Skip to content

Instantly share code, notes, and snippets.

Embed
What would you like to do?
NML input String which generates the exception
<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.githubusercontent.com/NeuroML/NeuroML2/development/Schemas/NeuroML2/NeuroML_v2beta4.xsd" id="network_t3">
<notes>
Network structure (NeuroML 2beta4) for project: t3 saved with neuroConstruct v1.7.1 on: 19:48:05, 22-Oct-15
Cell Group: CG_C04_RS_sm contains 20 cells
Cell Group: CG_C04_AxAx_sm contains 10 cells
Cell Group: CG_C04_Bask_sm contains 10 cells
Cell Group: CG_C04_LTS_sm contains 10 cells
Cell Group: CG_C04_FRB_sm contains 6 cells
Network connection: RS_RS_gap_sm contains 24 individual synaptic connections
Network connection: AxAx_AxAx_gap_sm contains 20 individual synaptic connections
Network connection: LTS_AxAx_sm contains 200 individual synaptic connections
Network connection: Bask_FRB_sm contains 120 individual synaptic connections
Network connection: Bask_Bask_gap_sm contains 20 individual synaptic connections
Network connection: Bask_Bask_sm contains 200 individual synaptic connections
Network connection: Bask_RS_sm contains 400 individual synaptic connections
Network connection: LTS_RS_sm contains 1200 individual synaptic connections
Network connection: LTS_LTS_gap_sm contains 20 individual synaptic connections
Network connection: Bask_AxAx_sm contains 200 individual synaptic connections
Network connection: FRB_LTS_sm contains 100 individual synaptic connections
Network connection: AxAx_FRB_sm contains 120 individual synaptic connections
Network connection: RS_Bask_sm contains 900 individual synaptic connections
Net
work connection: FRB_RS_gap_sm contains 7 individual synaptic connections
Network connection: RS_AxAx_sm contains 900 individual synaptic connections
Network connection: FRB_Bask_sm contains 100 individual synaptic connections
Network connection: LTS_Pyr_sm contains 360 individual synaptic connections
Network connection: RS_LTS_sm contains 900 individual synaptic connections
Network connection: LTS_LTS_sm contains 200 individual synaptic connections
Network connection: Bask_LTS_sm contains 200 individual synaptic connections
Network connection: FRB_FRB_sm contains 30 individual synaptic connections
Network connection: RS_FRB_gap_sm contains 1 individual synaptic connections
Network connection: FRB_RS_sm contains 100 individual synaptic connections
Network connection: AxAx_RS_sm contains 400 individual synaptic connections
Network connection: LTS_Bask_sm contains 200 individual synaptic connections
Network connection: FRB_AxAx_sm contains 100 individual synaptic connections
Network connection: RS_FRB_sm contains 270 individual synaptic connections
Network connection: RS_RS_sm contains 900 individual synaptic connections
</notes>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="cal" conductance="10pS" type="ionChannelHH" species="ca">
<notes>High threshold, long lasting Calcium L-type current. Based on NEURON port of FRB L2/3 model from Traub et al 2003. Same channel used in Traub et al 2005</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="cal">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqbiol:isVersionOf xmlns:bqbiol="http://biomodels.net/biology-qualifiers/">
<rdf:Bag>
<rdf:li>Calcium channels</rdf:li>
<rdf:li rdf:resource="http://senselab.med.yale.edu/senselab/NeuronDB/channelGene2.htm#table1"/>
</rdf:Bag>
</bqbiol:isVersionOf>
</rdf:Description>
</rdf:RDF>
</annotation>
<gate id="m" type="gateHHrates" instances="2">
<forwardRate type="HHSigmoidRate" rate="1.6per_ms" scale="13.888889mV" midpoint="5mV"/>
<reverseRate type="HHExpLinearRate" rate="0.1per_ms" scale="-5mV" midpoint="-8.9mV"/>
</gate>
</ionChannel>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="cat" conductance="10pS" type="ionChannelHH" species="cat">
<notes>Low threshold, inactivating Calcium T-type ("transient") conductance. Based on NEURON port of FRB L2/3 model from Traub et al 2003. Same channel used in Traub et al 2005</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="cat">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqbiol:isVersionOf xmlns:bqbiol="http://biomodels.net/biology-qualifiers/">
<rdf:Bag>
<rdf:li>Calcium channels</rdf:li>
<rdf:li rdf:resource="http://senselab.med.yale.edu/senselab/NeuronDB/channelGene2.htm#table1"/>
</rdf:Bag>
</bqbiol:isVersionOf>
</rdf:Description>
</rdf:RDF>
</annotation>
<gate id="m" type="gateHHtauInf" instances="2">
<timeCourse type="cat_m_tau_tau"/>
<steadyState type="HHSigmoidVariable" rate="1" scale="6.2mV" midpoint="-56.0mV"/>
</gate>
<gate id="h" type="gateHHtauInf" instances="1">
<timeCourse type="cat_h_tau_tau"/>
<steadyState type="HHSigmoidVariable" rate="1" scale="-4mV" midpoint="-80mV"/>
</gate>
</ionChannel>
<ComponentType name="cat_m_tau_tau" extends="baseVoltageDepTime">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="t" exposure="t" dimension="time" value="(0.204 + 0.333 / ( (exp ((15.8 + V) / 18.2 )) + (exp ((- V - 131) / 16.7)) )) * TIME_SCALE"/>
</Dynamics>
</ComponentType>
<ComponentType name="cat_h_tau_tau" extends="baseVoltageDepTime">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<ConditionalDerivedVariable name="t" exposure="t" dimension="time">
<Case condition="V .lt. ( -81.0 )" value="( 0.333 * (exp (( V + 466 ) / 66.6)) ) * TIME_SCALE"/>
<Case value="( 9.32 + 0.333 * (exp (( - V - 21 ) / 10.5))) * TIME_SCALE"/>
</ConditionalDerivedVariable>
</Dynamics>
</ComponentType>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="cat_a" conductance="10pS" type="ionChannelHH" species="cat_a">
<notes>Low threshold, inactivating Calcium T-type ("transient") conductance. Based on Traub et al 2005, variation on CaT in Traub et al 2003</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="cat_a">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqbiol:isVersionOf xmlns:bqbiol="http://biomodels.net/biology-qualifiers/">
<rdf:Bag>
<rdf:li>Calcium channels</rdf:li>
<rdf:li rdf:resource="http://senselab.med.yale.edu/senselab/NeuronDB/channelGene2.htm#table1"/>
</rdf:Bag>
</bqbiol:isVersionOf>
</rdf:Description>
</rdf:RDF>
</annotation>
<gate id="m" type="gateHHtauInf" instances="2">
<timeCourse type="cat_a_m_tau_tau"/>
<steadyState type="HHSigmoidVariable" rate="1" scale="7.4mV" midpoint="-52mV"/>
</gate>
<gate id="h" type="gateHHtauInf" instances="1">
<timeCourse type="cat_a_h_tau_tau"/>
<steadyState type="HHSigmoidVariable" rate="1" scale="-5mV" midpoint="-80mV"/>
</gate>
</ionChannel>
<ComponentType name="cat_a_m_tau_tau" extends="baseVoltageDepTime">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="t" exposure="t" dimension="time" value="(1 + 0.33 / ( (exp ((V + 27) / 10 )) + (exp ((- V - 102) / 15)) )) * TIME_SCALE"/>
</Dynamics>
</ComponentType>
<ComponentType name="cat_a_h_tau_tau" extends="baseVoltageDepTime">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="t" exposure="t" dimension="time" value="(28.3 + 0.33 / ((exp (( V + 48)/ 4)) + (exp ( ( -V - 407) / 50 )) ) ) * TIME_SCALE"/>
</Dynamics>
</ComponentType>
<notes>ChannelML file describing a single synaptic mechanism</notes>
<expTwoSynapse id="Exc_Pyr_Int" tauRise="0.8ms" tauDecay="0.8ms" gbase="0.88291065831095217E-6mS" erev="0mV">
<notes>Simple example of a synaptic mechanism, which consists of a postsynaptic conductance which changes as
double exponential function of time. Mappings exist for NEURON and GENESIS.</notes>
</expTwoSynapse>
<notes>ChannelML file describing a single synaptic mechanism</notes>
<expTwoSynapse id="Exc_Pyr_Pyr" tauRise="2ms" tauDecay="2ms" gbase="0.18393972e-6mS" erev="0mV">
<notes>Simple example of a synaptic mechanism, which consists of a postsynaptic conductance which changes as
double exponential function of time. Mappings exist for NEURON and GENESIS.</notes>
</expTwoSynapse>
<notes>ChannelML file describing a single synaptic mechanism</notes>
<gapJunction id="GapJuncCML" conductance="3E-6mS"/>
<notes>ChannelML file describing a single synaptic mechanism</notes>
<gapJunction id="GapJuncFS" conductance="1E-6mS"/>
<notes>ChannelML file describing a single synaptic mechanism</notes>
<gapJunction id="GapJuncLTS" conductance="1E-6mS"/>
<notes>ChannelML file describing a single synaptic mechanism</notes>
<expOneSynapse id="Inh_Axo_Pyr" tauDecay="6ms" gbase="0.4E-6mS" erev="-70mV">
<notes>Simple example of a synaptic mechanism, which consists of a postsynaptic conductance which changes as
double exponential function of time. Mappings exist for NEURON and GENESIS.</notes>
</expOneSynapse>
<notes>ChannelML file describing a single synaptic mechanism</notes>
<expOneSynapse id="Inh_Bask_FS" tauDecay="6ms" gbase="0.2E-6mS" erev="-70mV">
<notes>Simple example of a synaptic mechanism, which consists of a postsynaptic conductance which changes as
double exponential function of time. Mappings exist for NEURON and GENESIS.</notes>
</expOneSynapse>
<notes>ChannelML file describing a single synaptic mechanism</notes>
<expOneSynapse id="Inh_Bask_LTS" tauDecay="6ms" gbase="1.0E-6mS" erev="-70mV">
<notes>Simple example of a synaptic mechanism, which consists of a postsynaptic conductance which changes as
double exponential function of time. Mappings exist for NEURON and GENESIS.</notes>
</expOneSynapse>
<notes>ChannelML file describing a single synaptic mechanism</notes>
<expOneSynapse id="Inh_Bask_Pyr" tauDecay="6ms" gbase="0.4e-6mS" erev="-70mV">
<notes>Simple example of a synaptic mechanism, which consists of a postsynaptic conductance which changes as
double exponential function of time. Mappings exist for NEURON and GENESIS.</notes>
</expOneSynapse>
<notes>ChannelML file describing a single synaptic mechanism</notes>
<expOneSynapse id="Inh_LTS_FS" tauDecay="20ms" gbase="0.025E-6mS" erev="-70mV">
<notes>Simple example of a synaptic mechanism, which consists of a postsynaptic conductance which changes as
double exponential function of time. Mappings exist for NEURON and GENESIS.</notes>
</expOneSynapse>
<notes>ChannelML file describing a single synaptic mechanism</notes>
<expOneSynapse id="Inh_LTS_LTS" tauDecay="20ms" gbase="0.05E-6mS" erev="-70mV">
<notes>Simple example of a synaptic mechanism, which consists of a postsynaptic conductance which changes as
double exponential function of time. Mappings exist for NEURON and GENESIS.</notes>
</expOneSynapse>
<notes>ChannelML file describing a single synaptic mechanism</notes>
<expOneSynapse id="Inh_LTS_Pyr" tauDecay="20ms" gbase="0.2E-6mS" erev="-70mV">
<notes>Simple example of a synaptic mechanism, which consists of a postsynaptic conductance which changes as
double exponential function of time. Mappings exist for NEURON and GENESIS.</notes>
</expOneSynapse>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="k2" conductance="10pS" type="ionChannelHH" species="k">
<notes>Potasium K2-type current (slowly activating and inactivating). Based on NEURON port of FRB L2/3 model from Traub et al 2003. Same channel used in Traub et al 2005</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="k2">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqbiol:isVersionOf xmlns:bqbiol="http://biomodels.net/biology-qualifiers/">
<rdf:Bag>
<rdf:li>K channels</rdf:li>
<rdf:li rdf:resource="http://senselab.med.yale.edu/senselab/NeuronDB/channelGene2.htm#table3"/>
</rdf:Bag>
</bqbiol:isVersionOf>
</rdf:Description>
</rdf:RDF>
</annotation>
<gate id="m" type="gateHHtauInf" instances="1">
<timeCourse type="k2_m_tau_tau"/>
<steadyState type="HHSigmoidVariable" rate="1" scale="17mV" midpoint="-10mV"/>
</gate>
<gate id="h" type="gateHHtauInf" instances="1">
<timeCourse type="k2_h_tau_tau"/>
<steadyState type="HHSigmoidVariable" rate="1" scale="-10.6mV" midpoint="-58mV"/>
</gate>
</ionChannel>
<ComponentType name="k2_m_tau_tau" extends="baseVoltageDepTime">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="t" exposure="t" dimension="time" value="(4.95 + 0.5 / ( (exp ( (V - 81) / 25.6)) + (exp ( (- V - 132) / 18 )))) * TIME_SCALE"/>
</Dynamics>
</ComponentType>
<ComponentType name="k2_h_tau_tau" extends="baseVoltageDepTime">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="t" exposure="t" dimension="time" value="(60 + 0.5 / ((exp (( V - 1.33 )/200)) + (exp ((- V - 130)/ 7.1)))) * TIME_SCALE"/>
</Dynamics>
</ComponentType>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="ka" conductance="10pS" type="ionChannelHH" species="k">
<notes>Potasium A-type conductance (transient, inactivating). Based on NEURON port of FRB L2/3 model from Traub et al 2003. Same channel used in Traub et al 2005</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="ka">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqbiol:isVersionOf xmlns:bqbiol="http://biomodels.net/biology-qualifiers/">
<rdf:Bag>
<rdf:li>K channels</rdf:li>
<rdf:li rdf:resource="http://senselab.med.yale.edu/senselab/NeuronDB/channelGene2.htm#table3"/>
</rdf:Bag>
</bqbiol:isVersionOf>
</rdf:Description>
</rdf:RDF>
</annotation>
<gate id="m" type="gateHHtauInf" instances="4">
<timeCourse type="ka_m_tau_tau"/>
<steadyState type="HHSigmoidVariable" rate="1" scale="8.5mV" midpoint="-60mV"/>
</gate>
<gate id="h" type="gateHHtauInf" instances="1">
<timeCourse type="ka_h_tau_tau"/>
<steadyState type="HHSigmoidVariable" rate="1" scale="-6mV" midpoint="-78mV"/>
</gate>
</ionChannel>
<ComponentType name="ka_m_tau_tau" extends="baseVoltageDepTime">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="t" exposure="t" dimension="time" value="(0.185 + 0.5 / ((exp (( V + 35.8 )/19.7)) + (exp ((-V - 79.7)/12.7)))) * TIME_SCALE"/>
</Dynamics>
</ComponentType>
<ComponentType name="ka_h_tau_tau" extends="baseVoltageDepTime">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<ConditionalDerivedVariable name="t" exposure="t" dimension="time">
<Case condition="V .lt. ( -63.0 )" value="( 0.5 / ((exp (( V + 46 )/5)) + (exp (( -V - 238 )/37.5))) ) * TIME_SCALE"/>
<Case value="( 9.5) * TIME_SCALE"/>
</ConditionalDerivedVariable>
</Dynamics>
</ComponentType>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="kahp" conductance="10pS" type="ionChannelHH" species="k">
<notes>[Ca2+] dependent K AHP (afterhyperpolarization) conductance. Based on NEURON port of FRB L2/3 model from Traub et al 2003. Same channel used in Traub et al 2005</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="kahp">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqbiol:isVersionOf xmlns:bqbiol="http://biomodels.net/biology-qualifiers/">
<rdf:Bag>
<rdf:li>K channels</rdf:li>
<rdf:li rdf:resource="http://senselab.med.yale.edu/senselab/NeuronDB/channelGene2.htm#table3"/>
</rdf:Bag>
</bqbiol:isVersionOf>
</rdf:Description>
</rdf:RDF>
</annotation>
<gate id="m" type="gateHHrates" instances="1">
<forwardRate type="kahp_m_alpha_rate"/>
<reverseRate type="kahp_m_beta_rate"/>
</gate>
</ionChannel>
<ComponentType name="kahp_m_alpha_rate" extends="baseVoltageConcDepRate">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Constant name="CONC_SCALE" dimension="concentration" value="1 mol_per_cm3"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="ca_conc" dimension="none" value="caConc / CONC_SCALE"/>
<ConditionalDerivedVariable name="r" exposure="r" dimension="per_time">
<Case condition="ca_conc .lt. ( 0.0001 )" value="( ca_conc/0.01 ) / TIME_SCALE"/>
<Case value="( 0.01) / TIME_SCALE"/>
</ConditionalDerivedVariable>
</Dynamics>
</ComponentType>
<ComponentType name="kahp_m_beta_rate" extends="baseVoltageConcDepRate">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Constant name="CONC_SCALE" dimension="concentration" value="1 mol_per_cm3"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="ca_conc" dimension="none" value="caConc / CONC_SCALE"/>
<DerivedVariable name="r" exposure="r" dimension="per_time" value="(0.01) / TIME_SCALE"/>
</Dynamics>
</ComponentType>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="kahp_slower" conductance="10pS" type="ionChannelHH" species="k">
<notes>Slow [Ca2+] dependent K AHP (afterhyperpolarization) conductance. Slower version of kahp from Traub et al 2003</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="kahp_slower">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqbiol:isVersionOf xmlns:bqbiol="http://biomodels.net/biology-qualifiers/">
<rdf:Bag>
<rdf:li>K channels</rdf:li>
<rdf:li rdf:resource="http://senselab.med.yale.edu/senselab/NeuronDB/channelGene2.htm#table3"/>
</rdf:Bag>
</bqbiol:isVersionOf>
</rdf:Description>
</rdf:RDF>
</annotation>
