def model GLUT1_BG as
    def import using "./units.cellml" for
        unit per_fmol using unit per_fmol;
        unit J_per_mol using unit J_per_mol;
        unit fmol_per_s using unit fmol_per_s;
        unit J_per_K_mol using unit J_per_K_mol;
        unit fmol using unit fmol;
    enddef;
    def import using "params_BG.cellml" for
        comp params_BG using comp params_BG;
    enddef;
    def comp GLUT1_BG as
        var t: second;
        var R: J_per_K_mol{ pub: in};
        var T: kelvin{ pub: in};
        var K_1: per_fmol{ pub: in};
        var q_init_1: fmol{ pub: in};
        var K_2: per_fmol{ pub: in};
        var q_init_2: fmol{ pub: in};
        var K_3: per_fmol{ pub: in};
        var q_init_3: fmol{ pub: in};
        var K_4: per_fmol{ pub: in};
        var q_init_4: fmol{ pub: in};
        var K_5: per_fmol{ pub: in};
        var q_init_5: fmol{ pub: in};
        var K_6: per_fmol{ pub: in};
        var q_init_6: fmol{ pub: in};
        var kappa_r1: fmol_per_s{ pub: in};
        var kappa_r2: fmol_per_s{ pub: in};
        var kappa_r3: fmol_per_s{ pub: in};
        var kappa_r4: fmol_per_s{ pub: in};
        var mu_1: J_per_mol;
        var v_1: fmol_per_s;
        var mu_2: J_per_mol;
        var v_2: fmol_per_s;
        var mu_3: J_per_mol;
        var v_3: fmol_per_s;
        var mu_4: J_per_mol;
        var v_4: fmol_per_s;
        var mu_5: J_per_mol;
        var v_5: fmol_per_s;
        var mu_6: J_per_mol;
        var v_6: fmol_per_s;
        var A_f_r1: J_per_mol;
        var v_r1: fmol_per_s;
        var A_r_r1: J_per_mol;
        var A_f_r2: J_per_mol;
        var v_r2: fmol_per_s;
        var A_r_r2: J_per_mol;
        var A_f_r3: J_per_mol;
        var v_r3: fmol_per_s;
        var A_r_r3: J_per_mol;
        var A_f_r4: J_per_mol;
        var v_r4: fmol_per_s;
        var A_r_r4: J_per_mol;
        var q_1: fmol{ init: q_init_1};
        var q_2: fmol{ init: q_init_2};
        var q_3: fmol{ init: q_init_3};
        var q_4: fmol{ init: q_init_4};
        var q_5: fmol{ init: q_init_5};
        var q_6: fmol{ init: q_init_6};
        mu_1 = R*T*log(K_1*q_1);
        ode(q_1,t) = v_1;
        mu_2 = R*T*log(K_2*q_2);
        ode(q_2,t) = v_2;
        mu_3 = R*T*log(K_3*q_3);
        ode(q_3,t) = v_3;
        mu_4 = R*T*log(K_4*q_4);
        ode(q_4,t) = v_4;
        mu_5 = R*T*log(K_5*q_5);
        ode(q_5,t) = v_5;
        mu_6 = R*T*log(K_6*q_6);
        ode(q_6,t) = v_6;
        v_r1 = kappa_r1*(exp(A_f_r1/(R*T)) - exp(A_r_r1/(R*T)));
        v_r2 = kappa_r2*(exp(A_f_r2/(R*T)) - exp(A_r_r2/(R*T)));
        v_r3 = kappa_r3*(exp(A_f_r3/(R*T)) - exp(A_r_r3/(R*T)));
        v_r4 = kappa_r4*(exp(A_f_r4/(R*T)) - exp(A_r_r4/(R*T)));
        v_1 =  - v_r1;
        v_2 = v_r2;
        v_3 = v_r1 - v_r3;
        v_4 = v_r3 - v_r2;
        v_5 = v_r2 - v_r4;
        v_6 = v_r4 - v_r1;
        A_f_r1 = mu_1+mu_6;
        A_r_r1 = mu_3;
        A_f_r2 = mu_4;
        A_r_r2 = mu_2+mu_5;
        A_f_r3 = mu_3;
        A_r_r3 = mu_4;
        A_f_r4 = mu_5;
        A_r_r4 = mu_6;
    enddef;
    def map between params_BG and GLUT1_BG for
        vars R and R;
        vars T and T;
        vars K_1 and K_1;
        vars q_init_1 and q_init_1;
        vars K_2 and K_2;
        vars q_init_2 and q_init_2;
        vars K_3 and K_3;
        vars q_init_3 and q_init_3;
        vars K_4 and K_4;
        vars q_init_4 and q_init_4;
        vars K_5 and K_5;
        vars q_init_5 and q_init_5;
        vars K_6 and K_6;
        vars q_init_6 and q_init_6;
        vars kappa_r1 and kappa_r1;
        vars kappa_r2 and kappa_r2;
        vars kappa_r3 and kappa_r3;
        vars kappa_r4 and kappa_r4;
    enddef;
enddef;