// Created by libAntimony v2.8.0
model *Maeda2006_MyosinPhosphorylation()
// Compartments and Species:
compartment c0, c1, c2;
species $s2 in c0, s174 in c1, s130 in c1, s4 in c0, s57 in c1, s93 in c1;
species s165 in c1, s183 in c1, s55 in c1, s184 in c1, $s48 in c1, s187 in c1;
species $s50 in c1, s171 in c1, s173 in c1, s98 in c1, s124 in c1, s118 in c1;
species s153 in c1, s152 in c1, s213 in c1, s214 in c1, $s151 in c1, s164 in c1;
species s231 in c1, s233 in c1, s245 in c1, s252 in c1, s277 in c1, s278 in c1;
species s279 in c1, s280 in c1, s289 in c1, s292 in c1, s293 in c1, s294 in c1;
species s295 in c1, s309 in c1, s310 in c1, s311 in c1, s314 in c1, s324 in c1;
species s329 in c1, s330 in c1, s331 in c1, s332 in c1, s335 in c1, s338 in c1;
species s352 in c1, s355 in c1, s349 in c1, s360 in c1, s358 in c1, s361 in c1;
species s362 in c1, s350 in c1, s135 in c1, s276 in c1, s172 in c2, s410 in c1;
species s421 in c1, s424 in c1, s430 in c1, s432 in c1, s435 in c1, s436 in c1;
species s437 in c1, s438 in c1, s439 in c1, s440 in c1, s441 in c1, s442 in c1;
species s443 in c1, s444 in c1, s446 in c1, s449 in c1, s456 in c1, s359 in c1;
species s463 in c1, s467 in c1, s470 in c1, s477 in c1, s480 in c1, s491 in c1;
species s487 in c1, s496 in c1, s506 in c1, s512 in c1, s513 in c1, s520 in c1;
species s526 in c1, s539 in c1, s546 in c1, s551 in c1, $s556 in c1, $s267 in c0;
species $s557 in c1, s564 in c1, s565 in c1, s566 in c1, s567 in c1, s568 in c1;
species s569 in c1, s351 in c1, s570 in c1;
// Reactions:
re1: $s2 + s130 -> s174; c1*(((1 + re1_ratio)*re1_Vmax*s130*s2)/re1_Km - re1_Vmax*re1_ratio*s174);
re12: $s48 + s435 => s439 + s410 + $s50 + s55; c1*re12_kf*s48*s435;
re14: s55 => s183; c1*re14_kf*s55;
re15: s442 + s57 -> s441; c1*(re15_kf*s442*s57 - re15_kb*s441);
re16: s441 + $s48 => s187 + s55 + $s50 + s421; c1*re16_kf*s48*s441;
re17: s439 => s438; c1*re17_kf*s439;
re19: s410 + s438 => s437; c1*re19_kf*s410*s438;
re20: s93 + s187 -> s184; c1*(((1 + re20_ratio)*re20_Vmax*s187*s93)/re20_Km - re20_ratio*re20_Vmax*s184);
re22: s421 + s440 => s442; c1*re22_kf*s421*s440;
re23: s439 + s98 -> s436; c1*(re23_kf*s439*s98 - re23_kb*s436);
re24: s231 => s214; c1*((re24_Vmax*s231*s436)/(re24_Km + s214));
re26: s98 + s231 -> s233; c1*(((1 + re26_ratio)*re26_Vmax*s98*s231)/re26_Km - re26_Vmax*re26_ratio*s233);
re28: s118 + s214 -> s213; c1*(((1 + re28_ratio)*re28_Vmax*s118*s214)/re28_Km - re28_Vmax*re28_ratio*s213);
re32: s233 => s214 + s98; c1*re32_Vmax*s233;
re33: s213 => s231 + s118; c1*re33_Vmax*s213;
re34: s184 => s440 + s93; c1*re34_Vmax*s184;
re37: s436 => s438 + s98; c1*re37_kf*s436;
re38: s214 => s231; c1*re38_kf*s214;
re39: s124 + s214 -> s252; c1*(re39_kf*s124*s214 - re39_kb*s252);
re40: s174 => s57 + s4 + $s2; c1*re40_Vmax*s174;
re43: s437 + s57 -> s435; c1*(re43_kf*s437*s57 - re43_kb*s435);
re44: s187 => s440; c1*re44_kf*s187;
re45: s57 => s183; c1*re45_kf*s57;
re47: s187 + s569 -> s564; c1*(re47_kf*s187*s569 - re47_kb*s564);
re48: s424 + s187 -> s443; c1*(re48_kf*s424*s187 - re48_kb*s443);
