...μM甘氨酸激活了甘氨酸受体抑制了GABAergic神经传递(Miniature Inhibitory Postsynaptic Currents,mIPSCs),GABAergic神经传递的幅度和频率都被部分或完全的抑制了。
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...50μM甘氨酸激活了甘氨酸受体完全抑制了下丘神经元上GABAergic神经传递(Spontaneous Inhibitory Postsynaptic Currents,sIPSCs)。
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...胞外应用50μM甘氨酸激活了甘氨酸受体完全抑制了下丘神经元上GABAergic神经传递(Spontaneous Inhibitory Postsynaptic Currents,sIPSCs)。
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胞外应用30μM甘氨酸激活了甘氨酸受体抑制了GABAergic神经传递(Miniature Inhibitory Postsynaptic Currents,mIPSCs),GABAergic神经传递的幅度和频率都被部分或完全的抑制了。
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神经传递系统 nervous transferring system
神经传递介质 neurotransmitter
神经传递物质释放 neurotransmitter release
倒传递神经网络 Back propagation network
反向传递神经网络 Back Propagation Neural Network
传递神经元 relay cell
倒传递神经网路 Back propagation Neural Network
传递神经网路 Ba c k- Pr o pa g a t i o n Ne t wo r ks ; BPN
神经递质传递 neurotransmitter transmission
It even plays an important roles in pulmonary hypertension,ischemia/reperfusion injury,neurotransmission,apoptosis and inflammatory reaction.
H2S在肺动脉高压、缺血再灌注损伤、神经传递、凋亡及炎症反应中发挥了重要的作用。
参考来源 - 气体信号分子硫化氢与疾病Several roles have been described for NO in animals, where it takes part in neurotransmission, vasorelaxation, smooth muscle relaxation, and immunoregulation of pathophysiological processes.
在哺乳动物中,已证明一氧化氮参与了神经传递、血管舒张、平滑肌松弛等过程。
参考来源 - 一氧化氮在绿豆下胚轴不定根发生过程中的作用研究·2,447,543篇论文数据,部分数据来源于NoteExpress
神经传递素与你的意识紧紧相关。
可能早期的大脑研究者认为神经传递信号也需要时间。
Perhaps, the early brain investigators considered, it took time for nerves to send signals too.
神经传递素并非个人基因形式转化为行动的唯一途径。
Neurotransmitters are not the only way an individual’s genetic make-up is translated into action.
So, that process happens fast but you also need this neurotransmitter release and activation to happen fast so that you can have rapid activity.
所以 电传递过程很快,但你仍需要神经递质的,快速释放和快速激活,以便使你快速活跃起来
And then if you get a certain number, plus 60 or something, the neuron will fire and it fires along the axon, the thing to the right.
如果达到了一定的数量,比如超过60之类的,神经元便会产生神经冲动,神经冲动沿轴突传递,右边的是轴突
Many neurotransmitters that carry signals between neurons in your brain work this way.
在脑部神经元细胞中,传递信号的神经递质分子的,作用原理就是如此
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