In retina, the retinal ganglion cell is responsible for integrating the signals form the photoreceptor, rod and cone, and sending the signals to the visual cortex to form the vision. There is one special type of retinal ganglion cell expressing photopigment, melanopsin, can detect the light called intrinsically photosensitive retinal ganglion cells (ipRGCs). Although ipRGCs were found only having non-image-forming function at first, such as circadian regulation and pupil light reflex, there are more and more evidences indicating that ipRGCs can modulate image-forming function. However, the mechanism remains unclear. Here, we use mice as the animal model to investigate whether the ipRGCs have the function in image-forming by using the two-alternative forced choices (2AFC) method. We found that it take more days for M1 eliminating mice to learn the task compare to the WT. In addition, M1 eliminating mice have similar spatial frequency threshold and contrast sensitivity function compared to WT. Our result show that 2AFC could be used to evaluate pattern vision in mice