<gate id="m" type="gateHHrates" instances="1">
<forwardRate type="kahp_slower_m_alpha_rate"/>
<reverseRate type="kahp_slower_m_beta_rate"/>
</gate>
</ionChannel>
<ComponentType name="kahp_slower_m_alpha_rate" extends="baseVoltageConcDepRate">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Constant name="CONC_SCALE" dimension="concentration" value="1 mol_per_cm3"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="ca_conc" dimension="none" value="caConc / CONC_SCALE"/>
<ConditionalDerivedVariable name="r" exposure="r" dimension="per_time">
<Case condition="ca_conc .lt. ( 0.0005 )" value="( ca_conc/0.05 ) / TIME_SCALE"/>
<Case value="( 0.01) / TIME_SCALE"/>
</ConditionalDerivedVariable>
</Dynamics>
</ComponentType>
<ComponentType name="kahp_slower_m_beta_rate" extends="baseVoltageConcDepRate">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Constant name="CONC_SCALE" dimension="concentration" value="1 mol_per_cm3"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="ca_conc" dimension="none" value="caConc / CONC_SCALE"/>
<DerivedVariable name="r" exposure="r" dimension="per_time" value="(0.001) / TIME_SCALE"/>
</Dynamics>
</ComponentType>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="kc" conductance="10pS" type="ionChannelHH" species="k">
<notes>Fast voltage and [Ca2+] dependent K conductance (BK channel). Based on NEURON port of FRB L2/3 model from Traub et al 2003. Same channel used in Traub et al 2005</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="kc">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqbiol:isVersionOf xmlns:bqbiol="http://biomodels.net/biology-qualifiers/">
<rdf:Bag>
<rdf:li>K channels</rdf:li>
<rdf:li rdf:resource="http://senselab.med.yale.edu/senselab/NeuronDB/channelGene2.htm#table3"/>
</rdf:Bag>
</bqbiol:isVersionOf>
</rdf:Description>
</rdf:RDF>
</annotation>
<baseConductanceScalingCaDependent type="cond_scaling_kc"/>
<gate id="m" type="gateHHrates" instances="1">
<forwardRate type="kc_m_alpha_rate"/>
<reverseRate type="kc_m_beta_rate"/>
</gate>
</ionChannel>
<ComponentType name="cond_scaling_kc" extends="baseConductanceScalingCaDependent">
<Constant name="CONC_SCALE" dimension="concentration" value="1 mol_per_cm3"/>
<Dynamics>
<DerivedVariable name="ca_conc" dimension="none" value="caConc / CONC_SCALE"/>
<ConditionalDerivedVariable name="factor" exposure="factor" dimension="none">
<Case condition="ca_conc .lt. ( 0.00025 )" value=" (ca_conc / 0.00025) "/>
<Case value=" 1"/>
</ConditionalDerivedVariable>
</Dynamics>
</ComponentType>
<ComponentType name="kc_m_alpha_rate" extends="baseVoltageDepRate">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<ConditionalDerivedVariable name="r" exposure="r" dimension="per_time">
<Case condition="V .lt. ( -10 )" value="( (2 / 37.95) * ( exp ( ((V + 50 ) / 11) - (( V + 53.5) / 27) ) ) ) / TIME_SCALE"/>
<Case value="( 2 * (exp ( ( (-1 * V) - 53.5 ) / 27 ))) / TIME_SCALE"/>
</ConditionalDerivedVariable>
</Dynamics>
</ComponentType>
<ComponentType name="kc_m_beta_rate" extends="baseVoltageDepRate">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Requirement name="alpha" dimension="per_time"/>
<Requirement name="beta" dimension="per_time"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="ALPHA" dimension="none" value="alpha * TIME_SCALE"/>
<DerivedVariable name="BETA" dimension="none" value="beta * TIME_SCALE"/>
<ConditionalDerivedVariable name="r" exposure="r" dimension="per_time">
<Case condition="V .lt. ( -10 )" value="( 2 * (exp ( ( (-1 * V) - 53.5 ) / 27 )) - ALPHA ) / TIME_SCALE"/>
<Case value="( 0.0) / TIME_SCALE"/>
</ConditionalDerivedVariable>
</Dynamics>
</ComponentType>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="kc_fast" conductance="10pS" type="ionChannelHH" species="k">
<notes>Fast voltage and [Ca2+] dependent K conductance (BK channel). Based on NEURON port of FRB L2/3 model from Traub et al 2003. Same channel used in Traub et al 2005</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="kc_fast">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqbiol:isVersionOf xmlns:bqbiol="http://biomodels.net/biology-qualifiers/">
<rdf:Bag>
<rdf:li>K channels</rdf:li>
<rdf:li rdf:resource="http://senselab.med.yale.edu/senselab/NeuronDB/channelGene2.htm#table3"/>
</rdf:Bag>
</bqbiol:isVersionOf>
</rdf:Description>
</rdf:RDF>
</annotation>
<baseConductanceScalingCaDependent type="cond_scaling_kc_fast"/>
<gate id="m" type="gateHHrates" instances="1">
<forwardRate type="kc_fast_m_alpha_rate"/>
<reverseRate type="kc_fast_m_beta_rate"/>
</gate>
</ionChannel>
<ComponentType name="cond_scaling_kc_fast" extends="baseConductanceScalingCaDependent">
<Constant name="CONC_SCALE" dimension="concentration" value="1 mol_per_cm3"/>
<Dynamics>
<DerivedVariable name="ca_conc" dimension="none" value="caConc / CONC_SCALE"/>
<ConditionalDerivedVariable name="factor" exposure="factor" dimension="none">
<Case condition="ca_conc .lt. ( 0.00025 )" value=" (ca_conc / 0.00025) "/>
<Case value=" 1"/>
</ConditionalDerivedVariable>
</Dynamics>
</ComponentType>
<ComponentType name="kc_fast_m_alpha_rate" extends="baseVoltageDepRate">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Constant name="speedup_factor" dimension="none" value="2"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<ConditionalDerivedVariable name="r" exposure="r" dimension="per_time">
<Case condition="V .lt. ( -10 )" value="( speedup_factor * (2 / 37.95) * ( exp ( ((V + 50 ) / 11) - (( V + 53.5) / 27) ) ) ) / TIME_SCALE"/>
<Case value="( speedup_factor * 2 * (exp ( ( (-1 * V) - 53.5 ) / 27 ))) / TIME_SCALE"/>
</ConditionalDerivedVariable>
</Dynamics>
</ComponentType>
<ComponentType name="kc_fast_m_beta_rate" extends="baseVoltageDepRate">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Constant name="speedup_factor" dimension="none" value="2"/>
<Requirement name="alpha" dimension="per_time"/>
<Requirement name="beta" dimension="per_time"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="ALPHA" dimension="none" value="alpha * TIME_SCALE"/>
<DerivedVariable name="BETA" dimension="none" value="beta * TIME_SCALE"/>
<ConditionalDerivedVariable name="r" exposure="r" dimension="per_time">
<Case condition="V .lt. ( -10 )" value="( speedup_factor * 2 * (exp ( ( (-1 * V) - 53.5 ) / 27 )) - ALPHA ) / TIME_SCALE"/>
<Case value="( speedup_factor * 0.0) / TIME_SCALE"/>
</ConditionalDerivedVariable>
</Dynamics>
</ComponentType>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="kdr" conductance="10pS" type="ionChannelHH" species="k">
<notes>Delayed rectifier potassium conductance. Based on NEURON port of FRB L2/3 model from Traub et al 2003. Same channel used in Traub et al 2005</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="kdr">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqbiol:isVersionOf xmlns:bqbiol="http://biomodels.net/biology-qualifiers/">
<rdf:Bag>
<rdf:li>K channels</rdf:li>
<rdf:li rdf:resource="http://senselab.med.yale.edu/senselab/NeuronDB/channelGene2.htm#table3"/>
</rdf:Bag>
</bqbiol:isVersionOf>
</rdf:Description>
</rdf:RDF>
</annotation>
<gate id="m" type="gateHHtauInf" instances="4">
<timeCourse type="kdr_m_tau_tau"/>
<steadyState type="HHSigmoidVariable" rate="1" scale="10mV" midpoint="-29.5mV"/>
</gate>
</ionChannel>
<ComponentType name="kdr_m_tau_tau" extends="baseVoltageDepTime">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<ConditionalDerivedVariable name="t" exposure="t" dimension="time">
<Case condition="V .lt. ( -10 )" value="( 0.25 + 4.35 * (exp (( V + 10 )/10)) ) * TIME_SCALE"/>
<Case value="( 0.25 + 4.35 * (exp ((- V - 10)/ 10))) * TIME_SCALE"/>
</ConditionalDerivedVariable>
</Dynamics>
</ComponentType>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="kdr_fs" conductance="10pS" type="ionChannelHH" species="k">
<notes>Potasium delayed rectifier type conductance for fast-spiking (FS) interneurons for RD Traub et al 2005</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="kdr_fs">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqbiol:isVersionOf xmlns:bqbiol="http://biomodels.net/biology-qualifiers/">
<rdf:Bag>
<rdf:li>K channels</rdf:li>
<rdf:li rdf:resource="http://senselab.med.yale.edu/senselab/NeuronDB/channelGene2.htm#table3"/>
</rdf:Bag>
</bqbiol:isVersionOf>
</rdf:Description>
</rdf:RDF>
</annotation>
<gate id="m" type="gateHHtauInf" instances="4">
<timeCourse type="kdr_fs_m_tau_tau"/>
<steadyState type="HHSigmoidVariable" rate="1" scale="11.5mV" midpoint="-27mV"/>
</gate>
</ionChannel>
<ComponentType name="kdr_fs_m_tau_tau" extends="baseVoltageDepTime">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<ConditionalDerivedVariable name="t" exposure="t" dimension="time">
<Case condition="V .leq. ( -10 )" value="( 0.25 + 4.35 * (exp (( V + 10 )/10)) ) * TIME_SCALE"/>
<Case value="( 0.25 + 4.35 * (exp ((- V - 10)/ 10))) * TIME_SCALE"/>
</ConditionalDerivedVariable>
</Dynamics>
</ComponentType>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="km" conductance="10pS" type="ionChannelHH" species="k">
<notes>Potasium M type current (muscarinic receptor-suppressed). Based on NEURON port of model from Traub et al 2003</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="km">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqbiol:isVersionOf xmlns:bqbiol="http://biomodels.net/biology-qualifiers/">
<rdf:Bag>
<rdf:li>K channels</rdf:li>
<rdf:li rdf:resource="http://senselab.med.yale.edu/senselab/NeuronDB/channelGene2.htm#table3"/>
</rdf:Bag>
</bqbiol:isVersionOf>
</rdf:Description>
</rdf:RDF>
</annotation>
<gate id="m" type="gateHHrates" instances="1">
<forwardRate type="HHSigmoidRate" rate="0.02per_ms" scale="5mV" midpoint="-20mV"/>
<reverseRate type="HHExpRate" rate="0.01per_ms" scale="-18mV" midpoint="-43mV"/>
</gate>
</ionChannel>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="ar__m00_25" conductance="10pS" type="ionChannelHH" species="ar">
<notes>Anomalous Rectifier conductance, also known as h-conductance (hyperpolarizing). Based on NEURON port of FRB L2/3 model from Traub et al 2003. Same channel used in Traub et al 2005</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="ar">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
</rdf:Description>
</rdf:RDF>
</annotation>
<gate id="m" type="gateHHtauInf" instances="1">
<timeCourse type="ar__m00_25_m_tau_tau"/>
<steadyState type="HHSigmoidVariable" rate="1" scale="-5.5mV" midpoint="-75mV"/>
</gate>
</ionChannel>
<ComponentType name="ar__m00_25_m_tau_tau" extends="baseVoltageDepTime">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Constant name="m0" dimension="none" value="0.25"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="t" exposure="t" dimension="time" value="(1 /((exp (-14.6 - (0.086 * V) )) + (exp (-1.87 + (0.07 * V))))) * TIME_SCALE"/>
</Dynamics>
</ComponentType>
<notes>ChannelML file based on Traub et al. 2003</notes>
<fixedFactorConcentrationModelTraub id="cad__beta0_01__phi26000" restingConc="0mol_per_cm3" beta="0.01 per_ms" ion="ca" phi="26000.0 mol_per_cm_per_uA_per_ms"/>
<notes>ChannelML file based on Traub et al. 2003</notes>
<fixedFactorConcentrationModelTraub id="cad__beta0_05__phi52000" restingConc="0mol_per_cm3" beta="0.05 per_ms" ion="ca" phi="52000.0 mol_per_cm_per_uA_per_ms"/>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="naf__a0__b0__c0__d0__fastNa_shiftmin3_5" conductance="10pS" type="ionChannelHH" species="na">
<notes>Fast Sodium transient (inactivating) current. Based on NEURON port of FRB L2/3 model from Traub et al 2003. Same channel used in Traub et al 2005</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="naf">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqbiol:isVersionOf xmlns:bqbiol="http://biomodels.net/biology-qualifiers/">
<rdf:Bag>
<rdf:li>Na channels</rdf:li>
<rdf:li rdf:resource="http://senselab.med.yale.edu/senselab/NeuronDB/channelGene2.htm#table2"/>
</rdf:Bag>
</bqbiol:isVersionOf>
</rdf:Description>
</rdf:RDF>
</annotation>
<gate id="m" type="gateHHtauInf" instances="3">
<timeCourse type="naf__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5_m_tau_tau"/>
<steadyState type="naf__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5_m_inf_inf"/>
</gate>
<gate id="h" type="gateHHtauInf" instances="1">
<timeCourse type="naf__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5_h_tau_tau"/>
<steadyState type="naf__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5_h_inf_inf"/>
</gate>
</ionChannel>
<ComponentType name="naf__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5_m_tau_tau" extends="baseVoltageDepTime">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Constant name="fastNa_shift" dimension="none" value="-3.5"/>
<Constant name="a" dimension="none" value="0.0"/>
<Constant name="b" dimension="none" value="0.0"/>
<Constant name="c" dimension="none" value="0.0"/>
<Constant name="d" dimension="none" value="0.0"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<ConditionalDerivedVariable name="t" exposure="t" dimension="time">
<Case condition="(V + fastNa_shift) .lt. ( -30 )" value="( 0.025 + 0.14 * ( exp ( ((V + fastNa_shift) + 30) / 10) ) ) * TIME_SCALE"/>
<Case value="( 0.02 + a + (0.145 + b) * ( exp ( -1 * ((V + fastNa_shift + d) + 30) / (10.0 + c)) )) * TIME_SCALE"/>
</ConditionalDerivedVariable>
</Dynamics>
</ComponentType>
<ComponentType name="naf__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5_m_inf_inf" extends="baseVoltageDepVariable">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Constant name="fastNa_shift" dimension="none" value="-3.5"/>
<Constant name="a" dimension="none" value="0.0"/>
<Constant name="b" dimension="none" value="0.0"/>
<Constant name="c" dimension="none" value="0.0"/>
<Constant name="d" dimension="none" value="0.0"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="x" exposure="x" dimension="none" value=" 1 / ( 1 + (exp ( ( -1 * (V + fastNa_shift) - 38) / 10)) ) "/>
</Dynamics>
</ComponentType>
<ComponentType name="naf__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5_h_tau_tau" extends="baseVoltageDepTime">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Constant name="fastNa_shift" dimension="none" value="-3.5"/>
<Constant name="a" dimension="none" value="0.0"/>
<Constant name="b" dimension="none" value="0.0"/>
<Constant name="c" dimension="none" value="0.0"/>
<Constant name="d" dimension="none" value="0.0"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="t" exposure="t" dimension="time" value="(0.15 + 1.15 / ( 1 + ( exp (( ( V + fastNa_shift * 0 ) + 37 ) / 15) ) )) * TIME_SCALE"/>
</Dynamics>
</ComponentType>
<ComponentType name="naf__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5__a0__b0__c0__d0__fastNa_shiftmin3_5_h_inf_inf" extends="baseVoltageDepVariable">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Constant name="fastNa_shift" dimension="none" value="-3.5"/>
<Constant name="a" dimension="none" value="0.0"/>
<Constant name="b" dimension="none" value="0.0"/>
<Constant name="c" dimension="none" value="0.0"/>
<Constant name="d" dimension="none" value="0.0"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<DerivedVariable name="x" exposure="x" dimension="none" value="1 / ( 1 + (exp (( ( V + fastNa_shift * 0 ) + 62.9 ) / 10.7)) )"/>
</Dynamics>
</ComponentType>
<notes>ChannelML file based on Traub et al. 2003</notes>
<ionChannel id="nap" conductance="10pS" type="ionChannelHH" species="na">
<notes>Persistent (non inactivating) Sodium channel. Based on NEURON port of FRB L2/3 model from Traub et al 2003. Same channel used in Traub et al 2005</notes>
<annotation>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Description rdf:about="nap">
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Eberhard H. Buhl, Tengis Gloveli, and Miles A. Whittington
Fast Rhythmic Bursting Can Be Induced in Layer 2/3 Cortical Neurons by Enhancing Persistent Na+ Conductance or by Blocking BK Channels
J Neurophysiol 89: 909-921, 2003</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=pubmed&amp;dopt=Abstract&amp;list_uids=12574468"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqmodel:isDescribedBy xmlns:bqmodel="http://biomodels.net/model-qualifiers/">
<rdf:Bag>
<rdf:li>Roger D. Traub, Diego Contreras, Mark O. Cunningham, Hilary Murray, Fiona E. N. LeBeau, Anita Roopun, Andrea Bibbig, W. Bryan Wilent, Michael J. Higley, and Miles A. Whittington
Single-column thalamocortical network model exhibiting gamma oscillations, sleep spindles, and epileptogenic bursts.
