Abstract: In the retinas of teleost fish, cone photoreceptors change shape in response to light and circadian signals. They elongate in the dark, contract in the light, and under conditions of constant darkness undergo appropriate movements at expected dusk and dawn. Dopamine induces cones to contract, thus mimicking the effect of light or expected dawn. To identify the receptor subtype responsible for mediating dopamine regulation of cone retinomotor movements, we have carried out pharmacological studies using isolated fragments of teleost cones consisting of cone inner segments-cone outer segments (CIS-COS). Isolated CIS-COS retain the ability to elongate in dark culture and contract when subsequently exposed to light or dopamine. We report that dark-induced elongation of CIS-COS was inhibited by dopamine and its agonists with an effectiveness ranking of dopamine = quinpirole > bromocriptine ⋙SKF-38393. After 60 min of elongation in dark culture, CIS-COS myoids contracted when subsequently cultured in the dark with dopamine or quinpirole. Quinpirole-induced inhibition of elongation and quinpirole-induced contraction were completely blocked by clozapine at 1 µM or by sulpiride at 100 µM. These effectiveness profiles for dopamine agonists and antagonists suggest that dopamine regulation of cone retinomotor movement is mediated by a D₄-like receptor.