An intrinsic oscillator, using dopamine and melatonin as antagonist signals, controls rhythmic events in the retina of nonmammals. The purpose of the present work was to localize and characterize a dopamine receptor responsible for the nocturnal inhibition of melatonin synthesis in photoreceptor cells in a mammalian retina. An antibody against the D2 receptor stained photoreceptor cell inner segments of the rat retina. alpha-Methyl-p-tyrosine, a competitive inhibitor of tyrosine hydroxylase, enhanced the nocturnal content of melatonin, suggesting the dopamine control of melatonin synthesis as in non-mammals. Clozapine, a D2c/D4 antagonist, also enhanced the nocturnal level of melatonin, whereas raclopride, a D2A antagonist, did not. Taken together, these results support the control of melatonin levels by dopamine through a D2C/D4 receptor in photoreceptor cells of the rat retina. The presence of D4 receptors in the rat retina was confirmed by reverse transcription-PCR.