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00028 #include "WntCellCycleOdeSystem.hpp"
00029 #include "CellwiseOdeSystemInformation.hpp"
00030
00031
00032 WntCellCycleOdeSystem::WntCellCycleOdeSystem(double wntLevel,
00033 boost::shared_ptr<AbstractCellMutationState> pMutationState,
00034 std::vector<double> stateVariables)
00035 : AbstractOdeSystem(9),
00036 mpMutationState(pMutationState),
00037 mWntLevel(wntLevel)
00038 {
00039 mpSystemInfo.reset(new CellwiseOdeSystemInformation<WntCellCycleOdeSystem>);
00040
00055 Init();
00056
00057
00058 double destruction_level = ma5d/(ma4d*wntLevel+ma5d);
00059 double beta_cat_level_1 = -1.0;
00060 double beta_cat_level_2 = -1.0;
00061
00062 if (!mpMutationState)
00063 {
00064
00065 }
00066 else if (mpMutationState && mpMutationState->IsType<ApcOneHitCellMutationState>())
00067 {
00068
00069 beta_cat_level_1 = 0.5*ma2d/(ma2d+0.5*ma3d*destruction_level);
00070 beta_cat_level_2 = 0.5*ma2d/(ma2d+0.5*ma3d*destruction_level);
00071 }
00072 else if (mpMutationState && mpMutationState->IsType<ApcTwoHitCellMutationState>())
00073 {
00074
00075 destruction_level = 0.0;
00076 beta_cat_level_1 = 0.5;
00077 beta_cat_level_2 = 0.5;
00078 }
00079 else if (mpMutationState && mpMutationState->IsType<BetaCateninOneHitCellMutationState>())
00080 {
00081
00082 beta_cat_level_1 = 0.5*ma2d/(ma2d+ma3d*destruction_level);
00083 beta_cat_level_2 = 0.5;
00084 }
00085 else
00086 {
00087
00088 beta_cat_level_1 = 0.5*ma2d/(ma2d+ma3d*destruction_level);
00089 beta_cat_level_2 = 0.5*ma2d/(ma2d+ma3d*destruction_level);
00090 }
00091
00092
00093 SetDefaultInitialCondition(5, destruction_level);
00094 SetDefaultInitialCondition(6, beta_cat_level_1);
00095 SetDefaultInitialCondition(7, beta_cat_level_2);
00096 SetDefaultInitialCondition(8, wntLevel);
00097
00098 if (stateVariables != std::vector<double>())
00099 {
00100 SetStateVariables(stateVariables);
00101 }
00102 }
00103
00104 void WntCellCycleOdeSystem::SetMutationState(boost::shared_ptr<AbstractCellMutationState> pMutationState)
00105 {
00106 mpMutationState = pMutationState;
00107 }
00108
00109 WntCellCycleOdeSystem::~WntCellCycleOdeSystem()
00110 {
00111
00112 }
00113
00114 void WntCellCycleOdeSystem::Init()
00115 {
00116
00117
00118 double k1 = 1.0;
00119 double k2 = 1.6;
00120 double k3 = 0.05;
00121 double k16 = 0.4;
00122 double k34 = 0.04;
00123 double k43 = 0.01;
00124 double k61 = 0.3;
00125 double k23 = 0.3;
00126 double a = 0.04;
00127 double J11 = 0.5;
00128 double J12 = 5.0;
00129 double J61 = 5.0;
00130 double J62 = 8.0;
00131 double J13 = 0.002;
00132 double J63 = 2.0;
00133 double Km1 = 0.5;
00134 double Km2 = 4.0;
00135 double Km4 = 0.3;
00136 double kp = 0.05;
00137 double phi_pRb = 0.005;
00138 double phi_E2F1 = 0.1;
00139 double phi_CycDi = 0.023;
00140 double phi_CycDa = 0.03;
00141 double phi_pRbp = 0.06;
00142
00143
