The crested duck was a duck breed which features a topknot of feathers on the back of their head. In order to explain the reason of crest, we anatomy the head of some crested ducks. The anatomical structures showed that there was a fat body in the head and a hole in the skull. To determine the reason for the formation of the crest, we used whole genome re-sequencing to detect SNPs and InDels in three crested duck and three normal crested duck (without crest). There were 785,202 unique SNPs and 105,596 unique InDels include in crested duck. There were 14,591 SNPs containing genes and 13,784 InDels continuing genes were mapped on BGI_duck_1.0 by BWA 0.7.16a software. We use KEGG and GO to classification the SNP and InDel containing genes function. The PPI network of SNP containing genes and InDels containing genes was constructed by STRING. The result of PPI and KEGG analysis shown that the formation of crest might include feather development, fatty acid deposition, and skull hypoplasia. To determine the regulated of SNP containing genes and InDels containing genes, which related the different trait, of miRNA we used mirmap to predicted target miRNA of those genes. The miRNA-genes network constructed by Cytoscape. In conclusion, the formation of the crest was a complex process. The fatty acid metabolism block, feather growth and skull hypoplasia might lead crest formation. The tissue expression of four candidate genes showed that they were closely related to the formation of the trait, and could be used as important candidate genes to further elaborate the molecular mechanism of their function.
Keywords: Crested duck; Fat deposition; Gene expression; Skull hypoplasia; Whole genome re-sequence.
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