Functional Diversification of Vitamin D Receptor Paralogs in Teleost Fish After a Whole Genome Duplication Event

The diversity and success of teleost fishes (Actinopterygii) has been attributed to three successive rounds of whole-genome duplication (WGD). WGDs provide a source of raw genetic material for evolutionary forces to act upon, resulting in the divergence of genes with altered or novel functions. The retention of multiple gene pairs (paralogs) in teleosts provides a unique opportunity to study how genes diversify and evolve after a WGD. This study examines the hypothesis that vitamin D receptor (VDR) paralogs (VDRα and VDRβ) from two distantly related teleost orders have undergone functional divergence subsequent to the teleost-specific WGD. VDRα and VDRβ paralogs were cloned from the Japanese medaka (Beloniformes) and the zebrafish (Cypriniformes). Initial transactivation studies using 1α, 25-dihydroxyvitamin D3 revealed that although VDRα and VDRβ maintain similar ligand potency, the maximum efficacy of VDRβ was significantly attenuated compared with VDRα in both species. Subsequent analyses revealed that...