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机译:通过Transjunction-电压键入Connexin通道:打开和封闭状态的构象和模型
Dominic P. Purpura Department of Neuroscience Albert Einstein College of Medicine Bronx NY 10461;
Department of Physiology College of Medicine Dankook University;
Dominic P. Purpura Department of Neuroscience Albert Einstein College of Medicine Bronx NY 10461;
Dominic P. Purpura Department of Neuroscience Albert Einstein College of Medicine Bronx NY 10461;
Department of Chemistry Brooklyn College;
Dominic P. Purpura Department of Neuroscience Albert Einstein College of Medicine Bronx NY 10461;
connexin; voltage-gating; molecular dynamics; metal bridging; homology models; electrophysiology;
机译:通过Transjunction-电压键入Connexin通道:打开和封闭状态的构象和模型
机译:电压门控和其他K〜+通道跨膜区域在开放,闭合和灭活构象中的结构模型
机译:模拟GABAA离子通道的关闭和打开状态构象-通道门控的合理结构见解
机译:基于物理的,闭合形式的DC模型,用于包含三维效应的轻掺杂短沟道三栅极MOSFET
机译:连接蛋白46半通道揭示了连接蛋白门控和通透性的机制。
机译:连接蛋白通道的跨结电压门控:开态和闭态的结构和模型
机译:第一个胞外域中的残基在跨结电压依赖性门控和Cx50间隙连接通道的单位通道电导中起重要作用
机译:共敏离子通道门控和明渠构象转变的分子探针