Spectral tuning is an evolutionary adaptation by changing structures of opsins in photorecptor cells. In addition to the adaptation to different optical environments, it also plays a critical role in sexual selection to choose mates with optimal fitness. Takydromus lizards in eastern Asia have evolved multiple mate-choice patterns, involving species with and without sexual dichromatism in the same clade. I deduced that the color variation among Takydromus species may associate to their visual sensitivity. The first part of my study aimed to clone the four classes of cone opsin for the full-length expressed cDNA from retinas of chosen Takydromus species with different dichromatic patterns. All species express 4 opsins that are sensitive to ultraviolet, blue, green and red light wavelength. However, no mutation was detected at any tuning site among species. Therefore, in the second part, I evaluated the relative expression of cone opsins in breeding and nonbreeding seasons from male, female and juvenile T. viridipunctatus, whose males display prominent nuptial coloration along the body side during the breeding seasons. Our results suggest that males possess increased proportion of Rh2 and decreased LWS expression during the breeding seasons; while females show the reversed pattern. Same expression pattern can be found comparing male lizards with artificial testosterone treatment to those without in the breeding seasons. Integrated with predicted spectral sensitivity and nuptial color reflectance, seasonal modification of opsin gene expression has a close link to sex hormone, which can enhance visual sensitivity toward greenish nuptial coloration in males. Females, on the other hand, do not directly raise color discrimination ability or greenish light sensitivity, however, they adjust achromatic sensitivity toward brightness and possibly benefit in mate choice.