The optogenetic catechism.

Miesenböck G

doi:10.1126/science.1174520

Abstract

An emerging set of methods enables an experimental dialogue with biological systems composed of many interacting cell types--in particular, with neural circuits in the brain. These methods are sometimes called "optogenetic" because they use light-responsive proteins ("opto-") encoded in DNA ("-genetic"). Optogenetic devices can be introduced into tissues or whole organisms by genetic manipulation and be expressed in anatomically or functionally defined groups of cells. Two kinds of devices perform complementary functions: Light-driven actuators control electrochemical signals, while light-emitting sensors report them. Actuators pose questions by delivering targeted perturbations; sensors (and other measurements) signal answers. These catechisms are beginning to yield previously unattainable insight into the organization of neural circuits, the regulation of their collective dynamics, and the causal relationships between cellular activity patterns and behavior.

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Funding

Funders who supported this work.

Medical Research Council (2)

Professor Miesenboeck - Strategic Appointment
Professor Gero Miesenböck, University of Oxford
Grant ID: G0701225
28 publications
Function and plasticity of neural circuits in Drosophila
Professor Gero Miesenböck, University of Oxford
Grant ID: G0700888
28 publications

Search life-sciences literature (45,103,589 articles, preprints and more)

The optogenetic catechism.

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References

Optical imaging and control of genetically designated neurons in functioning circuits.

Lighting up the brain.

Patterns of synaptic activity in neural networks recorded by light emission from synaptolucins.

Fluorescent indicators for Ca2+ based on green fluorescent proteins and calmodulin.

A genetically encoded optical probe of membrane voltage.

Visualizing secretion and synaptic transmission with pH-sensitive green fluorescent proteins.

Selective photostimulation of genetically chARGed neurons.

Photochemical gating of heterologous ion channels: remote control over genetically designated populations of neurons.

Light-activated ion channels for remote control of neuronal firing.

Remote control of behavior through genetically targeted photostimulation of neurons.

Citations & impact

Impact metrics

Citations of article over time

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Article citations

Zebrafish Congenital Heart Disease Models: Opportunities and Challenges.

Resonating with Cellular Pathways: Transcriptome Insights into Nonthermal Bioeffects of Middle Infrared Light Stimulation and Vibrational Strong Coupling on Cell Proliferation and Migration.

Cardiac optogenetics: shining light on signaling pathways.

Multimodal Nature of the Single-cell Primate Brain Atlas: Morphology, Transcriptome, Electrophysiology, and Connectivity.

A series of caged fluorophores for calibrating light intensity.

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Search life-sciences literature (45,103,589 articles, preprints and more)

The optogenetic catechism.

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Medical Research Council (2)