00144 double a1 = 0.423;
00145 double a2 = 2.57e-4;
00146 double a3 = 1.72;
00147 double a4 = 10.0;
00148 double a5 = 0.5;
00149 double WntMax = 10.0;
00150 double mitogenic_factorF = 6.0e-4;
00151 double APC_Total = 0.02;
00152
00153
00154 mk2d = k2/(Km2*phi_E2F1);
00155 mk3d = k3*a1*mitogenic_factorF/(Km4*phi_E2F1*a2);
00156 mk34d = k34/phi_E2F1;
00157 mk43d = k43/phi_E2F1;
00158 mk23d = k23*Km2/(Km4*phi_E2F1);
00159 mad = a/Km2;
00160 mJ11d = J11*phi_E2F1/k1;
00161 mJ12d = J12*phi_E2F1/k1;
00162 mJ13d = J13*phi_E2F1/k1;
00163 mJ61d = J61*phi_E2F1/k1;
00164 mJ62d = J62*phi_E2F1/k1;
00165 mJ63d = J63*phi_E2F1/k1;
00166 mKm1d = Km1/Km2;
00167 mkpd = kp/(Km2*phi_E2F1);
00168 mphi_r = phi_pRb/phi_E2F1;
00169 mphi_i = phi_CycDi/phi_E2F1;
00170 mphi_j = phi_CycDa/phi_E2F1;
00171 mphi_p = phi_pRbp/phi_E2F1;
00172 ma2d = a2/phi_E2F1;
00173 ma3d = a3*APC_Total/phi_E2F1;
00174 ma4d = a4*WntMax/phi_E2F1;
00175 ma5d = a5/phi_E2F1;
00176 mk16d = k16*Km4/phi_E2F1;
00177 mk61d = k61/phi_E2F1;
00178 mPhiE2F1 = phi_E2F1;
00179 }
00180
00181 void WntCellCycleOdeSystem::EvaluateYDerivatives(double time, const std::vector<double>& rY, std::vector<double>& rDY)
00182 {
00183 double r = rY[0];
00184 double e = rY[1];
00185 double i = rY[2];
00186 double j = rY[3];
00187 double p = rY[4];
00188 double c = rY[5];
00189 double b1 = rY[6];
00190 double b2 = rY[7];
00191 double wnt_level = rY[8];
00192
00193 double dx1 = 0.0;
00194 double dx2 = 0.0;
00195 double dx3 = 0.0;
00196 double dx4 = 0.0;
00197 double dx5 = 0.0;
00198 double dx6 = 0.0;
00199 double dx7 = 0.0;
00200 double dx8 = 0.0;
00201
00202
00203
00204
00205
00206
00207
00208
00209
00210
00211
00212
00213
00214
00215
00216 if (!mpMutationState)
00217 {
00218
00219 }
00220 else if (mpMutationState->IsType<ApcOneHitCellMutationState>())
00221 {
00222 dx6 = ma5d*(1.0-c) - ma4d*wnt_level*c;
00223 dx7 = ma2d*(0.5-b1) - 0.5*ma3d*b1*c;
00224 dx8 = ma2d*(0.5-b2) - 0.5*ma3d*b2*c;
00225 }
00226 else if (mpMutationState->IsType<ApcTwoHitCellMutationState>())
00227 {
00228 dx6 = 0.0;
00229 dx7 = ma2d*(0.5-b1);
00230 dx8 = ma2d*(0.5-b2);
00231 }
00232 else if (mpMutationState->IsType<BetaCateninOneHitCellMutationState>())
00233 {
00234 dx6 = ma5d*(1.0-c) - ma4d*wnt_level*c;
00235 dx7 = ma2d*(0.5-b1) - ma3d*b1*c;
00236 dx8 = ma2d*(0.5-b2);
00237 }
00238 else
00239 {
00240
00241 dx6 = ma5d*(1.0-c) - ma4d*wnt_level*c;
00242
00243 dx7 = ma2d*(0.5-b1) - ma3d*b1*c;
00244 dx8 = ma2d*(0.5-b2) - ma3d*b2*c;
00245 }
00246
00247
00248
00249
00250 dx1 = e/(mKm1d+e)*mJ11d/(mJ11d+r)*mJ61d/(mJ61d+p) - mk16d*r*j+mk61d*p-mphi_r*r;
00251
00252 dx2 = mkpd+mk2d*(mad*mad+e*e)/(1+e*e)*mJ12d/(mJ12d+r)*mJ62d/(mJ62d+p) - e;
00253
00254 dx3 = mk3d*(b1+b2) + mk23d*e*mJ13d/(mJ13d+r)*mJ63d/(mJ63d+p) + mk43d*j - mk34d*i*j/(1+j) - mphi_i*i;
00255
00256 dx4 = mk34d*i*j/(1+j) - (mk43d+mphi_j)*j;
00257
00258 dx5 = mk16d*r*j - mk61d*p - mphi_p*p;
