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电压门控钠离子通道:律动生命乐章的主音符: 2011年; 生命个体传递神经冲动时扩布的电位变化过程以动作电位发放形式为特质表征.电压门控钠离子通道(voltage-gated sodium channels,VGSCs)是形成动作电位的核心蛋白构件,在细胞的电兴奋产生和律动中起主角作用.VGSCs决定神经元细胞的兴奋性以及从突触输入到轴突输出的信号传导过程.VGSCs也是众多外源性天然或人工合成化学产物作用的靶器.大多数临床抗癫药和局麻药、杀虫剂、天然生物神经毒素等均以阻断或调制靶通道对离子的通透性,以及通道的门控动力学性质的方式异化通道结构与功能的平衡,导致临床病理事件的产生或生理机能的缓解与恢复.从内源和外源两个方向略览VGSCs,即赋予生命乐章主音符涵义的生理与病理功能地位及其靶向药理学与毒理学身价.; 刘志睿何慧琼吉永华; 关键词：动作电位电压门控钠离子通道神经毒素

电压门控钠离子通道位点3/4调制剂的药理分子机制解析: 电压门控钠离子通道(VGSC)对于动作电位在电兴奋细胞中的产生和发放起着关键作用。作为具有保守结构和重要功能的膜蛋白分子，VGSC在漫长的生物进化中逐渐成为神经毒素、杀虫剂和局麻药等众多外源调制剂作用的靶受体。这些调制剂...; 何慧琼; 关键词：受体位点蝎毒素药理效应分子机制

Deglycosylation altered the gating properties of rNav1.3:glycosylation/deglycosylation homeostasis probably complicates the functional regulation of voltage-gated sodium channel: 2008年; Objective To examine the effect of deglycosylation on gating properties of rNav1.3. Methods rNav1.3 was expressed in Xenopus oocyte, with glycosylation inhibition by using tunicamycin. Two-electrode voltage clamp was employed to record the whole-cell sodium current and data were analyzed by Origin software. Those of glycosylated rNav1.3 were kept as control. Results Compared with glycosylated ones, the steady-state activation curve of deglycosylated rNav1.3 was positively shifted by about 10 mV, while inactivation curve was negatively shifted by about 8 mV. Conclusion Glycosylation altered the gating properties of rNav 1.3 and contributed to the functional diversity.; 徐清程慧雯何慧琼刘志睿贺明杨宏天周智磊吉永华; 关键词：GLYCOSYLATION

东亚钳蝎蝎毒组分martentoxin作为α+β4型BK通道配体的研究: ＜正＞由α和β4亚基组成的大电导Ca2+激活的K+通道（BK通道）是一种Charybdotoxin 和Iberiotoxin均高度不敏感的BK通道亚型,呈组织特异性的表达于脑组织中。通过 Patch-Clamp技术,我们...; 施健何慧琼陈谨陈莺吉永华

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