re51: s135 + s443 -> s564; c1*(re51_kf*s135*s443 - re51_kb*s564);
re52: s424 + s135 -> s569; c1*(re52_kf*s424*s135 - re52_kb*s569);
re54: s564 => s569 + s440; c1*re54_kf*s564;
re55: s569 + $s151 -> s568; c1*(((1 + re55_ratio)*re55_Vmax*s569*s151)/re55_Km - re55_ratio*re55_Vmax*s568);
re56: s564 + $s151 -> s567; c1*(((1 + re56_ratio)*re56_Vmax*s564*s151)/re56_Km - re56_ratio*re56_Vmax*s567);
re57: s568 => s152 + s153 + s569; c1*re57_Vmax*s568;
re58: s567 => s153 + s152 + s564; c1*re58_Vmax*s567;
re59: s153 => s164; c1*re59_kf*s153;
re60: s152 => s165; c1*re60_kf*s152;
re68: s171 + 3s152 -> s173; c1*(re68_kf*s152*s152*s152*s171 - re68_kb*s173);
re73: s172 -> s135; c1*re73_g*s173*(s172 - s135);
re85: s444 => 2s172 + s430; c1*re85_kf*s444;
re86: s276 + s135 -> s277; c1*(re86_kf*s276*s135 - re86_kb*s277);
re87: s277 + s135 -> s278; c1*(re87_kf*s277*s135 - re87_kb*s278);
re88: s279 + s135 -> s280; c1*(re88_kf*s279*s135 - re88_kb*s280);
re89: s278 + s135 -> s279; c1*(re89_kf*s278*s135 - re89_kb*s279);
re90: s280 + s289 -> s295; c1*(re90_kf*s280*s289 - re90_kb*s295);
re91: s279 + s289 -> s294; c1*(re91_kf*s279*s289 - re91_kb*s294);
re92: s278 + s289 -> s293; c1*(re92_kf*s278*s289 - re92_kb*s293);
re93: s277 + s289 -> s292; c1*(re93_kf*s277*s289 - re93_kb*s292);
re94: s309 -> s310; c1*(re94_kf*s309 - re94_kb*s310);
re95: s309 + s153 -> s311; c1*(re95_kf*s309*s153 - re95_kb*s311);
re96: s566 -> s314; c1*(re96_kf*s566 - re96_kb*s314);
re97: s309 + s135 -> s566; c1*(re97_kf*s309*s135 - re97_kb*s566);
re98: s446 => s432 + $s267; c1*re98_Vmax*s446;
re100: s430 + 2s135 -> s444; c1*(re100_kf*s135*s135*s430 - re100_kb*s444);
re101: s566 + s153 -> s565; c1*(re101_kf*s566*s153 - re101_kb*s565);
re102: s565 -> s324; c1*(re102_kf*s565 - re102_kb*s324);
re106: s324 => s329; c1*re106_kf*s324;
re107: s314 => s330; c1*re107_kf*s314;
re108: s310 => s331; c1*re108_kf*s310;
re109: s432 + s135 -> s446; c1*(((1 + re109_ratio)*re109_Vmax*s432*s135)/re109_Km - re109_Vmax*re109_ratio*s446);
re110: s324 + s349 -> s338; c1*(((1 + re110_ratio)*re110_Vmax*s324*s349)/re110_Km - re110_Vmax*re110_ratio*s338);
re111: s314 + s349 -> s335; c1*(((1 + re111_ratio)*re111_Vmax*s314*s349)/re111_Km - re111_ratio*re111_Vmax*s335);
re112: s310 + s349 -> s332; c1*(((1 + re112_ratio)*re112_Vmax*s310*s349)/re112_Km - re112_Vmax*re112_ratio*s332);
re113: s338 => s324 + s350; c1*re113_Vmax*s338;
re114: s335 => s314 + s350; c1*re114_Vmax*s335;
re115: s332 => s310 + s350; c1*re115_Vmax*s332;
re116: s350 => s349; c1*re116_kf*s350;
re117: s351 + s350 -> s352; c1*(re117_kf*s351*s350 - re117_kb*s352);
re118: s351 + s349 -> s355; c1*(re118_kf*s351*s349 - re118_kb*s355);
re119: s352 => s355; c1*re119_kf*s352;
re120: s124 + s358 -> s361; c1*(((1 + re120_ratio)*re120_Vmax*s124*s358)/re120_Km - re120_Vmax*re120_ratio*s361);
re121: s124 + s359 -> s362; c1*(((1 + re121_ratio)*re121_Vmax*s124*s359)/re121_Km - re121_Vmax*re121_ratio*s362);
re123: s361 => s359 + s124; c1*re123_Vmax*s361;
re124: s362 => s360 + s124; c1*re124_Vmax*s362;
re125: s252 + s358 -> s456; c1*(((1 + re125_ratio)*re125_Vmax*s252*s358)/re125_Km - re125_Vmax*re125_ratio*s456);
