/* * This code is generated by BioUML FrameWork * for BIOMD0000000087.xml diagram at 2008.03.20 15:08:08 */ import biouml.plugins.simulation.ae.NewtonSolver; import biouml.plugins.simulation.java.JavaBaseModel; import ru.biosoft.math.MathRoutines; public class BIOMD0000000087 extends JavaBaseModel { /* * Write rules to calculate equation parameters */ /* * Write rules to calculate equation parameters excluding internal variables. */ public void __internalRateVarInitFunc_0(double time, double[] x) { rate_Capping = Capping_k1*x[3]*x[51]*kalive; rate_Chk1Activation = x[5]*Chk1Activation_k12*x[42]*kalive; rate_Chk1cellArrest = x[4]*x[23]*Chk1cellArrest_k15*kalive; rate_Dun1activation = x[8]*Dun1activation_k14*x[40]*kalive; rate_Dun1cellArrest = x[7]*x[23]*Dun1cellArrest_k16*kalive; rate_Exo1Rad17dependentActivity = Exo1Rad17dependentActivity_k7b*x[38]*x[9]*kalive; rate_Exo1Rad17independentActivity = Exo1Rad17independentActivity_k7a*x[51]*x[9]*kalive; rate_Exo1Rad24dependentActivation = Exo1Rad24dependentActivation_k6b*x[10]*x[39]*kalive; rate_Exo1activation = Exo1activation_k6a*x[10]*kalive; rate_Exo1inhibition = x[9]*Exo1inhibition_k13*x[40]*kalive; rate_ExoXactivation = ExoXactivation_k4*x[12]*x[38]*kalive; rate_ExoXactivity = ExoXactivity_k5*x[11]*x[38]*kalive; rate_ExoXinhibition = x[11]*ExoXinhibition_k10a*x[42]*kalive; rate_ExoXinhibition2 = x[11]*ExoXinhibition2_k10b*x[43]*kalive; rate_G1cyclinDegradation = x[18]*G1cyclinDegradation_kc3*kalive; rate_G1cyclinSynthesis = x[13]*G1cyclinSynthesis_kc1*kalive; rate_G1toSGenesOn = x[13]*x[14]*x[16]*G1toSGenesOn_kc2*kalive; rate_G1toSProgession = x[13]*x[14]*x[17]*G1toSProgession_kc4*kalive; rate_G2DNArepair1 = x[19]*x[22]*G2DNArepair1_k17b*x[32]*kalive; rate_G2DNArepair2 = x[19]*x[22]*G2DNArepair2_k18b*x[53]*kalive; rate_G2cyclinDegradation = x[24]*G2cyclinDegradation_kc3*kalive; rate_G2cyclinSynthesis = x[19]*G2cyclinSynthesis_kc1*kalive; rate_G2toMGenesOn = x[19]*x[20]*x[22]*G2toMGenesOn_kc2*kalive; rate_G2toMProgession = x[19]*x[20]*x[23]*G2toMProgession_kc4*kalive; rate_McyclinDegradation = McyclinDegradation_kc3*x[30]*kalive; rate_McyclinSynthesis = McyclinSynthesis_kc1*x[25]*kalive; rate_Mec1binding = Mec1binding_k8d*x[34]*x[31]*kalive; rate_MtoG1GenesOn = MtoG1GenesOn_kc2*x[25]*x[26]*x[28]*kalive; rate_MtoG1Progession = MtoG1Progession_kc4*x[25]*x[26]*x[29]*kalive; rate_RPAbinding = RPAbinding_k8c*x[36]*x[53]*kalive; rate_RPAbinding1 = RPAbinding1_k8a*x[33]*x[53]*kalive; rate_RPAbinding2 = RPAbinding2_k8b*x[35]*x[53]*kalive; rate_Rad17binding = Rad17binding_k3*x[51]*x[37]*x[39]*x[2]*kalive/(5000 + x[2]); rate_Rad53activation = Rad53activation_k11*x[41]*x[42]*kalive; rate_Rad9activation = Rad9activation_k9*x[44]*x[43]*kalive; rate_Recovery = x[3]*Recovery_k19*x[38]*x[52]*kalive; rate_SDNArepair1 = SDNArepair1_k17a*x[32]*x[45]*kalive; rate_SDNArepair2 = SDNArepair2_k18a*x[45]*x[53]*kalive; rate_ScyclinDegradation = ScyclinDegradation_kc3*x[50]*kalive; rate_ScyclinSynthesis = ScyclinSynthesis_kc1*x[45]*kalive; } public void __internalRateVarInitFunc_1(double time, double[] x) { rate_StoG2GenesOn = StoG2GenesOn_kc2*x[45]*x[46]*x[48]*kalive; rate_StoG2Progession = StoG2Progession_kc4*x[45]*x[46]*x[49]*kalive; rate_Uncapping = Uncapping_k2*x[6]*kalive; } public void Init() { initialValues = getInitialValues(); /* * Initialize variables */ Capping_k1 = 5.0E-4; // initial value of Capping_k1 Chk1Activation_k12 = 1.7E-4; // initial value of Chk1Activation_k12 Chk1cellArrest_k15 = 0.2; // initial value of Chk1cellArrest_k15 Dun1activation_k14 = 3.3E-6; // initial value of Dun1activation_k14 Dun1cellArrest_k16 = 0.1; // initial value of Dun1cellArrest_k16 Exo1Rad17dependentActivity_k7b = 3.0E-5; // initial value of Exo1Rad17dependentActivity_k7b Exo1Rad17independentActivity_k7a = 3.0E-5; // initial value of Exo1Rad17independentActivity_k7a Exo1Rad24dependentActivation_k6b = 5.0E-4; // initial value of Exo1Rad24dependentActivation_k6b Exo1activation_k6a = 5.0E-5; // initial value of Exo1activation_k6a Exo1inhibition_k13 = 1.0; // initial value of Exo1inhibition_k13 ExoXactivation_k4 = 0.01; // initial value of ExoXactivation_k4 ExoXactivity_k5 = 3.0E-4; // initial value of ExoXactivity_k5 ExoXinhibition2_k10b = 0.05; // initial value of ExoXinhibition2_k10b ExoXinhibition_k10a = 0.05; // initial value of ExoXinhibition_k10a G1cyclinDegradation_kc3 = 0.0012; // initial value of G1cyclinDegradation_kc3 G1cyclinSynthesis_kc1 = 0.16; // initial value of G1cyclinSynthesis_kc1 G1toSGenesOn_kc2 = 0.01; // initial value of G1toSGenesOn_kc2 G1toSProgession_kc4 = 0.01; // initial value of G1toSProgession_kc4 G2DNArepair1_k17b = 0.05; // initial value of G2DNArepair1_k17b G2DNArepair2_k18b = 1.0E-5; // initial value of G2DNArepair2_k18b G2cyclinDegradation_kc3 = 0.0012; // initial value of G2cyclinDegradation_kc3 G2cyclinSynthesis_kc1 = 0.16; // initial value of G2cyclinSynthesis_kc1 G2toMGenesOn_kc2 = 0.01; // initial value of G2toMGenesOn_kc2 G2toMProgession_kc4 = 0.01; // initial value of G2toMProgession_kc4 McyclinDegradation_kc3 = 0.0012; // initial value of McyclinDegradation_kc3 McyclinSynthesis_kc1 = 0.16; // initial value of McyclinSynthesis_kc1 Mec1binding_k8d = 0.0040; // initial value of Mec1binding_k8d MtoG1GenesOn_kc2 = 0.01; // initial value of MtoG1GenesOn_kc2 MtoG1Progession_kc4 = 0.01; // initial value of MtoG1Progession_kc4 RPAbinding1_k8a = 0.0010; // initial value of RPAbinding1_k8a RPAbinding2_k8b = 100.0; // initial value of RPAbinding2_k8b RPAbinding_k8c = 100.0; // initial value of RPAbinding_k8c Rad17binding_k3 = 1.5E-8; // initial value of Rad17binding_k3 Rad53activation_k11 = 1.0E-5; // initial value of Rad53activation_k11 Rad9activation_k9 = 100.0; // initial value of Rad9activation_k9 Recovery_k19 = 0.0010; // initial value of Recovery_k19 SDNArepair1_k17a = 0.05; // initial value of SDNArepair1_k17a SDNArepair2_k18a = 0.0010; // initial value of SDNArepair2_k18a ScyclinDegradation_kc3 = 0.0012; // initial value of ScyclinDegradation_kc3 ScyclinSynthesis_kc1 = 0.16; // initial value of ScyclinSynthesis_kc1 StoG2GenesOn_kc2 = 0.01; // initial value of StoG2GenesOn_kc2 StoG2Progession_kc4 = 0.01; // initial value of StoG2Progession_kc4 Uncapping_k2 = 3.85E-4; // initial value of Uncapping_k2 kalive = 1.0; // initial value of kalive } /* * Model variables initial values */ protected double _cellMembrane_nucleus_sink_; protected double rate_Capping; protected double rate_Chk1Activation; protected double rate_Chk1cellArrest; protected double rate_Dun1activation; protected double rate_Dun1cellArrest; protected