- Author:
- Shelley Fong <s.fong@auckland.ac.nz>
- Date:
- 2022-02-28 15:14:59+13:00
- Desc:
- Fix equation finding K Kappa and update parameters
- Permanent Source URI:
- https://models.physiomeproject.org/workspace/82e/rawfile/ffe0f7085fd622917c43914d1045c8f96dd254df/parameter_fitting/z_gate_fitting.m
% based on markov model of Pan's Na m channel
% work in SECONDS not ms.
clear;
%clc;
% close all;
%% Options
run_optimisation = false;
%% Set directories
current_dir = pwd;
main_dir = current_dir; %
data_dir = [main_dir '\data' filesep];
output_dir = [main_dir '\output' filesep];
storage_dir = [main_dir '\storage' filesep];
%% Steady-state gating parameters and time constants
V = transpose(-120:1:60); % unit mV
alpha_zdv = 10000*exp((V-40)/25)./(1+exp((V-40)/25));
beta_zdv = 10000*exp(-(V+90)/25)./(1+exp(-(V+90)/25));
tau_zdv = 1./(alpha_zdv + beta_zdv);
g_ss_zdv = alpha_zdv./(alpha_zdv + beta_zdv);
%% Fit bond graph parameters to model
% params: [kf, zf, kr, zr];
% Kf corresponds to k_zdv20: 1*alpha_zdv
error_func_alpha = @(params) square_error(alpha_zdv - calc_alpha(params,V/1000)); % fit to alpha - k.exp(zFV/RT) : do lsqminerror.
error_func_beta = @(params) square_error(beta_zdv - calc_beta(params,V/1000));
error_func_gss = @(params) square_error(g_ss_zdv - p2gss(params,V));
error_func_tau = @(params) square_error(tau_zdv- p2tau(params,V));
error_func = @(params) error_func_alpha(params) + error_func_beta(params) + error_func_gss(params) + error_func_tau(params);
A = [];
b = [];
Aeq = [];
beq = [];
lb = [0; -10; 0; -10];
ub = [Inf; 10; Inf; 10];
options_unc = optimoptions('fminunc','MaxFunEvals',10000);
options_ps = optimoptions('particleswarm','UseParallel',false,'HybridFcn',@fmincon);
if run_optimisation
[params_vec,fval,exitflag,output] = particleswarm(error_func,4,lb,ub,options_ps);
save([storage_dir 'to_zdv_parameters.mat'],'params_vec');
else
load([storage_dir 'to_zdv_parameters.mat']);
end
% [params_vec,fval,exitflag,output,grad,hessian] = fminunc(error_func,params_vec,options_unc);
g_ss_fit = p2gss(params_vec,V);
h1 = figure;
plot(V,g_ss_zdv,'k--','LineWidth',4);
hold on;
plot(V,g_ss_fit,'k','LineWidth',4);
xlabel('Voltage (mV)');
ylabel('m_{ss}');
set(gca,'FontSize',28);
xlim([-120 60]);
set(gca,'XTick',-120:30:60);
set(gca,'YTick',0:0.2:1);
xticklabels({-120,'',-60,'',0,'',60});
yticklabels({0,'','','','',1});
set(gca,'LineWidth',3);
grid on;
tau_fit = p2tau(params_vec,V);
h2 = figure;
plot(V,tau_zdv,'k--','LineWidth',4);
hold on;
plot(V,tau_fit,'k','LineWidth',4);
% legend('Luo and Rudy','Fitted');
xlabel('Voltage (mV)');
ylabel('\tau_zdv (ms)');
set(gca,'FontSize',28);
xlim([-120 60]);
set(gca,'XTick',-120:30:60);
% set(gca,'YTick',0:0.2:1);
xticklabels({-120,'',-60,'',0,'',60});
% yticklabels({0,'','','','',1});
set(gca,'LineWidth',3);
set(gca,'xgrid','on');
alpha_fit = calc_alpha(params_vec,V/1000);
beta_fit = calc_beta(params_vec,V/1000);
figure,
subplot(1,2,1)
plot(V,alpha_zdv,V,alpha_fit);
legend('original','fit');
subplot(1,2,2)
plot(V,beta_zdv,V,beta_fit);
legend('original','fit');
print_figure(h1,output_dir,'g_ss_zdv');
print_figure(h2,output_dir,'tau_zdv');