J. Neurophysiol. 93, 2194-2232, 2005</rdf:li>
<rdf:li rdf:resource="http://www.ncbi.nlm.nih.gov/pubmed/15525801?dopt=Abstract"/>
</rdf:Bag>
</bqmodel:isDescribedBy>
<bqbiol:isVersionOf xmlns:bqbiol="http://biomodels.net/biology-qualifiers/">
<rdf:Bag>
<rdf:li>Na channels</rdf:li>
<rdf:li rdf:resource="http://senselab.med.yale.edu/senselab/NeuronDB/channelGene2.htm#table2"/>
</rdf:Bag>
</bqbiol:isVersionOf>
</rdf:Description>
</rdf:RDF>
</annotation>
<gate id="m" type="gateHHtauInf" instances="1">
<timeCourse type="nap_m_tau_tau"/>
<steadyState type="HHSigmoidVariable" rate="1" scale="10mV" midpoint="-48mV"/>
</gate>
</ionChannel>
<ComponentType name="nap_m_tau_tau" extends="baseVoltageDepTime">
<Constant name="TIME_SCALE" dimension="time" value="1 ms"/>
<Constant name="VOLT_SCALE" dimension="voltage" value="1 mV"/>
<Dynamics>
<DerivedVariable name="V" dimension="none" value="v / VOLT_SCALE"/>
<ConditionalDerivedVariable name="t" exposure="t" dimension="time">
<Case condition="V .lt. ( -40 )" value="( 0.025 + 0.14 * (exp (( V + 40 )/10)) ) * TIME_SCALE"/>
<Case value="( 0.02 + 0.145 * (exp (-1 * (V + 40)/ 10))) * TIME_SCALE"/>
</ConditionalDerivedVariable>
</Dynamics>
</ComponentType>
<notes>ChannelML file containing a single Channel description</notes>
<ionChannel id="pas" conductance="10pS" type="ionChannelPassive">
<notes>Simple passive leak conductance</notes>
</ionChannel>
<cell id="L23PyrFRB_varInit">
<notes>Cell: suppyrFRB_0 exported from NEURON ModelView
NOTE: This is a variant of L23PyrFRB which has a variable initial potential. This is used in the network model to initialise the FRB cells at different voltages, and so ensure they fire out of synchrony</notes>
<morphology id="morphology_L23PyrFRB_varInit">
<segment id="0" name="Seg0_comp_1">
<proximal x="0.0" y="0.0" z="0.0" diameter="16.0"/>
<distal x="0.0" y="7.5" z="0.0" diameter="16.0"/>
</segment>
<segment id="1" name="Seg1_comp_1">
<parent segment="0"/>
<distal x="-0.0" y="15.0" z="0.0" diameter="16.0"/>
</segment>
<segment id="136" name="Seg0_comp_69">
<parent segment="0" fractionAlong="0.0"/>
<proximal x="0.0" y="0.0" z="0.0" diameter="1.8"/>
<distal x="-0.0" y="-12.5" z="0.0" diameter="1.8"/>
</segment>
<segment id="137" name="Seg1_comp_69">
<parent segment="136"/>
<distal x="-0.0" y="-25.0" z="0.0" diameter="1.8"/>
</segment>
<segment id="74" name="Seg0_comp_38">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="8.0"/>
<distal x="-0.0" y="40.0" z="0.0" diameter="8.0"/>
</segment>
<segment id="75" name="Seg1_comp_38">
<parent segment="74"/>
<distal x="-0.0" y="65.0" z="0.0" diameter="8.0"/>
</segment>
<segment id="16" name="Seg0_comp_9">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="-0.0" y="-5.0" z="-15.0" diameter="1.0"/>
</segment>
<segment id="17" name="Seg1_comp_9">
<parent segment="16"/>
<distal x="0.0" y="-25.0" z="-30.0" diameter="1.0"/>
</segment>
<segment id="14" name="Seg0_comp_8">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="15.0" y="-5.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="15" name="Seg1_comp_8">
<parent segment="14"/>
<distal x="30.0" y="-25.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="12" name="Seg0_comp_7">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="-0.0" y="-5.0" z="15.0" diameter="1.0"/>
</segment>
<segment id="13" name="Seg1_comp_7">
<parent segment="12"/>
<distal x="0.0" y="-25.0" z="30.0" diameter="1.0"/>
</segment>
<segment id="10" name="Seg0_comp_6">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="-15.0" y="-5.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="11" name="Seg1_comp_6">
<parent segment="10"/>
<distal x="-30.0" y="-25.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="8" name="Seg0_comp_5">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="17.320509" y="10.0" z="-17.320509" diameter="1.0"/>
</segment>
<segment id="9" name="Seg1_comp_5">
<parent segment="8"/>
<distal x="34.641018" y="5.0" z="-34.64101" diameter="1.0"/>
</segment>
<segment id="6" name="Seg0_comp_4">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="17.320509" y="10.0" z="17.320509" diameter="1.0"/>
</segment>
<segment id="7" name="Seg1_comp_4">
<parent segment="6"/>
<distal x="34.640957" y="5.0" z="34.640995" diameter="1.0"/>
</segment>
<segment id="4" name="Seg0_comp_3">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="-17.320509" y="10.0" z="-17.320509" diameter="1.0"/>
</segment>
<segment id="5" name="Seg1_comp_3">
<parent segment="4"/>
<distal x="-34.641" y="5.0" z="-34.641014" diameter="1.0"/>
</segment>
<segment id="2" name="Seg0_comp_2">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="-17.320509" y="10.0" z="17.320509" diameter="1.0"/>
</segment>
<segment id="3" name="Seg1_comp_2">
<parent segment="2"/>
<distal x="-34.64103" y="5.0" z="34.64107" diameter="1.0"/>
</segment>
<segment id="138" name="Seg0_comp_70">
<parent segment="137"/>
<proximal x="-0.0" y="-25.0" z="0.0" diameter="1.4"/>
<distal x="-0.0" y="-50.0" z="0.0" diameter="1.4"/>
</segment>
<segment id="139" name="Seg1_comp_70">
<parent segment="138"/>
<distal x="-0.0" y="-75.0" z="0.0" diameter="1.4"/>
</segment>
<segment id="76" name="Seg0_comp_39">
<parent segment="75"/>
<proximal x="-0.0" y="65.0" z="0.0" diameter="7.2"/>
<distal x="-0.0" y="90.0" z="0.0" diameter="7.2"/>
</segment>
<segment id="77" name="Seg1_comp_39">
<parent segment="76"/>
<distal x="-0.0" y="115.0" z="0.0" diameter="7.2"/>
</segment>
<segment id="24" name="Seg0_comp_13">
<parent segment="75"/>
<proximal x="-0.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="-0.0" y="65.0" z="-25.0" diameter="1.0"/>
</segment>
<segment id="25" name="Seg1_comp_13">
<parent segment="24"/>
<distal x="-0.0" y="65.0" z="-50.0" diameter="1.0"/>
</segment>
<segment id="22" name="Seg0_comp_12">
<parent segment="75"/>
<proximal x="-0.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="25.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="23" name="Seg1_comp_12">
<parent segment="22"/>
<distal x="50.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="20" name="Seg0_comp_11">
<parent segment="75"/>
<proximal x="-0.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="-0.0" y="65.0" z="25.0" diameter="1.0"/>
</segment>
<segment id="21" name="Seg1_comp_11">
<parent segment="20"/>
<distal x="0.0" y="65.0" z="50.0" diameter="1.0"/>
</segment>
<segment id="18" name="Seg0_comp_10">
<parent segment="75"/>
<proximal x="-0.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="-25.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="19" name="Seg1_comp_10">
<parent segment="18"/>
<distal x="-50.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="40" name="Seg0_comp_21">
<parent segment="17"/>
<proximal x="0.0" y="-25.0" z="-30.0" diameter="1.0"/>
<distal x="0.0" y="-45.0" z="-45.0" diameter="1.0"/>
</segment>
<segment id="41" name="Seg1_comp_21">
<parent segment="40"/>
<distal x="0.0" y="-65.0" z="-60.0" diameter="1.0"/>
</segment>
<segment id="38" name="Seg0_comp_20">
<parent segment="15"/>
<proximal x="30.0" y="-25.0" z="0.0" diameter="1.0"/>
<distal x="45.0" y="-45.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="39" name="Seg1_comp_20">
<parent segment="38"/>
<distal x="60.0" y="-65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="36" name="Seg0_comp_19">
<parent segment="13"/>
<proximal x="0.0" y="-25.0" z="30.0" diameter="1.0"/>
<distal x="0.0" y="-45.0" z="45.0" diameter="1.0"/>
</segment>
<segment id="37" name="Seg1_comp_19">
<parent segment="36"/>
<distal x="0.0" y="-65.0" z="60.0" diameter="1.0"/>
</segment>
<segment id="34" name="Seg0_comp_18">
<parent segment="11"/>
<proximal x="-30.0" y="-25.0" z="0.0" diameter="1.0"/>
<distal x="-45.0" y="-45.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="35" name="Seg1_comp_18">
<parent segment="34"/>
<distal x="-60.0" y="-65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="32" name="Seg0_comp_17">
<parent segment="9"/>
<proximal x="34.641018" y="5.0" z="-34.64101" diameter="1.0"/>
<distal x="51.961525" y="0.0" z="-51.961517" diameter="1.0"/>
</segment>
<segment id="33" name="Seg1_comp_17">
<parent segment="32"/>
<distal x="69.28174" y="-5.0" z="-69.28177" diameter="1.0"/>
</segment>
<segment id="30" name="Seg0_comp_16">
<parent segment="7"/>
<proximal x="34.640957" y="5.0" z="34.640995" diameter="1.0"/>
<distal x="51.961487" y="0.0" z="51.961525" diameter="1.0"/>
</segment>
<segment id="31" name="Seg1_comp_16">
<parent segment="30"/>
<distal x="69.28227" y="-5.0" z="69.2822" diameter="1.0"/>
</segment>
<segment id="28" name="Seg0_comp_15">
<parent segment="5"/>
<proximal x="-34.641" y="5.0" z="-34.641014" diameter="1.0"/>
<distal x="-51.961494" y="0.0" z="-51.961517" diameter="1.0"/>
</segment>
<segment id="29" name="Seg1_comp_15">
<parent segment="28"/>
<distal x="-69.2822" y="-5.0" z="-69.282326" diameter="1.0"/>
</segment>
<segment id="26" name="Seg0_comp_14">
<parent segment="3"/>
<proximal x="-34.64103" y="5.0" z="34.64107" diameter="1.0"/>
<distal x="-51.961548" y="0.0" z="51.961563" diameter="1.0"/>
</segment>
<segment id="27" name="Seg1_comp_14">
<parent segment="26"/>
<distal x="-69.281975" y="-5.0" z="69.282005" diameter="1.0"/>
</segment>
<segment id="144" name="Seg0_comp_73">
<parent segment="139"/>
<proximal x="-0.0" y="-75.0" z="0.0" diameter="1.0"/>
<distal x="-9.735465" y="-98.0265" z="0.0" diameter="1.0"/>
</segment>
<segment id="145" name="Seg1_comp_73">
<parent segment="144"/>
<distal x="-19.470894" y="-121.05301" z="0.0" diameter="1.0"/>
</segment>
<segment id="140" name="Seg0_comp_71">
<parent segment="139"/>
<proximal x="-0.0" y="-75.0" z="0.0" diameter="1.0"/>
<distal x="9.735455" y="-98.0265" z="0.0" diameter="1.0"/>
</segment>
<segment id="141" name="Seg1_comp_71">
<parent segment="140"/>
<distal x="19.470905" y="-121.05301" z="0.0" diameter="1.0"/>
</segment>
<segment id="78" name="Seg0_comp_40">
<parent segment="77"/>
<proximal x="-0.0" y="115.0" z="0.0" diameter="6.4"/>
<distal x="0.0" y="140.0" z="0.0" diameter="6.4"/>
</segment>
<segment id="79" name="Seg1_comp_40">
<parent segment="78"/>
<distal x="-0.0" y="165.0" z="0.0" diameter="6.4"/>
</segment>
<segment id="48" name="Seg0_comp_25">
<parent segment="25"/>
<proximal x="-0.0" y="65.0" z="-50.0" diameter="1.0"/>
<distal x="0.0" y="65.0" z="-75.0" diameter="1.0"/>
</segment>
<segment id="49" name="Seg1_comp_25">
<parent segment="48"/>
<distal x="-0.0" y="65.0" z="-100.0" diameter="1.0"/>
</segment>
<segment id="46" name="Seg0_comp_24">
<parent segment="23"/>
<proximal x="50.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="75.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="47" name="Seg1_comp_24">
<parent segment="46"/>
<distal x="100.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="44" name="Seg0_comp_23">
<parent segment="21"/>
<proximal x="0.0" y="65.0" z="50.0" diameter="1.0"/>
<distal x="0.0" y="65.0" z="75.0" diameter="1.0"/>
</segment>
<segment id="45" name="Seg1_comp_23">
<parent segment="44"/>
<distal x="0.0" y="65.0" z="100.0" diameter="1.0"/>
</segment>
<segment id="42" name="Seg0_comp_22">
<parent segment="19"/>
<proximal x="-50.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="-75.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="43" name="Seg1_comp_22">
<parent segment="42"/>
<distal x="-100.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="64" name="Seg0_comp_33">
<parent segment="41"/>
<proximal x="0.0" y="-65.0" z="-60.0" diameter="1.0"/>
<distal x="0.0" y="-85.0" z="-75.0" diameter="1.0"/>
</segment>
<segment id="65" name="Seg1_comp_33">
<parent segment="64"/>
<distal x="0.0" y="-105.0" z="-90.0" diameter="1.0"/>
</segment>
<segment id="62" name="Seg0_comp_32">
<parent segment="39"/>
<proximal x="60.0" y="-65.0" z="0.0" diameter="1.0"/>
<distal x="75.0" y="-85.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="63" name="Seg1_comp_32">
<parent segment="62"/>
<distal x="90.0" y="-105.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="60" name="Seg0_comp_31">
<parent segment="37"/>
<proximal x="0.0" y="-65.0" z="60.0" diameter="1.0"/>
<distal x="0.0" y="-85.0" z="75.0" diameter="1.0"/>
</segment>
<segment id="61" name="Seg1_comp_31">
<parent segment="60"/>
<distal x="0.0" y="-105.0" z="90.0" diameter="1.0"/>
</segment>
<segment id="58" name="Seg0_comp_30">
<parent segment="35"/>
<proximal x="-60.0" y="-65.0" z="0.0" diameter="1.0"/>
<distal x="-75.0" y="-85.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="59" name="Seg1_comp_30">
<parent segment="58"/>
<distal x="-90.0" y="-105.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="56" name="Seg0_comp_29">
<parent segment="33"/>
<proximal x="69.28174" y="-5.0" z="-69.28177" diameter="1.0"/>
<distal x="86.602905" y="-10.0" z="-86.60286" diameter="1.0"/>
</segment>
<segment id="57" name="Seg1_comp_29">
<parent segment="56"/>
<distal x="103.923355" y="-15.0" z="-103.92326" diameter="1.0"/>
</segment>
<segment id="54" name="Seg0_comp_28">
<parent segment="31"/>
<proximal x="69.28227" y="-5.0" z="69.2822" diameter="1.0"/>
<distal x="86.60222" y="-10.0" z="86.60239" diameter="1.0"/>
</segment>
<segment id="55" name="Seg1_comp_28">
<parent segment="54"/>
<distal x="103.923" y="-15.0" z="103.92307" diameter="1.0"/>
</segment>
<segment id="52" name="Seg0_comp_27">
<parent segment="29"/>
<proximal x="-69.2822" y="-5.0" z="-69.282326" diameter="1.0"/>
<distal x="-86.602486" y="-10.0" z="-86.60253" diameter="1.0"/>
</segment>
<segment id="53" name="Seg1_comp_27">
<parent segment="52"/>
<distal x="-103.92276" y="-15.0" z="-103.922714" diameter="1.0"/>
</segment>
<segment id="50" name="Seg0_comp_26">
<parent segment="27"/>
<proximal x="-69.281975" y="-5.0" z="69.282005" diameter="1.0"/>
<distal x="-86.60266" y="-10.0" z="86.6028" diameter="1.0"/>
