysed in terms of the intracellular loops between the regulatory genes. Two positive loops were found to be involved, each constituting a switch which can be acted upon by the Dorsal morphogen to determine the different cell types that make up the embryonic dorso-ventral pattern. The novelty in this use of generalized logical formalism is the employment of a multilevel variable to represent a morphogen gradient. The proposed model accounts for the essential qualitative effects of the Dorsal gradient in the dorso-ventral determination process. Three main conclusions may be drawn. Firstly, the gene twist needs to have two functional threshold concentrations, one for autoactivation and the other for activation of the gene snail. Secondly, the autoactivation threshold must be smaller than that which activates snail. Thirdly, the action of the gene snail on the maintenance function of the gene twist is crucial for cells to be able to choose between the mesoderm or neuroectoderm developmental pathways. Furthermore, it is predicted that if the gene snail shows autoregulation, this will not be crucial for the determination of the embryonic D-V pattern. Copyright 1997 Academic Press Limited Copyright 1997 Academic Press Limited
