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Padraig Gleeson, 30 Apr 2014 14:57

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Towards community developed cerebellar granule cell models
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This project was started following the [2013 OSB kickoff meeting](http://www.opensourcebrain.org/projects/osb/wiki/Meetings). At that meeting it was decided that the development of individual cell models from the cerebellum would be a good test case for exploring the requirements on technical infrastructure and the social aspects of collaborative model development. Due to the many independent granule cell layer networks being developed by participants at the OSB meeting, the cerebellar granule cell was identified as a good first cell model to focus on.
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This wiki is intended to help gather the following information/requirements:
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-   ***What granule cell models are out there?***
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-   ***What electrophysiological properties do labs wish to reproduce in their models?***
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-   ***What experimental data is publicly available on the behaviour of the granule cell?***
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-   ***How well do existing models reproduce these behaviours?***
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Models of the cerebellar granule cell
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### Models currently available on OSB
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table{border:1px solid black}.
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{background:\#ddd}. | **Model** | **Summary** |
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| project:granulecell | Single compartment, conductance based |
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| project:grancellsolinasetal10 | Single compartment, conductance based |
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| project:granulecellvscs | Single compartment, conductance based |
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| project:grancellrothmanif | Integrate and fire model |
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### Other known granule cell models
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*Links to entries on ModelDB or PubMed articles…*
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Simões de Souza F, De Schutter E (2011) **Robustness effect of gap junctions between Golgi cells on cerebellar cortex oscillations** Neural Systems & Circuits 1:7:1-19 ([ModelDB](http://senselab.med.yale.edu/modeldb/ShowModel.asp?model=139656), reuses project:grancellsolinasetal10 ?)
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Diwakar S, Magistretti J, Goldfarb M, Naldi G, D\`Angelo E (2009) **Axonal Na+ channels ensure fast spike activation and back-propagation in cerebellar granule cells** J Neurophysiol 101(2):519-32 ([ModelDB](http://senselab.med.yale.edu/modeldb/ShowModel.asp?model=116835))
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Target electrophysiological properties of granule cells
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To facilitate comparison between granule cell models it would be good to quantify certain properties of the cell activity which labs find **in their experimental data** and which should be reproduced in models. An initial list of properties is:
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-   Resting Potential
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-   Input Resistance
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-   Reversal potential of Na
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-   Reversal potential of K
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-   AP max depolarisation
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-   Firing rate at ?? Hz
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-   Total cell capacitance
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-   Soma radius
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-   More…
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Different species, drugs, experimental conditions will lead to different values for these between labs. Nevertheless, it would be good to get input from as many labs as possible.
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### D’Angelo lab
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*Species: …
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Experimental setup summary: …
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Resting potential: …*
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### Silver lab
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Publicly accessible data on granule cell behaviour
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### Links to electrophysiological data in public repositories
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\_(Wishful thinking I know…)\_
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### NeuroElectro properties of granule cells
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http://www.neuroelectro.org/neuron/21/
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How well do existing models reproduce these behaviours?
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Information on construction of tests for comparing model behaviour to experimental data
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Much of this will be based on [NeuroUnit/SciUnit](http://www.opensourcebrain.org/projects/neuroelectrosciunit) and existing test scripts in neuroConstruct projects (e.g. [here](https://github.com/OpenSourceBrain/GranuleCell/blob/master/neuroConstruct/pythonScripts/RunTests.py)).