Molecular and functional analysis of the microphthalmia-associated transcription factor (mitf) gene duplicates in red tilapia

In vertebrates, the microphthalmia-associated transcription factor (mitf) is at the hub of the melanin synthesis regulation network. However, little information is known about its molecular characterization, expression, location, or function in skin color differentiation and variation of red tilapia. The full-length cDNA sequences (1977 bp and 1999 bp) of mitfa and mitfb, encoding polypeptides of 491 and 514 amino acids, were effectively identified from red tilapia in this study. The Mitfa and Mitfb sequences of red tilapia clustered first with O. aureus, then with other teleost fish, according to phylogenetic analysis. Mitfa and mitfb mRNA were highly expressed in the brain, dorsal skin and eye tissues using quantitative real-time PCR. The mRNA expressions of mitfa and mitfb were the highest in the cleavage stage during the early development of red tilapia. Among three different colors of red tilapia, the expression levels of mitfa and mitfb were highest in the PB (pink with scattered black spots) dorsal skin. After overwintering, the mitfa and mitfb mRNA expressions were high in the dorsal skin of P-B (color changed from pink to black). Mitfa and mitfb were mostly found in the epidermal layer of the dorsal skin, according to in situ hybridization (ISH) analysis. After injecting mitf-dsRNA duplicates along the tail vein of red tilapia, the activity of tyrosinase and the level of melanin in the dorsal skin both decreased signifi-cantly. The mRNA expressions of mitfa and its downstream genes (tyrb, tyrp1a and dct) decreased, whereas the mRNA expression of mitfb increased after mitfa-dsRNA injection. The mRNA expressions of mitfb, tyrb, tyrp1a and dct decreased, whereas the mRNA expression of mitfa increased after injecting mitfb-dsRNA. These findings suggest that mitf gene duplicates may play an important role in red tilapia skin color differentiation and variation via the melanogenesis pathway.