re126: s252 + s359 => s449; c1*(((1 + re126_ratio)*re126_Vmax*s252*s359)/re126_Km - re126_Vmax*re126_ratio*s449);
re127: s456 => s252 + s359; c1*re127_Vmax*s456;
re128: s449 => s252 + s360; c1*re128_Vmax*s449;
re129: s124 + s351 -> s463; c1*(((1 + re129_ratio)*re129_Vmax*s124*s351)/re129_Km - re129_Vmax*re129_ratio*s463);
re130: s463 => s124 + s570; c1*re130_Vmax*s463;
re131: s252 + s351 -> s496; c1*(((1 + re131_ratio)*re131_Vmax*s252*s351)/re131_Km - re131_Vmax*re131_ratio*s496);
re132: s496 => s252 + s570; c1*re132_Vmax*s496;
re133: s360 + s570 -> s467; c1*(((1 + re133_ratio)*re133_Vmax*s360*s570)/re133_Km - re133_Vmax*re133_ratio*s467);
re134: s360 + s351 -> s470; c1*(((1 + re134_ratio)*re134_Vmax*s360*s351)/re134_Km - re134_Vmax*re134_ratio*s470);
re135: s359 + s570 -> s477; c1*(((1 + re135_ratio)*re135_Vmax*s359*s570)/re135_Km - re135_Vmax*re135_ratio*s477);
re136: s359 + s351 -> s480; c1*(((1 + re136_ratio)*re136_Vmax*s351*s359)/re136_Km - re136_Vmax*re136_ratio*s480);
re137: s467 => s359 + s570; c1*re137_Vmax*s467;
re138: s470 => s359 + s351; c1*re138_Vmax*s470;
re139: s477 => s358 + s570; c1*re139_Vmax*s477;
re140: s480 => s358 + s351; c1*re140_Vmax*s480;
re141: s570 => s351; c1*re141_kf*s570;
re154: s358 + s289 -> s487; c1*(((1 + re154_ratio)*re154_Vmax*s289*s358)/re154_Km - re154_Vmax*re154_ratio*s487);
re155: s359 + s289 -> s491; c1*(((1 + re155_ratio)*re155_Vmax*s289*s359)/re155_Km - re155_Vmax*re155_ratio*s491);
re156: s487 => s359 + s289; c1*re156_Vmax*s487;
re157: s491 => s360 + s289; c1*re157_Vmax*s491;
re158: s358 + s292 -> s551; c1*(((1 + re158_ratio)*re158_Vmax*s292*s358)/re158_Km - re158_Vmax*re158_ratio*s551);
re159: s358 + s293 -> s539; c1*(((1 + re159_ratio)*re159_Vmax*s293*s358)/re159_Km - re159_Vmax*re159_ratio*s539);
re160: s358 + s294 -> s520; c1*(((1 + re160_ratio)*re160_Vmax*s294*s358)/re160_Km - re160_Vmax*re160_ratio*s520);
re161: s358 + s295 -> s513; c1*(((1 + re161_ratio)*re161_Vmax*s295*s358)/re161_Km - re161_Vmax*re161_ratio*s513);
re162: s359 + s292 -> s546; c1*(((1 + re162_ratio)*re162_Vmax*s292*s359)/re162_Km - re162_Vmax*re162_ratio*s546);
re163: s359 + s293 -> s526; c1*(((1 + re163_ratio)*re163_Vmax*s293*s359)/re163_Km - re163_Vmax*re163_ratio*s526);
re164: s359 + s294 -> s512; c1*(((1 + re164_ratio)*re164_Vmax*s294*s359)/re164_Km - re164_Vmax*re164_ratio*s512);
re165: s359 + s295 -> s506; c1*(((1 + re165_ratio)*re165_Vmax*s295*s359)/re165_Km - re165_Vmax*re165_ratio*s506);
re166: s506 => s360 + s295; c1*re166_Vmax*s506;
re167: s513 => s359 + s295; c1*re167_Vmax*s513;
re168: s512 => s360 + s294; c1*re168_Vmax*s512;
re169: s520 => s359 + s294; c1*re169_Vmax*s520;
re170: s526 => s360 + s293; c1*re170_Vmax*s526;
re171: s539 => s359 + s293; c1*re171_Vmax*s539;
re172: s546 => s360 + s292; c1*re172_Vmax*s546;
re173: s551 => s359 + s292; c1*re173_Vmax*s551;
re174: $s267 -> s135; c1*re174_g*s556*(s267 - s135);
re175: s172 -> s135; c1*re175_g*s557*(s172 - s135);
// Events:
event_0000001: at time >= 300: s2 = 0.01;
// Species initializations:
s2 = 0;
s174 = 0;
s130 = 0.42;
s4 = 0;
