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1.
Sci Rep ; 14(1): 8716, 2024 04 15.
Artigo em Inglês | MEDLINE | ID: mdl-38622170

RESUMO

Artificial selection has been widely applied to genetically fix rare phenotypic features in ornamental domesticated animals. For many of these animals, the mutated loci and alleles underlying rare phenotypes are known. However, few studies have explored whether these rare genetic mutations might have been fixed due to competition among related mutated alleles or if the fixation occurred due to contingent stochastic events. Here, we performed genetic crossing with twin-tail ornamental goldfish and CRISPR/Cas9-mutated goldfish to investigate why only a single mutated allele-chdS with a E127X stop codon (also called chdAE127X)-gives rise to the twin-tail phenotype in the modern domesticated goldfish population. Two closely related chdS mutants were generated with CRISPR/Cas9 and compared with the E127X allele in F2 and F3 generations. Both of the CRISPR/Cas9-generated alleles were equivalent to the E127X allele in terms of penetrance/expressivity of the twin-tail phenotype and viability of carriers. These findings indicate that multiple truncating mutations could have produced viable twin-tail goldfish. Therefore, the absence of polymorphic alleles for the twin-tail phenotype in modern goldfish likely stems from stochastic elimination or a lack of competing alleles in the common ancestor. Our study is the first experimental comparison of a singular domestication-derived allele with CRISPR/Cas9-generated alleles to understand how genetic fixation of a unique genotype and phenotype may have occurred. Thus, our work may provide a conceptual framework for future investigations of rare evolutionary events in domesticated animals.


Assuntos
Sistemas CRISPR-Cas , Carpa Dourada , Animais , Carpa Dourada/genética , Alelos , Evolução Biológica , Mutação , Fenótipo , Animais Domésticos/genética
2.
Sci Rep ; 12(1): 19961, 2022 11 19.
Artigo em Inglês | MEDLINE | ID: mdl-36402810

RESUMO

Breeders and fanciers have established many peculiar morphological phenotypes in ornamental goldfish. Among them, the twin-tail and dorsal-finless phenotypes have particularly intrigued early and recent researchers, as equivalent morphologies are extremely rare in nature. These two mutated phenotypes appeared almost simultaneously within a short time frame and were fixed in several strains. However, little is known about how these two different mutations could have co-occurred during such a short time period. Here, we demonstrate that the chordin gene, a key factor in dorsal-ventral patterning, is responsible not only for the twin-tail phenotype but also for the dorsal-finless phenotype. Our F2 backcrossing and functional analyses revealed that the penetrance/expressivity of the dorsal-finless phenotype can be suppressed by the wild-type allele of chdS. Based on these findings, we propose that chdSwt may have masked the expression of the dorsal-finless phenotype, acting as a capacitor buffering gene to allow accumulation of genetic mutations. Once this gene lost its original function in the twin-tail goldfish lineages, the dorsal-finless phenotype could be highly expressed. Thus, this study experimentally demonstrates that the rapid genetic fixation of morphological mutations during a short domestication time period may be related to the robustness of embryonic developmental mechanisms.


Assuntos
Padronização Corporal , Carpa Dourada , Animais , Padronização Corporal/genética , Peptídeos e Proteínas de Sinalização Intercelular , Glicoproteínas/genética
3.
Dev Dyn ; 248(4): 251-283, 2019 04.
Artigo em Inglês | MEDLINE | ID: mdl-30687996

