Input-specific metaplasticity in the visual cortex requires Homer1a-mediated mGluR5 signaling

Published: 2 Oct 2019 | Version 1 | DOI: 10.17632/jhv26ww6sb.1
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Description of this data

Data set for figures in the Chokshi et al. paper.

Experiment data files

  • Chokshi et al. Fig1
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    • MPEP-PBS injection
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  • Chokshi et al. Fig2
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    • L4Cre
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    • Pharmacology
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      • CPP
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      • MPEP
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      • Saline
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  • Chokshi et al. Fig3
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    • H1a exp
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  • Chokshi et al. Fig4
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    • H1aWT-KO
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      • P11
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      • P23
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    • Pharmacology
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  • Chokshi et al. Fig5
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  • Chokshi et al. Fig6
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    • FR exp
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    • TS exp
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  • Chokshi et al. Fig7
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    • FRKI;L4Cre
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    • Pharmacology_FRKI
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Latest version

  • Version 1

    2019-10-02

    Published: 2019-10-02

    DOI: 10.17632/jhv26ww6sb.1

    Cite this dataset

    Lee, Hey-Kyoung; Chokshi, Varun; Gao, Ming; Grier, Bryce; Owens, Ashley; Wang, Hui; Worley, Paul (2019), “Input-specific metaplasticity in the visual cortex requires Homer1a-mediated mGluR5 signaling”, Mendeley Data, v1 http://dx.doi.org/10.17632/jhv26ww6sb.1

Statistics

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Downloads: 55

Categories

Synaptic Plasticity, Neural Plasticity

Licence

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The files associated with this dataset are licensed under a Creative Commons Attribution 4.0 International licence.

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