Depth and Breadth of Explanatory Power in Developmental GRNs
California Institute Of Technology, Pasadena CA
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Abstract
The proposed work falls into three general areas. The Initial objective is to extend solved gene regulatory networks (GRNs) controlling sea urchin embryonic specification, up to gastrula stage, to encompass the whole of the embryo. This will require de novo solution for one remaining complex domain of the embryo. Following this we will build a predictive digital computational model of regulatory specification throughout the embryo from a few h after fertilization to 30h, including all interactions between domains, using the approach and software recently applied to the endomesodermal half of the embryo. A second objective is to utilize synthetic re-engineering to ascertain the logic processing functions and to answer other questions about the meaning of particular network subcircuit designs encountered in the sea urchin endomesoderm GRN. Specifically we will target double negative gate circuitry, feedback circuitry, and also redeploy differentiation gene batteries. These studies will be carried out in the context of the developing embryo, rather than in isolated
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