RESUMO

BACKGROUND: Twin-tail ornamental goldfish have "bifurcated median fins," a peculiar morphology known to be caused by a mutation in the chdA gene. However, several ambiguities regarding the development of the phenotype remain due to a paucity of detailed observations covering the entire developmental timeframe. RESULTS: Here, we report a detailed comparative description of embryonic and postembryonic development for two representative twin-tail ornamental goldfish strains and single-tail common goldfish. Our observations reveal a polymorphic developmental process for bifurcated median fins; disrupted axial skeletal development at early larval stages; and modified bilateral location of the pelvic fin. CONCLUSIONS: Variations in development of bifurcated median fins and disrupted axial skeletal patterns reflect how artificial selection for adult morphological features influenced molecular developmental mechanisms during the domestication of twin-tail ornamental goldfish. The polymorphic appearance of bifurcated median fins also implies that, unlike previously proposed hypotheses, the development of these structures is controlled by molecular mechanisms independent of those acting on the pelvic fin. Our present findings will facilitate further study of how modifications of preexisting developmental systems may contribute to novel morphological features. Developmental Dynamics 248:251-283, 2019. © 2019 The Authors. Developmental Dynamics published by Wiley Periodicals, Inc. on behalf of American Association of Anatomists.


Assuntos
Nadadeiras de Animais/crescimento & desenvolvimento , Carpa Dourada/crescimento & desenvolvimento , Animais , Padronização Corporal/genética , Embrião não Mamífero , Desenvolvimento Embrionário , Carpa Dourada/embriologia , Mutação , Fatores de Transcrição/genética
4.
J Exp Zool B Mol Dev Evol ; 330(6-7): 372-383, 2018 09.
Artigo em Inglês | MEDLINE | ID: mdl-30387925

RESUMO

The twin tail of ornamental goldfish is known to be caused by a nonsense mutation in one chordin paralogue gene. Our previous molecular studies in goldfish revealed that the ancestral chordin gene was duplicated, creating the chdA and chdB genes, and the subsequent introduction of a stop codon allele in the chdA gene ( chdA E127X ) caused the twin-tail morphology. The chdA E127X allele was positively selected by breeders, and the allele was genetically fixed in the ornamental twin-tail goldfish population. However, little is known about the evolutionary history of the chdB paralogue, begging the question: are there the functionally distinct alleles at the chdB locus, and if so, how did they evolve? To address these questions, we conducted molecular sequencing of the chdB gene from five different goldfish strains and discovered two alleles at the chdB gene locus; the two alleles are designated chdB 1 and chdB 2 . The chdB 1 allele is the major allele and was found in all investigated goldfish strains, whereas the chdB 2 allele is minor, having only been found in one twin-tail strain. Genetic analyses further suggested that these two alleles are functionally different with regard to survivability ( chdB 1 > chdB 2 ). These results led us to presume that in contrast to the chdA locus, the chdB locus has tended to be eliminated from the population. We also discuss how the chdB 2 allele was retained in the goldfish population, despite its disadvantageous function. This study provides empirical evidence of the long-term retention of a disadvantageous allele under domesticated conditions.


Assuntos
Nadadeiras de Animais , Glicoproteínas/genética , Carpa Dourada/anatomia & histologia , Carpa Dourada/genética , Peptídeos e Proteínas de Sinalização Intercelular/genética , Alelos , Animais , Evolução Molecular , Morfogênese/genética , Análise de Sequência de DNA
5.
J Exp Zool B Mol Dev Evol ; 330(4): 234-241, 2018 06.
Artigo em Inglês | MEDLINE | ID: mdl-29947476

RESUMO

The twin-tail of ornamental goldfish provides unique evolutionary evidence that the highly conserved midline localization of axial skeleton components can be changed by artificial selection. This morphological change is known to be caused by a nonsense mutation in one of the recently duplicated chordin genes, which are key players in dorsal-ventral (DV) patterning. Since all of the multiple twin-tail ornamental goldfish strains share the same mutation, it is reasonable to presume that this mutation occurred only once in domesticated goldfish. However, zebrafish with mutated szl gene (another DV patterning-related gene) also exhibit twin-tail morphology and higher viability than dino/chordin-mutant zebrafish. This observation raises the question of whether the szl gene mutation could also reproduce the twin-tail morphology in goldfish. Here we show that goldfish have at least two subfunctionalized szl genes, designated szlA and szlB, and depletion of these genes in single-fin goldfish was able to reproduce the bifurcated caudal fin found in twin-tail ornamental goldfish. Interestingly, several phenotypes were observed in szlA-depleted fish, while low expressivity of the twin-tail phenotype was observed in szlB-depleted goldfish. Thus, even though szl gene mutations may produce twin-tail goldfish, these szl gene mutations might not be favorable for selection in domestic breeding. These results highlight the uniqueness and rarity of mutations that are able to cause large-scale morphological changes, such as a bifurcated axial skeleton, with high viability and expressivity in natural and domesticated populations.