</segment>
<segment id="51" name="Seg1_comp_26">
<parent segment="50"/>
<distal x="-103.92302" y="-15.0" z="103.92299" diameter="1.0"/>
</segment>
<segment id="146" name="Seg0_comp_74">
<parent segment="145"/>
<proximal x="-19.470894" y="-121.05301" z="0.0" diameter="1.0"/>
<distal x="-29.206394" y="-144.08" z="0.0" diameter="1.0"/>
</segment>
<segment id="147" name="Seg1_comp_74">
<parent segment="146"/>
<distal x="-38.94189" y="-167.106" z="0.0" diameter="1.0"/>
</segment>
<segment id="142" name="Seg0_comp_72">
<parent segment="141"/>
<proximal x="19.470905" y="-121.05301" z="0.0" diameter="1.0"/>
<distal x="29.206406" y="-144.08" z="0.0" diameter="1.0"/>
</segment>
<segment id="143" name="Seg1_comp_72">
<parent segment="142"/>
<distal x="38.941807" y="-167.106" z="0.0" diameter="1.0"/>
</segment>
<segment id="82" name="Seg0_comp_42">
<parent segment="79"/>
<proximal x="-0.0" y="165.0" z="0.0" diameter="4.0"/>
<distal x="9.734937" y="188.02641" z="0.0" diameter="4.0"/>
</segment>
<segment id="83" name="Seg1_comp_42">
<parent segment="82"/>
<distal x="19.470385" y="211.05298" z="0.0" diameter="4.0"/>
</segment>
<segment id="80" name="Seg0_comp_41">
<parent segment="79"/>
<proximal x="-0.0" y="165.0" z="0.0" diameter="4.0"/>
<distal x="-9.735199" y="188.0264" z="0.0" diameter="4.0"/>
</segment>
<segment id="81" name="Seg1_comp_41">
<parent segment="80"/>
<distal x="-19.471302" y="211.05292" z="0.0" diameter="4.0"/>
</segment>
<segment id="72" name="Seg0_comp_37">
<parent segment="49"/>
<proximal x="-0.0" y="65.0" z="-100.0" diameter="1.0"/>
<distal x="-0.0" y="65.0" z="-125.0" diameter="1.0"/>
</segment>
<segment id="73" name="Seg1_comp_37">
<parent segment="72"/>
<distal x="-0.0" y="65.0" z="-150.0" diameter="1.0"/>
</segment>
<segment id="70" name="Seg0_comp_36">
<parent segment="47"/>
<proximal x="100.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="125.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="71" name="Seg1_comp_36">
<parent segment="70"/>
<distal x="150.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="68" name="Seg0_comp_35">
<parent segment="45"/>
<proximal x="0.0" y="65.0" z="100.0" diameter="1.0"/>
<distal x="0.0" y="65.0" z="125.0" diameter="1.0"/>
</segment>
<segment id="69" name="Seg1_comp_35">
<parent segment="68"/>
<distal x="0.0" y="65.0" z="150.0" diameter="1.0"/>
</segment>
<segment id="66" name="Seg0_comp_34">
<parent segment="43"/>
<proximal x="-100.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="-125.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="67" name="Seg1_comp_34">
<parent segment="66"/>
<distal x="-150.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="86" name="Seg0_comp_44">
<parent segment="83"/>
<proximal x="19.470385" y="211.05298" z="0.0" diameter="4.0"/>
<distal x="29.20583" y="234.07956" z="0.0" diameter="4.0"/>
</segment>
<segment id="87" name="Seg1_comp_44">
<parent segment="86"/>
<distal x="38.94128" y="257.10614" z="0.0" diameter="4.0"/>
</segment>
<segment id="84" name="Seg0_comp_43">
<parent segment="81"/>
<proximal x="-19.471302" y="211.05292" z="0.0" diameter="4.0"/>
<distal x="-29.20599" y="234.07948" z="0.0" diameter="4.0"/>
</segment>
<segment id="85" name="Seg1_comp_43">
<parent segment="84"/>
<distal x="-38.942097" y="257.106" z="0.0" diameter="4.0"/>
</segment>
<segment id="102" name="Seg0_comp_52">
<parent segment="87"/>
<proximal x="38.94128" y="257.10614" z="0.0" diameter="1.6"/>
<distal x="56.875668" y="274.52423" z="0.0" diameter="1.6"/>
</segment>
<segment id="103" name="Seg1_comp_52">
<parent segment="102"/>
<distal x="74.809364" y="291.94165" z="0.0" diameter="1.6"/>
</segment>
<segment id="100" name="Seg0_comp_51">
<parent segment="87"/>
<proximal x="38.94128" y="257.10614" z="0.0" diameter="1.6"/>
<distal x="38.94128" y="274.52423" z="-17.934387" diameter="1.6"/>
</segment>
<segment id="101" name="Seg1_comp_51">
<parent segment="100"/>
<distal x="38.940094" y="291.94177" z="-35.86782" diameter="1.6"/>
</segment>
<segment id="98" name="Seg0_comp_50">
<parent segment="87"/>
<proximal x="38.94128" y="257.10614" z="0.0" diameter="1.6"/>
<distal x="38.94128" y="274.52423" z="17.934387" diameter="1.6"/>
</segment>
<segment id="99" name="Seg1_comp_50">
<parent segment="98"/>
<distal x="38.941246" y="291.94193" z="35.868366" diameter="1.6"/>
</segment>
<segment id="96" name="Seg0_comp_49">
<parent segment="87"/>
<proximal x="38.94128" y="257.10614" z="0.0" diameter="1.6"/>
<distal x="38.94185" y="282.1057" z="0.0" diameter="1.6"/>
</segment>
<segment id="97" name="Seg1_comp_49">
<parent segment="96"/>
<distal x="38.9417" y="307.10605" z="0.0" diameter="1.6"/>
</segment>
<segment id="94" name="Seg0_comp_48">
<parent segment="85"/>
<proximal x="-38.942097" y="257.106" z="0.0" diameter="1.6"/>
<distal x="-38.941532" y="282.10562" z="0.0" diameter="1.6"/>
</segment>
<segment id="95" name="Seg1_comp_48">
<parent segment="94"/>
<distal x="-38.941692" y="307.10593" z="0.0" diameter="1.6"/>
</segment>
<segment id="92" name="Seg0_comp_47">
<parent segment="85"/>
<proximal x="-38.942097" y="257.106" z="0.0" diameter="1.6"/>
<distal x="-38.94128" y="274.52423" z="17.934387" diameter="1.6"/>
</segment>
<segment id="93" name="Seg1_comp_47">
<parent segment="92"/>
<distal x="-38.941307" y="291.94186" z="35.868286" diameter="1.6"/>
</segment>
<segment id="90" name="Seg0_comp_46">
<parent segment="85"/>
<proximal x="-38.942097" y="257.106" z="0.0" diameter="1.6"/>
<distal x="-38.94128" y="274.52423" z="-17.934387" diameter="1.6"/>
</segment>
<segment id="91" name="Seg1_comp_46">
<parent segment="90"/>
<distal x="-38.94071" y="291.94235" z="-35.868736" diameter="1.6"/>
</segment>
<segment id="88" name="Seg0_comp_45">
<parent segment="85"/>
<proximal x="-38.942097" y="257.106" z="0.0" diameter="1.6"/>
<distal x="-56.876" y="274.52368" z="0.0" diameter="1.6"/>
</segment>
<segment id="89" name="Seg1_comp_45">
<parent segment="88"/>
<distal x="-74.809875" y="291.94135" z="0.0" diameter="1.6"/>
</segment>
<segment id="118" name="Seg0_comp_60">
<parent segment="103"/>
<proximal x="74.809364" y="291.94165" z="0.0" diameter="1.6"/>
<distal x="92.743034" y="309.35907" z="0.0" diameter="1.6"/>
</segment>
<segment id="119" name="Seg1_comp_60">
<parent segment="118"/>
<distal x="110.67742" y="326.77716" z="0.0" diameter="1.6"/>
</segment>
<segment id="116" name="Seg0_comp_59">
<parent segment="101"/>
<proximal x="38.940094" y="291.94177" z="-35.86782" diameter="1.6"/>
<distal x="38.93914" y="309.36" z="-53.801983" diameter="1.6"/>
</segment>
<segment id="117" name="Seg1_comp_59">
<parent segment="116"/>
<distal x="38.937958" y="326.7775" z="-71.7354" diameter="1.6"/>
</segment>
<segment id="114" name="Seg0_comp_58">
<parent segment="99"/>
<proximal x="38.941246" y="291.94193" z="35.868366" diameter="1.6"/>
<distal x="38.941235" y="309.3596" z="53.802303" diameter="1.6"/>
</segment>
<segment id="115" name="Seg1_comp_58">
<parent segment="114"/>
<distal x="38.94122" y="326.77725" z="71.736244" diameter="1.6"/>
</segment>
<segment id="112" name="Seg0_comp_57">
<parent segment="97"/>
<proximal x="38.9417" y="307.10605" z="0.0" diameter="1.6"/>
<distal x="38.942265" y="332.10565" z="0.0" diameter="1.6"/>
</segment>
<segment id="113" name="Seg1_comp_57">
<parent segment="112"/>
<distal x="38.94211" y="357.10596" z="0.0" diameter="1.6"/>
</segment>
<segment id="110" name="Seg0_comp_56">
<parent segment="95"/>
<proximal x="-38.941692" y="307.10593" z="0.0" diameter="1.6"/>
<distal x="-38.941853" y="332.1062" z="0.0" diameter="1.6"/>
</segment>
<segment id="111" name="Seg1_comp_56">
<parent segment="110"/>
<distal x="-38.94127" y="357.1058" z="0.0" diameter="1.6"/>
</segment>
<segment id="108" name="Seg0_comp_55">
<parent segment="93"/>
<proximal x="-38.941307" y="291.94186" z="35.868286" diameter="1.6"/>
<distal x="-38.94136" y="309.3595" z="53.80219" diameter="1.6"/>
</segment>
<segment id="109" name="Seg1_comp_55">
<parent segment="108"/>
<distal x="-38.941402" y="326.77713" z="71.73609" diameter="1.6"/>
</segment>
<segment id="106" name="Seg0_comp_54">
<parent segment="91"/>
<proximal x="-38.94071" y="291.94235" z="-35.868736" diameter="1.6"/>
<distal x="-38.939907" y="309.35983" z="-53.802338" diameter="1.6"/>
</segment>
<segment id="107" name="Seg1_comp_54">
<parent segment="106"/>
<distal x="-38.939095" y="326.77734" z="-71.73598" diameter="1.6"/>
</segment>
<segment id="104" name="Seg0_comp_53">
<parent segment="89"/>
<proximal x="-74.809875" y="291.94135" z="0.0" diameter="1.6"/>
<distal x="-92.74378" y="309.35907" z="0.0" diameter="1.6"/>
</segment>
<segment id="105" name="Seg1_comp_53">
<parent segment="104"/>
<distal x="-110.67767" y="326.77673" z="0.0" diameter="1.6"/>
</segment>
<segment id="134" name="Seg0_comp_68">
<parent segment="119"/>
<proximal x="110.67742" y="326.77716" z="0.0" diameter="1.6"/>
<distal x="128.6111" y="344.19458" z="0.0" diameter="1.6"/>
</segment>
<segment id="135" name="Seg1_comp_68">
<parent segment="134"/>
<distal x="146.5448" y="361.61197" z="0.0" diameter="1.6"/>
</segment>
<segment id="132" name="Seg0_comp_67">
<parent segment="117"/>
<proximal x="38.937958" y="326.7775" z="-71.7354" diameter="1.6"/>
<distal x="38.936993" y="344.1957" z="-89.66957" diameter="1.6"/>
</segment>
<segment id="133" name="Seg1_comp_67">
<parent segment="132"/>
<distal x="38.935814" y="361.61322" z="-107.60299" diameter="1.6"/>
</segment>
<segment id="130" name="Seg0_comp_66">
<parent segment="115"/>
<proximal x="38.94122" y="326.77725" z="71.736244" diameter="1.6"/>
<distal x="38.941196" y="344.19492" z="89.67018" diameter="1.6"/>
</segment>
<segment id="131" name="Seg1_comp_66">
<parent segment="130"/>
<distal x="38.941177" y="361.6126" z="107.604164" diameter="1.6"/>
</segment>
<segment id="128" name="Seg0_comp_65">
<parent segment="113"/>
<proximal x="38.94211" y="357.10596" z="0.0" diameter="1.6"/>
<distal x="38.941936" y="382.10623" z="0.0" diameter="1.6"/>
</segment>
<segment id="129" name="Seg1_comp_65">
<parent segment="128"/>
<distal x="38.942516" y="407.10583" z="0.0" diameter="1.6"/>
</segment>
<segment id="126" name="Seg0_comp_64">
<parent segment="111"/>
<proximal x="-38.94127" y="357.1058" z="0.0" diameter="1.6"/>
<distal x="-38.941452" y="382.10614" z="0.0" diameter="1.6"/>
</segment>
<segment id="127" name="Seg1_comp_64">
<parent segment="126"/>
<distal x="-38.941593" y="407.1064" z="0.0" diameter="1.6"/>
</segment>
<segment id="124" name="Seg0_comp_63">
<parent segment="109"/>
<proximal x="-38.941402" y="326.77713" z="71.73609" diameter="1.6"/>
<distal x="-38.940933" y="344.19424" z="89.66936" diameter="1.6"/>
</segment>
<segment id="125" name="Seg1_comp_63">
<parent segment="124"/>
<distal x="-38.94098" y="361.61185" z="107.60323" diameter="1.6"/>
</segment>
<segment id="122" name="Seg0_comp_62">
<parent segment="107"/>
<proximal x="-38.939095" y="326.77734" z="-71.73598" diameter="1.6"/>
<distal x="-38.938526" y="344.19547" z="-89.67031" diameter="1.6"/>
</segment>
<segment id="123" name="Seg1_comp_62">
<parent segment="122"/>
<distal x="-38.937725" y="361.6129" z="-107.60391" diameter="1.6"/>
</segment>
<segment id="120" name="Seg0_comp_61">
<parent segment="105"/>
<proximal x="-110.67767" y="326.77673" z="0.0" diameter="1.6"/>
<distal x="-128.61156" y="344.1944" z="0.0" diameter="1.6"/>
</segment>
<segment id="121" name="Seg1_comp_61">
<parent segment="120"/>
<distal x="-146.54546" y="361.6121" z="0.0" diameter="1.6"/>
</segment>
<segmentGroup id="comp_1" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="6"/>
<member segment="0"/>
<member segment="1"/>
</segmentGroup>
<segmentGroup id="comp_69" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="12"/>
<member segment="136"/>
<member segment="137"/>
</segmentGroup>
<segmentGroup id="comp_38" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="4"/>
<member segment="74"/>
<member segment="75"/>
</segmentGroup>
<segmentGroup id="comp_9" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="16"/>
<member segment="17"/>
</segmentGroup>
<segmentGroup id="comp_8" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="14"/>
<member segment="15"/>
</segmentGroup>
<segmentGroup id="comp_7" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="12"/>
<member segment="13"/>
</segmentGroup>
<segmentGroup id="comp_6" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="10"/>
<member segment="11"/>
</segmentGroup>
<segmentGroup id="comp_5" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="8"/>
<member segment="9"/>
</segmentGroup>
<segmentGroup id="comp_4" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="6"/>
<member segment="7"/>
</segmentGroup>
<segmentGroup id="comp_3" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="4"/>
<member segment="5"/>
</segmentGroup>
<segmentGroup id="comp_2" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="11"/>
<member segment="2"/>
<member segment="3"/>
</segmentGroup>
<segmentGroup id="comp_70" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="27"/>
<member segment="138"/>
<member segment="139"/>
</segmentGroup>
<segmentGroup id="comp_39" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="4"/>
<member segment="76"/>
<member segment="77"/>
</segmentGroup>
<segmentGroup id="comp_13" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="24"/>
<member segment="25"/>
</segmentGroup>
<segmentGroup id="comp_12" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="22"/>
<member segment="23"/>
</segmentGroup>
<segmentGroup id="comp_11" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="20"/>
<member segment="21"/>
</segmentGroup>
<segmentGroup id="comp_10" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="18"/>
<member segment="19"/>
