Journal
ANNUAL REVIEW OF BIOPHYSICS, VOL 39
Volume 39, Issue -, Pages 329-348Publisher
ANNUAL REVIEWS
DOI: 10.1146/annurev.biophys.093008.131400
Keywords
photostimulation; optogenetics; SPARK; LiGluR; channelrhodopsin; halorhodopsin
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Funding
- NEI NIH HHS [5PN2EY018241, PN2 EY018241] Funding Source: Medline
- NATIONAL EYE INSTITUTE [PN2EY018241] Funding Source: NIH RePORTER
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Advances in optics, genetics, and chemistry have enabled the investigation of brain function at all levels, from intracellular signals to single synapses, whole cells, circuits, and behavior. Until recent years, these research tools have been utilized in an observational capacity: imaging neural activity with fluorescent reporters, for example, or correlating aberrant neural activity with loss-of-function and gain-of-function pharmacological or genetic manipulations. However, optics, genetics, and chemistry have now combined to yield a new strategy: using light to drive and halt neuronal activity with molecular specificity and millisecond precision. Photostimulation of neurons is noninvasive, has unmatched spatial and temporal resolution, and can be targeted to specific classes of neurons. The optical methods developed to date encompass a broad array of strategies, including photorelease of caged neurotransmitters, engineered light-gated receptors and channels, and naturally light-sensitive ion channels and pumps. In this review, we describe photostimulation methods, their applications, and opportunities for further advancement.
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