海兔(Navanax)神经节中的多相突触电位。
Polyphasic synaptic potentials in the ganglion of the mollusc, Navanax.
作者信息
Levitan H, Tauc L
出版信息
J Physiol. 1975 Jun;248(1):35-44. doi: 10.1113/jphysiol.1975.sp010961.
Abstract
- Included in the ensemble of synaptic input received by identified neurones in the ganglion of the marine mollusc Navanax are biphasic synaptic potentials, consisting of a depolarization followed by a hyperpolarization. 2. Both phases are chemically mediated as judged by their susceptibility to a high magnesium medium and neither exhibits depression with repetition. 3. The hyperpolarizing phase has a reversal potential of about -50mV, which varies only with changes in the external chloride concentration. This phase is unaffected by cholinolytics. 4. The depolarizing phase reverses at a more positive potential, is probably the result of a change in sodium conductance and is blocked by hexamethonium and high concentrations of eserine. 5. The biphasic synaptic potentials are therefore similar in many respects to the biphasic response evoked by iontophoretic application of acetylcholine on to these cells, suggesting that the two types of cholinergic receptors previously characterized on these neurones are both functional.
摘要
- 在海洋软体动物纳氏海兔神经节中,已鉴定神经元所接收的突触输入集合中包含双相突触电位,其由去极化后接超极化组成。2. 根据它们对高镁介质的敏感性判断,两个阶段均由化学介导,且重复刺激时均不表现出衰减。3. 超极化阶段的反转电位约为 -50mV,仅随外部氯离子浓度的变化而变化。此阶段不受抗胆碱酯酶药物影响。4. 去极化阶段在更正的电位处反转,可能是钠电导变化的结果,并被六甲铵和高浓度的毒扁豆碱阻断。5. 因此,双相突触电位在许多方面与通过离子电泳向这些细胞施加乙酰胆碱所诱发的双相反应相似,这表明先前在这些神经元上表征的两种胆碱能受体均具有功能。
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A direct synaptic connection mediating both excitation and inhibition.一种介导兴奋和抑制的直接突触连接。
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