s57 = 0;
s93 = 0.2;
s165 = 0;
s183 = 0;
s55 = 0;
s184 = 0;
s48 = 50;
s187 = 0;
s50 = 5;
s171 = 0.008333;
s173 = 0;
s98 = 0.1;
s124 = 0.042;
s118 = 0.1;
s153 = 0;
s152 = 0.3;
s213 = 0;
s214 = 0.005;
s151 = 10;
s164 = 0;
s231 = 0.09;
s233 = 0;
s245 = 0;
s252 = 0.005;
s277 = 0.3;
s278 = 0;
s279 = 0;
s280 = 0;
s289 = 0.69;
s292 = 0.05;
s293 = 0;
s294 = 0;
s295 = 0;
s309 = 2;
s310 = 0.039823;
s311 = 0;
s314 = 0.68193;
s324 = 0;
s329 = 0;
s330 = 0;
s331 = 0;
s332 = 0;
s335 = 0;
s338 = 0;
s352 = 0;
s355 = 0;
s349 = 0.059;
s360 = 0.1;
s358 = 4.3;
s361 = 0;
s362 = 0;
s350 = 0;
s135 = 0.0833;
s276 = 19.65;
s172 = 155;
s410 = 0;
s421 = 0;
s424 = 0.57;
s430 = 0.5;
s432 = 0.1;
s435 = 0;
s436 = 0;
s437 = 0.5;
s438 = 0;
s439 = 0;
s440 = 0;
s441 = 0;
s442 = 0.5;
s443 = 0;
s444 = 0;
s446 = 0;
s449 = 0;
s456 = 0;
s359 = 0.6;
s463 = 0;
s467 = 0;
s470 = 0;
s477 = 0;
s480 = 0;
s491 = 0;
s487 = 0;
s496 = 0;
s506 = 0;
s512 = 0;
s513 = 0;
s520 = 0;
s526 = 0;
s539 = 0;
s546 = 0;
s551 = 0;
s556 = 0.00833;
s267 = 4000;
s557 = 0.001;
s564 = 0;
s565 = 0;
s566 = 0.094;
s567 = 0;
s568 = 0.08;
s569 = 0.15;
s351 = 0.7;
s570 = 0.4941;
// Compartment initializations:
c0 = 1;
c1 = 1;
c2 = 0.1;
// Variable initializations:
re1_Km = 5;
re1_Km has microMolar;
re1_ratio = 4;
re1_ratio has dimensionless;
re1_Vmax = 15;
re1_Vmax has per_sec;
re12_kf = 0.01;
re12_kf has per_uM_per_sec;
re14_kf = 0.00224;
re14_kf has per_sec;
re15_kf = 1;
re15_kf has per_uM_per_sec;
re15_kb = 0.006;
re15_kb has per_sec;
re16_kf = 0.01;
re16_kf has per_uM_per_sec;
re17_kf = 0.0133;
re17_kf has per_sec;
re19_kf = 0.01;
re19_kf has per_uM_per_sec;
re20_Km = 0.05;
re20_Km has microMolar;
re20_ratio = 23.51;
re20_ratio has dimensionless;
re20_Vmax = 0.0102;
re20_Vmax has per_sec;
re22_kf = 0.01;
re22_kf has per_uM_per_sec;
re23_kf = 20;
re23_kf has per_uM_per_sec;
re23_kb = 0.1;
re23_kb has per_sec;
re24_Km = 0.015;
re24_Km has microMolar;
re24_Vmax = 0.052;
re24_Vmax has per_sec;
re26_Km = 2;
re26_Km has microMolar;
re26_ratio = 4;
re26_ratio has dimensionless;
re26_Vmax = 0.04;
re26_Vmax has per_sec;
re28_Km = 2.83;
re28_Km has microMolar;
re28_ratio = 13.246;
re28_ratio has dimensionless;
re28_Vmax = 0.993;
re28_Vmax has per_sec;
re32_Vmax = 0.04;
re32_Vmax has per_sec;
re33_Vmax = 0.9933;
re33_Vmax has per_sec;
re34_Vmax = 0.0102;
re34_Vmax has per_sec;
re37_kf = 0.0117;
re37_kf has per_sec;
re38_kf = 0.0003667;
re38_kf has per_sec;
re39_kf = 10;
re39_kf has per_uM_per_sec;
re39_kb = 0.5;
re39_kb has per_sec;
re40_Vmax = 15;
re40_Vmax has per_sec;
re43_kf = 1;
re43_kf has per_uM_per_sec;
re43_kb = 0.006;
re43_kb has per_sec;
re44_kf = 0.0133;
re44_kf has per_sec;
re45_kf = 0.00224;
re45_kf has per_sec;
re47_kf = 25.201;
re47_kf has per_uM_per_sec;
re47_kb = 1;
re47_kb has per_sec;
re48_kf = 2.5201;
re48_kf has per_uM_per_sec;
re48_kb = 1;
re48_kb has per_sec;
re51_kf = 30;
re51_kf has per_uM_per_sec;
re51_kb = 1;
re51_kb has per_sec;
re52_kf = 3;
re52_kf has per_uM_per_sec;
re52_kb = 1;
re52_kb has per_sec;
re54_kf = 0.0133;
re54_kf has per_sec;
re55_Km = 19.841;
re55_Km has microMolar;
