Optogenetics represents a breakthrough technology capable of dynamically modulating molecular and cellular activity in live cells with high precision. This transformative technology made it possible to reversibly interrogate protein actions, cellular events, and animal behaviors with a flash of light.
Optogenetics represents a breakthrough technology capable of dynamically modulating molecular and cellular activity in live cells with high precision. This transformative technology made it possible to reversibly interrogate protein actions, cellular events, and animal behaviors with a flash of light.
Table of Content Chapter 1 Optogenetic dissection of a two-component calcium influx pathway Xiaoxuan Liu, Yingshan Wang, Yubin Zhou, and Guolin Ma* Chapter 2 High-throughput engineering of a light-activatable Ca2+ channel Lian He*, Liuqing Wang, and Youjun Wang* Chapter 3 Optogenetic activation of TrkB signaling Peiyuan Huang, Zhihao Zhao, Lei Lei, and Liting Duan* Chapter 4 Spatiotemporal modulation of neural repair Huaxun Fan, Qin Wang, Kai Zhang*, and Yuanquan Song* Chapter 5 Optogenetic control of neural stem cell differentiation Yixun Su, Taida Huang, Kai Zhang, and Chenju Yi* Chapter 6 An optogenetic toolbox for remote control of programmed cell death Ningxia Zhang and Ji Jing* Chapter 7 Control of protein levels in Saccharomyces cerevisiae by optogenetic modules that act on protein synthesis and stability Sophia Hasenjäger, Jonathan Trauth, and Christof Taxis* Chapter 8 Optogenetics as a tool to study neurodegeneration and signal transduction Prabhat Tiwari* and Nicholas S. Tolwinski* Chapter 9 Opsin-free optogenetics: brain and beyond Jongryul Hong, Yeonji Jeong, and Won Do Heo* Chapter 10 Constructing a far-red light-induced split-Cre recombinase system for controllable genome engineering Meiyan Wang, Jiali Wu, and Haifeng Ye* Chapter 11 Tools and Technologies for Wireless and Non-invasive Optogenetics Guangfu Wu, Vagif Abdulla, Yiyuan Yang, Michael Schneider, and Yi Zhang*
Table of Content Chapter 1 Optogenetic dissection of a two-component calcium influx pathway Xiaoxuan Liu, Yingshan Wang, Yubin Zhou, and Guolin Ma* Chapter 2 High-throughput engineering of a light-activatable Ca2+ channel Lian He*, Liuqing Wang, and Youjun Wang* Chapter 3 Optogenetic activation of TrkB signaling Peiyuan Huang, Zhihao Zhao, Lei Lei, and Liting Duan* Chapter 4 Spatiotemporal modulation of neural repair Huaxun Fan, Qin Wang, Kai Zhang*, and Yuanquan Song* Chapter 5 Optogenetic control of neural stem cell differentiation Yixun Su, Taida Huang, Kai Zhang, and Chenju Yi* Chapter 6 An optogenetic toolbox for remote control of programmed cell death Ningxia Zhang and Ji Jing* Chapter 7 Control of protein levels in Saccharomyces cerevisiae by optogenetic modules that act on protein synthesis and stability Sophia Hasenjäger, Jonathan Trauth, and Christof Taxis* Chapter 8 Optogenetics as a tool to study neurodegeneration and signal transduction Prabhat Tiwari* and Nicholas S. Tolwinski* Chapter 9 Opsin-free optogenetics: brain and beyond Jongryul Hong, Yeonji Jeong, and Won Do Heo* Chapter 10 Constructing a far-red light-induced split-Cre recombinase system for controllable genome engineering Meiyan Wang, Jiali Wu, and Haifeng Ye* Chapter 11 Tools and Technologies for Wireless and Non-invasive Optogenetics Guangfu Wu, Vagif Abdulla, Yiyuan Yang, Michael Schneider, and Yi Zhang*
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