Identification of Pmel17 for golden skin color using linkage mapping in Mozambique tilapia

Abstract

Fish color is an important trait involved in many biological functions and related to commercial value of fish. However, our understanding of the molecular mechanisms underlying color variations in fish species is limited. In this study, we found 12 natural golden mutants in a Mozambique tilapia population. Analysis of the inheritance pattern of the golden and blackish skin colors in nine backcross families revealed that the golden phenotype is a recessive mutant determined by a single locus and follows simple Mendelian inheritance. Using linkage mapping, fine mapping and analyses of gene expressions, we uncovered that the Pmel17 gene was responsible for golden and black skin colors. Further sequence analysis of the gene discovered that an insertion in 3′ UTR of Pmel17 was fully associated with the golden skin color in 1835 tilapias. Expression analysis showed that Pmel17 with the insertion reduced the transcripts of Pmel17. These results indicate that the insertion in 3′ UTR of Pmel17 is responsible for the golden skin color in tilapia. The insertion can be used as a reliable DNA marker to accelerate the breeding for golden color.