Cell
Volume 141, Issue 1, 2 April 2010, Pages 154-165
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Molecular and Cellular Approaches for Diversifying and Extending Optogenetics

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Summary

Optogenetic technologies employ light to control biological processes within targeted cells in vivo with high temporal precision. Here, we show that application of molecular trafficking principles can expand the optogenetic repertoire along several long-sought dimensions. Subcellular and transcellular trafficking strategies now permit (1) optical regulation at the far-red/infrared border and extension of optogenetic control across the entire visible spectrum, (2) increased potency of optical inhibition without increased light power requirement (nanoampere-scale chloride-mediated photocurrents that maintain the light sensitivity and reversible, step-like kinetic stability of earlier tools), and (3) generalizable strategies for targeting cells based not only on genetic identity, but also on morphology and tissue topology, to allow versatile targeting when promoters are not known or in genetically intractable organisms. Together, these results illustrate use of cell-biological principles to enable expansion of the versatile fast optogenetic technologies suitable for intact-systems biology and behavior.

Highlights

► Molecular trafficking techniques open up new dimensions in mammalian optogenetics ► Manyfold-enhanced halorhodopsin eNpHR3.0 enables optical control with far-red light ► Trafficking-enhanced tools identified from genome mining expand spectral coverage ► Transcellular trafficking enables promoter-independent optical targeting by topology

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Present address: Society of Fellows, Harvard University, Cambridge, MA 02138, USA

6

These authors contributed equally to this work