</segmentGroup>
<segmentGroup id="comp_21" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="40"/>
<member segment="41"/>
</segmentGroup>
<segmentGroup id="comp_20" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="38"/>
<member segment="39"/>
</segmentGroup>
<segmentGroup id="comp_19" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="36"/>
<member segment="37"/>
</segmentGroup>
<segmentGroup id="comp_18" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="34"/>
<member segment="35"/>
</segmentGroup>
<segmentGroup id="comp_17" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="32"/>
<member segment="33"/>
</segmentGroup>
<segmentGroup id="comp_16" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="11"/>
<member segment="30"/>
<member segment="31"/>
</segmentGroup>
<segmentGroup id="comp_15" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="11"/>
<member segment="28"/>
<member segment="29"/>
</segmentGroup>
<segmentGroup id="comp_14" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="26"/>
<member segment="27"/>
</segmentGroup>
<segmentGroup id="comp_73" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="32"/>
<member segment="144"/>
<member segment="145"/>
</segmentGroup>
<segmentGroup id="comp_71" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="32"/>
<member segment="140"/>
<member segment="141"/>
</segmentGroup>
<segmentGroup id="comp_40" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="4"/>
<member segment="78"/>
<member segment="79"/>
</segmentGroup>
<segmentGroup id="comp_25" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="48"/>
<member segment="49"/>
</segmentGroup>
<segmentGroup id="comp_24" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="46"/>
<member segment="47"/>
</segmentGroup>
<segmentGroup id="comp_23" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="44"/>
<member segment="45"/>
</segmentGroup>
<segmentGroup id="comp_22" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="42"/>
<member segment="43"/>
</segmentGroup>
<segmentGroup id="comp_33" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="64"/>
<member segment="65"/>
</segmentGroup>
<segmentGroup id="comp_32" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="62"/>
<member segment="63"/>
</segmentGroup>
<segmentGroup id="comp_31" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="60"/>
<member segment="61"/>
</segmentGroup>
<segmentGroup id="comp_30" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="58"/>
<member segment="59"/>
</segmentGroup>
<segmentGroup id="comp_29" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="11"/>
<member segment="56"/>
<member segment="57"/>
</segmentGroup>
<segmentGroup id="comp_28" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="54"/>
<member segment="55"/>
</segmentGroup>
<segmentGroup id="comp_27" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="52"/>
<member segment="53"/>
</segmentGroup>
<segmentGroup id="comp_26" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="50"/>
<member segment="51"/>
</segmentGroup>
<segmentGroup id="comp_74" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="32"/>
<member segment="146"/>
<member segment="147"/>
</segmentGroup>
<segmentGroup id="comp_72" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="32"/>
<member segment="142"/>
<member segment="143"/>
</segmentGroup>
<segmentGroup id="comp_42" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="5"/>
<member segment="82"/>
<member segment="83"/>
</segmentGroup>
<segmentGroup id="comp_41" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="6"/>
<member segment="80"/>
<member segment="81"/>
</segmentGroup>
<segmentGroup id="comp_37" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="72"/>
<member segment="73"/>
</segmentGroup>
<segmentGroup id="comp_36" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="70"/>
<member segment="71"/>
</segmentGroup>
<segmentGroup id="comp_35" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="68"/>
<member segment="69"/>
</segmentGroup>
<segmentGroup id="comp_34" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="10"/>
<member segment="66"/>
<member segment="67"/>
</segmentGroup>
<segmentGroup id="comp_44" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="6"/>
<member segment="86"/>
<member segment="87"/>
</segmentGroup>
<segmentGroup id="comp_43" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="5"/>
<member segment="84"/>
<member segment="85"/>
</segmentGroup>
<segmentGroup id="comp_52" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="102"/>
<member segment="103"/>
</segmentGroup>
<segmentGroup id="comp_51" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="100"/>
<member segment="101"/>
</segmentGroup>
<segmentGroup id="comp_50" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="98"/>
<member segment="99"/>
</segmentGroup>
<segmentGroup id="comp_49" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="96"/>
<member segment="97"/>
</segmentGroup>
<segmentGroup id="comp_48" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="94"/>
<member segment="95"/>
</segmentGroup>
<segmentGroup id="comp_47" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="92"/>
<member segment="93"/>
</segmentGroup>
<segmentGroup id="comp_46" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="90"/>
<member segment="91"/>
</segmentGroup>
<segmentGroup id="comp_45" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="88"/>
<member segment="89"/>
</segmentGroup>
<segmentGroup id="comp_60" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="118"/>
<member segment="119"/>
</segmentGroup>
<segmentGroup id="comp_59" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="116"/>
<member segment="117"/>
</segmentGroup>
<segmentGroup id="comp_58" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="114"/>
<member segment="115"/>
</segmentGroup>
<segmentGroup id="comp_57" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="112"/>
<member segment="113"/>
</segmentGroup>
<segmentGroup id="comp_56" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="110"/>
<member segment="111"/>
</segmentGroup>
<segmentGroup id="comp_55" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="108"/>
<member segment="109"/>
</segmentGroup>
<segmentGroup id="comp_54" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="106"/>
<member segment="107"/>
</segmentGroup>
<segmentGroup id="comp_53" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="104"/>
<member segment="105"/>
</segmentGroup>
<segmentGroup id="comp_68" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="134"/>
<member segment="135"/>
</segmentGroup>
<segmentGroup id="comp_67" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="132"/>
<member segment="133"/>
</segmentGroup>
<segmentGroup id="comp_66" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="130"/>
<member segment="131"/>
</segmentGroup>
<segmentGroup id="comp_65" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="128"/>
<member segment="129"/>
</segmentGroup>
<segmentGroup id="comp_64" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="126"/>
<member segment="127"/>
</segmentGroup>
<segmentGroup id="comp_63" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="124"/>
<member segment="125"/>
</segmentGroup>
<segmentGroup id="comp_62" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="122"/>
<member segment="123"/>
</segmentGroup>
<segmentGroup id="comp_61" neuroLexId="sao864921383">
<property tag="numberInternalDivisions" value="8"/>
<member segment="120"/>
<member segment="121"/>
</segmentGroup>
<segmentGroup id="all">
<include segmentGroup="comp_1"/>
<include segmentGroup="comp_69"/>
<include segmentGroup="comp_38"/>
<include segmentGroup="comp_9"/>
<include segmentGroup="comp_8"/>
<include segmentGroup="comp_7"/>
<include segmentGroup="comp_6"/>
<include segmentGroup="comp_5"/>
<include segmentGroup="comp_4"/>
<include segmentGroup="comp_3"/>
<include segmentGroup="comp_2"/>
<include segmentGroup="comp_70"/>
<include segmentGroup="comp_39"/>
<include segmentGroup="comp_13"/>
<include segmentGroup="comp_12"/>
<include segmentGroup="comp_11"/>
<include segmentGroup="comp_10"/>
<include segmentGroup="comp_21"/>
<include segmentGroup="comp_20"/>
<include segmentGroup="comp_19"/>
<include segmentGroup="comp_18"/>
<include segmentGroup="comp_17"/>
<include segmentGroup="comp_16"/>
<include segmentGroup="comp_15"/>
<include segmentGroup="comp_14"/>
<include segmentGroup="comp_73"/>
<include segmentGroup="comp_71"/>
<include segmentGroup="comp_40"/>
<include segmentGroup="comp_25"/>
<include segmentGroup="comp_24"/>
<include segmentGroup="comp_23"/>
<include segmentGroup="comp_22"/>
<include segmentGroup="comp_33"/>
<include segmentGroup="comp_32"/>
<include segmentGroup="comp_31"/>
<include segmentGroup="comp_30"/>
<include segmentGroup="comp_29"/>
<include segmentGroup="comp_28"/>
<include segmentGroup="comp_27"/>
<include segmentGroup="comp_26"/>
<include segmentGroup="comp_74"/>
<include segmentGroup="comp_72"/>
<include segmentGroup="comp_42"/>
<include segmentGroup="comp_41"/>
<include segmentGroup="comp_37"/>
<include segmentGroup="comp_36"/>
<include segmentGroup="comp_35"/>
<include segmentGroup="comp_34"/>
<include segmentGroup="comp_44"/>
<include segmentGroup="comp_43"/>
<include segmentGroup="comp_52"/>
<include segmentGroup="comp_51"/>
<include segmentGroup="comp_50"/>
<include segmentGroup="comp_49"/>
<include segmentGroup="comp_48"/>
<include segmentGroup="comp_47"/>
<include segmentGroup="comp_46"/>
<include segmentGroup="comp_45"/>
<include segmentGroup="comp_60"/>
<include segmentGroup="comp_59"/>
<include segmentGroup="comp_58"/>
<include segmentGroup="comp_57"/>
<include segmentGroup="comp_56"/>
<include segmentGroup="comp_55"/>
<include segmentGroup="comp_54"/>
<include segmentGroup="comp_53"/>
<include segmentGroup="comp_68"/>
<include segmentGroup="comp_67"/>
<include segmentGroup="comp_66"/>
<include segmentGroup="comp_65"/>
<include segmentGroup="comp_64"/>
<include segmentGroup="comp_63"/>
<include segmentGroup="comp_62"/>
<include segmentGroup="comp_61"/>
</segmentGroup>
<segmentGroup id="ModelViewParmSubset_1">
<include segmentGroup="comp_1"/>
<include segmentGroup="comp_38"/>
<include segmentGroup="comp_9"/>
<include segmentGroup="comp_8"/>
<include segmentGroup="comp_7"/>
<include segmentGroup="comp_6"/>
<include segmentGroup="comp_5"/>
<include segmentGroup="comp_4"/>
<include segmentGroup="comp_3"/>
<include segmentGroup="comp_2"/>
<include segmentGroup="comp_39"/>
<include segmentGroup="comp_13"/>
<include segmentGroup="comp_12"/>
<include segmentGroup="comp_11"/>
<include segmentGroup="comp_10"/>
<include segmentGroup="comp_21"/>
<include segmentGroup="comp_20"/>
<include segmentGroup="comp_19"/>
<include segmentGroup="comp_18"/>
<include segmentGroup="comp_17"/>
<include segmentGroup="comp_16"/>
<include segmentGroup="comp_15"/>
<include segmentGroup="comp_14"/>
<include segmentGroup="comp_40"/>
<include segmentGroup="comp_25"/>
<include segmentGroup="comp_24"/>
<include segmentGroup="comp_23"/>
<include segmentGroup="comp_22"/>
<include segmentGroup="comp_33"/>
<include segmentGroup="comp_32"/>
<include segmentGroup="comp_31"/>
<include segmentGroup="comp_30"/>
<include segmentGroup="comp_29"/>
<include segmentGroup="comp_28"/>
<include segmentGroup="comp_27"/>
<include segmentGroup="comp_26"/>
<include segmentGroup="comp_42"/>
<include segmentGroup="comp_41"/>
<include segmentGroup="comp_37"/>
<include segmentGroup="comp_36"/>
<include segmentGroup="comp_35"/>
<include segmentGroup="comp_34"/>
<include segmentGroup="comp_44"/>
<include segmentGroup="comp_43"/>
<include segmentGroup="comp_52"/>
<include segmentGroup="comp_51"/>
<include segmentGroup="comp_50"/>
<include segmentGroup="comp_49"/>
<include segmentGroup="comp_48"/>
<include segmentGroup="comp_47"/>
<include segmentGroup="comp_46"/>
<include segmentGroup="comp_45"/>
<include segmentGroup="comp_60"/>
<include segmentGroup="comp_59"/>
<include segmentGroup="comp_58"/>
<include segmentGroup="comp_57"/>
<include segmentGroup="comp_56"/>
<include segmentGroup="comp_55"/>
<include segmentGroup="comp_54"/>
<include segmentGroup="comp_53"/>
<include segmentGroup="comp_68"/>
<include segmentGroup="comp_67"/>
<include segmentGroup="comp_66"/>
<include segmentGroup="comp_65"/>
<include segmentGroup="comp_64"/>
<include segmentGroup="comp_63"/>
<include segmentGroup="comp_62"/>
<include segmentGroup="comp_61"/>
</segmentGroup>
<segmentGroup id="ModelViewParmSubset_3">
<include segmentGroup="comp_1"/>
<include segmentGroup="comp_69"/>
<include segmentGroup="comp_70"/>
<include segmentGroup="comp_73"/>
<include segmentGroup="comp_71"/>
<include segmentGroup="comp_74"/>
<include segmentGroup="comp_72"/>
</segmentGroup>
<segmentGroup id="ModelViewParmSubset_8">
<include segmentGroup="comp_1"/>
<include segmentGroup="comp_9"/>
<include segmentGroup="comp_8"/>
<include segmentGroup="comp_7"/>
<include segmentGroup="comp_6"/>
<include segmentGroup="comp_5"/>
<include segmentGroup="comp_4"/>
<include segmentGroup="comp_3"/>
<include segmentGroup="comp_2"/>
<include segmentGroup="comp_39"/>
<include segmentGroup="comp_13"/>
<include segmentGroup="comp_12"/>
<include segmentGroup="comp_11"/>
<include segmentGroup="comp_10"/>
</segmentGroup>
<segmentGroup id="OneSecGrp_SectionRef_1">
<include segmentGroup="comp_1"/>
</segmentGroup>
<segmentGroup id="soma_group" neuroLexId="GO:0043025">
<include segmentGroup="comp_1"/>
</segmentGroup>
<segmentGroup id="prox_dends_soma">
<include segmentGroup="comp_1"/>
<include segmentGroup="comp_38"/>
<include segmentGroup="comp_9"/>
<include segmentGroup="comp_8"/>
<include segmentGroup="comp_7"/>
<include segmentGroup="comp_6"/>
