Missense Mutation in the Second RNA Binding Domain Reveals a Role for Prkra (PACT/RAX) during Skull Development

Random chemical mutagenesis of the mouse genome can causally connect genes to specific phenotypes. Using this approach, reduced pinna (rep) or microtia, a defect in ear development, was mapped to a small region of mouse chromosome 2. Sequencing of this region established co-segregation of the phenot...

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Autores principales: Dickerman, Benjamin K., White, Christine L., Chevalier, Claire, Nalesso, Valérie, Charles, Cyril, Fouchécourt, Sophie, Guillou, Florian, Viriot, Laurent, Sen, Ganes C., Hérault, Yann
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2011
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3237451/
https://www.ncbi.nlm.nih.gov/pubmed/22194846
http://dx.doi.org/10.1371/journal.pone.0028537
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author Dickerman, Benjamin K.
White, Christine L.
Chevalier, Claire
Nalesso, Valérie
Charles, Cyril
Fouchécourt, Sophie
Guillou, Florian
Viriot, Laurent
Sen, Ganes C.
Hérault, Yann
author_facet Dickerman, Benjamin K.
White, Christine L.
Chevalier, Claire
Nalesso, Valérie
Charles, Cyril
Fouchécourt, Sophie
Guillou, Florian
Viriot, Laurent
Sen, Ganes C.
Hérault, Yann
author_sort Dickerman, Benjamin K.
collection PubMed
description Random chemical mutagenesis of the mouse genome can causally connect genes to specific phenotypes. Using this approach, reduced pinna (rep) or microtia, a defect in ear development, was mapped to a small region of mouse chromosome 2. Sequencing of this region established co-segregation of the phenotype (rep) with a mutation in the Prkra gene, which encodes the protein PACT/RAX. Mice homozygous for the mutant Prkra allele had defects not only in ear development but also growth, craniofacial development and ovarian structure. The rep mutation was identified as a missense mutation (Serine 130 to Proline) that did not affect mRNA expression, however the steady state level of RAX protein was significantly lower in the brains of rep mice. The mutant protein, while normal in most biochemical functions, was unable to bind dsRNA. In addition, rep mice displayed altered morphology of the skull that was consistent with a targeted deletion of Prkra showing a contribution of the gene to craniofacial development. These observations identified a specific mutation that reduces steady-state levels of RAX protein and disrupts the dsRNA binding function of the protein, demonstrating the importance of the Prkra gene in various aspects of mouse development.
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spelling pubmed-32374512011-12-22 Missense Mutation in the Second RNA Binding Domain Reveals a Role for Prkra (PACT/RAX) during Skull Development Dickerman, Benjamin K. White, Christine L. Chevalier, Claire Nalesso, Valérie Charles, Cyril Fouchécourt, Sophie Guillou, Florian Viriot, Laurent Sen, Ganes C. Hérault, Yann PLoS One Research Article Random chemical mutagenesis of the mouse genome can causally connect genes to specific phenotypes. Using this approach, reduced pinna (rep) or microtia, a defect in ear development, was mapped to a small region of mouse chromosome 2. Sequencing of this region established co-segregation of the phenotype (rep) with a mutation in the Prkra gene, which encodes the protein PACT/RAX. Mice homozygous for the mutant Prkra allele had defects not only in ear development but also growth, craniofacial development and ovarian structure. The rep mutation was identified as a missense mutation (Serine 130 to Proline) that did not affect mRNA expression, however the steady state level of RAX protein was significantly lower in the brains of rep mice. The mutant protein, while normal in most biochemical functions, was unable to bind dsRNA. In addition, rep mice displayed altered morphology of the skull that was consistent with a targeted deletion of Prkra showing a contribution of the gene to craniofacial development. These observations identified a specific mutation that reduces steady-state levels of RAX protein and disrupts the dsRNA binding function of the protein, demonstrating the importance of the Prkra gene in various aspects of mouse development. Public Library of Science 2011-12-14 /pmc/articles/PMC3237451/ /pubmed/22194846 http://dx.doi.org/10.1371/journal.pone.0028537 Text en Dickerman et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Dickerman, Benjamin K.
White, Christine L.
Chevalier, Claire
Nalesso, Valérie
Charles, Cyril
Fouchécourt, Sophie
Guillou, Florian
Viriot, Laurent
Sen, Ganes C.
Hérault, Yann
Missense Mutation in the Second RNA Binding Domain Reveals a Role for Prkra (PACT/RAX) during Skull Development
title Missense Mutation in the Second RNA Binding Domain Reveals a Role for Prkra (PACT/RAX) during Skull Development
title_full Missense Mutation in the Second RNA Binding Domain Reveals a Role for Prkra (PACT/RAX) during Skull Development
title_fullStr Missense Mutation in the Second RNA Binding Domain Reveals a Role for Prkra (PACT/RAX) during Skull Development
title_full_unstemmed Missense Mutation in the Second RNA Binding Domain Reveals a Role for Prkra (PACT/RAX) during Skull Development
title_short Missense Mutation in the Second RNA Binding Domain Reveals a Role for Prkra (PACT/RAX) during Skull Development
title_sort missense mutation in the second rna binding domain reveals a role for prkra (pact/rax) during skull development
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3237451/
https://www.ncbi.nlm.nih.gov/pubmed/22194846
http://dx.doi.org/10.1371/journal.pone.0028537
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