re55_ratio = 4;
re55_ratio has dimensionless;
re55_Vmax = 10;
re55_Vmax has per_sec;
re56_Km = 5;
re56_Km has microMolar;
re56_ratio = 4;
re56_ratio has dimensionless;
re56_Vmax = 48;
re56_Vmax has per_sec;
re57_Vmax = 10;
re57_Vmax has per_sec;
re58_Vmax = 48;
re58_Vmax has per_sec;
re59_kf = 0.15;
re59_kf has per_sec;
re60_kf = 2.5;
re60_kf has per_sec;
re68_kf = 0.1;
re68_kf has per_uM3_per_sec;
re68_kb = 10;
re68_kb has per_sec;
re73_g = 150;
re73_g has per_uM_per_sec;
re85_kf = 1;
re85_kf has per_sec;
re86_kf = 10;
re86_kf has per_uM_per_sec;
re86_kb = 50;
re86_kb has per_sec;
re87_kf = 10;
re87_kf has per_uM_per_sec;
re87_kb = 45;
re87_kb has per_sec;
re88_kf = 10;
re88_kf has per_uM_per_sec;
re88_kb = 500;
re88_kb has per_sec;
re89_kf = 10;
re89_kf has per_uM_per_sec;
re89_kb = 170;
re89_kb has per_sec;
re90_kf = 10;
re90_kf has per_uM_per_sec;
re90_kb = 0.01;
re90_kb has per_sec;
re91_kf = 10;
re91_kf has per_uM_per_sec;
re91_kb = 0.01;
re91_kb has per_sec;
re92_kf = 0.1;
re92_kf has per_uM_per_sec;
re92_kb = 0.45;
re92_kb has per_sec;
re93_kf = 0.1;
re93_kf has per_uM_per_sec;
re93_kb = 0.5;
re93_kb has per_sec;
re94_kf = 1;
re94_kf has per_sec;
re94_kb = 50;
re94_kb has per_sec;
re95_kf = 0.0003;
re95_kf has per_uM_per_sec;
re95_kb = 0.1;
re95_kb has per_sec;
re96_kf = 1.2705;
re96_kf has per_sec;
re96_kb = 3.5026;
re96_kb has per_sec;
re97_kf = 0.3;
re97_kf has per_uM_per_sec;
re97_kb = 0.5;
re97_kb has per_sec;
re98_Vmax = 4.9;
re98_Vmax has per_sec;
re100_kf = 30;
re100_kf has per_uM2_per_sec;
re100_kb = 3;
re100_kb has per_sec;
re101_kf = 0.004;
re101_kf has per_uM_per_sec;
re101_kb = 8.6348;
re101_kb has per_sec;
re102_kf = 1;
re102_kf has per_sec;
re102_kb = 0.1;
re102_kb has per_sec;
re106_kf = 4.63e-005;
re106_kf has per_sec;
re107_kf = 4.63e-005;
re107_kf has per_sec;
re108_kf = 4.63e-005;
re108_kf has per_sec;
re109_Km = 0.04;
re109_Km has microMolar;
re109_ratio = 4;
re109_ratio has dimensionless;
re109_Vmax = 4.9;
re109_Vmax has per_sec;
re110_Km = 0.0014;
re110_Km has microMolar;
re110_ratio = 4;
re110_ratio has dimensionless;
re110_Vmax = 3.94;
re110_Vmax has per_sec;
re111_Km = 0.0014;
re111_Km has microMolar;
re111_ratio = 4;
re111_ratio has dimensionless;
re111_Vmax = 3.94;
re111_Vmax has per_sec;
re112_Km = 0.0014;
re112_Km has microMolar;
re112_ratio = 4;
re112_ratio has dimensionless;
re112_Vmax = 3.94;
re112_Vmax has per_sec;
re113_Vmax = 3.94;
re113_Vmax has per_sec;
re114_Vmax = 3.94;
re114_Vmax has per_sec;
re115_Vmax = 3.94;
re115_Vmax has per_sec;
re116_kf = 0.5;
re116_kf has per_sec;
re117_kf = 100;
re117_kf has per_uM_per_sec;
re117_kb = 0.62;
re117_kb has per_sec;
re118_kf = 0.01;
re118_kf has per_uM_per_sec;
re118_kb = 0.1;
re118_kb has per_sec;
re119_kf = 0.5;
re119_kf has per_sec;
re120_Km = 4.5099;
re120_Km has microMolar;
re120_ratio = 16.617;
re120_ratio has dimensionless;
re120_Vmax = 1.28;
re120_Vmax has per_sec;
re121_Km = 4.5099;
re121_Km has microMolar;
re121_ratio = 16.617;
re121_ratio has dimensionless;
re121_Vmax = 1.28;
re121_Vmax has per_sec;
re123_Vmax = 1.28;
re123_Vmax has per_sec;
