[如何为您的研究选择最佳光遗传学工具]。

Q3 Medicine Brain and Nerve Pub Date : 2024-07-01 DOI:10.11477/mf.1416202691

Shoko Hososhima, Hideki Kandori

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摘要

目前正在开发能更深入了解神经活动的全光学方法。光遗传学是一种利用光控制神经元活动或生命现象的生物技术。微生物视网膜蛋白是一种光激活膜蛋白，可用作光遗传学工具。微生物视网膜蛋白（如通道视网膜蛋白 2（ChR2））由七层跨膜蛋白和共价结合的视网膜组成。光吸收后，全反式视黄醛发生光异构化，变成 13 顺式构型，分子构象随之发生变化，通道结构随之向离子渗透。最近的研究报告称，发现了具有新功能的微生物视紫红质。微生物视紫红质的多样性也有所增加。我们将介绍用作光遗传学工具的微生物罗丹明素的特点以及该领域的最新研究。

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[How to Choose the Best Optogenetic Tool for Your Research].

All-optical methods that provide deeper understanding of neural activity are currently being developed. Optogenetics is a biological technique useful to control neuronal activity or life phenomena using light. Microbial rhodopsins are light-activated membrane proteins used as optogenetic tools. Microbial rhodopsins such as channelrhodopsin2 (ChR2) consist of seven-pass transmembrane proteins with a covalently bound retinal. Light absorption is followed by photoisomerization of the all-trans retinal to a 13-cis configuration and subsequent conformational changes in the molecule, with consequent permeability of the channel structure to ions. Recent studies have reported the discovery of microbial rhodopsins with novel functions. Microbial rhodopsin diversity has also increased. We describe the characteristics of microbial rhodopsins used as optogenetic tools and the latest research in this domain.

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Brain and Nerve Medicine-Neurology (clinical)

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