首页> 外文OA文献 >Post-tetanic potentiation at an identified synapse in Aplysia is correlated with a Ca2+-activated K+ current in the presynaptic neuron: evidence for Ca2+ accumulation.

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Post-tetanic potentiation at an identified synapse in Aplysia is correlated with a Ca2+-activated K+ current in the presynaptic neuron: evidence for Ca2+ accumulation.

机译：在海豚中已确定的突触后的强直性增强与突触前神经元中的Ca2 +激活的K +电流相关：Ca2 +积累的证据。

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We have examined the presynaptic changes underlying post-tetanic potentiation (PTP) in Aplysia by using voltage-clamp techniques combined with specific pharmacological blocking agents. The amplitude and time course of PTP parallel a slow outward clamp current that we have identified as a Ca2+-activated K+ current. Because this current is proportional to intracellular Ca2+ concentration our findings provide evidence for the "residual Ca2+ hypothesis," according to which PTP is caused by the accumulation of intracellular Ca2+ after tetanus. To obtain further evidence for this mechanism we injected EGTA intracellularly and found that it decreased the duration of both PTP and the Ca2+ -activated K+ current.

机译：我们已经通过使用电压钳技术与特定的药理学阻断剂相结合，检查了海床中强直后增强（PTP）后突触前的变化。 PTP的幅度和时间过程与缓慢的向外钳位电流平行，我们已将其识别为Ca2 +激活的K +电流。因为此电流与细胞内Ca2 +浓度成正比，所以我们的发现为“残留Ca2 +假说”提供了证据，根据该假说，PTP是由破伤风后细胞内Ca2 +的积累引起的。为了获得该机制的进一步证据，我们向细胞内注射了EGTA，发现它减少了PTP和Ca2 +激活的K +电流的持续时间。

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Kretz, R; Shapiro, E; Kandel, E R;
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年度 1982
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1. Presynaptic and postsynaptic mechanisms of a novel form of homosynaptic potentiation at aplysia sensory-motor neuron synapses. [J] . Jin I, Hawkins RD The Journal of Neuroscience: The Official Journal of the Society for Neuroscience . 2003,第19期

机译：突触前和突触后机制的新形式的在突触感觉运动神经元突触的同态突触增强。
2. Prolonged activation of Ca2+-activated K+ current contributes to the long-lasting refractory period of Aplysia bag cell neurons. [J] . Zhang Y, Magoski NS, Kaczmarek LK The Journal of Neuroscience: The Official Journal of the Society for Neuroscience . 2002,第23期

机译：Ca2 +激活的K +电流的延长激活有助于Aplysia袋细胞神经元的持久不应期。
3. Augmenting effect of serotonin on the voltage-dependent Ca2+ current and subsequently activated K+ current in Aplysia neurons. [J] . Kawasaki S, Kimura S, Watanabe S, The Tohoku Journal of Experimental Medicine . 2007,第1期

机译：5-羟色胺对海鸟神经元中电压依赖性Ca2 +电流和随后激活的K +电流的增强作用。
4. Post-tetanic potentiation at an identified synapse in Aplysia is correlated with a Ca2+-activated K+ current in the presynaptic neuron: evidence for Ca2+ accumulation. [O] . R Kretz, E Shapiro, E R Kandel 1982

机译：在海豚中已确定的突触后的强直性增强与突触前神经元中的Ca2 +激活的K +电流相关：Ca2 +积累的证据。
5. Presynaptic membrane potential affects transmitter release in an identified neuron in Aplysia by modulating the Ca2+ and K+ currents [O] . Shapiro, Eli, Castellucci, Vincent F., Kandel, Eric R. 1980

机译：突触前膜电位通过调节Ca2 +和K +电流影响海螯虾中确定的神经元中的递质释放
6. Evidence for Identified Dopamine Motor Neurons to the Gill of Aplysia. [R] . Swann, J. W., Sinback, C. N., Carpenter, D. O. 1978

机译：鉴定多巴胺运动神经元对海兔鳃的证据。

Post-tetanic potentiation at an identified synapse in Aplysia is correlated with a Ca2+-activated K+ current in the presynaptic neuron: evidence for Ca2+ accumulation.

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