Integrated analysis of Wnt signalling system component gene expression

Wnt signalling controls patterning and differentiation across many tissues and organs of the developing embryo via temporally and spatially restricted expression of multi-gene families encoding ligands, receptors, pathway modulators and intracellular components. Here we report an integrated analysis of key encoding genes in the 3D space of the mouse embryo across multiple stages of development. We applied a method for 3D/3D image transformation to map all gene expression patterns to a single reference embryo for each stage providing both visual analysis and volumetric mapping allowing computational methods to interrogate the combined expression patterns. We identify novel territories where multiple Wnt and Fzd genes are co-expressed and cross-compare all patterns, including all seven Wnt paralogous gene pairs. The comprehensive analysis allows regions in the embryo where no Wnt or Fzd gene expression is detected, and where single Wnt genes are uniquely expressed, to be revealed. This work provides insight into a level of organisation of the patterns not previously possible, as well as presenting a resource that can be utilised further by the research community for whole system analysis.