光遗传学中的光学技术。

Optical Techniques in Optogenetics.

作者信息

Mohanty Samarendra K, Lakshminarayananan Vasudevan

机构信息

Biophysics and Physiology Group, Department of Physics, The University of Texas at Arlington, USA. Tel. 817-272-1177.

School of Optometry and Vision Science, Departments of Physics and Electrical and Computer Engineering, University of Waterloo, Waterloo, ON Canada. Department of Physics, Unviersity of Michigan, Ann Arbor, USA.

出版信息

J Mod Opt. 2015;62(12):949-970. doi: 10.1080/09500340.2015.1010620.

DOI:10.1080/09500340.2015.1010620

PMID:26412943

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4582796/

Abstract

Optogenetics is an innovative technique for optical control of cells. This field has exploded over the past decade or so and has given rise to great advances in neuroscience. A variety of applications both from the basic and applied research have emerged, turning the early ideas into a powerful paradigm for cell biology, neuroscience and medical research. This review aims at highlighting the basic concepts that are essential for a comprehensive understanding of optogenetics and some important biological/biomedical applications. Further, emphasis is placed on advancement in optogenetics-associated light-based methods for controlling gene expression, spatially-controlled optogenetic stimulation and detection of cellular activities.

摘要

光遗传学是一种用于对细胞进行光学控制的创新技术。在过去十年左右的时间里，这个领域蓬勃发展，推动了神经科学的巨大进步。基础研究和应用研究都涌现出了各种各样的应用，将早期的想法转变为细胞生物学、神经科学和医学研究的强大范式。这篇综述旨在突出那些对于全面理解光遗传学至关重要的基本概念以及一些重要的生物学/生物医学应用。此外，重点介绍了与光遗传学相关的用于控制基因表达、空间控制光遗传学刺激和细胞活动检测的基于光的方法的进展。

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Crystalline magnetic carbon nanoparticle assisted photothermal delivery into cells using CW near-infrared laser beam.使用连续波近红外激光束将结晶磁性碳纳米颗粒辅助光热递送至细胞中。

Sci Rep. 2014 May 29;4:5106. doi: 10.1038/srep05106.

ReaChR: a red-shifted variant of channelrhodopsin enables deep transcranial optogenetic excitation.ReaChR：一种红色偏移的通道视紫红质变体，可实现深颅穿透光遗传学激发。

Nat Neurosci. 2013 Oct;16(10):1499-508. doi: 10.1038/nn.3502. Epub 2013 Sep 1.

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