David Holloway

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Mid-embryo patterning and precision in Drosophila segmentationDavid Holloway
Stochastic dynamics of gene expression in developing fly embryosDavid Holloway
Analysis of pattern precision shows that Drosophila segmentation develops substantial independence from gradients of maternal gene productsDavid Holloway
Spatial bistability generates hunchback expression sharpness in the drosophila embryoDavid Holloway
Modeling the evolution of gene regulatory networks for spatial patterning in embryo developmentDavid Holloway
Using evolutionary computations to understand the design and evolution of gene and cell regulatory networksDavid Holloway
In silico evolution of the hunchback gene indicates redundancy in cis-regulatory organization and spatial gene expressionDavid Holloway
Evolutionary design of gene networksDavid Holloway
Gene expression noise in embryonic spatial patterningDavid Holloway
Gene expression noise in spatial patterningDavid Holloway
Variable patterning in fruit fly embryos due to basins of attraction in underlying gene regulatory dynamicsDavid Holloway
In silico evolution of gene cooption in pattern-forming gene networksDavid Holloway
Design of a dynamic model of genes with multiple autonomous regulatory modules by evolutionary computationsDavid Holloway
Retroviral genetic algorithmsDavid Holloway
New approaches to designing genes by evolution in the computerDavid Holloway
Evolution in silico of genes with multiple regulatory modules on the example of the Drosophila segmentation gene hunchbackDavid Holloway
Sharp borders from fuzzy gradientsDavid Holloway
Noise in the segmentation gene network of Drosophila, with implications for mechanisms of body axis specificationDavid Holloway
Making the body planDavid Holloway
Using EA to study the evolution of GRNs controlling biological developmentDavid Holloway
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