The ventral photoreceptor cells of Limulus. II. The basic photoresponse

• Published in: The Journal of general physiology Vol. 54; no. 3; pp. 310 - 330
• Main Authors: Millecchia, R, Mauro, A
• Format: Journal Article
• Language: English
• Published: United States 01.09.1969
• Subjects: Animals; Calcium - pharmacology; Crustacea; Dark Adaptation; Electrophysiology; Light; Membrane Potentials - drug effects; Neurons - physiology; Ocular Physiological Phenomena; Potassium - pharmacology; Seawater; Sensory Receptor Cells - physiology; Sodium - pharmacology; Vision, Ocular
• ISSN: 0022-1295
• DOI: 10.1085/jgp.54.3.310

The ventral photoreceptors of Limulus polyphemus are unipolar cells with large, ellipsoidal somas located long both "lateral olfactory nerves." As a consequence of their size and location, the cells are easily impaled with microelectrodes. The cells have an average resting potential of -48 mv. The resting potential is a function of the external concentration of K. When the cell is illuminated, it gives rise to the typical "receptor potential" seen in most invertebrate photoreceptors which consists of a transient phase followed by a maintained phase of depolarization. The amplitude of the transient phase depends on both the state of adaptation of the cell and the intensity of the illumination, while the amplitude of the maintained phase depends only on the intensity of the illumination. The over-all size of the receptor potential depends on the external concentration of Na, e.g. in sodium-free seawater the receptor potential is markedly reduced, but not abolished. On the other hand lowering the Ca concentration produces a marked enhancement of both components of the response, but predominantly of the steady-state component. Slow potential fluctuations are seen in the dark-adapted cell when it is illuminated with a low intensity light. A spike-like regenerative process can be evoked by either the receptor potential or a current applied via a microelectrode. No evidence of impulse activity has been found in the axons of these cells. The ventral photoreceptor cell has many properties in common with a variety of retinular cells and therefore should serve as a convenient model of the primary receptor cell in many invertebrate eyes.