%------------------------------------------------------------------------------------------
%
% Title: Calcium Signals in Small Structures
% Filename: CaSignal_DtGammaDiscII.par
% Author: Ronald van Elburg
%
% Associated Paper:
% Cornelisse LN, van Elburg RAJ, Meredith RM, Yuste R, Mansvelder HD (2007)
% High Speed Two-Photon Imaging of Calcium Dynamics in Dendritic Spines:
% Consequences for Spine Calcium Kinetics and Buffer Capacity.
% PLoS ONE 2(10): e1073 doi:10.1371/journal.pone.0001073
%
%
%
%
%------------------------------------------------------------------------------------------
Structure = Disc_Structure
%
% Parameters for mimicking 1 compartmental model
%D_Dye =20
%D_Calcium =20
%D_EndogenousBuffer = 20
path = ".\" % If running under Windows, specify here the path to the
% directory containing the script imported below
file = path "CaSignal_main.par"
include file % Import the simulation parameters from the main script
% Auxilary variables for monitoring concentrations at different distances from the membrane
NoOfSteps = 6 % number of shells in the output (NOT IN THE SIMULATION, THERE THE GRIDSIZE DEFINES THE COMPARTMENTS)
dR=R_Structure/NoOfSteps
R1k=(NoOfSteps-0.5)*dR
R6k=(NoOfSteps-5.5)*dR
Ca1 := Ca[R1k] ; Dye1 := Dye[R1k]
Ca6 := Ca[R6k] ; Dye6 := Dye[R6k]
CaAverage:=Ca[] ; DyeAverage:=Dye[]
% Exporting the variables defined above to file, the first three variables need
% adjustment defining new scripts, to prevent these scripts from overwriting old
% results and using the wrong Loop variables, make sure that the LoopVars are
% integer version of the real loopvars used in for loops.
Exp='DtGammaII'
LoopVar=100*pulselength
LoopVar2=-mingamma_0*1000
Geom='D'
plot point.mute Ca1 "Output\Exp""Exp""\CSE""Exp""Geom""_Ca1_""LoopVar""_""LoopVar2"
plot point.mute Ca6 "Output\Exp""Exp""\CSE""Exp""Geom""_Ca6_""LoopVar""_""LoopVar2"
plot point.mute CaAverage "Output\Exp""Exp""\CSE""Exp""Geom""_CaAverage_""LoopVar""_""LoopVar2"
plot point.mute Dye1 "Output\Exp""Exp""\CSE""Exp""Geom""_Dye1_""LoopVar""_""LoopVar2"
plot point.mute Dye6 "Output\Exp""Exp""\CSE""Exp""Geom""_Dye6_""LoopVar""_""LoopVar2"
plot point.mute DyeAverage "Output\Exp""Exp""\CSE""Exp""Geom""_DyeAverage_""LoopVar""_""LoopVar2"
% Parameter variation
for pulselength = 0.55 to 2.50 step 0.05
for mingamma_0 = -0.55 to -0.355 step 0.005
% The adaptive integration method fails for the fast calcium change
% to overcome this problem we run the first 20 ms with a fixed timestep
% of 0.001 ms, then after the fast changes we switch to the adaptive method
% for optimal performance.
Run 20.0 1.0e-3 ; current CalciumCurrent
Run adaptive 480.0 1.0e-3 accuracy; current CalciumCurrent