Electrical properties and transmitter output associated with growth and transformation in shrimp muscle fibers

Summary Comparisons were made of the passive electrical properties of closer muscle fibers in the dimorphic claws of snapping shrimp,Alpheus armillatus. During claw transformation the small fibers of pincer claws grow to become much larger snapper claw fibers. As muscle fibers grow, the relationship of fiber input resistance (R ₀) to fiber diameter (d) is predicted by the proportionality,R ₀d ^–3/2. Muscle fiber membrane resistance,R _m, is independent of fiber diameter, but membrane capacitance,C _m, grows with diameter. This results in a 40 to 50 fold reduction in fiber input impedance as fiber diameter enlarges during transformation. Reductions of muscle fiber impedance are partially compensated by 2–5 fold increases in quantal content at excitatory synapses on snapper muscle fibers. However, changes in quantal content during transformation apparently are independent of fiber diameter per se. Excitatory junction potentials in both pincer and snapper muscle fibers have equal amplitude. Because fiber input impedance decreases precipitously during transformation, and in view of the relatively small compensatory changes in quantal content at excitatory synapses, additional pre- or post-synaptic modifications must supplement increased quantal content to maintain synaptic efficacy in transformed muscle fibers.Abbreviations ejp excitatory junctional potential - epp endplate potential - mepp miniature endplate potential