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Striatal GABAergic microcircuit, spatial scales of dynamics (Humphries et al, 2010)
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This is a complete set of code required to run and analyse the striatum model from Humphries, Wood and Gurney (2010) PLoS Comp Biol. The code is freely available for study and modification. Please cite the original sources. For questions and assistance contact: [email protected] or [email protected] ************************************************************************ Top-level Files: Experiment_RandomInput.m: the top-level function that runs the model for the results in Fig 9 of the paper; this contains a selection of frequently changed parameters. Extensions to the model should be based on this file Experiment_ImpactOnCentreMSN.m: the top-level function that runs the model for the results in Fig 10 of the paper; extended to include stimulation of a sub-set of MSNs and FSIs residing a specified spherical shell a set distance from the selected target MSN. This needs to load a 1mm3 network, with 1% FSIs, to run the experiments. This 129MB file .mat is available from: http://www.abrg.group.shef.ac.uk/code/Striatum/Striatum_network_1000-1000-1000_num_1_at_734299.3923.mat StriatumNetworkParameters.m: the complete specification of the model; a few of the parameters set here are overwritten in Experiment_RandomInput.m or Experiment_ImpactOnCentreMSN.m RunSimulation.m: function called by Experiment_RandomInput.m (or Experiment_ImpactOnCentreMSN.m) to handle passing the parameters to the MEX file that runs model simulation checkStriatumInputs.m: ensures that all parameters are of the right class and type for handing to the MEX function (called by RunSimulation.m) ./CreateNetwork (folder): BuildStriatumNetwork.m: builds the network model according to the specified parameters (called by StriatumNetworkParameters.m); uses the probability of intersection functions supplied by the 4 .mat files in this folder GetNeuronPositions.m: puts all neurons in their 3D positions, ensuring that none are closer than the minimum set distance (called by BuildStriatumNetwork.m) ./Simulation (folder): This contains the MEX files and source C code for the simulation engines that run the model. The simulation uses the striatum_RK2 MEX file, solving the ODEs using the midpoint method (aka 2nd order Runge-Kutta). The RK2 method MEX files are provided compiled for 32-bit (.mexw32) and 64-bit (.mexw64) Windows, and for 64-bit (.mexa64) Linux systems. We strongly recommend that you recompile the MEX code from the source C++ for your platform ./Analyses (folder): firing_stats_solo.m: analyses of the firing properties of a simulation, including firing rate distributions analyse_centre_MSN.m: impact of inputs on centre MSN raster_plot.m: helper function for the analyses. Plots rasters of spike-train data. ********************************************************************** Notes: (1) This code represents version 1.5 of our striatal model: it combines the new 3D connectivity model with the neuron and gap junction models from version 1 (published in Humphries et al, 2009; ModelDB ID:128874) (2) This code does not include our updated model of dopamine's effects on the MSN (Humphries, Lepora, Wood & Gurney, 2009b) *********************************************************************** References: Humphries, M. D., Wood, R. & Gurney, K. (2009) Dopamine-modulated dynamic cell assemblies generated by the GABAergic striatal microcircuit Neural Networks,22, 1174-1188. Download at: http://dx.doi.org/10.1016/j.neunet.2009.07.018 Humphries, M. D.; Lepora, N.; Wood, R. & Gurney, K. (2009b) Capturing dopaminergic modulation and bimodal membrane behaviour of striatal medium spiny neurons in accurate, reduced models. Frontiers in Computational Neuroscience, 3, 26. Download at: http://dx.doi.org/10.3389/neuro.10.026.2009 Humphries, M. D., Wood, R. & Gurney, K. (2010) Reconstructing the three-dimensional GABAergic microcircuit of the striatum. PLoS Computational Biology, 6, e100101. [PDF copy included]
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