Dib-Hajj, S.D.a b , Yang, Y.a b , Black, J.A.a b , Waxman, S.G.a b The Na v 1.7 sodium channel: From molecule to man

Dib-HajjS.D.; YangY.; BlackJ.A.; WaxmanS.G.

首页> 外文期刊>Nature reviews neuroscience >Dib-Hajj, S.D.a b , Yang, Y.a b , Black, J.A.a b , Waxman, S.G.a b The Na v 1.7 sodium channel: From molecule to man

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Dib-Hajj, S.D.a b , Yang, Y.a b , Black, J.A.a b , Waxman, S.G.a b The Na v 1.7 sodium channel: From molecule to man

机译：Dib-Hajj，S.D.a b，Yang，Y.a b，Black，J.A. a b，Waxman，S.G.a b Na v 1.7钠通道：从分子到人

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The voltage-gated sodium channel NaV 1.7 is preferentially expressed in peripheral somatic and visceral sensory neurons, olfactory sensory neurons and sympathetic ganglion neurons. NaV 1.7 accumulates at nerve fibre endings and amplifies small subthreshold depolarizations, poising it to act as a threshold channel that regulates excitability. Genetic and functional studies have added to the evidence that NaV 1.7 is a major contributor to pain signalling in humans, and homology modelling based on crystal structures of ion channels suggests an atomic-level structural basis for the altered gating of mutant NaV 1.7 that causes pain.

机译：电压门控钠通道NaV 1.7优先在外周体细胞和内脏感觉神经元，嗅觉感觉神经元和交感神经节神经元中表达。 NaV 1.7累积在神经纤维末端，并放大小的亚阈值去极化，使其成为调节兴奋性的阈值通道。遗传和功能研究增加了证据，表明NaV 1.7是人类疼痛信号的主要贡献者，基于离子通道晶体结构的同源性建模表明，引起疼痛的突变NaV 1.7的门控改变具有原子级的结构基础。。

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《Nature reviews neuroscience》 |2013年第1期|共14页
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Dib-HajjS.D.; YangY.; BlackJ.A.; WaxmanS.G.;
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1. Dib-Hajj, S.D.a b , Yang, Y.a b , Black, J.A.a b , Waxman, S.G.a b The Na v 1.7 sodium channel: From molecule to man [J] . Dib-HajjS.D., YangY., BlackJ.A., Nature reviews neuroscience . 2013,第1期

机译：Dib-Hajj，S.D.a b，Yang，Y.a b，Black，J.A. a b，Waxman，S.G.a b Na v 1.7钠通道：从分子到人
2. The Na_v1.7 sodium channel: from molecule to man [J] . Sulayman D. Dib-Hajj, Yang Yang, Joel A. Black Stephen G. Waxman Nature reviews. Neurology . 2013,第Apra期

机译：Na_v1.7钠通道：从分子到人
3. The Na_v1.7 sodium channel: from molecule to man [J] . Sulayman D. Dib-Hajj, Yang Yang, Joel A. Black Stephen G. Waxman Nature medicine . 2013,第Apra期

机译：Na_v1.7钠通道：从分子到人
4. Functionalized luminescent oxide nanoparticles for sodium channel imaging at the single molecule level [C] . E. Beaurepaire, D. Giaume, V. Buissette, Nanobiophotonics and Biomedical Applications II; Progress in Biomedical Optics and Imaging; vol.6, no.20 . 2005

机译：用于单分子水平钠通道成像的功能化发光氧化物纳米颗粒
5. Biophysical characterization of sodium(v)1.7 and sodium(v)1.8 rat isoforms of the voltage gated sodium channels from dorsal root ganglions: Regulation by auxiliary beta-subunits and by protein kinase A and C. [D] . Vijayaragavan, Kausalia. 2004

机译：背根神经节的电压门控钠通道的钠（v）1.7和钠（v）1.8大鼠亚型的生物物理特征：辅助β亚基和蛋白激酶A和C的调节。
6. Human Embryonic Kidney (HEK293) Cells Express Endogenous Voltage-Gated Sodium Currents and Nav1.7 Sodium Channels [O] . Bingjun He, David M. Soderlund -1

机译：人胚胎肾（HEK293）细胞表达内源性电压门控钠电流和NAV1.7钠通道
7. Drug Development Targeting the Glycogen Synthase Kinase-3β (GSK-3β)-Mediated Signal Transduction Pathway: The Role of GSK-3β in the Maintenance of Steady-State Levels of Insulin Receptor Signaling Molecules and Nav1.7 Sodium Channel in Adrenal Chromaffin Cells [O] . Takayuki Nemoto, Toshihiko Yanagita, Tasuku Kanai, 2009

机译：靶向糖原合酶激酶-3β（GSK-3β）介导的信号转导通路的药物发育：GSK-3β在维持肾上腺铬细胞中胰岛素受体信号分子和NAV1.7钠通道维持稳态水平的作用

Dib-Hajj, S.D.a b , Yang, Y.a b , Black, J.A.a b , Waxman, S.G.a b The Na v 1.7 sodium channel: From molecule to man

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