Assuntos
Evolução Biológica , Carpa Dourada/genética , Mutação , Cauda/anatomia & histologia , Animais , Padronização Corporal/genética , Cruzamento , Carpa Dourada/anatomia & histologia
6.
Sci Rep ; 6: 26838, 2016 05 25.
Artigo em Inglês | MEDLINE | ID: mdl-27220684

RESUMO

Twin-tail goldfish strains are examples of drastic morphological alterations that emerged through domestication. Although this mutation is known to be caused by deficiency of one of two duplicated chordin genes, it is unknown why equivalent mutations have not been observed in other domesticated fish species. Here, we compared the chordin gene morphant phenotypes of single-tail goldfish and common carp (close relatives, both of which underwent chordin gene duplication and domestication). Morpholino-induced knockdown depleted chordin gene expression in both species; however, while knockdown reproduced twin-tail morphology in single-tail goldfish, it had no effect on common carp morphology. This difference can be explained by the observation that expression patterns of the duplicated chordin genes overlap completely in common carp, but are sub-functionalized in goldfish. Our finding implies that goldfish drastic morphological changes might be enhanced by the subsequent occurrence of three different types of evolutionary event (duplication, sub-functionalization, and selection) in a certain order.


Assuntos
Glicoproteínas/genética , Carpa Dourada/genética , Peptídeos e Proteínas de Sinalização Intercelular/genética , Animais , Evolução Biológica , Carpas/embriologia , Carpas/genética , Gástrula/metabolismo , Duplicação Gênica , Regulação da Expressão Gênica no Desenvolvimento/efeitos dos fármacos , Glicoproteínas/fisiologia , Carpa Dourada/anatomia & histologia , Carpa Dourada/embriologia , Hibridização In Situ , Peptídeos e Proteínas de Sinalização Intercelular/fisiologia , Morfolinos/farmacologia , Fenótipo , Filogenia , Especificidade da Espécie , Cauda/embriologia , Cauda/ultraestrutura
7.
Dev Dyn ; 244(12): 1485-518, 2015 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-26316229

RESUMO

BACKGROUND: Artificial selection of postembryonic features is known to have established morphological variation in goldfish (Carassius auratus). Although previous studies have suggested that goldfish and zebrafish are almost directly comparable at the embryonic level, little is known at the postembryonic level. RESULTS: Here, we categorized the postembryonic developmental process in the wild-type goldfish into 11 different stages. We also report certain differences between the postembryonic developmental processes of goldfish and zebrafish, especially in the skeletal systems (scales and median fin skeletons), suggesting that postembryonic development underwent evolutionary divergence in these two teleost species. CONCLUSIONS: Our postembryonic staging system of wild-type goldfish paves the way for careful and appropriate comparison with other teleost species. The staging system will also facilitate comparative ontogenic analyses between wild-type and mutant goldfish strains, allowing us to closely study the relationship between artificial selection and molecular developmental mechanisms in vertebrates.


Assuntos
Nadadeiras de Animais/crescimento & desenvolvimento , Carpa Dourada/crescimento & desenvolvimento , Pele/crescimento & desenvolvimento , Animais , Evolução Biológica , Filogenia , Peixe-Zebra/crescimento & desenvolvimento
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