Channel 217783-NaP_iAMC_Fig10Hii_ChannelML

General data

• ICG id: 4642
• ModelDB id: 217783
• Reference: Gorin M, Tsitoura C, Kahan A, Watznauer K, Drose DR, Arts M, Mathar R, O'Connor S, Hanganu-Opatz IL, Ben-Shaul Y, Spehr M (2016): Interdependent Conductances Drive Infraslow Intrinsic Rhythmogenesis in a Subset of Accessory Olfactory Bulb Projection Neurons.

Metadata classes

• Animal Model: mouse
• Brain Area: olfactory bulb (OB)
• Neuron Region: unspecified
• Neuron Type: mitral cell
• Subtype: not specified

Metadata generic

• Authors: Gorin M, Tsitoura C, Kahan A, Watznauer K, Drose DR, Arts M, Mathar R, O'Connor S, Hanganu-Op
• Comments: COMMENT ************************************************** File generated by: neuroConstruct v1.7.1 ************************************************** This file holds the implementation in NEURON of the Cell Mechanism: NaP_iAMC_Fig10Hii_ChannelML (Type: Channel mechanism, Model: ChannelML based process) with parameters: /channelml/@units = Physiological Units /channelml/notes = Mitral Cell Persistent Sodium ion Channel /channelml/channel_type/@name = NaP_iAMC_Fig10Hii_ChannelML /channelml/channel_type/@density = yes /channelml/channel_type/status/@value = stable /channelml/channel_type/status/comment = Sodium Persistent conductance modified from Rubin an Cleland 2006 using AOB mitral cell data from the Marc Spehr RWTH Aachen /channelml/channel_type/status/contributor/name = Simon O'Connor /channelml/channel_type/notes = Na Channel /channelml/channel_type/authorList/modelTranslator/name = Simon O'Connor /channelml/channel_type/authorList/modelTranslator/institution = UH /channelml/channel_type/authorList/modelTranslator/email = simon.oconnor - at - btinternet.com /channelml/channel_type/current_voltage_relation/@cond_law = ohmic /channelml/channel_type/current_voltage_relation/@ion = na /channelml/channel_type/current_voltage_relation/@default_gmax = 0.06 /channelml/channel_type/current_voltage_relation/@default_erev = 67 /channelml/channel_type/current_voltage_relation/@charge = 1 /channelml/channel_type/current_voltage_relation/gate[1]/@name = m /channelml/channel_type/current_voltage_relation/gate[1]/@instances = 3 /channelml/channel_type/current_voltage_relation/gate[1]/closed_state/@id = m0 /channelml/channel_type/current_voltage_relation/gate[1]/open_state/@id = m /channelml/channel_type/current_voltage_relation/gate[1]/open_state/@fraction = 1 /channelml/channel_type/current_voltage_relation/gate[1]/time_course/@name = tau /channelml/channel_type/current_voltage_relation/gate[1]/time_course/@from = m0 /channelml/channel_type/current_voltage_relation/gate[1]/time_course/@to = m /channelml/channel_type/current_voltage_relation/gate[1]/time_course/@expr_form = generic /channelml/channel_type/current_voltage_relation/gate[1]/time_course/@expr = (1+(4 * (exp(0 - ((v + 50)/20)^2)))) /channelml/channel_type/current_voltage_relation/gate[1]/steady_state/@name = inf /channelml/channel_type/current_voltage_relation/gate[1]/steady_state/@from = m0 /channelml/channel_type/current_voltage_relation/gate[1]/steady_state/@to = m /channelml/channel_type/current_voltage_relation/gate[1]/steady_state/@expr_form = sigmoid /channelml/channel_type/current_voltage_relation/gate[1]/steady_state/@rate = 0.499622025796 /channelml/channel_type/current_voltage_relation/gate[1]/steady_state/@scale = -4.9 /channelml/channel_type/current_voltage_relation/gate[1]/steady_state/@midpoint = -59.0 /channelml/channel_type/current_voltage_relation/gate[2]/@name = h /channelml/channel_type/current_voltage_relation/gate[2]/@instances = 1 /channelml/channel_type/current_voltage_relation/gate[2]/closed_state/@id = h0 /channelml/channel_type/current_voltage_relation/gate[2]/open_state/@id = h /channelml/channel_type/current_voltage_relation/gate[2]/open_state/@fraction = 1 /channelml/channel_type/current_voltage_relation/gate[2]/time_course/@name = tau /channelml/channel_type/current_voltage_relation/gate[2]/time_course/@from = h0 /channelml/channel_type/current_voltage_relation/gate[2]/time_course/@to = h /channelml/channel_type/current_voltage_relation/gate[2]/time_course/@expr_form = generic /channelml/channel_type/current_voltage_relation/gate[2]/time_course/@expr = (5000+(16000 * (exp(0 - ((v + 50)/20)^2)))) /channelml/channel_type/current_voltage_relation/gate[2]/steady_state/@name = inf /channelml/channel_type/current_voltage_relation/gate[2]/steady_state/@from = h0 /channelml/channel_type/current_voltage_relation/gate[2]/steady_state/@to = h /channelml/channel_type/current_voltage_relation/gate[2]/steady_state/@expr_form = sigmoid /channelml/channel_type/current_voltage_relation/gate[2]/steady_state/@rate = 0.499622025796 /channelml/channel_type/current_voltage_relation/gate[2]/steady_state/@scale = 4.9 /channelml/channel_type/current_voltage_relation/gate[2]/steady_state/@midpoint = -59.0 /channelml/channel_type/current_voltage_relation/gate[3]/@name = n /channelml/channel_type/current_voltage_relation/gate[3]/@instances = 1 /channelml/channel_type/current_voltage_relation/gate[3]/closed_state/@id = n0 /channelml/channel_type/current_voltage_relation/gate[3]/open_state/@id = n /channelml/channel_type/current_voltage_relation/gate[3]/open_state/@fraction = 1 /channelml/channel_type/current_voltage_relation/gate[3]/time_course/@name = tau /channelml/channel_type/current_voltage_relation/gate[3]/time_course/@from = n0 /channelml/channel_type/current_voltage_relation/gate[3]/time_course/@to = n /channelml/channel_type/current_voltage_relation/gate[3]/time_course/@expr_form = generic /channelml/channel_type/current_voltage_relation/gate[3]/time_course/@expr = (2+(4 * (exp(0 - ((v + 50)/20)^2)))) /channelml/channel_type/current_voltage_relation/gate[3]/steady_state/@name = inf /channelml/channel_type/current_voltage_relation/gate[3]/steady_state/@from = n0 /channelml/channel_type/current_voltage_relation/gate[3]/steady_state/@to = n /channelml/channel_type/current_voltage_relation/gate[3]/steady_state/@expr_form = sigmoid /channelml/channel_type/current_voltage_relation/gate[3]/steady_state/@rate = 0.499622025796 /channelml/channel_type/current_voltage_relation/gate[3]/steady_state/@scale = 4.9 /channelml/channel_type/current_voltage_relation/gate[3]/steady_state/@midpoint = -59.0 /channelml/channel_type/impl_prefs/table_settings/@max_v = 100 /channelml/channel_type/impl_prefs/table_settings/@min_v = -100 /channelml/channel_type/impl_prefs/table_settings/@table_divisions = 2000 // File from which this was generated: /home/Simon/NML2_Test/iAMC_Fig10H2T/AOB_MC_neuroConstruct/cellMechanisms/NaP_iAMC_Fig10Hii_ChannelML/NaChannel.xml // XSL file with mapping to simulator: /home/Simon/NML2_Test/iAMC_Fig10H2T/AOB_MC_neuroConstruct/cellMechanisms/NaP_iAMC_Fig10Hii_ChannelML/ChannelML_v1.8.1_NEURONmod.xsl ENDCOMMENT ? This is a NEURON mod file generated from a ChannelML file ? Unit system of original ChannelML file: Physiological Units COMMENT Mitral Cell Persistent Sodium ion Channel ENDCOMMENT TITLE Channel: NaP_iAMC_Fig10Hii_ChannelML COMMENT Na Channel ENDCOMMENT
• Temperature: No temperature dependence

Current Response Traces

Activation

Inactivation

Deactivation

Action Potential

Ramp