Parallels of craniofacial maldevelopment in down syndrome and Ts65Dn mice

Mouse genetic models can be used to dissect molecular mechanisms that result in human disease. This approach requires detection and demonstration of compelling parallels between phenotypes in mouse and human. Ts65Dn mice are at dosage imbalance for many of the same genes duplicated in trisomy 21 or...

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Veröffentlicht in:	Developmental dynamics 2000-02, Vol.217 (2), p.137-145
Hauptverfasser:	Richtsmeier, Joan T., Baxter, Laura L., Reeves, Roger H.
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Sprache:	eng
Schlagworte:	aneuploidy Animals Craniofacial Abnormalities - genetics Craniofacial Abnormalities - pathology Disease Models, Animal Down Syndrome - genetics Down Syndrome - pathology euclidean distance matrix analysis evolution Facial Bones - abnormalities Female Humans Male Mandible - abnormalities Mice Mice, Inbred C3H Mice, Inbred C57BL morphometrics Phenotype segmental trisomy skull development
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creator	Richtsmeier, Joan T. Baxter, Laura L. Reeves, Roger H.
description	Mouse genetic models can be used to dissect molecular mechanisms that result in human disease. This approach requires detection and demonstration of compelling parallels between phenotypes in mouse and human. Ts65Dn mice are at dosage imbalance for many of the same genes duplicated in trisomy 21 or Down syndrome (DS), the most common live‐born human aneuploidy. Analysis of the craniofacial skeleton of Ts65Dn mice using three‐dimensional morphometric methods demonstrates an absolute correspondence between Ts65Dn and DS craniofacial dysmorphology, a distinctive and completely penetrant DS phenotype. The genes at dosage imbalance in Ts65Dn are localized to a small region of mouse chromosome 16 and, by comparative mapping, to the corresponding region of human Chromosome 21, providing independent experimental data supporting the contribution of genes in this region to this characteristic DS phenotype. This analysis establishes precise parallels in human and mouse skull phenotypes resulting from dosage imbalance for the same genes, revealing strong conservation of the evolved developmental genetic program that underlies mammalian skull morphology and validating the use of this mouse model in the analysis of this important DS phenotype. This evolutionary conservation further establishes the mouse as a valid model for a wide range of syndromes producing craniofacial maldevelopment. Dev Dyn;217:137–145. © 2000 Wiley‐Liss, Inc.
doi_str_mv	10.1002/(SICI)1097-0177(200002)217:2<137::AID-DVDY1>3.0.CO;2-N
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This analysis establishes precise parallels in human and mouse skull phenotypes resulting from dosage imbalance for the same genes, revealing strong conservation of the evolved developmental genetic program that underlies mammalian skull morphology and validating the use of this mouse model in the analysis of this important DS phenotype. This evolutionary conservation further establishes the mouse as a valid model for a wide range of syndromes producing craniofacial maldevelopment. 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This approach requires detection and demonstration of compelling parallels between phenotypes in mouse and human. Ts65Dn mice are at dosage imbalance for many of the same genes duplicated in trisomy 21 or Down syndrome (DS), the most common live‐born human aneuploidy. Analysis of the craniofacial skeleton of Ts65Dn mice using three‐dimensional morphometric methods demonstrates an absolute correspondence between Ts65Dn and DS craniofacial dysmorphology, a distinctive and completely penetrant DS phenotype. The genes at dosage imbalance in Ts65Dn are localized to a small region of mouse chromosome 16 and, by comparative mapping, to the corresponding region of human Chromosome 21, providing independent experimental data supporting the contribution of genes in this region to this characteristic DS phenotype. This analysis establishes precise parallels in human and mouse skull phenotypes resulting from dosage imbalance for the same genes, revealing strong conservation of the evolved developmental genetic program that underlies mammalian skull morphology and validating the use of this mouse model in the analysis of this important DS phenotype. This evolutionary conservation further establishes the mouse as a valid model for a wide range of syndromes producing craniofacial maldevelopment. 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subjects	aneuploidy Animals Craniofacial Abnormalities - genetics Craniofacial Abnormalities - pathology Disease Models, Animal Down Syndrome - genetics Down Syndrome - pathology euclidean distance matrix analysis evolution Facial Bones - abnormalities Female Humans Male Mandible - abnormalities Mice Mice, Inbred C3H Mice, Inbred C57BL morphometrics Phenotype segmental trisomy skull development
title	Parallels of craniofacial maldevelopment in down syndrome and Ts65Dn mice
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