<include segmentGroup="comp_5"/>
<include segmentGroup="comp_4"/>
<include segmentGroup="comp_3"/>
<include segmentGroup="comp_2"/>
<include segmentGroup="comp_39"/>
</segmentGroup>
<segmentGroup id="ModelViewParmSubset_2">
<include segmentGroup="comp_69"/>
<include segmentGroup="comp_70"/>
<include segmentGroup="comp_73"/>
<include segmentGroup="comp_71"/>
<include segmentGroup="comp_74"/>
<include segmentGroup="comp_72"/>
</segmentGroup>
<segmentGroup id="axon_group" neuroLexId="GO:0030424">
<include segmentGroup="comp_69"/>
<include segmentGroup="comp_70"/>
<include segmentGroup="comp_73"/>
<include segmentGroup="comp_71"/>
<include segmentGroup="comp_74"/>
<include segmentGroup="comp_72"/>
</segmentGroup>
<segmentGroup id="prox_axon">
<include segmentGroup="comp_69"/>
</segmentGroup>
<segmentGroup id="dendrite_group" neuroLexId="GO:0030425">
<include segmentGroup="comp_38"/>
<include segmentGroup="comp_9"/>
<include segmentGroup="comp_8"/>
<include segmentGroup="comp_7"/>
<include segmentGroup="comp_6"/>
<include segmentGroup="comp_5"/>
<include segmentGroup="comp_4"/>
<include segmentGroup="comp_3"/>
<include segmentGroup="comp_2"/>
<include segmentGroup="comp_39"/>
<include segmentGroup="comp_13"/>
<include segmentGroup="comp_12"/>
<include segmentGroup="comp_11"/>
<include segmentGroup="comp_10"/>
<include segmentGroup="comp_21"/>
<include segmentGroup="comp_20"/>
<include segmentGroup="comp_19"/>
<include segmentGroup="comp_18"/>
<include segmentGroup="comp_17"/>
<include segmentGroup="comp_16"/>
<include segmentGroup="comp_15"/>
<include segmentGroup="comp_14"/>
<include segmentGroup="comp_40"/>
<include segmentGroup="comp_25"/>
<include segmentGroup="comp_24"/>
<include segmentGroup="comp_23"/>
<include segmentGroup="comp_22"/>
<include segmentGroup="comp_33"/>
<include segmentGroup="comp_32"/>
<include segmentGroup="comp_31"/>
<include segmentGroup="comp_30"/>
<include segmentGroup="comp_29"/>
<include segmentGroup="comp_28"/>
<include segmentGroup="comp_27"/>
<include segmentGroup="comp_26"/>
<include segmentGroup="comp_42"/>
<include segmentGroup="comp_41"/>
<include segmentGroup="comp_37"/>
<include segmentGroup="comp_36"/>
<include segmentGroup="comp_35"/>
<include segmentGroup="comp_34"/>
<include segmentGroup="comp_44"/>
<include segmentGroup="comp_43"/>
<include segmentGroup="comp_52"/>
<include segmentGroup="comp_51"/>
<include segmentGroup="comp_50"/>
<include segmentGroup="comp_49"/>
<include segmentGroup="comp_48"/>
<include segmentGroup="comp_47"/>
<include segmentGroup="comp_46"/>
<include segmentGroup="comp_45"/>
<include segmentGroup="comp_60"/>
<include segmentGroup="comp_59"/>
<include segmentGroup="comp_58"/>
<include segmentGroup="comp_57"/>
<include segmentGroup="comp_56"/>
<include segmentGroup="comp_55"/>
<include segmentGroup="comp_54"/>
<include segmentGroup="comp_53"/>
<include segmentGroup="comp_68"/>
<include segmentGroup="comp_67"/>
<include segmentGroup="comp_66"/>
<include segmentGroup="comp_65"/>
<include segmentGroup="comp_64"/>
<include segmentGroup="comp_63"/>
<include segmentGroup="comp_62"/>
<include segmentGroup="comp_61"/>
</segmentGroup>
<segmentGroup id="ModelViewParmSubset_4">
<include segmentGroup="comp_38"/>
<include segmentGroup="comp_9"/>
<include segmentGroup="comp_8"/>
<include segmentGroup="comp_7"/>
<include segmentGroup="comp_6"/>
<include segmentGroup="comp_5"/>
<include segmentGroup="comp_4"/>
<include segmentGroup="comp_3"/>
<include segmentGroup="comp_2"/>
<include segmentGroup="comp_39"/>
<include segmentGroup="comp_13"/>
<include segmentGroup="comp_12"/>
<include segmentGroup="comp_11"/>
<include segmentGroup="comp_10"/>
<include segmentGroup="comp_21"/>
<include segmentGroup="comp_20"/>
<include segmentGroup="comp_19"/>
<include segmentGroup="comp_18"/>
<include segmentGroup="comp_17"/>
<include segmentGroup="comp_16"/>
<include segmentGroup="comp_15"/>
<include segmentGroup="comp_14"/>
<include segmentGroup="comp_40"/>
<include segmentGroup="comp_25"/>
<include segmentGroup="comp_24"/>
<include segmentGroup="comp_23"/>
<include segmentGroup="comp_22"/>
<include segmentGroup="comp_33"/>
<include segmentGroup="comp_32"/>
<include segmentGroup="comp_31"/>
<include segmentGroup="comp_30"/>
<include segmentGroup="comp_29"/>
<include segmentGroup="comp_28"/>
<include segmentGroup="comp_27"/>
<include segmentGroup="comp_26"/>
<include segmentGroup="comp_42"/>
<include segmentGroup="comp_41"/>
<include segmentGroup="comp_37"/>
<include segmentGroup="comp_36"/>
<include segmentGroup="comp_35"/>
<include segmentGroup="comp_34"/>
<include segmentGroup="comp_44"/>
<include segmentGroup="comp_43"/>
<include segmentGroup="comp_52"/>
<include segmentGroup="comp_51"/>
<include segmentGroup="comp_50"/>
<include segmentGroup="comp_49"/>
<include segmentGroup="comp_48"/>
<include segmentGroup="comp_47"/>
<include segmentGroup="comp_46"/>
<include segmentGroup="comp_45"/>
<include segmentGroup="comp_60"/>
<include segmentGroup="comp_59"/>
<include segmentGroup="comp_58"/>
<include segmentGroup="comp_57"/>
<include segmentGroup="comp_56"/>
<include segmentGroup="comp_55"/>
<include segmentGroup="comp_54"/>
<include segmentGroup="comp_53"/>
<include segmentGroup="comp_68"/>
<include segmentGroup="comp_67"/>
<include segmentGroup="comp_66"/>
<include segmentGroup="comp_65"/>
<include segmentGroup="comp_64"/>
<include segmentGroup="comp_63"/>
<include segmentGroup="comp_62"/>
<include segmentGroup="comp_61"/>
</segmentGroup>
<segmentGroup id="OneSecGrp_SectionRef_3">
<include segmentGroup="comp_38"/>
</segmentGroup>
<segmentGroup id="ModelViewParmSubset_5">
<include segmentGroup="comp_9"/>
<include segmentGroup="comp_8"/>
<include segmentGroup="comp_7"/>
<include segmentGroup="comp_6"/>
<include segmentGroup="comp_5"/>
<include segmentGroup="comp_4"/>
<include segmentGroup="comp_3"/>
<include segmentGroup="comp_2"/>
<include segmentGroup="comp_39"/>
<include segmentGroup="comp_13"/>
<include segmentGroup="comp_12"/>
<include segmentGroup="comp_11"/>
<include segmentGroup="comp_10"/>
<include segmentGroup="comp_21"/>
<include segmentGroup="comp_20"/>
<include segmentGroup="comp_19"/>
<include segmentGroup="comp_18"/>
<include segmentGroup="comp_17"/>
<include segmentGroup="comp_16"/>
<include segmentGroup="comp_15"/>
<include segmentGroup="comp_14"/>
<include segmentGroup="comp_40"/>
<include segmentGroup="comp_25"/>
<include segmentGroup="comp_24"/>
<include segmentGroup="comp_23"/>
<include segmentGroup="comp_22"/>
<include segmentGroup="comp_33"/>
<include segmentGroup="comp_32"/>
<include segmentGroup="comp_31"/>
<include segmentGroup="comp_30"/>
<include segmentGroup="comp_29"/>
<include segmentGroup="comp_28"/>
<include segmentGroup="comp_27"/>
<include segmentGroup="comp_26"/>
<include segmentGroup="comp_42"/>
<include segmentGroup="comp_41"/>
<include segmentGroup="comp_37"/>
<include segmentGroup="comp_36"/>
<include segmentGroup="comp_35"/>
<include segmentGroup="comp_34"/>
<include segmentGroup="comp_44"/>
<include segmentGroup="comp_43"/>
<include segmentGroup="comp_52"/>
<include segmentGroup="comp_51"/>
<include segmentGroup="comp_50"/>
<include segmentGroup="comp_49"/>
<include segmentGroup="comp_48"/>
<include segmentGroup="comp_47"/>
<include segmentGroup="comp_46"/>
<include segmentGroup="comp_45"/>
<include segmentGroup="comp_60"/>
<include segmentGroup="comp_59"/>
<include segmentGroup="comp_58"/>
<include segmentGroup="comp_57"/>
<include segmentGroup="comp_56"/>
<include segmentGroup="comp_55"/>
<include segmentGroup="comp_54"/>
<include segmentGroup="comp_53"/>
<include segmentGroup="comp_68"/>
<include segmentGroup="comp_67"/>
<include segmentGroup="comp_66"/>
<include segmentGroup="comp_65"/>
<include segmentGroup="comp_64"/>
<include segmentGroup="comp_63"/>
<include segmentGroup="comp_62"/>
<include segmentGroup="comp_61"/>
</segmentGroup>
<segmentGroup id="ModelViewParmSubset_7">
<include segmentGroup="comp_9"/>
<include segmentGroup="comp_8"/>
<include segmentGroup="comp_7"/>
<include segmentGroup="comp_6"/>
<include segmentGroup="comp_5"/>
<include segmentGroup="comp_4"/>
<include segmentGroup="comp_3"/>
<include segmentGroup="comp_2"/>
<include segmentGroup="comp_39"/>
<include segmentGroup="comp_13"/>
<include segmentGroup="comp_12"/>
<include segmentGroup="comp_11"/>
<include segmentGroup="comp_10"/>
</segmentGroup>
<segmentGroup id="most_prox_bas_dend">
<include segmentGroup="comp_9"/>
<include segmentGroup="comp_8"/>
<include segmentGroup="comp_7"/>
<include segmentGroup="comp_6"/>
<include segmentGroup="comp_5"/>
<include segmentGroup="comp_4"/>
<include segmentGroup="comp_3"/>
<include segmentGroup="comp_2"/>
</segmentGroup>
<segmentGroup id="basal_obl_dends">
<include segmentGroup="comp_9"/>
<include segmentGroup="comp_8"/>
<include segmentGroup="comp_7"/>
<include segmentGroup="comp_6"/>
<include segmentGroup="comp_5"/>
<include segmentGroup="comp_4"/>
<include segmentGroup="comp_3"/>
<include segmentGroup="comp_2"/>
<include segmentGroup="comp_13"/>
<include segmentGroup="comp_12"/>
<include segmentGroup="comp_11"/>
<include segmentGroup="comp_10"/>
<include segmentGroup="comp_21"/>
<include segmentGroup="comp_20"/>
<include segmentGroup="comp_19"/>
<include segmentGroup="comp_18"/>
<include segmentGroup="comp_17"/>
<include segmentGroup="comp_16"/>
<include segmentGroup="comp_15"/>
<include segmentGroup="comp_14"/>
<include segmentGroup="comp_25"/>
<include segmentGroup="comp_24"/>
<include segmentGroup="comp_23"/>
<include segmentGroup="comp_22"/>
<include segmentGroup="comp_33"/>
<include segmentGroup="comp_32"/>
<include segmentGroup="comp_31"/>
<include segmentGroup="comp_30"/>
<include segmentGroup="comp_29"/>
<include segmentGroup="comp_28"/>
<include segmentGroup="comp_27"/>
<include segmentGroup="comp_26"/>
<include segmentGroup="comp_37"/>
<include segmentGroup="comp_36"/>
<include segmentGroup="comp_35"/>
<include segmentGroup="comp_34"/>
</segmentGroup>
<segmentGroup id="basal_dends">
<include segmentGroup="comp_9"/>
<include segmentGroup="comp_8"/>
<include segmentGroup="comp_7"/>
<include segmentGroup="comp_6"/>
<include segmentGroup="comp_5"/>
<include segmentGroup="comp_4"/>
<include segmentGroup="comp_3"/>
<include segmentGroup="comp_2"/>
<include segmentGroup="comp_21"/>
<include segmentGroup="comp_20"/>
<include segmentGroup="comp_19"/>
<include segmentGroup="comp_18"/>
<include segmentGroup="comp_17"/>
<include segmentGroup="comp_16"/>
<include segmentGroup="comp_15"/>
<include segmentGroup="comp_14"/>
<include segmentGroup="comp_33"/>
<include segmentGroup="comp_32"/>
<include segmentGroup="comp_31"/>
<include segmentGroup="comp_30"/>
<include segmentGroup="comp_29"/>
<include segmentGroup="comp_28"/>
<include segmentGroup="comp_27"/>
<include segmentGroup="comp_26"/>
</segmentGroup>
<segmentGroup id="mid_dist_apic_dend">
<include segmentGroup="comp_39"/>
<include segmentGroup="comp_13"/>
<include segmentGroup="comp_12"/>
<include segmentGroup="comp_11"/>
<include segmentGroup="comp_10"/>
<include segmentGroup="comp_40"/>
<include segmentGroup="comp_25"/>
<include segmentGroup="comp_24"/>
<include segmentGroup="comp_23"/>
<include segmentGroup="comp_22"/>
<include segmentGroup="comp_42"/>
<include segmentGroup="comp_41"/>
<include segmentGroup="comp_37"/>
<include segmentGroup="comp_36"/>
<include segmentGroup="comp_35"/>
<include segmentGroup="comp_34"/>
<include segmentGroup="comp_44"/>
<include segmentGroup="comp_43"/>
<include segmentGroup="comp_52"/>
<include segmentGroup="comp_51"/>
<include segmentGroup="comp_50"/>
<include segmentGroup="comp_49"/>
<include segmentGroup="comp_48"/>
<include segmentGroup="comp_47"/>
<include segmentGroup="comp_46"/>
<include segmentGroup="comp_45"/>
<include segmentGroup="comp_60"/>
<include segmentGroup="comp_59"/>
<include segmentGroup="comp_58"/>
<include segmentGroup="comp_57"/>
<include segmentGroup="comp_56"/>
<include segmentGroup="comp_55"/>
<include segmentGroup="comp_54"/>
<include segmentGroup="comp_53"/>
<include segmentGroup="comp_68"/>
<include segmentGroup="comp_67"/>
<include segmentGroup="comp_66"/>
<include segmentGroup="comp_65"/>
<include segmentGroup="comp_64"/>
<include segmentGroup="comp_63"/>
<include segmentGroup="comp_62"/>
<include segmentGroup="comp_61"/>
</segmentGroup>
<segmentGroup id="ModelViewParmSubset_6">
<include segmentGroup="comp_21"/>
<include segmentGroup="comp_20"/>
<include segmentGroup="comp_19"/>
<include segmentGroup="comp_18"/>
<include segmentGroup="comp_17"/>
<include segmentGroup="comp_16"/>
<include segmentGroup="comp_15"/>
<include segmentGroup="comp_14"/>
<include segmentGroup="comp_40"/>
<include segmentGroup="comp_25"/>
<include segmentGroup="comp_24"/>
<include segmentGroup="comp_23"/>
<include segmentGroup="comp_22"/>
<include segmentGroup="comp_33"/>
<include segmentGroup="comp_32"/>
<include segmentGroup="comp_31"/>
<include segmentGroup="comp_30"/>
<include segmentGroup="comp_29"/>
<include segmentGroup="comp_28"/>
<include segmentGroup="comp_27"/>
<include segmentGroup="comp_26"/>
<include segmentGroup="comp_42"/>
<include segmentGroup="comp_41"/>
<include segmentGroup="comp_37"/>
<include segmentGroup="comp_36"/>
<include segmentGroup="comp_35"/>
<include segmentGroup="comp_34"/>
<include segmentGroup="comp_44"/>
<include segmentGroup="comp_43"/>
<include segmentGroup="comp_52"/>
<include segmentGroup="comp_51"/>
<include segmentGroup="comp_50"/>
<include segmentGroup="comp_49"/>
<include segmentGroup="comp_48"/>
<include segmentGroup="comp_47"/>
<include segmentGroup="comp_46"/>
<include segmentGroup="comp_45"/>
<include segmentGroup="comp_60"/>
<include segmentGroup="comp_59"/>
<include segmentGroup="comp_58"/>
<include segmentGroup="comp_57"/>
