Opsin-free Optogenetics

• Table of ContentChapter 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 beyondJongryul 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*

“This book differs markedly from these other, more general volumes by virtue of its concentration on next generation, non-opsin photo-switches. The result is a focused, highly informative, yet compact and easy-to-read volume that offers a model for how these works should be constructed.”Doody Review Peter J. Kennelly, PhD (Virginia Tech)