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The Journal of Neuroscience logoLink to The Journal of Neuroscience
. 1985 Aug 1;5(8):2212–2224. doi: 10.1523/JNEUROSCI.05-08-02212.1985

Gating properties of acetylcholine receptors at developing rat endplates

S Vicini, SM Schuetze
PMCID: PMC6565290  PMID: 4020435

Abstract

The gating properties of acetylcholine receptors (AChRs) change during the development of rat soleus endplates. During the first 3 weeks after birth, the apparent mean channel open time (tau) decreases severalfold and the single-channel conductance (gamma) increases 50%. To better understand this phenomenon, we used a combination of noise analysis, analysis of miniature endplate currents (MEPCs), and single-channel recordings to quantify the relative levels of fast and slow AChR activity at developing soleus endplates. When the same endplates were studied with both noise analysis and MEPC analysis, results obtained with the two techniques were strongly correlated, but MEPC analysis yielded higher estimates of the relative amount of slow channel activity. Experiments designed to examine the distribution of fast and slow channels gave no evidence for a gradient of either channel type within individual endplates; rather, fast and slow channels appeared to be mixed together. However, the relative amount of fast and slow channel activity did vary markedly among different endplates within individual muscles. In agreement with earlier studies, we found a progressive decrease in the relative amount of slow channel activity during the first 3 weeks after birth. However, our data indicate that this process begins sooner than reported previously and takes longer to complete. Some of the same endplates that were studied physiologically were also examined in the electron microscope to test the hypothesis that changes in AChR gating might be related to ultrastructural changes such as the formation of folds. The physiological and ultrastructural results were essentially uncorrelated.


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