<include segmentGroup="comp_56"/>
<include segmentGroup="comp_55"/>
<include segmentGroup="comp_54"/>
<include segmentGroup="comp_53"/>
<include segmentGroup="comp_68"/>
<include segmentGroup="comp_67"/>
<include segmentGroup="comp_66"/>
<include segmentGroup="comp_65"/>
<include segmentGroup="comp_64"/>
<include segmentGroup="comp_63"/>
<include segmentGroup="comp_62"/>
<include segmentGroup="comp_61"/>
</segmentGroup>
<segmentGroup id="mid_dist_bas_dend">
<include segmentGroup="comp_21"/>
<include segmentGroup="comp_20"/>
<include segmentGroup="comp_19"/>
<include segmentGroup="comp_18"/>
<include segmentGroup="comp_17"/>
<include segmentGroup="comp_16"/>
<include segmentGroup="comp_15"/>
<include segmentGroup="comp_14"/>
<include segmentGroup="comp_33"/>
<include segmentGroup="comp_32"/>
<include segmentGroup="comp_31"/>
<include segmentGroup="comp_30"/>
<include segmentGroup="comp_29"/>
<include segmentGroup="comp_28"/>
<include segmentGroup="comp_27"/>
<include segmentGroup="comp_26"/>
</segmentGroup>
<segmentGroup id="LTS_dends">
<include segmentGroup="comp_21"/>
<include segmentGroup="comp_20"/>
<include segmentGroup="comp_19"/>
<include segmentGroup="comp_18"/>
<include segmentGroup="comp_17"/>
<include segmentGroup="comp_16"/>
<include segmentGroup="comp_15"/>
<include segmentGroup="comp_14"/>
<include segmentGroup="comp_40"/>
<include segmentGroup="comp_25"/>
<include segmentGroup="comp_24"/>
<include segmentGroup="comp_23"/>
<include segmentGroup="comp_22"/>
<include segmentGroup="comp_33"/>
<include segmentGroup="comp_32"/>
<include segmentGroup="comp_31"/>
<include segmentGroup="comp_30"/>
<include segmentGroup="comp_29"/>
<include segmentGroup="comp_28"/>
<include segmentGroup="comp_27"/>
<include segmentGroup="comp_26"/>
<include segmentGroup="comp_42"/>
<include segmentGroup="comp_41"/>
<include segmentGroup="comp_37"/>
<include segmentGroup="comp_36"/>
<include segmentGroup="comp_35"/>
<include segmentGroup="comp_34"/>
<include segmentGroup="comp_44"/>
<include segmentGroup="comp_43"/>
<include segmentGroup="comp_52"/>
<include segmentGroup="comp_51"/>
<include segmentGroup="comp_50"/>
<include segmentGroup="comp_49"/>
<include segmentGroup="comp_48"/>
<include segmentGroup="comp_47"/>
<include segmentGroup="comp_46"/>
<include segmentGroup="comp_45"/>
<include segmentGroup="comp_60"/>
<include segmentGroup="comp_59"/>
<include segmentGroup="comp_58"/>
<include segmentGroup="comp_57"/>
<include segmentGroup="comp_56"/>
<include segmentGroup="comp_55"/>
<include segmentGroup="comp_54"/>
<include segmentGroup="comp_53"/>
<include segmentGroup="comp_68"/>
<include segmentGroup="comp_67"/>
<include segmentGroup="comp_66"/>
<include segmentGroup="comp_65"/>
<include segmentGroup="comp_64"/>
<include segmentGroup="comp_63"/>
<include segmentGroup="comp_62"/>
<include segmentGroup="comp_61"/>
</segmentGroup>
<segmentGroup id="mid_apic_dends">
<include segmentGroup="comp_40"/>
<include segmentGroup="comp_42"/>
<include segmentGroup="comp_41"/>
<include segmentGroup="comp_44"/>
<include segmentGroup="comp_43"/>
<include segmentGroup="comp_52"/>
<include segmentGroup="comp_51"/>
<include segmentGroup="comp_50"/>
<include segmentGroup="comp_49"/>
<include segmentGroup="comp_48"/>
<include segmentGroup="comp_47"/>
<include segmentGroup="comp_46"/>
<include segmentGroup="comp_45"/>
</segmentGroup>
<segmentGroup id="distal_axon">
<include segmentGroup="comp_74"/>
<include segmentGroup="comp_72"/>
</segmentGroup>
<segmentGroup id="L6Pyr_dends">
<include segmentGroup="comp_42"/>
<include segmentGroup="comp_41"/>
<include segmentGroup="comp_44"/>
<include segmentGroup="comp_43"/>
</segmentGroup>
<segmentGroup id="TCR_dends">
<include segmentGroup="comp_52"/>
<include segmentGroup="comp_51"/>
<include segmentGroup="comp_50"/>
<include segmentGroup="comp_49"/>
<include segmentGroup="comp_48"/>
<include segmentGroup="comp_47"/>
<include segmentGroup="comp_46"/>
<include segmentGroup="comp_45"/>
<include segmentGroup="comp_60"/>
<include segmentGroup="comp_59"/>
<include segmentGroup="comp_58"/>
<include segmentGroup="comp_57"/>
<include segmentGroup="comp_56"/>
<include segmentGroup="comp_55"/>
<include segmentGroup="comp_54"/>
<include segmentGroup="comp_53"/>
<include segmentGroup="comp_68"/>
<include segmentGroup="comp_67"/>
<include segmentGroup="comp_66"/>
<include segmentGroup="comp_65"/>
<include segmentGroup="comp_64"/>
<include segmentGroup="comp_63"/>
<include segmentGroup="comp_62"/>
<include segmentGroup="comp_61"/>
</segmentGroup>
</morphology>
<biophysicalProperties id="biophys">
<membraneProperties>
<channelDensity condDensity="0.25 mS_per_cm2" id="ar_OneSecGrp_SectionRef_1" ionChannel="ar__m00_25" segmentGroup="OneSecGrp_SectionRef_1" erev="-35.0 mV" ion="ar"/>
<channelDensity condDensity="0.5 mS_per_cm2" id="ar_ModelViewParmSubset_4" ionChannel="ar__m00_25" segmentGroup="ModelViewParmSubset_4" erev="-35.0 mV" ion="ar"/>
<channelDensity condDensity="1.0 mS_per_cm2" id="cal_OneSecGrp_SectionRef_1" ionChannel="cal" segmentGroup="OneSecGrp_SectionRef_1" ion="ca" erev="125.0 mV"/>
<channelDensity condDensity="2.0 mS_per_cm2" id="cal_ModelViewParmSubset_4" ionChannel="cal" segmentGroup="ModelViewParmSubset_4" ion="ca" erev="125.0 mV"/>
<channelDensity condDensity="0.1 mS_per_cm2" id="cat_OneSecGrp_SectionRef_1" ionChannel="cat" segmentGroup="OneSecGrp_SectionRef_1" ion="cat" erev="125.0 mV"/>
<channelDensity condDensity="0.2 mS_per_cm2" id="cat_ModelViewParmSubset_4" ionChannel="cat" segmentGroup="ModelViewParmSubset_4" ion="cat" erev="125.0 mV"/>
<channelDensity condDensity="0.1 mS_per_cm2" id="k2_ModelViewParmSubset_3" ionChannel="k2" segmentGroup="ModelViewParmSubset_3" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="0.2 mS_per_cm2" id="k2_ModelViewParmSubset_4" ionChannel="k2" segmentGroup="ModelViewParmSubset_4" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="2.0 mS_per_cm2" id="ka_ModelViewParmSubset_2" ionChannel="ka" segmentGroup="ModelViewParmSubset_2" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="30.0 mS_per_cm2" id="ka_OneSecGrp_SectionRef_1" ionChannel="ka" segmentGroup="OneSecGrp_SectionRef_1" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="4.0 mS_per_cm2" id="ka_ModelViewParmSubset_5" ionChannel="ka" segmentGroup="ModelViewParmSubset_5" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="60.0 mS_per_cm2" id="ka_OneSecGrp_SectionRef_3" ionChannel="ka" segmentGroup="OneSecGrp_SectionRef_3" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="0.1 mS_per_cm2" id="kahp_OneSecGrp_SectionRef_1" ionChannel="kahp" segmentGroup="OneSecGrp_SectionRef_1" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="0.2 mS_per_cm2" id="kahp_ModelViewParmSubset_4" ionChannel="kahp" segmentGroup="ModelViewParmSubset_4" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="4.5 mS_per_cm2" id="kc_OneSecGrp_SectionRef_1" ionChannel="kc" segmentGroup="OneSecGrp_SectionRef_1" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="9.0 mS_per_cm2" id="kc_ModelViewParmSubset_4" ionChannel="kc" segmentGroup="ModelViewParmSubset_4" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="125.0 mS_per_cm2" id="kdr_OneSecGrp_SectionRef_1" ionChannel="kdr" segmentGroup="OneSecGrp_SectionRef_1" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="12.5 mS_per_cm2" id="kdr_ModelViewParmSubset_6" ionChannel="kdr" segmentGroup="ModelViewParmSubset_6" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="187.5 mS_per_cm2" id="kdr_ModelViewParmSubset_7" ionChannel="kdr" segmentGroup="ModelViewParmSubset_7" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="250.0 mS_per_cm2" id="kdr_OneSecGrp_SectionRef_3" ionChannel="kdr" segmentGroup="OneSecGrp_SectionRef_3" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="400.0 mS_per_cm2" id="kdr_ModelViewParmSubset_2" ionChannel="kdr" segmentGroup="ModelViewParmSubset_2" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="15.0 mS_per_cm2" id="km_ModelViewParmSubset_4" ionChannel="km" segmentGroup="ModelViewParmSubset_4" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="7.5 mS_per_cm2" id="km_OneSecGrp_SectionRef_1" ionChannel="km" segmentGroup="OneSecGrp_SectionRef_1" ion="k" erev="-95.0 mV"/>
<channelDensity condDensity="187.5 mS_per_cm2" id="naf_ModelViewParmSubset_8" ionChannel="naf__a0__b0__c0__d0__fastNa_shiftmin3_5" segmentGroup="ModelViewParmSubset_8" ion="na" erev="50.0 mV"/>
<channelDensity condDensity="250.0 mS_per_cm2" id="naf_OneSecGrp_SectionRef_3" ionChannel="naf__a0__b0__c0__d0__fastNa_shiftmin3_5" segmentGroup="OneSecGrp_SectionRef_3" ion="na" erev="50.0 mV"/>
<channelDensity condDensity="25.0 mS_per_cm2" id="naf_ModelViewParmSubset_6" ionChannel="naf__a0__b0__c0__d0__fastNa_shiftmin3_5" segmentGroup="ModelViewParmSubset_6" ion="na" erev="50.0 mV"/>
<channelDensity condDensity="400.0 mS_per_cm2" id="naf_ModelViewParmSubset_2" ionChannel="naf__a0__b0__c0__d0__fastNa_shiftmin3_5" segmentGroup="ModelViewParmSubset_2" ion="na" erev="50.0 mV"/>
<channelDensity condDensity="0.48 mS_per_cm2" id="nap_ModelViewParmSubset_8" ionChannel="nap" segmentGroup="ModelViewParmSubset_8" ion="na" erev="50.0 mV"/>
<channelDensity condDensity="0.064 mS_per_cm2" id="nap_ModelViewParmSubset_6" ionChannel="nap" segmentGroup="ModelViewParmSubset_6" ion="na" erev="50.0 mV"/>
<channelDensity condDensity="0.64 mS_per_cm2" id="nap_OneSecGrp_SectionRef_3" ionChannel="nap" segmentGroup="OneSecGrp_SectionRef_3" ion="na" erev="50.0 mV"/>
<channelDensity condDensity="1.0 mS_per_cm2" id="pas_ModelViewParmSubset_2" ionChannel="pas" segmentGroup="ModelViewParmSubset_2" erev="-70.0 mV" ion="non_specific"/>
<channelDensity condDensity="0.02 mS_per_cm2" id="pas_OneSecGrp_SectionRef_1" ionChannel="pas" segmentGroup="OneSecGrp_SectionRef_1" erev="-70.0 mV" ion="non_specific"/>
<channelDensity condDensity="0.04 mS_per_cm2" id="pas_ModelViewParmSubset_4" ionChannel="pas" segmentGroup="ModelViewParmSubset_4" erev="-70.0 mV" ion="non_specific"/>
<spikeThresh value="0.0 mV"/>
<specificCapacitance segmentGroup="ModelViewParmSubset_4" value="1.8 uF_per_cm2"/>
<specificCapacitance segmentGroup="ModelViewParmSubset_3" value="0.9 uF_per_cm2"/>
<initMembPotential value="-70.0 mV"/>
</membraneProperties>
<intracellularProperties>
<species segmentGroup="ModelViewParmSubset_4" id="ca" ion="ca" concentrationModel="cad__beta0_05__phi52000" initialConcentration="1.0E-8 mol_per_cm3" initialExtConcentration="2.0E-6 mol_per_cm3"/>
<species segmentGroup="OneSecGrp_SectionRef_1" id="ca" ion="ca" concentrationModel="cad__beta0_01__phi26000" initialConcentration="1.0E-8 mol_per_cm3" initialExtConcentration="2.0E-6 mol_per_cm3"/>
<resistivity segmentGroup="ModelViewParmSubset_2" value="0.1 kohm_cm"/>
<resistivity segmentGroup="ModelViewParmSubset_1" value="0.25 kohm_cm"/>
</intracellularProperties>
</biophysicalProperties>
</cell>
<cell id="L23PyrRS">
<notes>Cell: suppyrRS_0 exported from NEURON ModelView</notes>
<morphology id="morphology_L23PyrRS">
<segment id="0" name="Seg0_comp_1">
<proximal x="0.0" y="0.0" z="0.0" diameter="16.0"/>
<distal x="0.0" y="7.5" z="0.0" diameter="16.0"/>
</segment>
<segment id="1" name="Seg1_comp_1">
<parent segment="0"/>
<distal x="-0.0" y="15.0" z="0.0" diameter="16.0"/>
</segment>
<segment id="136" name="Seg0_comp_69">
<parent segment="0" fractionAlong="0.0"/>
<proximal x="0.0" y="0.0" z="0.0" diameter="1.8"/>
<distal x="-0.0" y="-12.5" z="0.0" diameter="1.8"/>
</segment>
<segment id="137" name="Seg1_comp_69">
<parent segment="136"/>
<distal x="-0.0" y="-25.0" z="0.0" diameter="1.8"/>
</segment>
<segment id="74" name="Seg0_comp_38">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="8.0"/>
<distal x="-0.0" y="40.0" z="0.0" diameter="8.0"/>
</segment>
<segment id="75" name="Seg1_comp_38">
<parent segment="74"/>
<distal x="-0.0" y="65.0" z="0.0" diameter="8.0"/>
</segment>
<segment id="16" name="Seg0_comp_9">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="-0.0" y="-5.0" z="-15.0" diameter="1.0"/>
</segment>
<segment id="17" name="Seg1_comp_9">
<parent segment="16"/>
<distal x="0.0" y="-25.0" z="-30.0" diameter="1.0"/>
</segment>
<segment id="14" name="Seg0_comp_8">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="15.0" y="-5.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="15" name="Seg1_comp_8">
<parent segment="14"/>
<distal x="30.0" y="-25.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="12" name="Seg0_comp_7">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="-0.0" y="-5.0" z="15.0" diameter="1.0"/>
</segment>
<segment id="13" name="Seg1_comp_7">
<parent segment="12"/>
<distal x="0.0" y="-25.0" z="30.0" diameter="1.0"/>
</segment>
<segment id="10" name="Seg0_comp_6">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="-15.0" y="-5.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="11" name="Seg1_comp_6">
<parent segment="10"/>
<distal x="-30.0" y="-25.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="8" name="Seg0_comp_5">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="17.320509" y="10.0" z="-17.320509" diameter="1.0"/>
</segment>
<segment id="9" name="Seg1_comp_5">
<parent segment="8"/>
<distal x="34.641018" y="5.0" z="-34.64101" diameter="1.0"/>
</segment>
<segment id="6" name="Seg0_comp_4">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="17.320509" y="10.0" z="17.320509" diameter="1.0"/>
</segment>
<segment id="7" name="Seg1_comp_4">
<parent segment="6"/>
<distal x="34.640957" y="5.0" z="34.640995" diameter="1.0"/>
</segment>
<segment id="4" name="Seg0_comp_3">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="-17.320509" y="10.0" z="-17.320509" diameter="1.0"/>
</segment>
<segment id="5" name="Seg1_comp_3">
<parent segment="4"/>
