function dydt = odemodel(t, y, modelparameters, AngII) %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % main odemodel function % % input: t - time % y - initial conditions (194 species) % modelparameters - all model parameters % AngII - input AngII function % % output: dydt - change in y at each time step t % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % parsing AngII value at time t y(167) = interpoln(AngII(:,1),AngII(:,2),t); %% signaling parameters p_1_1 = modelparameters( 1 ); p_1_2 = modelparameters( 2 ); p_2_1 = modelparameters( 3 ); p_2_2 = modelparameters( 4 ); p_3_1 = modelparameters( 5 ); p_3_2 = modelparameters( 6 ); p_4_1 = modelparameters( 7 ); p_4_2 = modelparameters( 8 ); p_5_1 = modelparameters( 9 ); p_5_2 = modelparameters( 10 ); p_6_1 = modelparameters( 11 ); p_6_2 = modelparameters( 12 ); p_7_1 = modelparameters( 13 ); p_7_2 = modelparameters( 14 ); p_8_1 = modelparameters( 15 ); p_8_2 = modelparameters( 16 ); p_9_1 = modelparameters( 17 ); p_9_2 = modelparameters( 18 ); p_10_1 = modelparameters( 19 ); p_10_2 = modelparameters( 20 ); p_11_1 = modelparameters( 21 ); p_12_1 = modelparameters( 22 ); p_13_1 = modelparameters( 23 ); p_14_1 = modelparameters( 24 ); p_14_2 = modelparameters( 25 ); p_15_1 = modelparameters( 26 ); p_15_2 = modelparameters( 27 ); p_16_1 = modelparameters( 28 ); p_16_2 = modelparameters( 29 ); p_17_1 = modelparameters( 30 ); p_17_2 = modelparameters( 31 ); p_18_1 = modelparameters( 32 ); p_18_2 = modelparameters( 33 ); p_19_1 = modelparameters( 34 ); p_19_2 = modelparameters( 35 ); p_20_1 = modelparameters( 36 ); p_20_2 = modelparameters( 37 ); p_21_1 = modelparameters( 38 ); p_21_2 = modelparameters( 39 ); p_22_1 = modelparameters( 40 ); p_22_2 = modelparameters( 41 ); p_23_1 = modelparameters( 42 ); p_23_2 = modelparameters( 43 ); p_24_1 = modelparameters( 44 ); p_24_2 = modelparameters( 45 ); p_25_1 = modelparameters( 46 ); p_26_1 = modelparameters( 47 ); p_27_1 = modelparameters( 48 ); p_28_1 = modelparameters( 49 ); p_28_2 = modelparameters( 50 ); p_29_1 = modelparameters( 51 ); p_29_2 = modelparameters( 52 ); p_30_1 = modelparameters( 53 ); p_30_2 = modelparameters( 54 ); p_31_1 = modelparameters( 55 ); p_31_2 = modelparameters( 56 ); p_32_1 = modelparameters( 57 ); p_32_2 = modelparameters( 58 ); p_33_1 = modelparameters( 59 ); p_33_2 = modelparameters( 60 ); p_34_1 = modelparameters( 61 ); p_34_2 = modelparameters( 62 ); p_35_1 = modelparameters( 63 ); p_35_2 = modelparameters( 64 ); p_36_1 = modelparameters( 65 ); p_36_2 = modelparameters( 66 ); p_37_1 = modelparameters( 67 ); p_38_1 = modelparameters( 68 ); p_38_2 = modelparameters( 69 ); p_39_1 = modelparameters( 70 ); p_39_2 = modelparameters( 71 ); p_40_1 = modelparameters( 72 ); p_40_2 = modelparameters( 73 ); p_41_1 = modelparameters( 74 ); p_41_2 = modelparameters( 75 ); p_42_1 = modelparameters( 76 ); p_42_2 = modelparameters( 77 ); p_43_1 = modelparameters( 78 ); p_43_2 = modelparameters( 79 ); p_44_1 = modelparameters( 80 ); p_45_1 = modelparameters( 81 ); p_46_1 = modelparameters( 82 ); p_47_1 = modelparameters( 83 ); p_48_1 = modelparameters( 84 ); p_48_2 = modelparameters( 85 ); p_49_1 = modelparameters( 86 ); p_49_2 = modelparameters( 87 ); p_50_1 = modelparameters( 88 ); p_51_1 = modelparameters( 89 ); p_52_1 = modelparameters( 90 ); p_52_2 = modelparameters( 91 ); p_53_1 = modelparameters( 92 ); p_53_2 = modelparameters( 93 ); p_54_1 = modelparameters( 94 ); p_55_1 = modelparameters( 95 ); p_55_2 = modelparameters( 96 ); p_56_1 = modelparameters( 97 ); p_56_2 = modelparameters( 98 ); p_57_1 = modelparameters( 99 ); p_57_2 = modelparameters( 100 ); p_58_1 = modelparameters( 101 ); p_59_1 = modelparameters( 102 ); p_59_2 = modelparameters( 103 ); p_60_1 = modelparameters( 104 ); p_61_1 = modelparameters( 105 ); p_62_1 = modelparameters( 106 ); p_63_1 = modelparameters( 107 ); p_64_1 = modelparameters( 108 ); p_65_1 = modelparameters( 109 ); p_65_2 = modelparameters( 110 ); p_66_1 = modelparameters( 111 ); p_66_2 = modelparameters( 112 ); p_67_1 = modelparameters( 113 ); p_68_1 = modelparameters( 114 ); p_69_1 = modelparameters( 115 ); p_70_1 = modelparameters( 116 ); p_71_1 = modelparameters( 117 ); p_72_1 = modelparameters( 118 ); p_72_2 = modelparameters( 119 ); p_73_1 = modelparameters( 120 ); p_73_2 = modelparameters( 121 ); p_74_1 = modelparameters( 122 ); p_74_2 = modelparameters( 123 ); p_75_1 = modelparameters( 124 ); p_75_2 = modelparameters( 125 ); p_76_1 = modelparameters( 126 ); p_77_1 = modelparameters( 127 ); p_78_1 = modelparameters( 128 ); p_78_2 = modelparameters( 129 ); p_79_1 = modelparameters( 130 ); p_79_2 = modelparameters( 131 ); p_80_1 = modelparameters( 132 ); p_80_2 = modelparameters( 133 ); p_81_1 = modelparameters( 134 ); p_81_2 = modelparameters( 135 ); p_82_1 = modelparameters( 136 ); p_82_2 = modelparameters( 137 ); p_83_1 = modelparameters( 138 ); p_84_1 = modelparameters( 139 ); p_85_1 = modelparameters( 140 ); p_86_1 = modelparameters( 141 ); p_86_2 = modelparameters( 142 ); p_87_1 = modelparameters( 143 ); p_88_1 = modelparameters( 144 ); p_88_2 = modelparameters( 145 ); p_89_1 = modelparameters( 146 ); p_90_1 = modelparameters( 147 ); p_90_2 = modelparameters( 148 ); p_91_1 = modelparameters( 149 ); p_91_2 = modelparameters( 150 ); p_92_1 = modelparameters( 151 ); p_92_2 = modelparameters( 152 ); p_93_1 = modelparameters( 153 ); p_93_2 = modelparameters( 154 ); p_94_1 = modelparameters( 155 ); p_95_1 = modelparameters( 156 ); p_95_2 = modelparameters( 157 ); p_96_1 = modelparameters( 158 ); p_97_1 = modelparameters( 159 ); p_98_1 = modelparameters( 160 ); p_98_2 = modelparameters( 161 ); p_99_1 = modelparameters( 162 ); p_100_1 = modelparameters( 163 ); p_100_2 = modelparameters( 164 ); p_101_1 = modelparameters( 165 ); p_101_2 = modelparameters( 166 ); p_102_1 = modelparameters( 167 ); p_102_2 = modelparameters( 168 ); p_103_1 = modelparameters( 169 ); p_104_1 = modelparameters( 170 ); p_105_1 = modelparameters( 171 ); p_105_2 = modelparameters( 172 ); p_106_1 = modelparameters( 173 ); p_107_1 = modelparameters( 174 ); p_107_2 = modelparameters( 175 ); p_108_1 = modelparameters( 176 ); p_108_2 = modelparameters( 177 ); p_109_1 = modelparameters( 178 ); p_109_2 = modelparameters( 179 ); p_110_1 = modelparameters( 180 ); p_110_2 = modelparameters( 181 ); p_111_1 = modelparameters( 182 ); p_111_2 = modelparameters( 183 ); p_112_1 = modelparameters( 184 ); p_113_1 = modelparameters( 185 ); p_113_2 = modelparameters( 186 ); p_114_1 = modelparameters( 187 ); p_115_1 = modelparameters( 188 ); p_115_2 = modelparameters( 189 ); p_116_1 = modelparameters( 190 ); p_117_1 = modelparameters( 191 ); p_117_2 = modelparameters( 192 ); p_118_1 = modelparameters( 193 ); p_118_2 = modelparameters( 194 ); p_119_1 = modelparameters( 195 ); p_119_2 = modelparameters( 196 ); p_120_1 = modelparameters( 197 ); p_120_2 = modelparameters( 198 ); p_121_1 = modelparameters( 199 ); p_121_2 = modelparameters( 200 ); p_122_1 = modelparameters( 201 ); p_122_2 = modelparameters( 202 ); p_123_1 = modelparameters( 203 ); p_124_1 = modelparameters( 204 ); p_125_1 = modelparameters( 205 ); p_126_1 = modelparameters( 206 ); p_126_2 = modelparameters( 207 ); p_127_1 = modelparameters( 208 ); p_127_2 = modelparameters( 209 ); p_128_1 = modelparameters( 210 ); p_129_1 = modelparameters( 211 ); p_130_1 = modelparameters( 212 ); p_130_2 = modelparameters( 213 ); p_131_1 = modelparameters( 214 ); p_131_2 = modelparameters( 215 ); p_132_1 = modelparameters( 216 ); p_132_2 = modelparameters( 217 ); p_133_1 = modelparameters( 218 ); p_134_1 = modelparameters( 219 ); p_135_1 = modelparameters( 220 ); p_136_1 = modelparameters( 221 ); p_136_2 = modelparameters( 222 ); p_137_1 = modelparameters( 223 ); p_137_2 = modelparameters( 224 ); p_138_1 = modelparameters( 225 ); p_139_1 = modelparameters( 226 ); p_140_1 = modelparameters( 227 ); p_140_2 = modelparameters( 228 ); p_141_1 = modelparameters( 229 ); p_142_1 = modelparameters( 230 ); p_142_2 = modelparameters( 231 ); p_143_1 = modelparameters( 232 ); p_144_1 = modelparameters( 233 ); p_144_2 = modelparameters( 234 ); p_145_1 = modelparameters( 235 ); p_146_1 = modelparameters( 236 ); p_147_1 = modelparameters( 237 ); p_147_2 = modelparameters( 238 ); p_148_1 = modelparameters( 239 ); p_148_2 = modelparameters( 240 ); p_149_1 = modelparameters( 241 ); p_150_1 = modelparameters( 242 ); p_150_2 = modelparameters( 243 ); p_151_1 = modelparameters( 244 ); p_152_1 = modelparameters( 245 ); p_153_1 = modelparameters( 246 ); p_154_1 = modelparameters( 247 ); p_154_2 = modelparameters( 248 ); p_155_1 = modelparameters( 249 ); p_155_2 = modelparameters( 250 ); p_156_1 = modelparameters( 251 ); p_156_2 = modelparameters( 252 ); p_157_1 = modelparameters( 253 ); p_157_2 = modelparameters( 254 ); p_158_1 = modelparameters( 255 ); p_158_2 = modelparameters( 256 ); p_159_1 = modelparameters( 257 ); p_159_2 = modelparameters( 258 ); p_160_1 = modelparameters( 259 ); p_160_2 = modelparameters( 260 ); p_161_1 = modelparameters( 261 ); p_161_2 = modelparameters( 262 ); p_162_1 = modelparameters( 263 ); p_162_2 = modelparameters( 264 ); p_163_1 = modelparameters( 265 ); p_163_2 = modelparameters( 266 ); p_164_1 = modelparameters( 267 ); p_165_1 = modelparameters( 268 ); p_165_2 = modelparameters( 269 ); p_166_1 = modelparameters( 270 ); p_166_2 = modelparameters( 271 ); p_167_1 = modelparameters( 272 ); p_167_2 = modelparameters( 273 ); p_168_1 = modelparameters( 274 ); p_168_2 = modelparameters( 275 ); p_169_1 = modelparameters( 276 ); p_169_2 = modelparameters( 277 ); p_170_1 = modelparameters( 278 ); p_170_2 = modelparameters( 279 ); p_171_1 = modelparameters( 280 ); p_171_2 = modelparameters( 281 ); p_172_1 = modelparameters( 282 ); p_173_1 = modelparameters( 283 ); p_174_1 = modelparameters( 284 ); p_174_2 = modelparameters( 285 ); p_175_1 = modelparameters( 286 ); p_176_1 = modelparameters( 287 ); p_177_1 = modelparameters( 288 ); p_177_2 = modelparameters( 289 ); p_178_1 = modelparameters( 290 ); p_179_1 = modelparameters( 291 ); p_180_1 = modelparameters( 292 ); p_180_2 = modelparameters( 293 ); p_181_1 = modelparameters( 294 ); p_182_1 = modelparameters( 295 ); p_183_1 = modelparameters( 296 ); p_183_2 = modelparameters( 297 ); p_184_1 = modelparameters( 298 ); p_185_1 = modelparameters( 299 ); p_185_2 = modelparameters( 300 ); p_186_1 = modelparameters( 301 ); p_186_2 = modelparameters( 302 ); p_187_1 = modelparameters( 303 ); p_187_2 = modelparameters( 304 ); p_188_1 = modelparameters( 305 ); p_189_1 = modelparameters( 306 ); p_190_1 = modelparameters( 307 ); p_190_2 = modelparameters( 308 ); p_191_1 = modelparameters( 309 ); p_192_1 = modelparameters( 310 ); p_193_1 = modelparameters( 311 ); p_194_1 = modelparameters( 312 ); p_194_2 = modelparameters( 313 ); p_195_1 = modelparameters( 314 ); p_196_1 = modelparameters( 315 ); p_197_1 = modelparameters( 316 ); p_198_1 = modelparameters( 317 ); p_199_1 = modelparameters( 318 ); p_200_1 = modelparameters( 319 ); p_201_1 = modelparameters( 320 ); p_202_1 = modelparameters( 321 ); p_203_1 = modelparameters( 322 ); p_204_1 = modelparameters( 323 ); p_205_1 = modelparameters( 324 ); p_206_1 = modelparameters( 325 ); p_207_1 = modelparameters( 326 ); p_208_1 = modelparameters( 327 ); p_209_1 = modelparameters( 328 ); p_210_1 = modelparameters( 329 ); p_211_1 = modelparameters( 330 ); p_212_1 = modelparameters( 331 ); p_213_1 = modelparameters( 332 ); p_214_1 = modelparameters( 333 ); p_215_1 = modelparameters( 334 ); p_216_1 = modelparameters( 335 ); p_217_1 = modelparameters( 336 ); p_218_1 = modelparameters( 337 ); p_219_1 = modelparameters( 338 ); p_220_1 = modelparameters( 339 ); p_221_1 = modelparameters( 340 ); p_222_1 = modelparameters( 341 ); p_223_1 = modelparameters( 342 ); p_224_1 = modelparameters( 343 ); p_225_1 = modelparameters( 344 ); p_226_1 = modelparameters( 345 ); p_227_1 = modelparameters( 346 ); p_228_1 = modelparameters( 347 ); p_229_1 = modelparameters( 348 ); p_230_1 = modelparameters( 349 ); p_231_1 = modelparameters( 350 ); %% Electrophysiology parameters ep = modelparameters(351:359); sf=15; sfplcca=1; %1, 2/3, scaling of forward reaction PLC-Gq + Ca -> PLC-Gq-Ca sfGqbasal=0; %1, scaling of basal activity G-GDP (38) -> betagamma (4) + G*GTP (37) g.na=ep(1); % maximal conductance of Na g.kdr=ep(2); % maximal conductance of Kdr g.ka=ep(3); % maximal conductance of Ka g.kahp=ep(4); % maximal conductance of Kahp g.cal=ep(5); % maximal conductance of CaL g.leak=ep(6); % maximal conductance of leak E.na=55; % reversal potenial of Na+ (-56 - -84) E.kdr=-94; % reversal potenial of K+ (-94) E.ka=E.kdr; % reversal potenial of K+ (-94) E.kahp=E.kdr; % reversal potenial of K+ (-94) E.syne=-10; % reversal potenial of K+ (-94) E.leak= -41.84 ; % reversal potenial of leak (-41.31 for 1Hz; -52.57 for 2Hz; -52.56 for 3Hz) p.Cm=0.025; % membrane capacitance p.taue= 3; p.aahp=1.25e8; p.bahp=2.5; p.cahp=1000; phosMK1.k_p= ep(7); % Kdr phosphorylation rate by PKC phosMK1.n=4; % number of PKC molecule require to phosphorylate Kdr phosMK1.k_dp=phosMK1.k_p*(1.35^phosMK1.n); % Kdr dephosphorylation rate by PKC phosPKC1.k_p= ep(8); % Kdr phosphorylation rate by CaMKII phosPKC1.n=4; % number of CaMKII molecule require to phosphorylate Kdr phosPKC1.k_dp=phosPKC1.k_p*(0.5200^phosPKC1.n); % Kdr dephosphorylation rate by CaMKII V=y(179); % Membrane volatge from interg over Vm mna=y(180); % activation variable of Na+ hna=y(181); % inactivation variable of Na+ mdr=y(182); % activation variable of Kdr ma1=y(183); % activation variable of Ka1 ha1=y(184); % inactivation variable of Ka1 ma2=y(185); % activation variable of Ka2 (Ka) ha2=y(186); % inactivation variable of Ka2 (Ka) mahp=y(187); % activation variable of Kahp mcal=y(188); % activation variable of CaL gsyne=y(189); % pre synaptic excitation Ca_ahp=y(190); Kv_act=y(191); % unphosphorylated Kdr channels (KU) Kv_1=y(192); % phosphorylated Kdr channels by PKC (KP) Kv_2=y(193); % phosphorylated Kdr channels by CaMKII (KP) %Kv_12=y(194); % doubly phosphorylated Kdr channels by PKC and CaMKII (KP) %Ka_act=y(5+i); % unphosphorylated Ka channels ECa = 13.27*log(y(165)/Ca_ahp/1e3); % reversal potenial of Ca2+ % Fast Sodium Channel (see Table 3 in main text for details) mina = ( 0.091 * (V+38)/(1-exp(-(V+38)/5)) ) / (( 0.091 * (V+38)/(1-exp(-(V+38)/5)))+ (0.062 * ((V+38)/(exp((V+38)/5)-1)) )); hina = (0.016 * (exp(-(V+55)/15))) / ((0.016 * (exp(-(V+55)/15)))+(2.07/(1 + exp(-(V-17)/21)))); tmna = 1 / ((0.091 * (V+38)/(1-exp(-(V+38)/5)))+ (0.062 * ((V+38)/(exp((V+38)/5)-1)))); thna = 1 / ( (0.016 * (exp(-(V+55)/15))) +(2.07/(1 + exp(-(V-17)/21)))); % Delayed rectifier potassium channel (see Table 3 in main text for details) tdr = (1/(exp((V-81)/25.6)+exp((V+132)/(-18)))+9.9)./4; midr = (1+(2^(1/4)-1)*exp((V-2.3)/(-17)))^(-1); % Fast activating potassium channel (see Table 3 in main text for details) % Ka1 