Abstract
Single electrode clamp techniques demonstrated diurnal changes in photoreceptor membrane conductance, recorded intracellularly in the intact, dark-adapted retina of the locust Schistocerca gregaria. In the day, locust photoreceptors exhibited the membrane properties of fast cells, as previously defined in rapidly moving diurnal Diptera. Depolarization activated a powerful potassium conductance with two kinetic components, one rapidly activating close to resting potential and the other activating more slowly when further depolarized, giving a pronounced delayed rectification. There was little inactivation. At night, locust photoreceptors resembled slow cells, as defined in weakly flying crepuscular and nocturnal Diptera. Depolarization rapidly activated an outward current which then inactivated over 100 ms to reduce rectification. The change from day to night state was mimicked by applying 10 mM serotonin extracellularly to the retina. We conclude that the potassium conductances of locust photoreceptor membranes are modulated according to a diurnal rhythm, possibly by serotonin. This neuromodulation is used to match photoreceptor membrane properties to photic habitat. Our findings suggest a definite and potentially widespread function for serotonin as a mediator of diurnal changes in the insect visual system.
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Cuttle, M.F., Hevers, W., Laughlin, S.B. et al. Diurnal modulation of photoreceptor potassium conductance in the locust. J Comp Physiol A 176, 307–316 (1995). https://doi.org/10.1007/BF00219056
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DOI: https://doi.org/10.1007/BF00219056