Correlated Electrophysiological and Ultrastructural Studies of a Crustacean Motor Unit

doi:10.1085/jgp.59.5.586

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Correlated Electrophysiological and Ultrastructural Studies of a Crustacean Motor Unit

R. G. Sherman ¹ and H. L. Atwood ¹

¹ From the Department of Zoology, University of Toronto, Toronto, Ontario, Canada.

Dr. Sherman's present address is the Department of Biology, Clark University, Worcester, Massachusetts 01610.

Structural and functional interrelationships between the pre-and postsynaptic elements of a singly motor innervated crabmuscle (stretcher of Hyas araneus L.) were examined using electrophysiologicaland electron microscopic techniques. Excitatory postsynapticpotential (EPSP) amplitude at 1 Hz was found to be inverselyrelated to the extent of facilitation, and directly relatedboth to the amount of transmitter released at 1 Hz and the musclefiber input resistance (R_in). The extent of facilitation (F_e),taken as the ratio of the EPSP amplitude at 10 Hz to that 1Hz, was inversely related to muscle fiber R_in, $tau$ _m, and sarcomerelength. Sarcomere length was directly related to R_in and $tau$ _m.The excitatory nerve terminals of low F_e muscle fibers had largerneuromuscular synapses than did those of high F_e fibers. Inhibitoryaxo-axonal synapses were more often found in low F_e muscle fibers.These structural features may account for the greater releaseof transmitter at low frequencies from the low F_e nerve terminalsas well as provide for a greater amount of presynaptic inhibitionof low F_e muscle fibers. The implications of these findingsfor the development and physiological performance of the crustaceanmotor unit are discussed. It is proposed that both nerve andmuscle fiber properties may be determined by the developmentalpattern of nerve growth.

Submitted on August 23, 1971

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