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Citation for Study 15970

About Citation title: "Dact genes are chordate specific regulators at the intersection of Wnt and Tgf-beta signaling ".
About Study name: "Dact genes are chordate specific regulators at the intersection of Wnt and Tgf-beta signaling ".
About This study is part of submission 15970 (Status: Published).

Citation

Schubert F.R., Sobreira D.R., Janousek R.G., Alvares L.E., & Dietrich S. 2014. Dact genes are chordate specific regulators at the intersection of Wnt and Tgf-beta signaling. BMC Evolutionary Biology, .

Authors

  • Schubert F.R. (submitter) Phone +44(0)2392842022
  • Sobreira D.R.
  • Janousek R.G.
  • Alvares L.E.
  • Dietrich S.

Abstract

Background Dacts are multi-domain adaptor proteins. They have been implicated in Wnt and Tgf-beta signaling and serve as a nodal point in regulating many cellular activities. Dact genes have so far only been identified on bony vertebrates. Also, the number of Dact genes in a given species, the number and roles of protein motifs and functional domains, and the overlap of gene expression domains are all not clear. To address these problems, we have taken an evolutionary approach, screening for Dact genes in the animal kingdom and establishing their phylogeny and the synteny of Dact loci. Furthermore, we performed a deep analysis of the various Dact protein motifs and compared the expression patterns of different Dacts. Results Our study identified previously not recognized dact genes and showed that they evolved late in the deuterostome lineage. In gnathostomes, four Dact genes were generated by the two rounds of whole genome duplication in the ancestor of vertebrates, with Dact1/3 arising from one, Dact2/4 arising from the other gene generated during the first genome duplication. In actinopterygians, a further dact4r gene arose from retrotranscription. The third genome duplication in the teleost ancestor, and subsequent gene loss in most gnathostome lineages left extant species with a subset of Dact genes. The distribution of functional domains suggests that the ancestral Dact function lied with Wnt signaling, and a role in Tgf-beta signaling may have emerged with the Dact2/4 ancestor. Motif reduction, in particular in Dact4, suggests that this protein may counteract the function of the other Dacts. Dact genes were expressed in both distinct and overlapping domains, suggesting possible combinatorial function. Conclusions The gnathostome Dact gene family is composed of four members, derived from a chordate-specific ancestor. The ability to control Wnt signaling seems to be part of the ancestral repertoire of Dact functions, while the ability to inhibit Tgf-beta signaling and to carry out specialized, ortholog-specific roles may have evolved later. The complement of Dact genes coexpressed in a tissue provides a complex way to fine-tune Wnt and Tgf-beta signaling. Our work provides the basis for future structural and functional studies aimed at unraveling intracellular regulatory networks.

Keywords

Dact, Dapper, Frodo, Wnt signaling, Tgf-beta signaling, evolution, protein motifs, expression, chordates, vertebrates.

External links

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  • Canonical resource URI: http://purl.org/phylo/treebase/phylows/study/TB2:S15970
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