Leech Heart (HE) Motor Neuron conductances contributions to NN activity (Lamb & Calabrese 2013)

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Accession:153355
"... To explore the relationship between conductances, and in particular how they influence the activity of motor neurons in the well characterized leech heartbeat system, we developed a new multi-compartmental Hodgkin-Huxley style leech heart motor neuron model. To do so, we evolved a population of model instances, which differed in the density of specific conductances, capable of achieving specific output activity targets given an associated input pattern. ... We found that the strengths of many conductances, including those with differing dynamics, had strong partial correlations and that these relationships appeared to be linked by their influence on heart motor neuron activity. Conductances that had positive correlations opposed one another and had the opposite effects on activity metrics when perturbed whereas conductances that had negative correlations could compensate for one another and had similar effects on activity metrics. "
Reference:
1 . Lamb DG, Calabrese RL (2013) Correlated conductance parameters in leech heart motor neurons contribute to motor pattern formation. PLoS One 8:e79267 [PubMed]
Model Information (Click on a link to find other models with that property)
Model Type: Realistic Network; Neuron or other electrically excitable cell;
Brain Region(s)/Organism: Leech;
Cell Type(s): Leech heart motor neuron (HE);
Channel(s): I Na,p; I A; I K; I K,leak; I K,Ca; I Sodium; I Calcium; I Na, leak;
Gap Junctions: Gap junctions;
Receptor(s):
Gene(s):
Transmitter(s):
Simulation Environment: GENESIS;
Model Concept(s): Action Potential Initiation; Activity Patterns; Bursting; Temporal Pattern Generation; Detailed Neuronal Models; Parameter sensitivity; Conductance distributions;
Implementer(s): Lamb, Damon [Damon.Lamb at neurology.ufl.edu];
Search NeuronDB for information about:  I Na,p; I A; I K; I K,leak; I K,Ca; I Sodium; I Calcium; I Na, leak;
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LambCalabrese2013
lgenesis-noX
include
absff_func_ext.h
absff_header.h
axon_ext.h
axon_g@.h
axon_struct.h
basic_g@.h
buf_defs.h
buf_ext.h
buf_struct.h
buffer_g@.h
conc_defs.h
conc_ext.h
conc_struct.h
concen_g@.h
copyright.h
dev_ext.h
dev_struct.h
devices_g@.h
diskio_defs.h
diskio_ext.h
diskio_func_ext.h
diskio_g@.h
diskio_struct.h
fac_debug.h
fac_defs.h
fac_ext.h
fac_struct.h
FMT1.h
FMT1_ext.h
FMT1_func_ext.h
FMT1_struct.h
hash.h
header.h
hh_ext.h
hh_g@.h
hh_struct.h
hh_struct_defs.h
hines_defs.h
hines_ext.h
hines_g@.h
hines_struct.h
interface.h
iofunc.h
kin_ext.h
kin_g@.h
kin_struct.h
netcdf.h
netcdf_ext.h
netcdf_func_ext.h
netcdf_struct.h
newconn_defs.h
newconn_ext.h
newconn_g@.h
newconn_struct.h
nrutil.h
NULLArgv.h
olf_ext.h
olf_g@.h
olf_struct.h
out_defs.h
out_ext.h
out_struct.h
output_g@.h
par_ext.h
param_defs.h
param_ext.h
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param_struct.h
per_ext.h
per_struct.h
personal_g@.h
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pore_struct.h
profile.h
seg.h
seg_defs.h
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seg_struct.h
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shell.h
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shell_func_ext.h
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shell_struct.h
sim.h
sim_defs.h
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sim_version.h
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SynGS_struct.h
system_deps.h
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tools.h
user_ext.h
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user_struct.h
                            
#ifndef FMT1_H
#define FMT1_H

#define MAX_FMT1_NAME 128

typedef int fmt1_type;

#define FMT1_INT 1
#define FMT1_CHAR 2
#define FMT1_SHORT 3
#define FMT1_LONG 4
#define FMT1_FLOAT 5
#define FMT1_DOUBLE 6

extern int FMT1_GetHeaderSize();
extern int FMT1_GetDataType();
extern int FMT1_inquire();

extern int FMT1_attinq();
extern int FMT1_attget();
extern int FMT1_attput();
extern int FMT1_attname();

extern int FMT1_varinq();
extern int FMT1_varget();
extern int FMT1_varput();
extern int FMT1_varname();

extern int FMT1_ReadHeader();

#endif

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