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Literature DB >> 21414907

Imaging light responses of targeted neuron populations in the rodent retina.

Bart G Borghuis¹, Lin Tian, Ying Xu, Sergei S Nikonov, Noga Vardi, Boris V Zemelman, Loren L Looger.

Abstract

Decoding the wiring diagram of the retina requires simultaneous observation of activity in identified neuron populations. Available recording methods are limited in their scope: electrodes can access only a small fraction of neurons at once, whereas synthetic fluorescent indicator dyes label tissue indiscriminately. Here, we describe a method for studying retinal circuitry at cellular and subcellular levels combining two-photon microscopy and a genetically encoded calcium indicator. Using specific viral and promoter constructs to drive expression of GCaMP3, we labeled all five major neuron classes in the adult mouse retina. Stimulus-evoked GCaMP3 responses as imaged by two-photon microscopy permitted functional cell type annotation. Fluorescence responses were similar to those measured with the small molecule dye OGB-1. Fluorescence intensity correlated linearly with spike rates >10 spikes/s, and a significant change in fluorescence always reflected a significant change in spike firing rate. GCaMP3 expression had no apparent effect on neuronal function. Imaging at subcellular resolution showed compartment-specific calcium dynamics in multiple identified cell types.

Entities: Chemical

Mesh：

Year: 2011 PMID： 21414907 PMCID： PMC3521507 DOI： 10.1523/JNEUROSCI.6064-10.2011

Source DB: PubMed Journal: J Neurosci ISSN： 0270-6474 Impact factor: 6.167

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