00259
00260 double factor = mPhiE2F1*60.0;
00261
00262 rDY[0] = dx1*factor;
00263 rDY[1] = dx2*factor;
00264 rDY[2] = dx3*factor;
00265 rDY[3] = dx4*factor;
00266 rDY[4] = dx5*factor;
00267 rDY[5] = dx6*factor;
00268 rDY[6] = dx7*factor;
00269 rDY[7] = dx8*factor;
00270 rDY[8] = 0.0;
00271 }
00272
00273 const boost::shared_ptr<AbstractCellMutationState> WntCellCycleOdeSystem::GetMutationState() const
00274 {
00275 return mpMutationState;
00276 }
00277
00278 bool WntCellCycleOdeSystem::CalculateStoppingEvent(double time, const std::vector<double>& rY)
00279 {
00280 double r = rY[0];
00281 double e = rY[1];
00282 double p = rY[4];
00283 double dY1 = mkpd+mk2d*(mad*mad+e*e)/(1+e*e)*mJ12d/(mJ12d+r)*mJ62d/(mJ62d+p) - e;
00284 double factor = mPhiE2F1*60.0;
00285 dY1 = dY1*factor;
00286
00287 assert(!std::isnan(rY[1]));
00288 assert(!std::isnan(dY1));
00289 return (rY[1] > 1.0 && dY1 > 0.0);
00290 }
00291
00292 double WntCellCycleOdeSystem::CalculateRootFunction(double time, const std::vector<double>& rY)
00293 {
00294 return rY[1] - 1.0;
00295 }
00296
00297 template<>
00298 void CellwiseOdeSystemInformation<WntCellCycleOdeSystem>::Initialise()
00299 {
00300 this->mVariableNames.push_back("pRb");
00301 this->mVariableUnits.push_back("non_dim");
00302 this->mInitialConditions.push_back(7.357000000000000e-01);
00303
00304 this->mVariableNames.push_back("E2F1");
00305 this->mVariableUnits.push_back("non_dim");
00306 this->mInitialConditions.push_back(1.713000000000000e-01);
00307
00308 this->mVariableNames.push_back("CycD_i");
00309 this->mVariableUnits.push_back("non_dim");
00310 this->mInitialConditions.push_back(6.900000000000001e-02);
00311
00312 this->mVariableNames.push_back("CycD_a");
00313 this->mVariableUnits.push_back("non_dim");
00314 this->mInitialConditions.push_back(3.333333333333334e-03);
00315
00316 this->mVariableNames.push_back("pRb_p");
00317 this->mVariableUnits.push_back("non_dim");
00318 this->mInitialConditions.push_back(1.000000000000000e-04);
00319
00320 this->mVariableNames.push_back("APC");
00321 this->mVariableUnits.push_back("non_dim");
00322 this->mInitialConditions.push_back(NAN);
00323
00324 this->mVariableNames.push_back("Beta_Cat1");
00325 this->mVariableUnits.push_back("non_dim");
00326 this->mInitialConditions.push_back(NAN);
00327
00328 this->mVariableNames.push_back("Beta_Cat2");
00329 this->mVariableUnits.push_back("non_dim");
00330 this->mInitialConditions.push_back(NAN);
00331
00332 this->mVariableNames.push_back("Wnt");
00333 this->mVariableUnits.push_back("non_dim");
00334 this->mInitialConditions.push_back(NAN);
00335
00336 this->mInitialised = true;
00337 }
00338
00339 double WntCellCycleOdeSystem::GetWntLevel() const
00340 {
00341 return mWntLevel;
00342 }
00343
00344
00345 #include "SerializationExportWrapperForCpp.hpp"
00346 CHASTE_CLASS_EXPORT(WntCellCycleOdeSystem)