Control of neuronal voltage-gated calcium ion channels from RNA to protein

LipscombeD.; AllenS.E.; ToroC.P.

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Control of neuronal voltage-gated calcium ion channels from RNA to protein

机译：控制从RNA到蛋白质的神经元电压门控钙离子通道

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Voltage-gated calcium ion (CaV) channels convert neuronal activity into rapid intracellular calcium signals to trigger a myriad of cellular responses. Their involvement in major neurological and psychiatric diseases, and importance as therapeutic targets, has propelled interest in subcellular-specific mechanisms that align CaV channel activity to specific tasks. Here, we highlight recent studies that delineate mechanisms controlling the expression of CaV channels at the level of RNA and protein. We discuss the roles of RNA editing and alternative pre-mRNA splicing in generating CaV channel isoforms with activities specific to the demands of individual cells; the roles of ubiquitination and accessory proteins in regulating CaV channel expression; and the specific binding partners that contribute to both pre- and postsynaptic CaV channel function.

机译：电压门控钙离子（CaV）通道将神经元活动转换为快速的细胞内钙信号，从而触发无数的细胞反应。他们参与主要的神经和精神疾病，以及作为治疗靶标的重要性，引起了人们对使CaV通道活性与特定任务保持一致的亚细胞特异性机制的兴趣。在这里，我们重点介绍了在RNA和蛋白质水平上描述控制CaV通道表达的机制的最新研究。我们讨论了RNA编辑和替代性的pre-mRNA剪接在产生CaV通道同工型，特定于个别细胞需求的活动中的作用;泛素化和辅助蛋白在调节CaV通道表达中的作用;以及有助于突触前和突触后CaV通道功能的特定结合伴侣。

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《Trends in Neurosciences 》 |2013年第10期| 共12页
作者
LipscombeD.; AllenS.E.; ToroC.P.;
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正文语种 eng
中图分类神经病学 ;
关键词
Alternative splicing; Splicing factors; Synaptic proteins; Synaptic transmission; Ubiquitination; Voltage-gated calcium channels;

机译：选择性剪接;剪接因子;突触蛋白;突触传递;泛素化;电压门控钙通道;

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专利

1. Control of neuronal voltage-gated calcium ion channels from RNA to protein [J] . LipscombeD., AllenS.E., ToroC.P. Trends in Neurosciences . 2013 ,第10期

机译：控制从RNA到蛋白质的神经元电压门控钙离子通道
2. Functional diversity in neuronal voltage-gated calcium channels by alternative splicing of Ca(v)alpha1. [J] . Lipscombe D, rown.edu, Pan JQ, Molecular Neurobiology . 2002 ,第1期

机译：通过Ca（v）alpha1的选择性剪接在神经元电压门控钙通道中的功能多样性。
3. Voltage-gated calcium channel CACNB2 (β2.1) protein is required in the heart for control of cell proliferation and heart tube integrity. [J] . Yelena Chernyavskaya, Alicia M Ebert, Emily Milligan, Developmental dynamics: an official publication of the American Association of Anatomists . 2012 ,第4期

机译：心脏需要电压门控钙通道CACNB2（β2.1）蛋白来控制细胞增殖和心管完整性。
4. All-optical control of neuronal function via optical delivery of light-sensitive proteins and optogenetic stimulation [C] . Alex Villalobos, Ling Gu, Samarendra Mohanty Conference on photonic therapeutics and diagnostics VIII . 2012

机译：通过光敏蛋白的光传递和光遗传学刺激全神经控制神经元功能
5. Regulation of spatial distribution of neuronal calcium channels and SNARE proteins by G-protein-coupled receptors. [D] . Tombler, Eugene Robert. 2003

机译：G蛋白偶联受体调节神经元钙通道和SNARE蛋白的空间分布。
6. Control of Neuronal Voltage-Gated Calcium Ion Channels From RNA to Protein [O] . Diane Lipscombe, Summer E Allen, Cecilia P. Toro -1

机译：从RNA到蛋白质的神经元电压门控钙离子通道的控制
7. Amyloid Precursor Protein Protects Neuronal Network Function after Hypoxia via Control of Voltage-Gated Calcium Channels [O] . D. Hefter, M. Kaiser, S. W. Weyer, 2016

机译：淀粉样蛋白前体蛋白通过电压门控钙通道的控制保护缺氧后神经元网络功能

Control of neuronal voltage-gated calcium ion channels from RNA to protein

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