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1.
Mamm Genome ; 34(3): 453-463, 2023 09.
Artigo em Inglês | MEDLINE | ID: mdl-37341808

RESUMO

The external ear develops from an organized convergence of ventrally migrating neural crest cells into the first and second branchial arches. Defects in external ear position are often symptomatic of complex syndromes such as Apert, Treacher-Collins, and Crouzon Syndrome. The low set ears (Lse) spontaneous mouse mutant is characterized by the dominant inheritance of a ventrally shifted external ear position and an abnormal external auditory meatus (EAM). We identified the causative mutation as a 148 Kb tandem duplication on Chromosome 7, which includes the entire coding sequences of Fgf3 and Fgf4. Duplications of FGF3 and FGF4 occur in 11q duplication syndrome in humans and are associated with craniofacial anomalies, among other features. Intercrosses of Lse-affected mice revealed perinatal lethality in homozygotes, and Lse/Lse embryos display additional phenotypes including polydactyly, abnormal eye morphology, and cleft secondary palate. The duplication results in increased Fgf3 and Fgf4 expression in the branchial arches and additional discrete domains in the developing embryo. This ectopic overexpression resulted in functional FGF signaling, demonstrated by increased Spry2 and Etv5 expression in overlapping domains of the developing arches. Finally, a genetic interaction between Fgf3/4 overexpression and Twist1, a regulator of skull suture development, resulted in perinatal lethality, cleft palate, and polydactyly in compound heterozygotes. These data indicate a role for Fgf3 and Fgf4 in external ear and palate development and provide a novel mouse model for further interrogation of the biological consequences of human FGF3/4 duplication.


Assuntos
Fatores de Crescimento de Fibroblastos , Polidactilia , Animais , Camundongos , Humanos , Fatores de Crescimento de Fibroblastos/genética , Mutação , Modelos Animais de Doenças , Fator 3 de Crescimento de Fibroblastos/genética
3.
Nature ; 537(7621): 508-514, 2016 09 22.
Artigo em Inglês | MEDLINE | ID: mdl-27626380

RESUMO

Approximately one-third of all mammalian genes are essential for life. Phenotypes resulting from knockouts of these genes in mice have provided tremendous insight into gene function and congenital disorders. As part of the International Mouse Phenotyping Consortium effort to generate and phenotypically characterize 5,000 knockout mouse lines, here we identify 410 lethal genes during the production of the first 1,751 unique gene knockouts. Using a standardized phenotyping platform that incorporates high-resolution 3D imaging, we identify phenotypes at multiple time points for previously uncharacterized genes and additional phenotypes for genes with previously reported mutant phenotypes. Unexpectedly, our analysis reveals that incomplete penetrance and variable expressivity are common even on a defined genetic background. In addition, we show that human disease genes are enriched for essential genes, thus providing a dataset that facilitates the prioritization and validation of mutations identified in clinical sequencing efforts.


Assuntos
Embrião de Mamíferos/embriologia , Embrião de Mamíferos/metabolismo , Genes Essenciais/genética , Genes Letais/genética , Mutação/genética , Fenótipo , Animais , Sequência Conservada/genética , Doença , Estudo de Associação Genômica Ampla , Ensaios de Triagem em Larga Escala , Humanos , Imageamento Tridimensional , Camundongos , Camundongos Endogâmicos C57BL , Camundongos Knockout , Penetrância , Polimorfismo de Nucleotídeo Único/genética , Homologia de Sequência
4.
Am J Hum Genet ; 98(4): 643-52, 2016 Apr 07.
Artigo em Inglês | MEDLINE | ID: mdl-27018474

RESUMO

Nonsense-mediated decay (NMD) is an important process that is best known for degrading transcripts that contain premature stop codons (PTCs) to mitigate their potentially harmful consequences, although its regulatory role encompasses other classes of transcripts as well. Despite the critical role of NMD at the cellular level, our knowledge about the consequences of deficiency of its components at the organismal level is largely limited to model organisms. In this study, we report two consanguineous families in which a similar pattern of congenital anomalies was found to be most likely caused by homozygous loss-of-function mutations in SMG9, encoding an essential component of the SURF complex that generates phospho-UPF1, the single most important step in NMD. By knocking out Smg9 in mice via CRISPR/Cas9, we were able to recapitulate the major features of the SMG9-related multiple congenital anomaly syndrome we observed in humans. Surprisingly, human cells devoid of SMG9 do not appear to have reduction of PTC-containing transcripts but do display global transcriptional dysregulation. We conclude that SMG9 is required for normal human and murine development, most likely through a transcriptional regulatory role, the precise nature of which remains to be determined.


Assuntos
Anormalidades Múltiplas/genética , Mutação , Degradação do RNAm Mediada por Códon sem Sentido/genética , Fosfoproteínas/genética , Adulto , Alelos , Sequência de Aminoácidos , Animais , Estudos de Casos e Controles , Criança , Pré-Escolar , Códon sem Sentido , Feminino , Perfilação da Expressão Gênica , Regulação da Expressão Gênica , Humanos , Peptídeos e Proteínas de Sinalização Intracelular , Masculino , Camundongos , Dados de Sequência Molecular , Linhagem , Fosforilação , Polimorfismo de Nucleotídeo Único , RNA Mensageiro , Arábia Saudita
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