生物电性突触多见于无脊椎动物或低等脊椎动物,其传递讯息快于化学性突触。
Electric synapses are found mainly in invertebrates and lower vertebrates; they transmit messages faster than chemical synapses.
对电刺激其感受野的反应具有单突触性、低阈值和传导快等特征;
Their responses to electrical stimulation, of receptive fields were characterized by monosynaptic linleage, low threshold and fastness in condition velocity.
结论光学记录膜电位方法可以在神经细胞群的水平上直观观察VN神经电活动的时空二维方式及其兴奋性突触传递过程;
Conclusion The study indicated that the use of optical recording for revealing visually the synaptic transmission of afferent input in VN in brainstem was feasible.
已有的电生理学实验已经表明,褪黑素可以调节海马神经元的兴奋性和突触可塑性。
Previous electrophysiological experiments have revealed that melatonin modulates hippocampal neuronal excitability and plasticity.
已有的电生理学实验已经表明,褪黑素可以调节海马神经元的兴奋性和突触可塑性。
Previous electrophysiological experiments have revealed that melatonin modulates hippocampal neuronal excitability and plasticity.
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