Quantal Release at Visualized Terminals of a Crayfish Motor Axon: Intraterminal and Regional DifferencesJournal of Comparative Neurology (1996)
AbstractSynaptic transmission was measured at visualized terminal varicosities of the motor axon providing the sole excitatory innervation of the “opener” muscle in walking legs of crayfish (Procambarus clarkii Girard). Two questions were addressed: 1) How uniform is quantal emission at different locations along terminals innervating a single muscle fiber, and 2) can differences in quantal emission account for the different excitatory postsynaptic potential (EPSP) amplitudes generated by terminals localized in defined regions of the muscle? Extracellular “macropatch” electrodes were placed over individual varicosities, viewed after brief exposure to a fluorescent dye, and synaptic currents were recorded to determine quantal content of transmission. Along terminals supplying a single muscle fiber, nonuniform release was found: Varicosities closer to the point of origin of the terminal branch released more transmitter than those located more distally. Quantal content was higher for varicosities of the muscle's proximal region (where large EPSPs occur) than for varicosities of the central region (where small EPSPs occur). The probability of transmitter release per synapse is estimated to be greater for the proximal varicosities. At low frequencies of stimulation, quantal content per muscle fiber is two to four times larger in the proximal region. Taken in conjunction with a twofold higher mean input resistance for the proximal muscle fibers, the difference in quantal content can account for a four- to eightfold difference in EPSP amplitude. The observed mean EPSP amplitude is at least eight times larger in the proximal region. We discuss factors contributing to differences in EPSP amplitudes.
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Publication DateNovember 25, 1996
Citation InformationRobin L Cooper, C. C. Harrington, L. Marin and H. L. Atwood. "Quantal Release at Visualized Terminals of a Crayfish Motor Axon: Intraterminal and Regional Differences" Journal of Comparative Neurology Vol. 375 Iss. 4 (1996)
Available at: http://works.bepress.com/robin_cooper/63/