The Insertion in the 3′ UTR of Pmel17 Is the Causal Variant for Golden Skin Color in Tilapia

Understanding of the relationships between genotypes and phenotypes is a central problem in biology. Although teleosts have colorful phenotypes, not much is known about their underlying mechanisms. Our previous study showed that golden skin color in Mozambique tilapia was mapped in the major locus containing the Pmel gene, and an insertion in 3 ' UTR of Pmel17 was fully correlated with the golden color. However, the molecular mechanism of how Pmel17 determines the golden skin color is unknown. In this study, knockout of Pmel17 with CRISPR/Cas9 in blackish tilapias resulted in golden coloration, and rescue of Pmel17 in golden tilapias recovered the wild-type blackish color, indicating that Pmel17 is the gene determining the golden and blackish color. Functional analysis in vitro showed that the insertion in the 3 ' UTR of Pmel17 reduced the transcripts of Pmel17. Our data supplies more evidence to support that Pmel17 is the gene for blackish and golden colors, and highlights that the insertion in the 3 ' UTR of Pmel17 is the causative mutation for the golden coloration.

Automated summary

Understanding the relationship between genotypes and phenotypes is a key problem in biology. This study demonstrates that the Pmel17 gene is responsible for determining blackish and golden colors in fish, and identifies an insertion in the 3'UTR of Pmel17 as the causative mutation for golden coloration.