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3.8: Molecular Biological Measures of Neuronal Activity - “CatFish”

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    10656
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    Although electrophysiological techniques allow researchers to examine the activity of neurons, it is often challenging to know a priori, which neurons will respond during a particular behaviour. At the cellular level, neuronal activity can now be visualized using compartment analysis of temporal activity by fluorescence in situ hybridization (catFISH), can map the distribution of neurons activated during two discrete behaviours by visualizing the sub-cellular localization of various immediate early gene (IEG) mRNA. The catFISH method examines the activity history of neurons at two different time points and estimates the numbers of neurons active based on the staining of particular IEG mRNAs during a distinct behavioural episode. This makes the technique similar to electrophysiological estimates under comparable conditions (i.e. before and after stimulation) and researchers typically measure “active” neurons by looking for the expression of c-fos or Arc mRNA before and after stimulation/behaviour etc.

    IEG expression in dorsal hippocampus. (a) Low-magnification image of DAPI-stained dorsal hippocampus indicating the fields imaged for CA1 and CA3. The relative positions analyzed for CA1 (top) and CA3 (bottom, left) are indicated by yellow boxes. (b) Representative 20× projection image of CA3 from rat trained in context discrimination conditioning, showing Arc+ (red arrows), H1a+ (green arrows), Arc/H1a+ (yellow arrows), and negative (white arrows) neurons.
    Figure \(\PageIndex{1}\). IEG expression in dorsal hippocampus. (a) Low-magnification image of DAPI-stained dorsal hippocampus indicating the fields imaged for CA1 and CA3. The relative positions analyzed for CA1 (top) and CA3 (bottom, left) are indicated by yellow boxes. (b) Representative 20× projection image of CA3 from rat trained in context discrimination conditioning, showing Arc+ (red arrows), H1a+ (green arrows), Arc/H1a+ (yellow arrows), and negative (white arrows) neurons. Image from: https://doi.org/10.1523/JNEUROSCI.0542-14.2014. Under CC by 4.0.

    References

    From Acute Neuroinflammation Impairs Context Discrimination Memory and Disrupts Pattern Separation Processes in Hippocampus

    Jennifer Czerniawski and John F. Guzowski

    Journal of Neuroscience 10 September 2014, 34 (37) 12470-12480; DOI: https://doi.org/10.1523/JNEUROSCI.0542-14.2014

    (cc by 4.0 by website to sFN 6 months after publication)

    Front. Neurosci., 05 April 2011 | https://doi.org/10.3389/fnins.2011.00048


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