Segregation of telencephalic and eye-field identities inside the zebrafish forebrain territory is controlled by Rx3

doi:10.1242/dev.02450

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Development ePress online publication date 3 Jul 2006
doi: 10.1242/dev.02450

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Segregation of telencephalic and eye-field identities inside the zebrafish forebrain territory is controlled by Rx3

Christian Stigloher, Jovica Ninkovic, Mary Laplante, Andrea Geling, Birgit Tannhäuser, Stefanie Topp, Hiroshi Kikuta, Thomas S. Becker, Corinne Houart, and Laure Bally-Cuif^*
^* Author for correspondence (e-mail: bally{at}gsf.de)

Anteroposterior patterning of the vertebrate forebrain duringgastrulation involves graded Wnt signaling, which segregatesanterior fields (telencephalon and eye) from the diencephalon.How the telencephalic and retinal primordia are subsequentlysubdivided remains largely unknown. We demonstrate that at lategastrulation the Paired-like homeodomain transcription factorRx3 biases cell specification choices towards the retinal fatewithin a population of bipotential precursors of the anteriorforebrain: direct cell tracing demonstrates that retinal precursorsacquire a telencephalic fate in embryos homozygous for the rx3-nullallele ckh^ne2611, characterized by an enlarged telencephalonand a lack of eyes. Chimera analyses further indicate that thisfunction of Rx3 is cell autonomous. Transfating of the eye fieldin the absence of Rx3 function correlates with a substantialposterior expansion of expression of the Wnt antagonist Tlcand the winged-helix transcription factor Foxg1. These resultssuggest that the process segregating the telencephalic and eyefields is isolated from diencephalic patterning, and is mediatedby Rx3.

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