The retinotopic organisation of retinal projections requires Wnt activity in both vertebrates and invertebrates. The retinotopic organisation of retinal.

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The retinotopic organisation of retinal projections requires Wnt activity in both vertebrates and invertebrates. The retinotopic organisation of retinal projections requires Wnt activity in both vertebrates and invertebrates. (A) Schematic of the chick retinotectal projections under normal (left) or experimental conditions (right). In the chick, ventral retinal axons expressing both Ryk and Fz (red) project to the medial tectum, whereas dorsal axons expressing only Fz (blue) terminate in the lateral tectum. This organisation is achieved in part through the graded medial-high distribution (graded blue staining) of Wnt3a. Fz-positive dorsal retinal cell axons are attracted by low doses of Wnt3a. Misexpression of a dominant-negative (DN)-Ryk form in the dorsal RGCs (green staining) induces a medial shift of their terminal arborisations. (B) Schematic of the Drosophila visual system. Photoreceptor cells differentiate behind the morphogenetic furrow (mf) and project in an organised manner to the lamina after crossing though the optic stalk: ventral axons expressing Dfz2 (orange) are attracted by Dwnt4 (yellow) expressed in the ventral lamina. Iro expression (red) in the dorsal retina attenuates the competence of Dfz2-positive dorsal photoreceptors (grey) to respond to Dwnt4. Ectopic expression of Dwnt4 in the dorsal lamina attracts ventral axons to the dorsal lamina. Paola Bovolenta et al. Development 2006;133:4399-4408 © 2006.