Optimization of a GCaMP Calcium Indicator for Neural Activity Imaging

Jasper Akerboom; Tsai‐Wen Chen; Trevor J. Wardill; Lin Tian; Jonathan S. Marvin; Sevinç Mutlu; Nicole Carreras Calderón; Federico Esposti; Bart G. Borghuis; Xiaonan Richard Sun; Andrew Gordus; Michael B. Orger; Rubén Portugues; Florian Engert; J. J. Macklin; Alessandro Filosa; Aman Aggarwal; Rex Kerr; Ryousuke Takagi; Sebastian Kracun; Eiji Shigetomi; Baljit S. Khakh; Herwig Baier; Leon Lagnado; Samuel S.‐H. Wang; Cornelia I. Bargmann; Bruce E. Kimmel; Vivek Jayaraman; Karel Svoboda; Douglas S. Kim; Eric R. Schreiter; Loren L. Looger

doi:10.1523/jneurosci.2601-12.2012

Optimization of a GCaMP Calcium Indicator for Neural Activity Imaging

Jasper Akerboom(Howard Hughes Medical Institute), Tsai‐Wen Chen(Howard Hughes Medical Institute), Trevor J. Wardill(Howard Hughes Medical Institute), Lin Tian(Howard Hughes Medical Institute), Jonathan S. Marvin(Howard Hughes Medical Institute), Sevinç Mutlu(Champalimaud Foundation), Nicole Carreras Calderón(Howard Hughes Medical Institute), Federico Esposti(MRC Laboratory of Molecular Biology), Bart G. Borghuis(Howard Hughes Medical Institute), Xiaonan Richard Sun(Princeton University), Andrew Gordus(Howard Hughes Medical Institute), Michael B. Orger(Champalimaud Foundation), Rubén Portugues(Harvard University), Florian Engert(Harvard University), J. J. Macklin(Howard Hughes Medical Institute), Alessandro Filosa(University of California, San Francisco), Aman Aggarwal(Tata Institute of Fundamental Research), Rex Kerr(Howard Hughes Medical Institute), Ryousuke Takagi(University of California, Los Angeles), Sebastian Kracun(University of California, Los Angeles), Eiji Shigetomi(University of California, Los Angeles), Baljit S. Khakh(University of California, Los Angeles), Herwig Baier(University of California, San Francisco), Leon Lagnado(MRC Laboratory of Molecular Biology), Samuel S.‐H. Wang(Princeton University), Cornelia I. Bargmann(Howard Hughes Medical Institute), Bruce E. Kimmel(Howard Hughes Medical Institute), Vivek Jayaraman(Howard Hughes Medical Institute), Karel Svoboda(Howard Hughes Medical Institute), Douglas S. Kim(Howard Hughes Medical Institute), Eric R. Schreiter(Howard Hughes Medical Institute), Loren L. Looger(Howard Hughes Medical Institute)

Journal of Neuroscience

October 3, 2012

10.1523/jneurosci.2601-12.2012

Cited by 1,281Open Access

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Abstract

Genetically encoded calcium indicators (GECIs) are powerful tools for systems neuroscience. Recent efforts in protein engineering have significantly increased the performance of GECIs. The state-of-the art single-wavelength GECI, GCaMP3, has been deployed in a number of model organisms and can reliably detect three or more action potentials in short bursts in several systems in vivo. Through protein structure determination, targeted mutagenesis, high-throughput screening, and a battery of in vitro assays, we have increased the dynamic range of GCaMP3 by severalfold, creating a family of "GCaMP5" sensors. We tested GCaMP5s in several systems: cultured neurons and astrocytes, mouse retina, and in vivo in Caenorhabditis chemosensory neurons, Drosophila larval neuromuscular junction and adult antennal lobe, zebrafish retina and tectum, and mouse visual cortex. Signal-to-noise ratio was improved by at least 2- to 3-fold. In the visual cortex, two GCaMP5 variants detected twice as many visual stimulus-responsive cells as GCaMP3. By combining in vivo imaging with electrophysiology we show that GCaMP5 fluorescence provides a more reliable measure of neuronal activity than its predecessor GCaMP3. GCaMP5 allows more sensitive detection of neural activity in vivo and may find widespread applications for cellular imaging in general.

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