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1.
PLoS Genet ; 14(6): e1007449, 2018 06.
Artículo en Inglés | MEDLINE | ID: mdl-29902209

RESUMEN

Threespine stickleback fish offer a powerful system to dissect the genetic basis of morphological evolution in nature. Marine sticklebacks have repeatedly invaded and adapted to numerous freshwater environments throughout the Northern hemisphere. In response to new diets in freshwater habitats, changes in craniofacial morphology, including heritable increases in tooth number, have evolved in derived freshwater populations. Using a combination of quantitative genetics and genome resequencing, here we fine-mapped a quantitative trait locus (QTL) regulating evolved tooth gain to a cluster of ten QTL-associated single nucleotide variants, all within intron four of Bone Morphogenetic Protein 6 (Bmp6). Transgenic reporter assays revealed this intronic region contains a tooth enhancer. We induced mutations in Bmp6, revealing required roles for survival, growth, and tooth patterning. Transcriptional profiling of Bmp6 mutant dental tissues identified significant downregulation of a set of genes whose orthologs were previously shown to be expressed in quiescent mouse hair stem cells. Collectively these data support a model where mutations within a Bmp6 intronic tooth enhancer contribute to evolved tooth gain, and suggest that ancient shared genetic circuitry regulates the regeneration of diverse vertebrate epithelial appendages including mammalian hair and fish teeth.


Asunto(s)
Proteína Morfogenética Ósea 6/genética , Smegmamorpha/genética , Animales , Evolución Biológica , Proteína Morfogenética Ósea 6/fisiología , Mapeo Cromosómico , Elementos de Facilitación Genéticos/genética , Evolución Molecular , Agua Dulce , Regulación del Desarrollo de la Expresión Génica/genética , Ligamiento Genético , Genotipo , Intrones/genética , Fenotipo , Polimorfismo de Nucleótido Simple/genética , Sitios de Carácter Cuantitativo , Diente/embriología
2.
Development ; 139(15): 2804-13, 2012 Aug.
Artículo en Inglés | MEDLINE | ID: mdl-22782724

RESUMEN

Lesions in the epithelially expressed human gene FRAS1 cause Fraser syndrome, a complex disease with variable symptoms, including facial deformities and conductive hearing loss. The developmental basis of facial defects in Fraser syndrome has not been elucidated. Here we show that zebrafish fras1 mutants exhibit defects in facial epithelia and facial skeleton. Specifically, fras1 mutants fail to generate a late-forming portion of pharyngeal pouch 1 (termed late-p1) and skeletal elements adjacent to late-p1 are disrupted. Transplantation studies indicate that fras1 acts in endoderm to ensure normal morphology of both skeleton and endoderm, consistent with well-established epithelial expression of fras1. Late-p1 formation is concurrent with facial skeletal morphogenesis, and some skeletal defects in fras1 mutants arise during late-p1 morphogenesis, indicating a temporal connection between late-p1 and skeletal morphogenesis. Furthermore, fras1 mutants often show prominent second arch skeletal fusions through space occupied by late-p1 in wild type. Whereas every fras1 mutant shows defects in late-p1 formation, skeletal defects are less penetrant and often vary in severity, even between the left and right sides of the same individual. We interpret the fluctuating asymmetry in fras1 mutant skeleton and the changes in fras1 mutant skeletal defects through time as indicators that skeletal formation is destabilized. We propose a model wherein fras1 prompts late-p1 formation and thereby stabilizes skeletal formation during zebrafish facial development. Similar mechanisms of stochastic developmental instability might also account for the high phenotypic variation observed in human FRAS1 patients.


Asunto(s)
Proteínas de la Matriz Extracelular/genética , Proteínas de la Matriz Extracelular/fisiología , Regulación del Desarrollo de la Expresión Génica , Proteínas de Pez Cebra/fisiología , Animales , Huesos/metabolismo , Cartílago/citología , Cartílago/metabolismo , Cruzamientos Genéticos , Endodermo/metabolismo , Síndrome de Fraser/genética , Humanos , Hibridación in Situ , Modelos Biológicos , Modelos Genéticos , Mutación , Esqueleto , Pez Cebra , Proteínas de Pez Cebra/genética
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