effects are not modeled % Ka1 mia1 = 1/(1+exp(-(V+60)/8.5)); tma1 = 1/(exp((V+35.82)/19.69) + exp(-(V+79.69)/12.7)) + 0.37; hia1 = 1/(1+exp((V+78)/6)); tha1 = 1/((exp((V+46.05)/5) + exp(-(V+238.4)/37.45))) - (1/((exp((V+46.05)/5)+ exp(-(V+238.4)/37.45)))-19)*(sign(V+63+abs(V+63))); % Only Ka2 effects are modeled as Ka % Ka2 mia2 = 1/(1+exp(-(V+36)/20)); tma2 = tma1; hia2 = 1/(1+exp((V+78)/6)); tha2 = 1/((exp((V+46.05)/5) + exp(-(V+238.4)/37.45))) - (1/((exp((V+46.05)/5)+ exp(-(V+238.4)/37.45)))-60)*(sign(V+73+abs(V+73))); %After hyperpolarization related calcium dependent potassium channel (see Table 3 in main text for details) miahp= p.aahp * (Ca_ahp)^2 / (p.aahp * (Ca_ahp)^2 + p.bahp); tahp = p.cahp/(p.aahp * (Ca_ahp)^2 + p.bahp); % High threshold calcium channel (see Table 3 in main text for details) mical= (1.6./(1 + exp(-0.072.*(V-5)))) / ((1.6./(1 + exp(-0.072.*(V-5)))) + (0.02.*(V-1.31)./(exp((V-1.31)./5.36)-1))); tcal = 1/((1.6./(1 + exp(-0.072.*(V-5)))) + (0.02.*(V-1.31)./(exp((V-1.31)./5.36)-1))); % All currents (see Table 3 in main text for details) Ina = g.na * mna^3 * hna * (E.na - V); IKdr = g.kdr *Kv_act* mdr^4 * (E.kdr - V); IKa = g.ka * 0.4 * ma2^4 * ha2*(E.ka - V); % no Ka1 (0.0 * ma1^4 * ha1) IKahp = g.kahp * mahp^2 * (E.kahp - V); Isyne = gsyne * (E.syne - V); % 0 Isyni = 0; % gsyni * (Esyni - V); Ileak = g.leak * (E.leak - V); % Calcium Epump (see Table 2 in main text for details) P_leak1=0.26e-2*0.8; % sa=0.8; P_leak2=0.158e-1*0.8; % sa=0.8; zeta=V*0.0749; r_leak=-(P_leak1*y(31)+P_leak2*y(9)/15*sf)*zeta*(y(7)-y(165)*(exp(-zeta)))/(1-(exp(-zeta))); r_pump=- 1800 * y(7)* y(19); % Sodium-calcium Exchanger (NCX) (see Table 2 in main text for details) km=2; Kpkcmod=0.5; % 0.5 low Ca response; 3 high Ca response Kpkc=10; Dpkc=2; nacaactaff=0.2; vmax=ep(9); DFin= y(165)*5.7554*exp(2*0.5*V*0.0374); %gamma=0.5; DFout=y(7)*562448656e-3*exp(2*(0.5-1)*V*0.0374); %gamma=0.5; rmod=-(DFin-DFout)/(1+(0.05)*(y(7)*562448656e-3+y(165)*5.7554)); % D=0.05; rCaNa=-(1+Kpkcmod/(1+exp((Kpkc-(y(105)*100 - 3))/Dpkc))) * (y(7)/(km+y(7)))*(y(7)/(nacaactaff + y(7))); r_NaCa=vmax*rmod*rCaNa; r2i=2*96480*(1.17e-11)*1e3; % z*F*v*1e3 based on soma volume v_cyt=1.17e-11; Ical = g.cal .* mcal.^2 .* (ECa - V); r_CaL= Ical /r2i; r_seqmem=1.6*((2.5e-4*1e-9)/(1.17e-11))/0.0075*(-2*5.4* Ca_ahp*Ca_ahp+0.0015*(y(10)-Ca_ahp)); % NCX current I_NaCa=-r_NaCa/2*r2i; %Netto -1 ladung: 1Ca raus 3 Na rein % Total current ICal=Ical+I_NaCa+(r_leak+r_CaL+r_pump)*r2i; % phosphorylation of Kdr by PKC and CaMKII r1=phosPKC1.k_p*Kv_act*y(175)^phosPKC1.n; r2=phosMK1.k_p*Kv_act*y(177)^phosMK1.n; r3=phosMK1.k_p*Kv_1*y(177)^phosMK1.n; r4=phosPKC1.k_p*Kv_2*y(175)^phosPKC1.n; % dephosphorylation of Kdr by PKC and CaMKII r5=phosPKC1.k_dp*Kv_1; r6=phosMK1.k_dp*Kv_2; r7=phosPKC1.k_dp*(1-Kv_act-Kv_1-Kv_2);%Kv_12; r8=phosMK1.k_dp*(1-Kv_act-Kv_1-Kv_2);%Kv_12; % calculating reaction rates of signaling pathways v1 = p_1_1 * y(1) * y(51) - p_1_2 * y(52); %1 v2 = p_2_1 * y(1) * y(53) - p_2_2 * y(54); %1 v3 = p_3_1 * y(71) * y(1) - p_3_2 * y(73) ; %1 v4 = p_4_1 * y(1) * y(77) - p_4_2 * y(79); %1 v5 = p_5_1 * y(1) * y(82) - p_5_2 * y(85); %1 v6 = p_6_1 * y(66) * y(1) - p_6_2 * y(147) ; %1 v7 = p_7_1 * y(66) * y(64) - p_7_2 * y(2) ; %2 v8 = p_8_1 * y(53) * y(64) - p_8_2 * y(2) ; %2 v9 = p_9_1 * y(66) * y(63) - p_9_2 * y(3); %3 v10 = p_10_1 * y(63) * y(53) - p_10_2 * y(3); %3 v11 = p_11_1 * y(36) * y(4) ; %4 v12 = p_12_1* y(117); %4 v13 = sfGqbasal * p_13_1* y(38); %4 v14 = p_14_1 * y(162) * y(5) * y(113) - p_14_2 * y(114); %5 v15 = p_15_1* y(5)* y(35) - p_15_2 * y(134); %5 v16 = p_16_1 * y(118) * y(170)- p_16_2 * y(6); %6 v17 = p_17_1 * y(7) * y(107) - p_17_2 * y(108); %7 v18 = p_18_1 * y(7) * y(32) * y(7) - p_18_2 * y(33) ; %7 v19 = p_19_1 * y(90) * y(7) - p_19_2 * y(8); %7 v20 = p_20_1 * y(22) * y(7) - p_20_2 * y(23); %7 v21 = p_21_1 * y(21) * y(7) * y(7) - p_21_2 * y(24); %7 v22 = p_22_1 * y(24) * y(7) - p_22_2 * y(22); %7 v23 = p_23_1 * y(102) * y(7)- p_23_2 * y(98); %7 v24 = p_24_1 * sfplcca* y(110) * y(7) - p_24_2 * y(109) ; %7 v25 = p_25_1 * y(121) ; %7 v26 = (y(10)-y(7)) * p_26_1 * y(166) ; %7 v27 = (y(10)-y(7)) * p_27_1 * y(59); %7 v28 = p_28_1 * y(18) * (y(10))^5 - p_28_2 * y(11); %10 v29 = p_29_1 * y(11) * (y(10))^5 - p_29_2 * y(12); %10 v30 = p_30_1 * y(12) * (y(10))^5 - p_30_2 * y(13); %10 v31 = p_31_1 * y(13) * (y(10))^5 - p_31_2 * y(14); %10 v32 = p_32_1 * y(14) * (y(10))^5 - p_32_2 * y(15); %10 v33 = p_33_1 * y(15) * (y(10))^5 - p_33_2 * y(16); %10 v34 = p_34_1 * y(16) * (y(10))^5 - p_34_2 * y(17); %10 v35 = p_35_1 * y(20) * (y(10))^5 - p_35_2 * y(18); %10 v36 = p_36_1 * y(10) * y(10) * y(31) - p_36_2 * y(39); %10 v37 = p_37_1 * y(33) ; %10 v38 = p_38_1 * y(7) * y(19) - p_38_2 * y(121); %19 v39 = p_39_1 * y(61) * y(23) - p_39_2 * y(64); %23 v40 = p_40_1 * y(60) * y(23) - p_40_2 * y(63) ; %23 v41 = p_41_1 * y(29) * y(23) - p_41_2 * y(30); %23 v42 = p_42_1 * y(23) * y(26)- p_42_2 * y(28) ; %23 v43 = p_43_1 * y(25)* y(115) - p_43_2 * y(131); %25 v44 = p_44_1 * y(129) ; %25 v45 = p_45_1 * y(26); %26 v46 = p_46_1 * y(131); %26 v47 = p_47_1 * y(132); %26 v48 = p_48_1 * y(27)* y(115) - p_48_2 * y(129) ; %27 v49 = p_49_1 * y(27)* y(115) - p_49_2 * y(130); %27 v50 = p_50_1 * y(120); %27 v51 = p_51_1 * y(127); %27 v52 = p_52_1 * y(28)* (y(27) + y(29)) - p_52_2 * y(119) ; %28 v53 = p_53_1 * y(28)* (y(28) + y(30)) - p_53_2 * y(126); %28 v54 = p_54_1 * y(128); %28 v55 = p_55_1 * y(29)* (y(27) + y(29)) - p_55_2 * y(120); %29 v56 = p_56_1 * y(29)* (y(28) + y(30)) - p_56_2 * y(127); %29 v57 = p_57_1 * y(29)* y(115) - p_57_2 * y(132) ; %29 v58 = p_58_1 * y(130); % v59 = p_59_1 * y(30)* y(115)- p_59_2 * y(128); %30 v60 = p_60_1 * y(119); %30 v61 = p_61_1 * y(126); %30 v62 = p_62_1 * y(33); %32 v63 = p_63_1 * y(33); %33 v64 = p_64_1 * y(34); %34 v65 = p_65_1 * y(34) * y(98) - p_65_2 * y(100); %34 v66 = p_66_1 * y(34) * y(102) - p_66_2 * y(103); %34 v67 = p_67_1 * y(172); %34 v68 = p_68_1 * y(155); %34 v69 = p_69_1 * y(156); %34 v70 = p_70_1 * y(157); %34 v71 = p_71_1 * y(158); %34 v72 = p_72_1 * y(35) * y(77) - p_72_2 * y(81); %35 v73 = p_73_1 * y(82) * y(35) - p_73_2 * y(84); %35 v74 = p_74_1 * y(112) * y(35) - p_74_2 * y(133); %35 v75 = p_75_1 * y(5) * y(35) - p_75_2 * y(134); %35 v76 = p_76_1 * y(37); %36 v77 = p_77_1 * y(109); %36 v78 = p_78_1 * y(108) * y(37) - p_78_2 * y(109); %37 v79 = p_79_1 * y(107) * y(37) - p_79_2 * y(110); %37 v80 = p_80_1 * y(38) * y(94) - p_80_2 * y(118); %38 v81 = p_81_1 * y(38) * y(116) - p_81_2 * y(117); %38 v82 = p_82_1 * y(40) * y(45) - p_82_2 * y(43); %40 v83 = p_83_1 * y(168); %40 v84 = p_84_1 * y(136); %40 v85 = p_85_1 * y(137); %40 v86 = p_86_1 * y(41) - p_86_2 * y(168) ; %41 v87 = p_87_1 * y(138); %41 v88 = p_88_1 * y(42) * y(45) - p_88_2 * y(44); %42 v89 = p_89_1 * y(135); %42 v90 = p_90_1 * y(168) * y(45) - p_90_2 * y(43); %43 v91 = p_91_1 * y(45) * y(168) - p_91_2 * y(44); %44 v92 = p_92_1 * y(46) * y(49) - p_92_2 * y(136); %46 v93 = p_93_1 * y(46)* y(50) - p_93_2 * y(137); %46 v94 = p_94_1 * y(143); %46 v95 = p_95_1 * y(47)* y(90) - p_95_2 * y(135); %47 v96 = p_96_1 * y(144); %47 v97 = p_97_1 * y(145); %47 v98 = p_98_1 * y(48)* y(91) - p_98_2 * y(138); %48 v99 = p_99_1 * y(142); %48 v100 = p_100_1 * y(51) * y(57)- p_100_2 * y(56) ; %51 v101 = p_101_1 * y(51)* y(90)- p_101_2 * y(142); %51 v102 = p_102_1 * y(51)* y(91)- p_102_2 * y(143); %51 v103 = p_103_1 * y(148); %51 v104 = p_104_1 * y(172); %53 v105 = p_105_1 * 0.16 * y(55)- p_105_2 * y(53); %53 v106 = p_106_1 * y(69); %53 v107 = p_107_1 * y(53)* y(60) - p_107_2 * y(139) ; %53 v108 = p_108_1 * y(53)* y(61) - p_108_2 * y(140); %53 v109 = p_109_1 * y(53)* y(62) - p_109_2 * y(141); %53 v110 = p_110_1 * y(53)* y(93) - p_110_2 * y(144); %53 v111 = p_111_1 * y(53)* y(65) - p_111_2 * y(145); %53 v112 = p_112_1 * y(147); %53 v113 = p_113_1 * y(55) - 6.25 * p_113_2 * y(53); %55 v114 = p_114_1 * y(146); %55 v115 = p_115_1 * y(66) * y(57) - p_115_2 * y(56); %56 v116 = p_116_1 * y(56); %56 v117 = p_117_1 * y(71) * y(57) - p_117_2 * y(74); %57 v118 = p_118_1 * y(77) * y(57) - p_118_2 * y(74); %57 v119 = p_119_1 * y(58) * (y(53))^3 - p_119_2 * y(59); %58 v120 = p_120_1 * y(60)* (y(28) + y(30)) - p_120_2 * y(122); %60 v121 = p_121_1 * y(60)* (y(27) + y(29)) - p_121_2 * y(124); %60 v122 = p_122_1 * y(60)* (y(105) + y(99) + y(101) + y(106) + y(97) + y(96)) - p_122_2 * y(154) ; %60 v123 = p_123_1 * y(122); %61 v124 = p_124_1 * y(124); %61 v125 = p_125_1 * y(154); %62 v126 = p_126_1 * y(63)* (y(28) + y(30)) - p_126_2 * y(123); %63 v127 = p_127_1 * y(63)* (y(27) + y(29)) - p_127_2 * y(125); %63 v128 = p_128_1 * y(123); %64 v129 = p_129_1 * y(125); %64 v130 = 0.16 * p_130_1 * y(67) - p_130_2 * y(66); %66 v131 = p_131_1 * y(66)* y(1) - p_131_2 * y(147); %66 v132 = p_132_1 * y(66)* y(93) - p_132_2 * y(148); %66 v133 = p_133_1 * y(139); %66 v134 = p_134_1 * y(140); %66 v135 = p_135_1 * y(141); %66 v136 = 6.25 * p_136_1 * y(66) - p_136_2 * y(67); %67 v137 = p_137_1 * y(67)* y(95) - p_137_2 * y(146); %67 v138 = p_138_1 * y(68); %68 v139 = p_139_1 * y(77); %68 v140 = p_140_1 * y(69) * y(72) - p_140_2 * y(75); %69 v141 = p_141_1 * y(69); %69 v142 = 0.16 * p_142_1 * y(70) - p_142_2 * y(69); %69 v143 = p_143_1 * y(77); %69 v144 = 6.25 * p_144_1* y(69) - p_144_2 * y(70); %70 v145 = p_145_1 * y(149); %70 v146 = p_146_1 * y(77); %71 v147 = p_147_1 * y(72) * y(77) - p_147_2 * y(75); %72 v148 = 6.25 * p_148_1 * y(169) - p_148_2 * y(76); %76 v149 = p_149_1 * y(153); %76 v150 = p_150_1 * y(77) * y(93) - p_150_2 * y(80); %77 v151 = p_151_1 * y(77); %77 v152 = p_152_1 * y(82); %77 v153 = p_153_1 * y(111); %77 v154 = 0.16 * p_154_1 * y(78) - p_154_2 * y(77); %77 v155 = p_155_1 * y(77)* y(86) - p_155_2 * y(150); %77 v156 = p_156_1 * y(77)* y(89) - p_156_2 * y(151); %77 v157 = 6.25 * p_157_1 * y(77) - p_157_2 * y(78); %78 v158 = p_158_1 * y(78)* y(95) - p_158_2 * y(149); %78 v159 = p_159_1 * y(82) * y(93) - p_159_2 * y(83); %82 v160 = p_160_1 * y(82) * y(163) * y(86) - p_160_2 * y(87); %82 v161 = 0.16 * p_161_1 * y(88) - p_161_2 * y(82); %82 v162 = p_162_1 * y(91) * y(82) - p_162_2 * y(92); %82 v163 = p_163_1 * y(82)* y(89) - p_163_2 * y(152); %82 v164 = p_164_1 * y(133); %82 v165 = p_165_1 * y(112) * y(162) * y(86) - p_165_2 * y(87); %86 v166 = p_166_1 * y(111) * y(86) - p_166_2 * y(159); %86 v167 = 6.25 * p_167_1 * y(82) - p_167_2 * y(88); %88 v168 = p_168_1 * y(88)* y(95) - p_168_2 * y(153); %88 v169 = p_169_1 * y(111) * y(89) - p_169_2 * y(160); %89 v170 = p_170_1 * y(94) * y(167) - p_170_2 * y(116); %94 v171 = p_171_1 * y(161) * y(102)- p_171_2 * y(96); %96 v172 = p_172_1 * y(102); %97 v173 = p_173_1 * y(97); %97 v174 = p_174_1 * y(98) * y(161) - p_174_2 * y(99); %98 v175 = p_175_1 * y(98); %98 v176 = p_176_1 * y(101); %98 v177 = p_177_1 * y(102) * y(7)- p_177_2 * y(98); %98 v178 = p_178_1 * y(100); %100 v179 = p_179_1 * y(106); %100 v180 = p_180_1 * y(103) * y(161) - p_180_2 * y(104); %103 v181 = p_181_1 * y(104); %104 v182 = p_182_1 * y(105); %104 v183 = p_183_1 * y(172) * y(107) - p_183_2 * y(155); %107 v184 = p_184_1 * y(109); %108 v185 = p_185_1 * y(172) * y(108) - p_185_2 * y(156); %108 v186 = p_186_1 * y(172) * y(109) - p_186_2 * y(158); %109 v187 = p_187_1 * y(172) * y(110) - p_187_2 * y(157); %110 v188 = p_188_1 * y(150); %111 v189 = p_189_1 * y(151); %111 v190 = p_190_1 * y(163) * y(112) * y(113) - p_190_2 * y(114); %112 v191 = p_191_1 * y(134); %112 v192 = p_192_1 * y(152); %112 v193 = p_193_1 * y(116); %116 v194 = p_194_1 * y(167) * y(118)- p_194_2 * y(117); %117 v195 = p_18_1 * y(7) * y(32) * y(7) - p_195_1 * y(33) ; %33 v196 = p_92_1 * y(46) * y(49) - p_196_1 * y(136); %49 v197 = p_93_1 * y(46)* y(50) - p_197_1 * y(137); %50 v198 = p_107_1 * y(53)* y(60) - p_198_1 * y(139) ; %60 v199 = p_108_1 * y(53)* y(61) - p_199_1 * y(140); %61 v200 = p_109_1 * y(53)* y(62) - p_200_1 * y(141); %62 v201 = p_111_1 * y(53)* y(65) - p_201_1 * y(145); %65 v202 = p_155_1 * y(77)* y(86) - p_202_1 * y(150); %86 v203 = p_156_1 * y(77)* y(89) - p_203_1 * y(151); %89 v204 = p_163_1 * y(82)* y(89) - p_204_1 * y(152); %89 v205 = p_95_1 * y(47)* y(90) - p_205_1 * y(135); %90 v206 = p_101_1 * y(51)* y(90)- p_206_1 * y(142); %90 v207 = p_98_1 * y(48)* y(91) - p_207_1 * y(138); %91 v208 = p_102_1 * y(51)* y(91)- p_208_1 * y(143); %91 v209 = p_110_1 * y(53)* y(93) - p_209_1 * y(144); %93 v210 = p_132_1 * y(66)* y(93) - p_210_1 * y(148); %93 v211 = p_137_1 * y(67)* y(95) - p_211_1 * y(146); %95 v212 = p_158_1 * y(78)* y(95) - p_212_1 * y(149); %95 v213 = p_168_1 * y(88)* y(95) - p_213_1 * y(153); %95 v214 = p_166_1 * y(111) * y(86) - p_214_1 * y(159); %111 v215 = p_169_1 * y(111) * y(89) - p_215_1 * y(160); %111 v216 = p_74_1 * y(112) * y(35) - p_216_1 * y(133); %112 v217 = p_59_1 * y(30)* y(115)- p_217_1 * y(128); %115 v218 = p_48_1 * y(27)* y(115) - p_218_1 * y(129) ; %115 v219 = p_49_1 * y(27)* y(115) - p_219_1 * y(130); %115 v220 = p_43_1 * y(25)* y(115) - p_220_1 * y(131); %115 v221 = p_57_1 * y(29)* y(115) - p_221_1 * y(132) ; %115 v222 = p_52_1 * y(28)* (y(27) + y(29)) - p_222_1 * y(119) ; %119 v223 = p_55_1 * y(29)* (y(27) + y(29)) - p_223_1 * y(120); %120 v224 = p_120_1 * y(60)* (y(28) + y(30)) - p_224_1 * y(122); %122 v225 = p_126_1 * y(63)* (y(28) + y(30)) - p_225_1 * y(123); %123 v226 = p_121_1 * y(60)* (y(27) + y(29)) - p_226_1 * y(124); %124 v227 = p_127_1 * y(63)* (y(27) + y(29)) - p_227_1 * y(125); %125 v228 = p_53_1 * y(28)* (y(28) + y(30)) - p_228_1 * y(126); %126 v229 = p_56_1 * y(29)* (y(28) + y(30)) - p_229_1 * y(127); %127 v230 = p_131_1 * y(66)* y(1) - p_230_1 * y(147); %147 v231 = p_122_1 * y(60)* (y(105) + y(99) + y(101) + y(106) + y(97) + y(96)) - p_231_1 * y(154) ; %154 % Integrating the change in y dydt = [ ( - v1 - v2 - v3 - v4 - v5 - v6 )% y(1) %%-------> 1345_3pase ( v7 + v8 )% y(2) %%-------> 3kCaM*_ip3_cmplx ( v9 + v10 )% y(3) %%-------> 3kCaM_ip3_cmplx ( - v11 + v12 + v13 )% y(4) %%-------> BetaGamma ( - v14 - v15 )% y(5) %%-------> bisPP-IP4 ( v16 )% y(6) %%-------> Blocked-rec-Gq ( - v17 - 2*v18 - v19 - v20 - 2 * v21 - v22 - v23 - v24 + v25 + v26 + v27 + r_NaCa + r_leak + r_pump )% y(7) %%-------> Ca ( v19 )% y(8) %%-------> Ca-1pase-cmplx (0 )% y(9) %%-------> Ca-leak-from-extracell ( -5*v28 - 5*v29 - 5*v30 - 5*v31 - 5*v32 - 5*v33 - 5*v34 - 5*v35 -2*6.25*v36 + 2*6.25*v37 -6.25* v26 - 6.25*v27 -6.25*r_seqmem )% y(10) %%-------> Ca-sequester ( -v29 + v28 )% y(11) %%-------> Ca10-Cal ( -v30 + v29 )% y(12) %%-------> Ca15-Cal ( -v31 + v30 )% y(13) %%-------> Ca20-Cal ( -v32 + v31 )% y(14) %%-------> Ca25-Cal ( -v33 + v32 )% y(15) %%-------> Ca30-Cal ( -v34 + v33 )% y(16) %%-------> Ca35-Cal ( v34 )% y(17) %%-------> Ca40-Cal ( -v28 + v35 )% y(18) %%-------> Ca5-Cal ( -v38 )% y(19) %%-------> CaEPump ( -v35 )% y(20) %%-------> Calseq ( -v21 )% y(21) %%-------> CaM ( -v20 + v22 )% y(22) %%-------> CaM-Ca3 ( -v39 - v40 - v41 - v42 + v20 )% y(23) %%-------> CaM-Ca4 ( -v22 + v21 )% y(24) %%-------> CaM-TR2-Ca2 ( -v43 + v44 )% y(25) %%-------> CaMK-thr306 ( -v45 - v42 + v46 + v47 )% y(26) %%-------> CaMKII ( -v48 - v49 + v50 + v51 )% y(27) %%-------> CaMKII*** ( v42 - v52 -v53 + v54 )% y(28) %%-------> CaMKII-CaM ( -v41 + v45 - v55 - v56 -v57 + v58 )% y(29) %%-------> CaMKII-thr286 ( v41 - v59 + v60 + v61 )% y(30) %%-------> CaMKII-thr286*-CaM ( - v36 )% y(31) %%-------> capacitive_Ca_entry* ( - v18 + v62 )% y(32) %%-------> CaTransp ( v195 - v63 )% y(33) %%-------> CaTransp-2Ca ( -v64 - v65 - v66 + v67 + v68 + v69 + v70 + v71 )% y(34) %%-------> DAG ( -v72 - v73 - v74 - v75 )% y(35) %%-------> DIPP1 ( -v11 + v76 + v77 )% y(36) %%-------> G*GDP ( -v78 - v76 -v79 + v12 + v13 )% y(37) %%-------> G*GTP ( -v13 - v80 - v81 + v11 )% y(38) %%-------> G-GDP ( v36 )% y(39) %%-------> inact_cap_entry ( -v82 + v83 + v84 + v85 )% y(40) %%-------> IP1(1) ( -v86 + v87 )% y(41) %%-------> IP1(3) ( -v88 + v89 )% y(42) %%-------> IP1(4) ( v90 + v82 )% y(43) %%-------> ip1_1pase_cmplx ( v91 + v88 )% y(44) %%-------> ip1_4pase_cmplx ( -v82 - v88 - v90 - v91 )% y(45) %%-------> IP1_pase ( -v92 - v93 + v94 )% y(46) %%-------> IP2(13) ( -v95 + v96 + v97 )% y(47) %%-------> IP2(14) ( -v98 + v99 )% y(48) %%-------> IP2(34) ( -v196 )% y(49) %%-------> IP2_3pase1 ( -v197 )% y(50) %%-------> IP2_3pase2 ( -v1 - v100 - v101 - v102 + v103 )% y(51) %%-------> IP3(134) ( v1 )% y(52) %%-------> IP3(134)-3pase-cmplx ( -v2 - v8 - v10 + v104 + v105 + v106 - v107 - v108 - v109 - v110 - v111 + v112 + v68 + v69 + v70 + v71 )% y(53) %%-------> IP3(145) ( v2 )% y(54) %%-------> IP3(145)-3pase-cmplx ( -v113 + v114 )% y(55) %%-------> IP3(145)_ER ( v115 - v116 + v100 )% y(56) %%-------> IP3-56Kcmplx ( -v100 - v117 - v115 + v116 - v118 )% y(57) %%-------> IP3-56K_IP4-1K ( -v119 )% y(58) %%-------> IP3R ( v119 )% y(59) %%-------> IP3R* ( -v40 - v120 - v121 - v122 - v198 )% y(60) %%-------> IP3_3K ( -v39 + v123 + v124 -v199 )% y(61) %%-------> IP3_3K* ( v125 - v200 )% y(62) %%-------> IP3_3K*1 ( -v10 + v40 - v9 - v126 - v127 )% y(63) %%-------> IP3_3K_CaM ( -v8 + v39 - v7 + v128 + v129 )% y(64) %%-------> IP3_3K_CaM* ( -v201 )% y(65) %%-------> IP3_5pase2 ( v130 - v7 - v9 - v115 - v131 - v132 + v133 + v134 + v135 )% y(66) %%-------> IP4(1345) ( v136 - v137 )% y(67) %%-------> IP4(1345)_ER ( -v138 + v139 + v116 )% y(68) %%-------> IP4(1346) ( -v140 - v141 + v142 + v143 )% y(69) %%-------> IP4(1456) ( v144 + v145 )% y(70) %%-------> IP4(1456)_ER ( -v117 - v3 + v146 )% y(71) %%-------> IP4(3456) ( -v140 - v147 )% y(72) %%-------> IP4-3K ( v3 )% y(73) %%-------> IP4-3pase-cmplx ( v117 + v118 )% y(74) %%-------> ip4_1k_cmplx ( v147 + v140 )% y(75) %%-------> ip4_3k_cmplx ( v148 + v149 )% y(76) %%-------> IP5(12456)_ER ( -v72 - v4 - v150 - v151 - v146 - v143 + v152 + v153 - v118 - v147 + v138 - v139 + v154 - v155 - v156 )% y(77) %%-------> IP5(13456) ( v157 - v158 + v149 )% y(78) %%-------> IP5(13456)_ER ( v4 )% y(79) %%-------> IP5-3pase-cmplx ( v150 )% y(80) %%-------> IP5-5pase-cmplx ( v72 )% y(81) %%-------> IP5-DIPPcmplx ( -v73 - v5 - v159 - v160 + v161 - v162 + v151 - v152 - v163 + v164 )% y(82) %%-------> IP6 ( v159 )% y(83) %%-------> IP6-5pase-inhib ( v73 )% y(84) %%-------> IP6-DIPPcmplx ( v5 )% y(85) %%-------> IP6-inhib-3pase-cmplx ( -v160 - v165 - v202 -v166 )% y(86) %%-------> IP6-K ( v165 + v160 )% y(87) %%-------> IP6-K-complex ( v167 - v168 )% y(88) %%-------> IP6_ER ( -v203 - v204 - v169 )% y(89) %%-------> IP6_K2 ( -v19 - v205 - v206 )% y(90) %%-------> IP_1pase ( -v162 - v207 - v208 )% y(91) %%-------> IP_4pase ( v162 )% y(92) %%-------> IP_4pase_inact ( -v150 - v159 - v209 - v210 )% y(93) %%-------> IP_5pase1 ( -v80 -v170 )% y(94) %%-------> AT1R ( -v211 - v212 - v213 )% y(95) %%-------> MIPP ( v171 )% y(96) %%-------> PKC-AA* ( v172 - v173 )% y(97) %%-------> PKC-basal* ( -v174 - v65 + v176 + v177 -v175 )% y(98) %%-------> PKC-Ca ( v174 )% y(99) %%-------> PKC-Ca-AA* ( -v178 + v179 + v65 )% y(100) %%-------> PKC-Ca-DAG ( v175 - v176 )% y(101) %%-------> KC-Ca-memb* ( -v171 - v177 - v172 + v173 - v66 )% y(102) %%-------> PKC-cytosolic ( -v180 + v66 )% y(103) %%-------> PKC-DAG ( -v181 + v182 + v180 )% y(104) %%-------> PKC-DAG-AA ( v181 - v182 )% y(105) %%-------> PKC-DAG-AA* ( v178 - v179 )% y(106) %%-------> PKC-DAG-memb* ( -v17 - v79 - v183 )% y(107) %%-------> PLC ( -v78 + v17 + v184 - v185 )% y(108) %%-------> PLC-Ca ( -v184 + v78 + v24 - v186 )% y(109) %%-------> PLC-Ca-Gq ( -v24 + v79 - v187 )% y(110) %%-------> PLC-Gq ( -v153 - v214 - v215 + v188 + v189 )% y(111) %%-------> PP-IP4 ( -v190 - v165 - v216 + v191 + v192 )% y(112) %%-------> PP-IP5 ( -v190 -v14 )% y(113) %%-------> PP-IP5-K ( v14 + v190 )% y(114) %%-------> PP-IP5-K-complex ( -v217 - v218 - v219 - v220 -v221 )% y(115) %%-------> PP1-active ( -v81 + v12 + v170 - v193 )% y(116) %%-------> Rec-AngII ( -v12 + v194 + v81 )% y(117) %%-------> Rec-AngII-Gq ( -v16 -v194 + v80 )% y(118) %%-------> Rec-Gq ( v222 )% y(119) %%-------> tot_autonomous_CaMKII_auton_286_complex ( v223 )% y(120) %%-------> tot_autonomous_CaMKII_auton_305_complex ( v38 )% y(121) %%-------> CaEPump_Ca-pump-out_complex ( v224 )% y(122) %%-------> tot_CaM_CaMKII_CaM-CaMK-phos_complex ( v225 )% y(123) %%-------> tot_CaM_CaMKII_CaM-CaMK-phos1_complex ( v226 )% y(124) %%-------> tot_autonomous_CaMKII_CaMK-phos_complex ( v227 )% y(125) %%-------> tot_autonomous_CaMKII_CaMK-phos1_complex ( v228 )% y(126) %%-------> tot_CaM_CaMKII_CaM_act_286_complex ( v229 )% y(127) %%-------> tot_CaM_CaMKII_CaM_act_305_complex ( v217 )% y(128) %%-------> PP1-active_Deph-thr286_complex ( v218 )% y(129) %%-------> PP1-active_Deph-thr286c_complex ( v219 )% y(130) %%-------> PP1-active_Deph-thr305_complex ( v220 )% y(131) %%-------> PP1-active_Deph-thr306_complex ( v221 )% y(132) %%-------> PP1-active_Deph_thr286b_complex ( v74 )% y(133) %%-------> DIPP1_dipp_ip7_complex ( v75 )% y(134) %%-------> DIPP1_dipp_ip8_complex ( v205 )% y(135) %%-------> IP_1pase_ip2_1pase_complex ( v196 )% y(136) %%-------> IP2_3pase1_ip2_3pase1_complex ( v197 )% y(137) %%-------> IP2_3pase2_ip2_3pase2_complex ( v207 )% y(138) %%-------> IP_4pase_ip2_4pase_complex ( v198 )% y(139) %%-------> IP3_3K_ip3-3k_complex ( v199 )% y(140) %%-------> IP3_3K*_ip3-3k*_complex ( v200 )% y(141) %%-------> IP3_3K*1_ip3-3k*1_complex ( v206 )% y(142) %%-------> IP_1pase_ip3_1pase_complex ( v208 )% y(143) %%-------> IP_4pase_ip3_4pase_complex ( v209 )% y(144) %%-------> IP_5pase1_ip3_5pase1_complex ( v201 )% y(145) %%-------> IP3_5pase2_ip3_5pase2_complex ( v211 )% y(146) %%-------> MIPP_ip4_3pase_complex ( v230 )% y(147) %%-------> 1345_3pase_ip4_3pase_complex ( v210 )% y(148) %%-------> IP_5pase1_ip4_5pase_complex ( v212 )% y(149) %%-------> MIPP_ip5_3pase_complex ( v202 )% y(150) %%-------> IP6-K_ip5_k1_complex ( v203 )% y(151) %%-------> IP6_K2_ip5_k2_complex ( v204 )% y(152) %%-------> IP6_K2_ip6_k2_complex ( v213 )% y(153) %%-------> MIPP_ip6_pase_complex ( v231 )% y(154) %%-------> PKC-active_PKC-phos_complex ( v183 )% y(155) %%-------> PLC_complex ( v185 )% y(156) %%-------> PLC-Ca_complex ( v187 )% y(157) %%-------> PLC-Gq_complex ( v186 )% y(158) %%-------> PLC-Ca-Gq_PLCb-Ca-Gq_complex ( v166 )% y(159) %%-------> IP6-K_pp-ip4-k1_complex ( v169 )% y(160) %%-------> IP6_K2_pp-ip4-k2_complex ( 0 )% y(161) %%-------> AA ( 0 )% y(162) %%-------> ADP ( 0 )% y(163) %%-------> ATP ( 0 )% y(164) %%-------> bisPP-IP3 ( 0 )% y(165) %%-------> Ca-ext ( 0 )% y(166) %%-------> Ca-leak-to-cytoplasm ( 0 )% y(167) %%-------> AngII ( 0 )% y(168) %%-------> inositol ( 0 )% y(169) %%-------> IP5(12456) ( 0 )% y(170) %%-------> mGluRAntag ( 0 )% y(171) %%-------> PC ( 0 )% y(172) %%-------> PIP2 ( 0 )% y(173) %%-------> total-CaMKII ( -v2 - v8 - v10 + v104 + v105 + v106 - v107 - v108 - v109 - v110 - v111 + v112 + v68 + v69 + v70 + v71 )% y(174) %%-------> IP3 ( ( v181 - v182 ) + ( v174 ) + ( v175 - v176 ) + ( v178 - v179 ) + ( v172 - v173 ) + ( v171 ) )% y(175) %%-------> PKC-active ( -v48 - v49 + v50 + v51 -v41 + v45 - v55 - v56 -v57 + v58 )% y(176) %%-------> tot-autonomous-CaMKII ( ( v42 - v52 -v53 + v54 ) + ( v41 - v59 + v60 + v61 ) )% y(177) %%-------> tot-CaM-CaMKII ( 0 )% y(178) %%-------> active Kv ( 1e3*(1)*(Ina + IKdr + IKahp +IKa+ ICal + Isyne + Isyni + Ileak)/p.Cm ) % y(179) %%-------> Membrane Voltage V % dV=1 ( 1e3*( -mna + mina )/tmna ) % y(180) %%-------> ( 1e3*( -hna + hina )/thna ) % y(181) %%-------> ( 1e3*( -mdr + midr )/tdr ) % y(182) %%-------> ( 1e3*( -ma1 + mia1 )/tma1 ) % y(183) %%-------> ( 1e3*( -ha1 + hia1 )/tha1 ) % y(184) %%-------> ( 1e3*( -ma2 + mia2 )/tma2 ) % y(185) %%-------> ( 1e3*( -ha2 + hia2 )/tha2 ) % y(186) %%-------> ( 1e3*( -mahp + miahp)/tahp ) % y(187) %%-------> ( 1e3*( -mcal + mical)/tcal ) % y(188) %%-------> ( 1e3*( -gsyne )/p.taue ) % y(189) %%-------> %(ICal / (2*p.vCa*p.F))*(1-P) + (p.Ca2cyt0-Ca2coni)/(17.7*exp(V/35)); ( 1e3*( Ical / (2*(2.5e-4)*96480)*(1-(0.03/(0.03 + (5e-5) + 0.001))) + ((5e-5)-Ca_ahp)/(17.7*exp(V/35))) ) % y(190) %%-------> %dCa_ahpdt ( -r1-r2+r5+r6 ) % y(191) %%-------> ( +r1-r3-r5+r8 ) % y(196) %%-------> ( +r2-r4-r6+r7 ) % y(195) %%-------> ( +r3+r4-r7-r8 ) % y(194) %%------->%-r10+r11 ]; end % % function function yy = interpoln( x, y, xx ) %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Custom function to perform linear interpolation % % input x - x vector % y - y vector % xx - scaler value of x for which interpolated value of y is asked % % output yy - interpolated value of xx % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% xx = floor(xx*100)/100; i = myfind( x, xx); yy = y(i) + ((xx - x(i))*y(i+1) - (xx - x(i) )*y(i))/(x(i+1) - x(i)); yy = abs(yy); end % % function function b = myfind(x,searchfor) %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Custom find function % % input x - x vector % searchfor - index value to searched on x % % output b - index for the lower bound value % %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% a=1; b=numel(x); while (a+1