Bacterial Voltage-Gated Sodium Channels (BacNa(V)s) from the Soil, Sea, and Salt Lakes Enlighten Molecular Mechanisms of Electrical Signaling and Pharmacology in the Brain and Heart

Payandeh Jian; Minor Daniel L. Jr.

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Bacterial Voltage-Gated Sodium Channels (BacNa(V)s) from the Soil, Sea, and Salt Lakes Enlighten Molecular Mechanisms of Electrical Signaling and Pharmacology in the Brain and Heart

机译：来自土壤，海洋和盐湖的细菌电压门控钠通道（BacNa（V）s）启发了脑和心脏中电信号传导和药理学的分子机制

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Voltage-gated sodium channels (Na(V)s) provide the initial electrical signal that drives action potential generation in many excitable cells of the brain, heart, and nervous system. For more than 60 years, functional studies of Nays have occupied a central place in physiological and biophysical investigation of the molecular basis of excitability. Recently, structural studies of members of a large family of bacterial voltage-gated sodium channels (BacNa(V)s) prevalent in soil, marine, and salt lake environments that bear many of the core features of eukaryotic Nays have reframed ideas for voltage-gated channel function, ion selectivity, and pharmacology. Here, we analyze the recent advances, unanswered questions, and potential of BacNa(V)s as templates for drug development efforts. (C) 2014 The Authors. Published by Elsevier Ltd.

机译：电压门控钠通道（Na（V）s）提供初始电信号，该信号驱动大脑，心脏和神经系统的许多可兴奋细胞中动作电位的产生。 60多年来，Nays的功能研究已在兴奋性分子基础的生理和生物物理研究中占据中心位置。最近，对细菌，电压门控钠通道（BacNa（V））家族的广泛结构进行研究，这些通道普遍存在于具有真核Nays核心特征的土壤，海洋和盐湖环境中。门控通道功能，离子选择性和药理学。在这里，我们分析BacNa（V）作为药物开发工作模板的最新进展，未解决的问题以及潜力。（C）2014作者。由Elsevier Ltd.发布

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《Journal of Molecular Biology》 |2015年第1期|共28页
作者
Payandeh Jian; Minor Daniel L. Jr.;
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正文语种 eng
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voltage-gated sodium channel; structural biology; channel gating; ion permeation; channel pharmacology;

机译：电压门控钠通道;结构生物学;通道门控;离子渗透;通道药理学;

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1. Bacterial Voltage-Gated Sodium Channels (BacNa(V)s) from the Soil, Sea, and Salt Lakes Enlighten Molecular Mechanisms of Electrical Signaling and Pharmacology in the Brain and Heart [J] . Payandeh Jian, Minor Daniel L. Jr. Journal of Molecular Biology . 2015,第1期

机译：来自土壤，海洋和盐湖的细菌电压门控钠通道（BacNa（V）s）启发了脑和心脏中电信号传导和药理学的分子机制
2. Molecular mechanisms of dysautonomia during heart failure. Focus on "Heart failure-induced changes of voltage-gated Ca2+ channels and cell excitability in rat cardiac postganglionic neurons" [J] . CuevasJ. American Journal of Physiology . 2014,第1aPta1期

机译：心力衰竭期间自主神经异常的分子机制。专注于“心力衰竭诱导的大鼠心脏节后神经元中电压门控的Ca2 +通道和细胞兴奋性的变化”
3. From ionic currents to molecular mechanisms: the structure and function of voltage-gated sodium channels. [J] . Catterall WA Neuron . 2000,第1期

机译：从离子电流到分子机理：电压门控钠通道的结构和功能。
4. Voltage-Gated Sodium Channel b1 Subunit Processing by BACE1 and γ-secretase: Regulatory Mechanisms and Downstream Signaling [D] . Bouza, Alexandra A. 2020

机译：通过Bace1和γ分泌酶的电压门控钠通道B1亚基加工：调节机制和下游信号
5. Bacterial voltage-gated sodium channels (BacNaVs) from the soil sea and salt lakes enlighten molecular mechanisms of electrical signaling and pharmacology in the brain and heart [O] . Jian Payandeh, Daniel L. Minor Jr -1

机译：来自土壤海洋和盐湖的细菌电压门控钠通道（BacNaV）启发了脑和心脏中电信号传导和药理学的分子机制
6. Bacterial Voltage-Gated Sodium Channels (BacNaVs) from the Soil, Sea, and Salt Lakes Enlighten Molecular Mechanisms of Electrical Signaling and Pharmacology in the Brain and Heart [O] . Payandeh Jian, Minor Daniel L. 2015

机译：来自土壤，海洋和盐湖的细菌电压门控钠通道（BacNaV）启发了脑和心脏中电信号传导和药理学的分子机制

Bacterial Voltage-Gated Sodium Channels (BacNa(V)s) from the Soil, Sea, and Salt Lakes Enlighten Molecular Mechanisms of Electrical Signaling and Pharmacology in the Brain and Heart

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