No Title  |POLVER05_3 |1
A = 10 # mM
H = 0.1 # mM
d(B) / d(t) = v1 - v2 # mM / min
B(0) = 1
d(C) / d(t) = -v6 - v2 # mM / min
C(0) = 1
d(D) / d(t) = v2 - v3 # mM / min
D(0) = 1
d(E) / d(t) = v3 - v4 # mM / min
E(0) = 1
d(F) / d(t) = v4 - v5 # mM / min
F(0) = 1
d(G) / d(t) = v5 + v6 # mM / min
G(0) = 1
d(ATP) / d(t) = v3 - v1 # mM / min
ATP(0) = 0.57
d(ADP) / d(t) = v1 - v3 # mM / min
ADP(0) = 0.21
v1 = Vmax1 * ( (A / K1A) * (ATP / K1ATP) ) / ( (1 + A / K1A) * (1 + ATP / K1ATP) * (1 + E / K1I) ) # mM / min
v2 = Vmax2 * ( (B / K2B) * (C / K2C) ) / ( (1 + B / K2B) * (1 + C / K2C) ) # mM / min
v3 = Vmax3 * ( (D / K3D) * (ADP / K3ADP) ) / ( (1 + D/K3D) * (1 + ADP / K3ADP) ) # mM / min
v4 = Vmax4 * ( (E / K4E) - (F / K4E / Keq4) ) / ( 1 + E / K4E + F / K4F ) # mM / min
v5 = Vmax5 * ( F / K5F ) / ( 1 + F / K5F ) # mM / min
v6 = Vmax6 * ( (C / K6C) - (G / K6C / Keq6) ) / ( 1 + C / K6C + G / K6G ) # mM / min
Vmax1 = 0.5 # mM / min
K1A = 0.1 # mM
K1ATP = 1.2 # mM
K1I = 0.28 # mM
Vmax2 = 0.23 # mM / min
K2B = 1.05 # mM
K2C = 0.336 # mM
Vmax3 = 0.87 # mM / min
K3D = 0.8 # mM
K3ADP = 0.48 # mM
Vmax4 = 4.2 # mM / min
K4E = 0.2 # mM
K4F = 0.25 # mM
Keq4 = 1.3 # DL
Vmax5 = 1.4 # mM / min
K5F = 1.5 # mM
Vmax6 = 0.05 # mM / min
K6C = 0.3 # mM
K6G = 1.8 # mM
Keq6 = 0.2 # DL
t(0) = 0
t(f) = 200