The Flash-Triggering Action Potential of the Luminescent Dinoflagellate Noctiluca

doi:10.1085/jgp.52.2.258

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The Flash-Triggering Action Potential of the Luminescent Dinoflagellate Noctiluca

Roger Eckert ¹ and Takao Sibaoka ¹

¹ From the Department of Zoology, Syracuse University, Syracuse, New York 13210, and the Marine Biological Laboratory, Woods Hole, Massachusetts 02543.

Dr. Eckert's present address is Department of Zoology, University of California, Los Angeles, California 90024. Dr. Sibaoka was on leave of absence from the Biological Institute, Tohoku University, Sendai, Japan, which is also his present address

The action potential which elicits luminescence in Noctilucais recorded from the flotation vacuole as a transient all-or-nonehyperpolarization in response to either local or general applicationof inward (bath to vacuole) current. Experiments were performedto determine whether the unorthodox polarities of both the stimuluscurrent and the potential response resulted from uncommon bioelectricmechanisms or from special morphological features of this species.The findings all indicate that the action potential belongsto the familiar class of responses which have their origin involtage- and time-dependent selective increases in membranepermeability, and that morphological factors account for theobserved deviations from normal behavior. Both the stimulusand the response have orthodox polarities provided the vacuoleis designated as an "external" extracytoplasmic compartment.Differential recording between vacuole and cytoplasm showedthat the action potential occurs across the vacuolar membrane,with the cytoplasmic potential, which at rest is negative withrespect to the vacuole, overshooting zero and reversing signto become transiently electropositive. The rising phase of theaction potential therefore depends on active current flow throughthe vacuolar membrane from the vacuole into the cytoplasm. Propagationof the action potential over the subspherical cell from thelocus of stimulation is thought to depend largely on the coreconductor properties of the thin perivacuolar shell of cytoplasmwhich is bounded on its inner surface by the excitable membraneand on its outer surface by inexcitable membranes.

Submitted on January 11, 1968

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