Shih-Heng Chen, Juhee Haam, Mitzie Walker, Erica Scappini, John Naughton, Negin P. Martin
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引用次数: 12
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Abstract
Advances in design and use of light-sensitive and light-emitting sensors have facilitated observation, measurement, and control of neuronal activities. Viruses are effective vectors for delivery of these valuable research tools to mammalian brains. Recombinant viruses are optimized to mediate regulatable, long-term, and cell-specific gene expression. Here, we describe production methods for three of the most commonly used types of recombinant viruses in neurobiology research: adeno-associated virus (AAV), retrovirus/lentivirus, and glycoprotein-deleted rabies virus. These viral constructs are frequently used for calcium imaging or to deliver neural tracers and optogenetic tools. Popular constructs are readily obtained commercially; however, customized virus production through commercial sources is time consuming and costly. This article aims to provide readers with detailed technical information for rapid production and validation of high-quality viral particles in a laboratory setting while highlighting advantages and limitations of each viral type. © 2019 by John Wiley & Sons, Inc.
用于神经解剖学、钙成像和光遗传学的病毒构建体的生产
光敏和发光传感器的设计和使用的进步促进了对神经元活动的观察、测量和控制。病毒是将这些有价值的研究工具运送到哺乳动物大脑的有效载体。重组病毒被优化为介导可调节的、长期的和细胞特异性的基因表达。在这里,我们描述了神经生物学研究中最常用的三种重组病毒的生产方法:腺相关病毒(AAV)、逆转录病毒/慢病毒和糖蛋白缺失狂犬病毒。这些病毒结构经常用于钙成像或传递神经示踪剂和光遗传学工具。流行的结构很容易从商业上获得;但是,通过商业来源定制病毒生产既耗时又昂贵。本文旨在为读者提供在实验室环境中快速生产和验证高质量病毒颗粒的详细技术信息,同时强调每种病毒类型的优点和局限性。©2019 by John Wiley &儿子,Inc。
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