钙依赖性突触的可塑性
개의뢰성돌촉적가소성
Calcium Dependent Synaptic Plasticity
  • 万方数据
    生理科学进展 생이과학진전
    PROGRESS IN PHYSIOLOGICAL SCIENCES
    2001年 1期 35-38 ,共4页

    窦颖%严进%吴飏飏%崔瑞耀%路长林

    두영%엄진%오양양%최서요%로장림

    细胞内钙离子%突触%可塑性 細胞內鈣離子%突觸%可塑性
    세포내개리자%돌촉%가소성
    突触前和突触后细胞内钙离子([Ca2+]i)在短时程和长时 程突触的可塑性中,发挥着重要的信息传递作用。兴奋后残留[Ca2+]i ,可以 激发短时程突触增强。突触前[Ca2+]i可以影响被抑制的突触前膜囊泡的更新, 并准确编码突触前和突触后信息,产生截然相反的长时程突触修饰(LTP或LTD)。
    돌촉전화돌촉후세포내개리자([Ca2+]i)재단시정화장시 정돌촉적가소성중,발휘착중요적신식전체작용。흥강후잔류[Ca2+]i ,가이 격발단시정돌촉증강。돌촉전[Ca2+]i가이영향피억제적돌촉전막낭포적경신, 병준학편마돌촉전화돌촉후신식,산생절연상반적장시정돌촉수식(LTP혹LTD)。
    Recent work shows that the intracellular free Ca2+ concentrations ([Ca2+]i) of the presynaptic and postsynaptic neurons play crucial signaling roles in short- and lon g-term synaptic plasticit y. Residual [Ca2+]i followed conditioning stimulation may cause short -term synapt ic enhancement. Presynaptic [Ca2+]i could influence the replacing of presynaptic depressed vesicles, as well as encode the precise relative timing of presynaptic input and postsynaptic activity and generate long-term synaptic modification o f opposite polarity(LTP or LTD).
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