The T-box-encoding Dorsocross genes function in amnioserosa development and the patterning of the dorsolateral germ band downstream of Dpp

doi:10.1242/dev.00548

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doi: 10.1242/10.1242/dev.00548

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Development 130, 3187-3204 (2003)
Copyright © 2003 The Company of Biologists Limited

The T-box-encoding Dorsocross genes function in amnioserosa development and the patterning of the dorsolateral germ band downstream of Dpp

Ingolf Reim, Hsiu-Hsiang Lee and Manfred Frasch^*

Brookdale Department of Molecular, Cell and Developmental Biology, Mount Sinai School of Medicine, New York NY 10029, USA

^* Author for correspondence (e-mail: manfred.frasch{at}mssm.edu)

Accepted 17 April 2003

Dpp signals are responsible for establishing a variety of cellidentities in dorsal and lateral areas of the early Drosophilaembryo, including the extra-embryonic amnioserosa as well asdifferent ectodermal and mesodermal cell types. Although wehave a reasonably clear picture of how Dpp signaling activityis modulated spatially and temporally during these processes,a better understanding of how these signals are executed requiresthe identification and characterization of a collection of downstreamgenes that uniquely respond to these signals. In the presentstudy, we describe three novel genes, Dorsocross1, Dorsocross2and Dorsocross3, which are expressed downstream of Dpp in thepresumptive and definitive amnioserosa, dorsal ectoderm anddorsal mesoderm. We show that these genes are good candidatesfor being direct targets of the Dpp signaling cascade. Dorsocross expressionin the dorsal ectoderm and mesoderm is metameric and requiresa combination of Dpp and Wingless signals. In addition, a transversestripe of expression in dorsoanterior areas of early embryosis independent of Dpp. The Dorsocross genes encode closely relatedproteins of the T-box domain family of transcription factors.All three genes are arranged in a gene cluster, are expressedin identical patterns in embryos, and appear to be genetically redundant.By generating mutants with a loss of all three Dorsocross genes,we demonstrate that Dorsocross gene activity is crucial forthe completion of differentiation, cell proliferation arrest,and survival of amnioserosa cells. In addition, we show thatthe Dorsocross genes are required for normal patterning of thedorsolateral ectoderm and, in particular, the repression of winglessand the ladybird homeobox genes within this area of the germband. These findings extend our knowledge of the regulatorypathways during amnioserosa development and the patterning ofthe dorsolateral embryonic germ band in response to Dpp signals.

Key words: T-box, Amnioserosa, Dorsal ectoderm, Dpp, wingless, Drosophila

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