re124_Vmax = 1.28;
re124_Vmax has per_sec;
re125_Km = 2.47;
re125_Km has microMolar;
re125_ratio = 0.4261;
re125_ratio has dimensionless;
re125_Vmax = 8.66;
re125_Vmax has per_sec;
re126_Km = 2.47;
re126_Km has microMolar;
re126_ratio = 0.4261;
re126_ratio has dimensionless;
re126_Vmax = 8.66;
re126_Vmax has per_sec;
re127_Vmax = 8.66;
re127_Vmax has per_sec;
re128_Vmax = 8.66;
re128_Vmax has per_sec;
re129_Km = 0.18;
re129_Km has microMolar;
re129_ratio = 0.23288;
re129_ratio has dimensionless;
re129_Vmax = 1.46;
re129_Vmax has per_sec;
re130_Vmax = 1.46;
re130_Vmax has per_sec;
re131_Km = 0.1;
re131_Km has microMolar;
re131_ratio = 0.028278;
re131_ratio has dimensionless;
re131_Vmax = 17.505;
re131_Vmax has per_sec;
re132_Vmax = 17.505;
re132_Vmax has per_sec;
re133_Km = 58.099;
re133_Km has microMolar;
re133_ratio = 28.795;
re133_ratio has dimensionless;
re133_Vmax = 1.95;
re133_Vmax has per_sec;
re134_Km = 16;
re134_Km has microMolar;
re134_ratio = 7.5865;
re134_ratio has dimensionless;
re134_Vmax = 9.317;
re134_Vmax has per_sec;
re135_Km = 58.099;
re135_Km has microMolar;
re135_ratio = 28.795;
re135_ratio has dimensionless;
re135_Vmax = 1.95;
re135_Vmax has per_sec;
re136_Km = 16;
re136_Km has microMolar;
re136_ratio = 7.5865;
re136_ratio has dimensionless;
re136_Vmax = 9.317;
re136_Vmax has per_sec;
re137_Vmax = 1.95;
re137_Vmax has per_sec;
re138_Vmax = 9.317;
re138_Vmax has per_sec;
re139_Vmax = 1.95;
re139_Vmax has per_sec;
re140_Vmax = 9.317;
re140_Vmax has per_sec;
re141_kf = 0.2;
re141_kf has per_sec;
re154_Km = 148.08;
re154_Km has microMolar;
re154_ratio = 39.349;
re154_ratio has dimensionless;
re154_Vmax = 3.67;
re154_Vmax has per_sec;
re155_Km = 148.08;
re155_Km has microMolar;
re155_ratio = 39.349;
re155_ratio has dimensionless;
re155_Vmax = 3.67;
re155_Vmax has per_sec;
re156_Vmax = 3.67;
re156_Vmax has per_sec;
re157_Vmax = 3.67;
re157_Vmax has per_sec;
re158_Km = 10.019;
re158_Km has microMolar;
re158_ratio = 1.7299;
re158_ratio has dimensionless;
re158_Vmax = 3.67;
re158_Vmax has per_sec;
re159_Km = 10.019;
re159_Km has microMolar;
re159_ratio = 1.7299;
re159_ratio has dimensionless;
re159_Vmax = 3.67;
re159_Vmax has per_sec;
re160_Km = 10.019;
re160_Km has microMolar;
re160_ratio = 1.7299;
re160_ratio has dimensionless;
re160_Vmax = 3.67;
re160_Vmax has per_sec;
re161_Km = 10.019;
re161_Km has microMolar;
re161_ratio = 1.7299;
re161_ratio has dimensionless;
re161_Vmax = 3.67;
re161_Vmax has per_sec;
re162_Km = 10.019;
re162_Km has microMolar;
re162_ratio = 1.7299;
re162_ratio has dimensionless;
re162_Vmax = 3.67;
re162_Vmax has per_sec;
re163_Km = 10.019;
re163_Km has microMolar;
re163_ratio = 1.7299;
re163_ratio has dimensionless;
re163_Vmax = 3.67;
re163_Vmax has per_sec;
re164_Km = 10.019;
re164_Km has microMolar;
re164_ratio = 1.7299;
re164_ratio has dimensionless;
re164_Vmax = 3.67;
re164_Vmax has per_sec;
re165_Km = 10.019;
re165_Km has microMolar;
re165_ratio = 1.7299;
re165_ratio has dimensionless;
re165_Vmax = 3.67;
re165_Vmax has per_sec;
re166_Vmax = 3.67;
re166_Vmax has per_sec;
