突觸興奮 的英文怎麼說
中文拼音 [tūchùxīngfèn]
突觸興奮
英文
synaptic excitation-
Late slow excitatory postsynaptic potential
遲慢興奮性突觸后電位Epsp excitatory post - synaptic potential
興奮性突觸后電位Study on neural excitatory transmission by wavelet entropy analysis of postsynaptic potentials
中樞興奮性傳遞的突觸后電位小波熵分析研究It consists of fusiform neurons with intensely expressed neuropeptides in the fibers, terminals, and neuronal somata. functional connections between the mrd and hippocampus, amygdala and the basal nucleus of meynert were identified by c - fos expression method [ 14 ]
Nmdar在谷氨酸中樞神經系統的許多功能上具有關鍵作用, nmda受體激活后可引起神經元細胞膜對na + 、 k +和ca2 +通透性增強,產生興奮性突觸后電位。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口對傳向脊髓背角sg神經元的興奮性和抑制性突觸傳遞的影響在i己錄電極內液中加入gdp書s 、艷離子和tea (主要用於阻斷突觸后的g蛋白和鉀通道的作用)的狀況下, nociceptin誘致的外向電流可以完全被阻斷。Includes the structure and biophysical properties of excitable cells, synaptic transmission, neurochemistry, neurodevelopment, and integration of information in simple systems and the visual system
其中包括易興奮細胞的結構與生物物理性質、突觸傳遞、神經化學、神經發育以及簡單系統與視覺系統資訊的整合。Subject covers all major areas of cellular and molecular neurobiology including excitable cells and membranes, ion channels and receptors, synaptic transmission, cell type determination, axon guidance and targeting, neuronal cell biology, synapse formation and plasticity
本學科涵蓋了細胞分子神經生物學的所有主要領域,包括興奮細胞和細胞膜、離子通道和受體、突觸傳遞、細胞類型決定、軸突導向和定位、神經元細胞生物學、突觸形成和可塑性。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
故灘究首先應用脊髓薄片膜片鉗全細胞記錄技術觀察了在電壓鉗制下孤啡肽受體的內源性配體nociceptin對脊髓背角sg神經元膜電流的影響作用以及其對脊髓背角興奮性和抑制性突觸傳遞的作用,其次觀察了nandBombesin - mediated non - cholinergic late slow excitatory postsynaptic potentials in guinea pig inferior mesenteric ganglion in vitro
鈴蟾肽介導的豚鼠腸系膜下神經節非膽堿能遲慢興奮性突觸后電位The inhibitory rate was 18 ? 4 % by nocistatin ( 1 nm ; n = 6 ) and 64 ? 10 % by compb ( 1 um ; n = 7 )
在鉗制電壓為刁0mv的狀況下; nociceptin可以明顯地抑制刺激as纖維和c纖維誘發的單突觸的興奮。Secondly, we examined the actions of nociceptin on excitatory and inhibitory synaptic transmission to sg neurons. we finally observed the effect of anandamide on membrane current of sg neurons and on excitatory synaptic transmission to sg neurons. the comparison of anandamide and capsaicin actions was also analyzed
De對脊髓背角sg神經元膜電流的影響作用以及其對脊髓背角興奮性突觸傳遞的作用並將其作用與capsaicin進行了比較研究。A change in functional properties of the nmda receptors has been invoked as a potential mechanism contributing to the loss of synaptic plasticity during brain maturation. from this, it is important to well understand the structural and functional diversity of nmda receptors in relation to nmda receptor subunit composition and spatial distribution at excitatory synaptic sites during development
近幾年來,在哺乳動物中樞神經系統中,對離子型谷氨酸受體如何定位到興浙江大學醫學院碩士論文nrzb亞單位的c末端胞內區影響n協da受體裝配、運鈞以及表面表達的分子機制奮性突觸的研究有了長足的發展。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
神經元活動的一般規律;突觸與突觸傳遞;經典突觸傳遞的基本過程;突觸后電位:興奮性突觸后電位,抑制性突觸后電位;遞質和受體的概念:主要的遞質和受體系統;反射與反射弧;中樞興奮的傳播特徵,中樞抑制;骨骼肌的運動單位;牽張反射;自主神經系統的功能及其化學傳遞。Accumulating evidence indicates that nmda receptors are involved in many complex physiological and neuropathological mechanisms, such as neuronal developmental plasticity, long - term potentiation ( ltp ), learning and memory, excitotoxicity and neurodegenerative diseases etc. three gene families that encode nmda receptor subunits have been identified : nr1, nr2a - d, and nr3 subunit
已知nmda受體與許多復雜的生理和病理機制有關,如突觸的可塑性、長時程增強作用( ltp ) 、學習和記憶、興奮性神經毒性、神經退行性變性疾病等。已克隆到3個編碼nmda受體亞單位蛋白的基因家族,即nr1 、 nr2和nr3 。The results on the generation of the polysynaptic second component suggest that the recurrent excitatory inputs are therefore better developed in the cas region than in the ca1 region of the rats pll - 21
上述多突觸第二種成分產生的實驗結果提示,在生后1121天的大鼠,回返性興奮性傳入在ca3區的發育要多於ca區。The concomitant application of dl - 2 - amino - 5 - phosphonopentanoic acid ( aps, 100 jim ) with bicuculline did not eliminate the polysynaptic second component, but the second component was only elicited in slices in which the ca3 region was kept intact. moreover, the bicuculline - and ap5 - resistant second component was due to the burst activity of ca3 pyramidal neurons, which were antidromically excited by the stimulation of the schaffer collaterals
在生后1121天,神經元的快興奮性突觸后電流( fstexcitatorypostsynapticcllntntsfepscs )出現了典型的多突觸第二種成分,同時給予nmda受體阻斷劑aps不能消除此多突觸第二種成分,但其只有在ca3區保持完整的腦片上才可被引出。The results showed that : ? apsaicin could significantly increase the frequency of miniature excitatory postsynaptic currents ( mepscs ), in another word, capsaicin could enhance the excitatory neurotransmitter release from primary afferent terminals. this is coincidence with the results of our previous studies
第四軍醫大學碩士學位論文結果表明: coys能顯著增加所記錄的微小興奮性突觸后電流( miniatureexcitatorypostsympticcurrents , inepscs )的頻率,即增強了初級傳入終末釋放興奮性神經遞質,這與我們以往的研究結果一致。In the thesis, a functional software was developed for auto - analyzing the field evoked potential, which can automatically measure the time domain parameters such as the amplitude area latency of population spikes, the slope of excitatory postsynaptic potential and so on, it also can make the frequency - domain analysis
它可以自動、快速地測出海馬誘發場電位的時域參數,如:群體峰電位( populationspikes , ps )的幅度、面積、潛伏期以及興奮性突觸后電位( excitatorypostsynapticpotentials , epsp )的斜率等,同時也可以對信號進行頻域分析和處理。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
由電刺激ca1錐體神經元的傳入纖維而引起的快興奮性突觸后電位( fastexcitatorypostsynapticpotentials , fepsps )和快抑制性突觸后電位( fastinhibitorypostsynapticpotentials , fipsps )在時間上重疊。分享友人