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Title: | Molecular characterization and mapping of Fgf21 gene in a foodfish species Asian seabass | Authors: | Wang L. Xia J.H. Liu X.J. Liu P. Wan Z.Y. Yue G.H. |
Keywords: | fibroblast growth factor 21 messenger RNA acute phase response amino acid analysis amino acid sequence article Asian seabass controlled study DNA sequence down regulation energy balance fish genetics food intake gene expression profiling gene identification gene mapping gene structure genotype glucose metabolism human intestine kidney Lates calcarifer lipid metabolism nonhuman open reading frame Perciformes protein function quantitative trait locus quantitative trait locus mapping real time polymerase chain reaction sequence alignment single nucleotide polymorphism tissue distribution Amino Acid Sequence Animals Bass Chromosome Mapping Feeding Behavior Fibroblast Growth Factors Gene Expression Genetic Linkage Genotype Humans Molecular Sequence Data Organ Specificity Phylogeny Polymorphism, Single Nucleotide Quantitative Trait Loci Recombinant Proteins Sequence Alignment Sequence Analysis, DNA |
Issue Date: | 2014 | Publisher: | Public Library of Science | Citation: | Wang L., Xia J.H., Liu X.J., Liu P., Wan Z.Y., Yue G.H. (2014). Molecular characterization and mapping of Fgf21 gene in a foodfish species Asian seabass. PLoS ONE 9 (2) : e90172. ScholarBank@NUS Repository. https://doi.org/10.1371/journal.pone.0090172 | Abstract: | Fgf21 is a newly discovered fibroblast growth factor. It is typically induced by fasting and plays important roles in the regulation of glucose and lipid metabolisms and energy balance in mammals, whereas potential functions of this gene in teleosts are still unknown. We identified the Fgf21 gene and studied its functions in Asian seabass (Lates calcarifer). The cDNA of the Fgf21 encoded a protein with 206 amino acids. Analysis of DNA and amino acid sequences of Fgf21 genes revealed that the sequences and structure of the Fgf21 genes were highly conserved in vertebrates. Real-time PCR revealed that Fgf21 was exclusively expressed in the intestine and kidney, which was different from the expression profiles of mammals. Fgf21 was down-regulated under fasting, whereas it was significantly increased during the LPS challenge. Exogenous recombinant FGF21 significantly suppressed the appetite of Asian seabass. Our data suggest that Fgf21 plays a role in energy regulation and acute phase response in Asian seabass, and may have different functions in fish and mammals. In addition, we identified one SNP in Fgf21. By using this SNP, the gene was mapped on the linkage group 23, where a suggestive QTL for growth was mapped previously. Association mapping identified significant associations between Fgf21 genotypes at the SNP and growth traits. These results not only provide important information of the functions of Fgf21, but also suggest that the SNP in this gene can be used as a marker in selecting fast-growing individuals of Asian seabass. © 2014 Wang et al. | Source Title: | PLoS ONE | URI: | https://scholarbank.nus.edu.sg/handle/10635/165957 | ISSN: | 19326203 | DOI: | 10.1371/journal.pone.0090172 |
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