A small set of conserved genes, including sp5 and Hox, are activated by Wnt signaling in the posterior of planarians and acoels

A small set of conserved genes, including sp5 and Hox, are activated by Wnt signaling in the posterior of planarians and acoels

Wnt signaling regulates primary body axis formation across the Metazoa, with high Wnt signaling specifying posterior identity. Whether a common Wnt-driven transcriptional program accomplishes this broad role is poorly understood. We identified genes acutely affected after Wnt signaling inhibition in...

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Veröffentlicht in:PLoS genetics 2019-10, Vol.15 (10), p.e1008401-e1008401
Hauptverfasser: Tewari, Aneesha G, Owen, Jared H, Petersen, Christian P, Wagner, Daniel E, Reddien, Peter W
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Biochemistry
Biology
Biology and Life Sciences
Biomedical research
Body Patterning - genetics
Cell differentiation
Cell Differentiation - genetics
Displays (Marketing)
Embryos
Evolution
Gene expression
Gene Expression Regulation, Developmental - genetics
Genes
Genes, Homeobox - genetics
Genomes
HOX gene
Ligands
Medicine and Health Sciences
Muscle Development - genetics
Nuclear Proteins - genetics
Planarians - genetics
Planarians - growth & development
Regeneration - genetics
Research and analysis methods
RNA interference
RNA-mediated interference
Stem cells
Tails
Transcription
Transcription (Genetics)
Turbellaria
Wnt protein
Wnt Proteins - genetics
Wnt Signaling Pathway - genetics
β-catenin
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container_issue 10
container_start_page e1008401
container_title PLoS genetics
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creator Tewari, Aneesha G
Owen, Jared H
Petersen, Christian P
Wagner, Daniel E
Reddien, Peter W
description Wnt signaling regulates primary body axis formation across the Metazoa, with high Wnt signaling specifying posterior identity. Whether a common Wnt-driven transcriptional program accomplishes this broad role is poorly understood. We identified genes acutely affected after Wnt signaling inhibition in the posterior of two regenerative species, the planarian Schmidtea mediterranea and the acoel Hofstenia miamia, which are separated by >550 million years of evolution. Wnt signaling was found to maintain positional information in muscle and regional gene expression in multiple differentiated cell types. sp5, Hox genes, and Wnt pathway components are down-regulated rapidly after β-catenin RNAi in both species. Brachyury, a vertebrate Wnt target, also displays Wnt-dependent expression in Hofstenia. sp5 inhibits trunk gene expression in the tail of planarians and acoels, promoting separate tail-trunk body domains. A planarian posterior Hox gene, Post-2d, promotes normal tail regeneration. We propose that common regulation of a small gene set-Hox, sp5, and Brachyury-might underlie the widespread utilization of Wnt signaling in primary axis patterning across the Bilateria.
doi_str_mv 10.1371/journal.pgen.1008401
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subjects Animals
Biochemistry
Biology
Biology and Life Sciences
Biomedical research
Body Patterning - genetics
Cell differentiation
Cell Differentiation - genetics
Displays (Marketing)
Embryos
Evolution
Gene expression
Gene Expression Regulation, Developmental - genetics
Genes
Genes, Homeobox - genetics
Genomes
HOX gene
Ligands
Medicine and Health Sciences
Muscle Development - genetics
Nuclear Proteins - genetics
Planarians - genetics
Planarians - growth & development
Regeneration - genetics
Research and analysis methods
RNA interference
RNA-mediated interference
Stem cells
Tails
Transcription
Transcription (Genetics)
Turbellaria
Wnt protein
Wnt Proteins - genetics
Wnt Signaling Pathway - genetics
β-catenin
title A small set of conserved genes, including sp5 and Hox, are activated by Wnt signaling in the posterior of planarians and acoels
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