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机译:一氧化氮通过激活小鼠小肠Cajal间质细胞中ATP敏感性K + sup>通道而抑制起搏器电流
Department of Internal Medicine College of Medicine Chosun University Gwangju South Korea;
Department of Internal Medicine College of Medicine Chosun University Gwangju South Korea;
Department of Internal Medicine College of Medicine Chosun University Gwangju South Korea;
Department of Physiology College of Medicine Chosun University 375 Seosuk-Dong Dong-ku Gwangju 501-759 South Korea;
Department of Physiology College of Medicine Chosun University 375 Seosuk-Dong Dong-ku Gwangju 501-759 South Korea;
Department of Physiology College of Medicine Chosun University 375 Seosuk-Dong Dong-ku Gwangju 501-759 South Korea;
Department of Physiology College of Medicine Chosun University 375 Seosuk-Dong Dong-ku Gwangju 501-759 South Korea;
Department of Physiology College of Medicine Chonnam National University Gwangju South Korea;
Department of Physiology College of Medicine Chonnam National University Gwangju South Korea;
Department of Physiology and Biophysics College of Medicine Seoul National University Seoul South Korea;
Department of Physiology and Biophysics College of Medicine Seoul National University Seoul South Korea;
Department of Physiology College of Medicine Chosun University 375 Seosuk-Dong Dong-ku Gwangju 501-759 South Korea;
ATP-sensitive K+ channels; Ca2+i oscillations; Interstitial cells of Cajal; Nitric oxide; Pacemaker activity;
机译:传统草药Ge-Gen-Tang通过一氧化氮/ cGMP依赖性ATP敏感的K +通道抑制小鼠小肠Cajal的间质细胞中的起搏器电位
机译:小ber碱通过刺激小鼠小肠Cajal培养的间质细胞中的mu /δ阿片受体,通过cGMP依赖性ATP敏感的K +通道诱导起搏器电位抑制
机译:小檗碱通过CGMP依赖性ATP敏感K +通道诱导起搏器电位抑制,通过刺激CAJAL的CAJAL的培养间质细胞中的MU / DESTA OPIOD受体来自小鼠小肠
机译:超极化激活的“起搏器电流” - SA节点起搏器细胞模型中的有趣电流
机译:通过细胞移植恢复Cajal间质细胞和起搏器活性。
机译:脱氧胆酸通过激活鼠小肠Cajal间质细胞中前列腺素E2的ATP依赖性K +通道来抑制起搏电流。
机译:槲皮素抑制起搏器电位通过一氧化氮/ cGmp依赖性激活和TRpm7 / aNO1通道培养的小鼠Cajal间质细胞小肠