The temperature dependence of the time course of growth and decay of miniature end-plate currents in carp extraocular muscle following thermal acclimation Available to Purchase

The effect of temperature (5–35°C) on the decay and growth phases of miniature end-plate currents (MEPCs) was investigated in extraocular muscle from freshwater carp acclimated to either high (28°C) or low (8°C) temperature.

The temperature dependence of the time constant of decay (T_D) ^was found to follow an Arrhenius relationship; the relationship between logT_D and reciprocal of absolute temperature (1/K) being linear in both groups. The T_D of MEPCs recorded from cold-acclimated carp was not statistically significant from that of the warm group.

T_D was moderately temperature-dependent. Regression gave a Q₁₀ of 1·78 for the warm-acclimated carp, corresponding to an activation energy, E_a, of 41·15 ± 2·17 kJ mol⁻¹. For the cold-acclimated carp, the Q₁₀ was 1·79, and E_a was 41·43 ±2·46 kJ mol⁻¹.

Growth time (T_G) was less susceptible than T_D to temperature change. The relationship between growth time (taken as the time for MEPCs to rise from 20 to 80% of maximum) and temperature was linear for the cold-acclimated group, with a Q₁₀ of 1·34 and E_a of 20·94 ± 4·75 kJ mol⁻¹. The data for the warm group were, in contrast, best fitted by two linear regressions meeting at 15·1°C. At temperatures below 15·1°C Q₁₀ was 3·16 and E_a was 82·20 ± 15·47 kJ mol⁻¹; above 15 °C, Q₁₀ was 1·22 and E_a was 14·15 ± 12·24 kJ mol⁻¹.

The acetylcholinesterase inhibitor neostigmine increased T_D by approximately twofold and raised T_G to approximately 1·4 times control values. These effects were observed across the temperature range scanned for both groups.

The results are discussed with reference to the documented effects of temperature and temperature acclimation on membrane lipids and proteins.