抑制性突触 meaning in Chinese
inhibitory synapse
Examples
- Inhibitory postsynaptic potential
抑制性突触后电位 - Both the fast excitatory postsyanptic postentials ( fepsps ) and fast inhibitory postsynaptic potentials ( flpsps ) elicited by the electrical stimulation of inputs to the ca1 neurons temporally overlap in the neuron
由电刺激ca1锥体神经元的传入纤维而引起的快兴奋性突触后电位( fastexcitatorypostsynapticpotentials , fepsps )和快抑制性突触后电位( fastinhibitorypostsynapticpotentials , fipsps )在时间上重叠。 - General principles for activities of nervous ; synapse and synaptic transmission ; the basic process of classical synaptic transmission ; postsynaptic potential : excitatory postsynaptic potential and inhibitory postsynaptic potential ; the conception of transmitter and receptor : mostly transmitter and receptor system ; reflex and reflex arc ; the characters of central excitatory transmission , central inhibition ; the motor unit of skeleton muscle ; stretch reflex ; the function of autonomic nervous system and their chemistry transmission
神经元活动的一般规律;突触与突触传递;经典突触传递的基本过程;突触后电位:兴奋性突触后电位,抑制性突触后电位;递质和受体的概念:主要的递质和受体系统;反射与反射弧;中枢兴奋的传播特征,中枢抑制;骨骼肌的运动单位;牵张反射;自主神经系统的功能及其化学传递。 - When examined using some inhibitors with respect to orll receptor , the nociceptin - induced current was depressed in amplitude by nocistatin ( a putative nociceptive precursor product ) and also by compb ( a non - peptidyl orll receptor antagonist ) to a different extent without a change in holding currents of sg neurons
Noosoo h口对传向脊髓背角sg神经元的兴奋性和抑制性突触传递的影响在i己录电极内液中加入gdp书s 、艳离子和tea (主要用于阻断突触后的g蛋白和钾通道的作用)的状况下, nociceptin诱致的外向电流可以完全被阻断。 - There was much evidence showing that substantia gelatinosa ( sg ) of the spinal dorsal horn plays an important role in nociceptive information transmission from the periphery to central nervous system . thus , the present study firstly investigated the effect of nociceptin on membrane current of spinal dorsal hom substantia gelatinosa ( sg ) neurons by use of the whole - cell patch - clamp technique
故滩究首先应用脊髓薄片膜片钳全细胞记录技术观察了在电压钳制下孤啡肽受体的内源性配体nociceptin对脊髓背角sg神经元膜电流的影响作用以及其对脊髓背角兴奋性和抑制性突触传递的作用,其次观察了nand