re167_Vmax = 3.67;
re167_Vmax has per_sec;
re168_Vmax = 3.67;
re168_Vmax has per_sec;
re169_Vmax = 3.67;
re169_Vmax has per_sec;
re170_Vmax = 3.67;
re170_Vmax has per_sec;
re171_Vmax = 3.67;
re171_Vmax has per_sec;
re172_Vmax = 3.67;
re172_Vmax has per_sec;
re173_Vmax = 3.67;
re173_Vmax has per_sec;
re174_g = 0.01;
re174_g has per_uM_per_sec;
re175_g = 0.01;
re175_g has per_uM_per_sec;
// Other declarations:
const c0, c1, c2;
// Unit definitions:
unit substance = 1e-6 mole;
unit microMolar = 1e-6 mole / litre;
unit per_uM_per_sec = litre / (1e-6 mole * second);
unit per_sec = 1 / second;
unit per_uM2_per_sec = litre^2 / ((1e-6 mole)^2 * second);
unit per_uM3_per_sec = litre^3 / ((1e-6 mole)^3 * second);
// Display Names:
substance is "micromoles";
c0 is "Default";
c1 is "cytosol";
c2 is "ER";
s2 is "thrombin";
s174 is "thrombin_R";
s130 is "pro_thrombinR";
s4 is "thrombin_ligand";
s57 is "thrombinR active";
s93 is "RGS";
s165 is "Inositol";
s183 is "sa40_degraded";
s55 is "thrombinR";
s184 is "RGS";
s48 is "GTP";
s187 is "G_sub_q_endsub__alpha_.GTP";
s50 is "GDP";
s171 is "IP3R";
s173 is "3IP3.IP3R";
s98 is "p115RhoGEF";
s124 is "Rho-kinase";
s118 is "RhoGAP";
s153 is "DAG";
s152 is "IP3";
s213 is "Rho_GAP";
s214 is "Rho.GTP";
s151 is "PIP2";
s164 is "PC";
s231 is "Rho.GDP";
s233 is "Rho_GEF";
s245 is "Rho_GEF_active";
s252 is "Rho.GTP.Rho-kinase";
s277 is "Ca_super_2_plus__endsuper_.CaM";
s278 is "2Ca_super_2_plus__endsuper_.CaM";
s279 is "3Ca_super_2_plus__endsuper_.CaM";
s280 is "4Ca_super_2_plus__endsuper_.CaM";
s289 is "MLCK";
s292 is "MLCK.Ca_super_2_plus__endsuper_.CaM";
s293 is "MLCK.2Ca_super_2_plus__endsuper_.CaM";
s294 is "MLCK.3Ca_super_2_plus__endsuper_.CaM";
s295 is "MLCK.4Ca_super_2_plus__endsuper_.CaM";
s309 is "PKC";
s310 is "PKC active1";
s311 is "PKC.DAG";
s314 is "PKC active_2";
s324 is "PKC active_3";
s329 is "csa39_degraded";
s330 is "csa36_degraded";
s331 is "csa35_degraded";
s332 is "PKC active_1.CPI";
s335 is "PKC active_2.CPI";
s338 is "PKC active_3.CPI";
s352 is "CPI-17.MYPT1_PPase";
s355 is "CPI-17.MYPT1_PPase";
s349 is "CPI-17";
s360 is "MLC";
s358 is "MLC";
s361 is "Rho-kinase.MLC";
s362 is "Rho-kinase.MLC";
s350 is "CPI-17";
s135 is "Ca_super_2_plus__endsuper_";
s276 is "CaM";
s172 is "Ca_super_2_plus__endsuper_ store";
s410 is "G_beta__gamma__1";
s421 is "G_beta__gamma__2";
s424 is "PLC_beta_";
s430 is "Ca_super_2_plus__endsuper_ trunsp";
s432 is "Ca_super_2_plus__endsuper_ pump";
s435 is "G_sub_12_endsub__alpha__beta__gamma__thrombinR active";
s436 is "p115RhoGEF.GTP_alpha_";
s437 is "G_sub_12_endsub__alpha__beta__gamma_";
s438 is "G_sub_12_endsub__alpha_.GDP";
s439 is "G_sub_12_endsub__alpha_.GTP";
s440 is "G_sub_q_endsub__alpha_.GDP";
s441 is "G_sub_q_endsub__alpha__beta__gamma__thrombinR active";
s442 is "G_sub_q_endsub__alpha__beta__gamma_";
s443 is "PLC_beta_.G_sub_q_endsub__alpha_.GTP";
s444 is "2Ca_super_2_plus__endsuper_ .Ca_super_2_plus__endsuper_ trunsp";
s446 is "Ca_super_2_plus__endsuper_ pump.Ca_super_2_plus__endsuper_";
s449 is "Rho.GTP.Rho-kinase.MLC";
s456 is "Rho.GTP.Rho-kinase.MLC";
