Quantitative approaches in developmental biology

The tissues of a developing embryo are simultaneously patterned, moved and differentiated according to an exchange of information between their constituent cells. We argue that these complex self-organizing phenomena can only be fully understood with quantitative mathematical frameworks that allow specific hypotheses to be formulated and tested. The quantitative and dynamic imaging of growing embryos at the molecular, cellular and tissue level is the key experimental advance required to achieve this interaction between theory and experiment. Here we describe how mathematical modelling has become an invaluable method to integrate quantitative biological information across temporal and spatial scales, serving to connect the activity of regulatory molecules with the morphological development of organisms. © 2009 Macmillan Publishers Limited. All rights reserved.

Quantitative approaches in developmental biology

CONTROL OF HYPERBOLIC AND PARABOLIC EQUATIONS ON NETWORKS AND SINGULAR LIMITS

Statistical learning quantifies transposable element-mediated cis-regulation

Toxic Effects of Koumine on the Early-Life Development Stage of Zebrafish

CONTROL OF HYPERBOLIC AND PARABOLIC EQUATIONS ON NETWORKS AND SINGULAR LIMITS

Toxic Effects of Koumine on the Early-Life Development Stage of Zebrafish

Statistical learning quantifies transposable element-mediated cis-regulation