<?xml version="1.0" encoding="ISO-8859-1"?> <neuroml xmlns="http://www.neuroml.org/schema/neuroml2" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://www.neuroml.org/schema/neuroml2 https://raw.github.com/NeuroML/NeuroML2/development/Schemas/NeuroML2/NeuroML_v2beta3.xsd" id="CaDynamics_E2_NML2_apicTrunk"> <notes>NeuroML 2 implementation of the Ca Pool mechanism</notes> <!--<decayingPoolConcentrationModel id="CaDynamics_E2_NML2" restingConc="1e-10mol_per_cm3" decayConstant="80ms" ion="ca" shellThickness="2.787e-4cm"/>--> <concentrationModel id="CaDynamics_E2_NML2_apicTrunk" type="concentrationModelHayEtAl_apicTrunk" minCai="1e-4 mM" decay="142.068 ms" depth="0.1 um" gamma="0.0347197" ion="ca"/> <!-- This is a new, custom ComponentType to handle the calcium mechanism with parameters PARAMETER { gamma = 0.05 : percent of free calcium (not buffered) decay = 80 (ms) : rate of removal of calcium depth = 0.1 (um) : depth of shell minCai = 1e-4 (mM) } and derivative mechanism: DERIVATIVE states { cai' = -(10000)*(ica*gamma/(2*FARADAY*depth)) - (cai - minCai)/decay } See https://github.com/OpenSourceBrain/L5bPyrCellHayEtAl2011/blob/master/neuroConstruct/cellMechanisms/CaDynamics_E2_init_mod/CaDynamics_E2.mod --> <ComponentType name="concentrationModelHayEtAl_apicTrunk" extends="concentrationModel" description="Model of buffering of concentration of specific to Hay Et Al 2011"> <Parameter name="gamma" dimension="none"/> <Parameter name="minCai" dimension="concentration"/> <Parameter name="decay" dimension="time"/> <Parameter name="depth" dimension="length"/> <Constant name="Faraday" dimension="charge_per_mole" value="96485.3C_per_mol"/> <Requirement name="iCa" dimension="current"/> <Text name="species"/> <Dynamics> <StateVariable name="concentration" exposure="concentration" dimension="concentration"/> <StateVariable name="extConcentration" exposure="extConcentration" dimension="concentration"/> <DerivedVariable name="currDensCa" dimension="currentDensity" value="iCa / surfaceArea"/> <TimeDerivative variable="concentration" value="(currDensCa * gamma/(2 * Faraday * depth)) - ((concentration - minCai) / decay)"/> <OnStart> <StateAssignment variable="concentration" value="minCai"/> <StateAssignment variable="extConcentration" value="initialExtConcentration"/> </OnStart> </Dynamics> </ComponentType> </neuroml>