s359 is "MLC";
s463 is "MYPT1.Rho-kinase";
s467 is "MYPT1.MLC";
s470 is "MYPT1.MLC";
s477 is "MYPT1.MLC";
s480 is "MYPT1.MLC";
s491 is "MLCK.MLC";
s487 is "MLCK.MLC";
s496 is "MYPT1.Rho-kinase";
s506 is "MLCK.4Ca_super_2_plus__endsuper_.CaM.MLC";
s512 is "MLCK.3Ca_super_2_plus__endsuper_.CaM.MLC";
s513 is "MLCK.4Ca_super_2_plus__endsuper_.CaM.MLC";
s520 is "MLCK.3Ca_super_2_plus__endsuper_.CaM.MLC";
s526 is "MLCK.2Ca_super_2_plus__endsuper_.CaM.MLC";
s539 is "MLCK.2Ca_super_2_plus__endsuper_.CaM.MLC";
s546 is "MLCK.Ca_super_2_plus__endsuper_.CaM.MLC";
s551 is "MLCK.Ca_super_2_plus__endsuper_.CaM.MLC";
s556 is "Ca_super_2_plus__endsuper_ ext leak";
s267 is "Ca_super_2_plus__endsuper_ ext";
s557 is "Ca_super_2_plus__endsuper_ int leak";
s564 is "PLC_beta_.G_sub_q_endsub__alpha_.GTP.Ca_super_2_plus__endsuper_";
s565 is "PKC.Ca_super_2_plus__endsuper_.DAG";
s566 is "PKC.Ca_super_2_plus__endsuper_";
s567 is "PLC_beta_.G_sub_q_endsub_.GTP.Ca.PIP2";
s568 is "PLC_beta_.Ca.PIP2";
s569 is "PLC_beta_.Ca_super_2_plus__endsuper_";
s351 is "MYPT1_PPase";
s570 is "MYPT1_PPase";
re1 is "A2-1.1";
re12 is "A1-2";
re14 is "A1-5.1";
re15 is "A1-3";
re16 is "A1-4";
re17 is "A1-6";
re19 is "A1-7";
re20 is "A2-2.1";
re22 is "A1-9";
re23 is "B1-1";
re24 is "B2-1.1";
re26 is "B2-2.1";
re28 is "B2-3.1";
re32 is "B2-1.2";
re33 is "B2-3.2";
re34 is "A2-2.2";
re37 is "B1-2";
re38 is "B1-3";
re39 is "B1-4";
re40 is "A2-1.2";
re43 is "A1-1";
re44 is "A1-8";
re45 is "A1-5.2";
re47 is "C1-2";
re48 is "C1-3";
re51 is "C1-4";
re52 is "C1-1";
re54 is "C1-5";
re55 is "C2-1.1";
re56 is "C2-2.1";
re57 is "C2-1.2";
re58 is "C2-2.2";
re59 is "C1-6";
re60 is "C1-7";
re68 is "C1-8";
re73 is "D3-1";
re85 is "D1-2";
re86 is "D1-3";
re87 is "D1-4";
re88 is "D1-6";
re89 is "D1-5";
re90 is "D1-10";
re91 is "D1-9";
re92 is "D1-8";
re93 is "D1-7";
re94 is "E1-1";
re95 is "E1-3";
re96 is "E1-5";
re97 is "E1-4";
re98 is "D2-1.2";
re100 is "D1-1";
re101 is "E1-7";
re102 is "E1-8";
re106 is "E1-9";
re107 is "E1-6";
re108 is "E1-2";
re109 is "D2-1.1";
re110 is "E2-1.1.3";
re111 is "E2-1.1.2";
re112 is "E2-1.1.1";
re113 is "E2-1.2.3";
re114 is "E2-1.2.2";
re115 is "E2-1.2.1";
re116 is "E1-10";
re117 is "E1-11";
re118 is "E1-12";
re119 is "E1-13";
re120 is "F2-1.1";
re121 is "F2-2.1";
re123 is "F2-1.2";
re124 is "F2-2.2";
re125 is "F2-3.1";
re126 is "F2-4.1";
re127 is "F2-3.2";
re128 is "F2-4.2";
re129 is "F2-14.1";
re130 is "F2-14.2";
re131 is "F2-13.1";
re132 is "F2-13.2";
re133 is "F2-11.1";
re134 is "F2-9.1";
re135 is "F2-12.1";
re136 is "F2-10.1";
re137 is "F2-11.2";
re138 is "F2-9.2";
re139 is "F2-12.2";
re140 is "F2-10.2";
re141 is "F1-1";
re154 is "F2-7.1";
re155 is "F2-8.1";
re156 is "F2-7.2";
re157 is "F2-8.2";
re158 is "F2-5.1.1";
re159 is "F2-5.2.1";
re160 is "F2-5.3.1";
re161 is "F2-5.4.1";
re162 is "F2-6.1.1";
re163 is "F2-6.2.1";
re164 is "F2-6.3.1";
re165 is "F2-6.4.1";
re166 is "F2-6.4.2";
re167 is "F2-5.4.2";
re168 is "F2-6.3.2";
re169 is "F2-5.3.2";
re170 is "F2-6.2.2";
re171 is "F2-5.2.2";
re172 is "F2-6.1.2";
re173 is "F2-5.1.2";
re174 is "D3-3";
re175 is "D3-2";
end