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Genomic Characterization and Embryonic Expression of the Mouse Bigh3 (Tgfbi) Gene

Mutations in human BIGH3 (TGFB1), a gene identified after treatment of an adenocarcinoma cell line with TGF-β, have been observed in patients with granular Groenouw type I, Reis–Bücklers, Thiel–Behnke, Avellino, and Lattice type I and IIIa, six autosomal dominant corneal dystrophies linked to chromo...

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Published in:	Biochemical and biophysical research communications 2000-08, Vol.274 (2), p.267-274
Main Authors:	Schorderet, Daniel F., Menasche, Maurice, Morand, Sabine, Bonnel, Sébastien, Büchillier, Valérie, Marchant, Dominique, Auderset, Katya, Bonny, Christophe, Abitbol, Marc, Munier, Francis L.
Format:	Article
Language:	English
Subjects:	Animals Avellino Base Sequence Bigh3 Bigh3 gene chromosome 13 chromosome 5 Conserved Sequence corneal dystrophy Embryo, Mammalian - embryology Embryo, Mammalian - metabolism Exons Extracellular Matrix Proteins gene expression Gene Expression Regulation, Developmental Genomic Library Groenouw type I Humans In Situ Hybridization Introns Lattice type I Lattice type IIIa Mice Molecular Sequence Data Neoplasm Proteins - biosynthesis Neoplasm Proteins - genetics Organ Specificity Reis-Buecklers TGFBI Thiel-Behnke Transforming Growth Factor beta
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container_title	Biochemical and biophysical research communications
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creator	Schorderet, Daniel F. Menasche, Maurice Morand, Sabine Bonnel, Sébastien Büchillier, Valérie Marchant, Dominique Auderset, Katya Bonny, Christophe Abitbol, Marc Munier, Francis L.
description	Mutations in human BIGH3 (TGFB1), a gene identified after treatment of an adenocarcinoma cell line with TGF-β, have been observed in patients with granular Groenouw type I, Reis–Bücklers, Thiel–Behnke, Avellino, and Lattice type I and IIIa, six autosomal dominant corneal dystrophies linked to chromosome 5q. In order to gain insight into the physiological role of this gene, we characterized the genomic structure of the mouse Bigh3 and its expression in murine embryos. The gene spans 30 kb on mouse chromosome 13 and has 17 exons. Embryonic expression of Bigh3 is observed in the mesenchyme of the first and second branchial archs as early as dpc 11.5 and is particularly strong in the mesenchyme of numerous tissues throughout all the development stages. In fetal eye, the expression is first seen at 11.5 dpc in the mesenchyme surrounding the optic stalk, extends toward the sclera and choroid by 14.3 dpc and reaches the cornea by 17.5 dpc. Because the physiological role of BIGH3/Bigh3 is still largely unknown, embryonic expression in organs like heart, vessels, and intestine may help to identify new functions which could be searched for in patients and in knock-out animal models. The characterization of the murine structure is a prerequisite for the making of such models.
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In order to gain insight into the physiological role of this gene, we characterized the genomic structure of the mouse Bigh3 and its expression in murine embryos. The gene spans 30 kb on mouse chromosome 13 and has 17 exons. Embryonic expression of Bigh3 is observed in the mesenchyme of the first and second branchial archs as early as dpc 11.5 and is particularly strong in the mesenchyme of numerous tissues throughout all the development stages. In fetal eye, the expression is first seen at 11.5 dpc in the mesenchyme surrounding the optic stalk, extends toward the sclera and choroid by 14.3 dpc and reaches the cornea by 17.5 dpc. Because the physiological role of BIGH3/Bigh3 is still largely unknown, embryonic expression in organs like heart, vessels, and intestine may help to identify new functions which could be searched for in patients and in knock-out animal models. 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In order to gain insight into the physiological role of this gene, we characterized the genomic structure of the mouse Bigh3 and its expression in murine embryos. The gene spans 30 kb on mouse chromosome 13 and has 17 exons. Embryonic expression of Bigh3 is observed in the mesenchyme of the first and second branchial archs as early as dpc 11.5 and is particularly strong in the mesenchyme of numerous tissues throughout all the development stages. In fetal eye, the expression is first seen at 11.5 dpc in the mesenchyme surrounding the optic stalk, extends toward the sclera and choroid by 14.3 dpc and reaches the cornea by 17.5 dpc. Because the physiological role of BIGH3/Bigh3 is still largely unknown, embryonic expression in organs like heart, vessels, and intestine may help to identify new functions which could be searched for in patients and in knock-out animal models. 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subjects	Animals Avellino Base Sequence Bigh3 Bigh3 gene chromosome 13 chromosome 5 Conserved Sequence corneal dystrophy Embryo, Mammalian - embryology Embryo, Mammalian - metabolism Exons Extracellular Matrix Proteins gene expression Gene Expression Regulation, Developmental Genomic Library Groenouw type I Humans In Situ Hybridization Introns Lattice type I Lattice type IIIa Mice Molecular Sequence Data Neoplasm Proteins - biosynthesis Neoplasm Proteins - genetics Organ Specificity Reis-Buecklers TGFBI Thiel-Behnke Transforming Growth Factor beta
title	Genomic Characterization and Embryonic Expression of the Mouse Bigh3 (Tgfbi) Gene
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