<distal x="-34.641" y="5.0" z="-34.641014" diameter="1.0"/>
</segment>
<segment id="2" name="Seg0_comp_2">
<parent segment="1"/>
<proximal x="-0.0" y="15.0" z="0.0" diameter="1.0"/>
<distal x="-17.320509" y="10.0" z="17.320509" diameter="1.0"/>
</segment>
<segment id="3" name="Seg1_comp_2">
<parent segment="2"/>
<distal x="-34.64103" y="5.0" z="34.64107" diameter="1.0"/>
</segment>
<segment id="138" name="Seg0_comp_70">
<parent segment="137"/>
<proximal x="-0.0" y="-25.0" z="0.0" diameter="1.4"/>
<distal x="-0.0" y="-50.0" z="0.0" diameter="1.4"/>
</segment>
<segment id="139" name="Seg1_comp_70">
<parent segment="138"/>
<distal x="-0.0" y="-75.0" z="0.0" diameter="1.4"/>
</segment>
<segment id="76" name="Seg0_comp_39">
<parent segment="75"/>
<proximal x="-0.0" y="65.0" z="0.0" diameter="7.2"/>
<distal x="-0.0" y="90.0" z="0.0" diameter="7.2"/>
</segment>
<segment id="77" name="Seg1_comp_39">
<parent segment="76"/>
<distal x="-0.0" y="115.0" z="0.0" diameter="7.2"/>
</segment>
<segment id="24" name="Seg0_comp_13">
<parent segment="75"/>
<proximal x="-0.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="-0.0" y="65.0" z="-25.0" diameter="1.0"/>
</segment>
<segment id="25" name="Seg1_comp_13">
<parent segment="24"/>
<distal x="-0.0" y="65.0" z="-50.0" diameter="1.0"/>
</segment>
<segment id="22" name="Seg0_comp_12">
<parent segment="75"/>
<proximal x="-0.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="25.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="23" name="Seg1_comp_12">
<parent segment="22"/>
<distal x="50.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="20" name="Seg0_comp_11">
<parent segment="75"/>
<proximal x="-0.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="-0.0" y="65.0" z="25.0" diameter="1.0"/>
</segment>
<segment id="21" name="Seg1_comp_11">
<parent segment="20"/>
<distal x="0.0" y="65.0" z="50.0" diameter="1.0"/>
</segment>
<segment id="18" name="Seg0_comp_10">
<parent segment="75"/>
<proximal x="-0.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="-25.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="19" name="Seg1_comp_10">
<parent segment="18"/>
<distal x="-50.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="40" name="Seg0_comp_21">
<parent segment="17"/>
<proximal x="0.0" y="-25.0" z="-30.0" diameter="1.0"/>
<distal x="0.0" y="-45.0" z="-45.0" diameter="1.0"/>
</segment>
<segment id="41" name="Seg1_comp_21">
<parent segment="40"/>
<distal x="0.0" y="-65.0" z="-60.0" diameter="1.0"/>
</segment>
<segment id="38" name="Seg0_comp_20">
<parent segment="15"/>
<proximal x="30.0" y="-25.0" z="0.0" diameter="1.0"/>
<distal x="45.0" y="-45.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="39" name="Seg1_comp_20">
<parent segment="38"/>
<distal x="60.0" y="-65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="36" name="Seg0_comp_19">
<parent segment="13"/>
<proximal x="0.0" y="-25.0" z="30.0" diameter="1.0"/>
<distal x="0.0" y="-45.0" z="45.0" diameter="1.0"/>
</segment>
<segment id="37" name="Seg1_comp_19">
<parent segment="36"/>
<distal x="0.0" y="-65.0" z="60.0" diameter="1.0"/>
</segment>
<segment id="34" name="Seg0_comp_18">
<parent segment="11"/>
<proximal x="-30.0" y="-25.0" z="0.0" diameter="1.0"/>
<distal x="-45.0" y="-45.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="35" name="Seg1_comp_18">
<parent segment="34"/>
<distal x="-60.0" y="-65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="32" name="Seg0_comp_17">
<parent segment="9"/>
<proximal x="34.641018" y="5.0" z="-34.64101" diameter="1.0"/>
<distal x="51.961525" y="0.0" z="-51.961517" diameter="1.0"/>
</segment>
<segment id="33" name="Seg1_comp_17">
<parent segment="32"/>
<distal x="69.28174" y="-5.0" z="-69.28177" diameter="1.0"/>
</segment>
<segment id="30" name="Seg0_comp_16">
<parent segment="7"/>
<proximal x="34.640957" y="5.0" z="34.640995" diameter="1.0"/>
<distal x="51.961487" y="0.0" z="51.961525" diameter="1.0"/>
</segment>
<segment id="31" name="Seg1_comp_16">
<parent segment="30"/>
<distal x="69.28227" y="-5.0" z="69.2822" diameter="1.0"/>
</segment>
<segment id="28" name="Seg0_comp_15">
<parent segment="5"/>
<proximal x="-34.641" y="5.0" z="-34.641014" diameter="1.0"/>
<distal x="-51.961494" y="0.0" z="-51.961517" diameter="1.0"/>
</segment>
<segment id="29" name="Seg1_comp_15">
<parent segment="28"/>
<distal x="-69.2822" y="-5.0" z="-69.282326" diameter="1.0"/>
</segment>
<segment id="26" name="Seg0_comp_14">
<parent segment="3"/>
<proximal x="-34.64103" y="5.0" z="34.64107" diameter="1.0"/>
<distal x="-51.961548" y="0.0" z="51.961563" diameter="1.0"/>
</segment>
<segment id="27" name="Seg1_comp_14">
<parent segment="26"/>
<distal x="-69.281975" y="-5.0" z="69.282005" diameter="1.0"/>
</segment>
<segment id="144" name="Seg0_comp_73">
<parent segment="139"/>
<proximal x="-0.0" y="-75.0" z="0.0" diameter="1.0"/>
<distal x="-9.735465" y="-98.0265" z="0.0" diameter="1.0"/>
</segment>
<segment id="145" name="Seg1_comp_73">
<parent segment="144"/>
<distal x="-19.470894" y="-121.05301" z="0.0" diameter="1.0"/>
</segment>
<segment id="140" name="Seg0_comp_71">
<parent segment="139"/>
<proximal x="-0.0" y="-75.0" z="0.0" diameter="1.0"/>
<distal x="9.735455" y="-98.0265" z="0.0" diameter="1.0"/>
</segment>
<segment id="141" name="Seg1_comp_71">
<parent segment="140"/>
<distal x="19.470905" y="-121.05301" z="0.0" diameter="1.0"/>
</segment>
<segment id="78" name="Seg0_comp_40">
<parent segment="77"/>
<proximal x="-0.0" y="115.0" z="0.0" diameter="6.4"/>
<distal x="0.0" y="140.0" z="0.0" diameter="6.4"/>
</segment>
<segment id="79" name="Seg1_comp_40">
<parent segment="78"/>
<distal x="-0.0" y="165.0" z="0.0" diameter="6.4"/>
</segment>
<segment id="48" name="Seg0_comp_25">
<parent segment="25"/>
<proximal x="-0.0" y="65.0" z="-50.0" diameter="1.0"/>
<distal x="0.0" y="65.0" z="-75.0" diameter="1.0"/>
</segment>
<segment id="49" name="Seg1_comp_25">
<parent segment="48"/>
<distal x="-0.0" y="65.0" z="-100.0" diameter="1.0"/>
</segment>
<segment id="46" name="Seg0_comp_24">
<parent segment="23"/>
<proximal x="50.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="75.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="47" name="Seg1_comp_24">
<parent segment="46"/>
<distal x="100.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="44" name="Seg0_comp_23">
<parent segment="21"/>
<proximal x="0.0" y="65.0" z="50.0" diameter="1.0"/>
<distal x="0.0" y="65.0" z="75.0" diameter="1.0"/>
</segment>
<segment id="45" name="Seg1_comp_23">
<parent segment="44"/>
<distal x="0.0" y="65.0" z="100.0" diameter="1.0"/>
</segment>
<segment id="42" name="Seg0_comp_22">
<parent segment="19"/>
<proximal x="-50.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="-75.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="43" name="Seg1_comp_22">
<parent segment="42"/>
<distal x="-100.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="64" name="Seg0_comp_33">
<parent segment="41"/>
<proximal x="0.0" y="-65.0" z="-60.0" diameter="1.0"/>
<distal x="0.0" y="-85.0" z="-75.0" diameter="1.0"/>
</segment>
<segment id="65" name="Seg1_comp_33">
<parent segment="64"/>
<distal x="0.0" y="-105.0" z="-90.0" diameter="1.0"/>
</segment>
<segment id="62" name="Seg0_comp_32">
<parent segment="39"/>
<proximal x="60.0" y="-65.0" z="0.0" diameter="1.0"/>
<distal x="75.0" y="-85.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="63" name="Seg1_comp_32">
<parent segment="62"/>
<distal x="90.0" y="-105.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="60" name="Seg0_comp_31">
<parent segment="37"/>
<proximal x="0.0" y="-65.0" z="60.0" diameter="1.0"/>
<distal x="0.0" y="-85.0" z="75.0" diameter="1.0"/>
</segment>
<segment id="61" name="Seg1_comp_31">
<parent segment="60"/>
<distal x="0.0" y="-105.0" z="90.0" diameter="1.0"/>
</segment>
<segment id="58" name="Seg0_comp_30">
<parent segment="35"/>
<proximal x="-60.0" y="-65.0" z="0.0" diameter="1.0"/>
<distal x="-75.0" y="-85.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="59" name="Seg1_comp_30">
<parent segment="58"/>
<distal x="-90.0" y="-105.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="56" name="Seg0_comp_29">
<parent segment="33"/>
<proximal x="69.28174" y="-5.0" z="-69.28177" diameter="1.0"/>
<distal x="86.602905" y="-10.0" z="-86.60286" diameter="1.0"/>
</segment>
<segment id="57" name="Seg1_comp_29">
<parent segment="56"/>
<distal x="103.923355" y="-15.0" z="-103.92326" diameter="1.0"/>
</segment>
<segment id="54" name="Seg0_comp_28">
<parent segment="31"/>
<proximal x="69.28227" y="-5.0" z="69.2822" diameter="1.0"/>
<distal x="86.60222" y="-10.0" z="86.60239" diameter="1.0"/>
</segment>
<segment id="55" name="Seg1_comp_28">
<parent segment="54"/>
<distal x="103.923" y="-15.0" z="103.92307" diameter="1.0"/>
</segment>
<segment id="52" name="Seg0_comp_27">
<parent segment="29"/>
<proximal x="-69.2822" y="-5.0" z="-69.282326" diameter="1.0"/>
<distal x="-86.602486" y="-10.0" z="-86.60253" diameter="1.0"/>
</segment>
<segment id="53" name="Seg1_comp_27">
<parent segment="52"/>
<distal x="-103.92276" y="-15.0" z="-103.922714" diameter="1.0"/>
</segment>
<segment id="50" name="Seg0_comp_26">
<parent segment="27"/>
<proximal x="-69.281975" y="-5.0" z="69.282005" diameter="1.0"/>
<distal x="-86.60266" y="-10.0" z="86.6028" diameter="1.0"/>
</segment>
<segment id="51" name="Seg1_comp_26">
<parent segment="50"/>
<distal x="-103.92302" y="-15.0" z="103.92299" diameter="1.0"/>
</segment>
<segment id="146" name="Seg0_comp_74">
<parent segment="145"/>
<proximal x="-19.470894" y="-121.05301" z="0.0" diameter="1.0"/>
<distal x="-29.206394" y="-144.08" z="0.0" diameter="1.0"/>
</segment>
<segment id="147" name="Seg1_comp_74">
<parent segment="146"/>
<distal x="-38.94189" y="-167.106" z="0.0" diameter="1.0"/>
</segment>
<segment id="142" name="Seg0_comp_72">
<parent segment="141"/>
<proximal x="19.470905" y="-121.05301" z="0.0" diameter="1.0"/>
<distal x="29.206406" y="-144.08" z="0.0" diameter="1.0"/>
</segment>
<segment id="143" name="Seg1_comp_72">
<parent segment="142"/>
<distal x="38.941807" y="-167.106" z="0.0" diameter="1.0"/>
</segment>
<segment id="82" name="Seg0_comp_42">
<parent segment="79"/>
<proximal x="-0.0" y="165.0" z="0.0" diameter="4.0"/>
<distal x="9.734937" y="188.02641" z="0.0" diameter="4.0"/>
</segment>
<segment id="83" name="Seg1_comp_42">
<parent segment="82"/>
<distal x="19.470385" y="211.05298" z="0.0" diameter="4.0"/>
</segment>
<segment id="80" name="Seg0_comp_41">
<parent segment="79"/>
<proximal x="-0.0" y="165.0" z="0.0" diameter="4.0"/>
<distal x="-9.735199" y="188.0264" z="0.0" diameter="4.0"/>
</segment>
<segment id="81" name="Seg1_comp_41">
<parent segment="80"/>
<distal x="-19.471302" y="211.05292" z="0.0" diameter="4.0"/>
</segment>
<segment id="72" name="Seg0_comp_37">
<parent segment="49"/>
<proximal x="-0.0" y="65.0" z="-100.0" diameter="1.0"/>
<distal x="-0.0" y="65.0" z="-125.0" diameter="1.0"/>
</segment>
<segment id="73" name="Seg1_comp_37">
<parent segment="72"/>
<distal x="-0.0" y="65.0" z="-150.0" diameter="1.0"/>
</segment>
<segment id="70" name="Seg0_comp_36">
<parent segment="47"/>
<proximal x="100.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="125.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="71" name="Seg1_comp_36">
<parent segment="70"/>
<distal x="150.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="68" name="Seg0_comp_35">
<parent segment="45"/>
<proximal x="0.0" y="65.0" z="100.0" diameter="1.0"/>
<distal x="0.0" y="65.0" z="125.0" diameter="1.0"/>
</segment>
<segment id="69" name="Seg1_comp_35">
<parent segment="68"/>
<distal x="0.0" y="65.0" z="150.0" diameter="1.0"/>
</segment>
<segment id="66" name="Seg0_comp_34">
<parent segment="43"/>
<proximal x="-100.0" y="65.0" z="0.0" diameter="1.0"/>
<distal x="-125.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="67" name="Seg1_comp_34">
<parent segment="66"/>
<distal x="-150.0" y="65.0" z="0.0" diameter="1.0"/>
</segment>
<segment id="86" name="Seg0_comp_44">
<parent segment="83"/>
<proximal x="19.470385" y="211.05298" z="0.0" diameter="4.0"/>
<distal x="29.20583" y="234.07956" z="0.0" diameter="4.0"/>
</segment>
<segment id="87" name="Seg1_comp_44">
<parent segment="86"/>
<distal x="38.94128" y="257.10614" z="0.0" diameter="4.0"/>
</segment>
<segment id="84" name="Seg0_comp_43">
<parent segment="81"/>
<proximal x="-19.471302" y="211.05292" z="0.0" diameter="4.0"/>
<distal x="-29.20599" y="234.07948" z="0.0" diameter="4.0"/>
</segment>
<segment id="85" name="Seg1_comp_43">
<parent segment="84"/>
<distal x="-38.942097" y="257.106" z="0.0" diameter="4.0"/>
</segment>
<segment id="102" name="Seg0_comp_52">
<parent segment="87"/>
<proximal x="38.94128" y="257.10614" z="0.0" diameter="1.6"/>
<distal x="56.875668" y="274.52423" z="0.0" diameter="1.6"/>
</segment>
<segment id="103" name="Seg1_comp_52">
<parent segment="102"/>
<distal x="74.809364" y="291.94165" z="0.0" diameter="1.6"/>
</segment>
<segment id="100" name="Seg0_comp_51">
<parent segment="87"/>
<proximal x="38.94128" y="257.10614" z="0.0" diameter="1.6"/>
<distal x="38.94128" y="274.52423" z="-17.934387" diameter="1.6"/>
</segment>
<segment id="101" name="Seg1_comp_51">
<parent segment="100"/>
<distal x="38.940094" y="291.94177" z="-35.86782" diameter="1.6"/>
</segment>
<segment id="98" name="Seg0_comp_50">
<parent segment="87"/>
<proximal x="38.94128" y="257.10614" z="0.0" diameter="1.6"/>
<distal x="38.94128" y="274.52423" z="17.934387" diameter="1.6"/>
</segment>
<segment id="99" name="Seg1_comp_50">
<parent segment="98"/>
<distal x="38.941246" y="291.94193" z="35.868366" diameter="1.6"/>
</segment>
<segment id="96" name="Seg0_comp_49">
<parent segment="87"/>
<proximal x="38.94128" y="257.10614" z="0.0" diameter="1.6"/>