double rate_Exo1Rad17dependentActivity; protected double rate_Exo1Rad17independentActivity; protected double rate_Exo1Rad24dependentActivation; protected double rate_Exo1activation; protected double rate_Exo1inhibition; protected double rate_ExoXactivation; protected double rate_ExoXactivity; protected double rate_ExoXinhibition; protected double rate_ExoXinhibition2; protected double rate_G1cyclinDegradation; protected double rate_G1cyclinSynthesis; protected double rate_G1toSGenesOn; protected double rate_G1toSProgession; protected double rate_G2DNArepair1; protected double rate_G2DNArepair2; protected double rate_G2cyclinDegradation; protected double rate_G2cyclinSynthesis; protected double rate_G2toMGenesOn; protected double rate_G2toMProgession; protected double rate_McyclinDegradation; protected double rate_McyclinSynthesis; protected double rate_Mec1binding; protected double rate_MtoG1GenesOn; protected double rate_MtoG1Progession; protected double rate_RPAbinding; protected double rate_RPAbinding1; protected double rate_RPAbinding2; protected double rate_Rad17binding; protected double rate_Rad53activation; protected double rate_Rad9activation; protected double rate_Recovery; protected double rate_SDNArepair1; protected double rate_SDNArepair2; protected double rate_ScyclinDegradation; protected double rate_ScyclinSynthesis; protected double rate_StoG2GenesOn; protected double rate_StoG2Progession; protected double rate_Uncapping; protected double Capping_k1; protected double Chk1Activation_k12; protected double Chk1cellArrest_k15; protected double Dun1activation_k14; protected double Dun1cellArrest_k16; protected double Exo1Rad17dependentActivity_k7b; protected double Exo1Rad17independentActivity_k7a; protected double Exo1Rad24dependentActivation_k6b; protected double Exo1activation_k6a; protected double Exo1inhibition_k13; protected double ExoXactivation_k4; protected double ExoXactivity_k5; protected double ExoXinhibition2_k10b; protected double ExoXinhibition_k10a; protected double G1cyclinDegradation_kc3; protected double G1cyclinSynthesis_kc1; protected double G1toSGenesOn_kc2; protected double G1toSProgession_kc4; protected double G2DNArepair1_k17b; protected double G2DNArepair2_k18b; protected double G2cyclinDegradation_kc3; protected double G2cyclinSynthesis_kc1; protected double G2toMGenesOn_kc2; protected double G2toMProgession_kc4; protected double McyclinDegradation_kc3; protected double McyclinSynthesis_kc1; protected double Mec1binding_k8d; protected double MtoG1GenesOn_kc2; protected double MtoG1Progession_kc4; protected double RPAbinding1_k8a; protected double RPAbinding2_k8b; protected double RPAbinding_k8c; protected double Rad17binding_k3; protected double Rad53activation_k11; protected double Rad9activation_k9; protected double Recovery_k19; protected double SDNArepair1_k17a; protected double SDNArepair2_k18a; protected double ScyclinDegradation_kc3; protected double ScyclinSynthesis_kc1; protected double StoG2GenesOn_kc2; protected double StoG2Progession_kc4; protected double Uncapping_k2; protected double kalive; public double[] extendResult(double time,double [] x) { this.time = time; double[] y = new double[55]; y[0] = x[0]; y[1] = x[1]; y[2] = x[2]; y[3] = x[3]; y[4] = x[4]; y[5] = x[5]; y[6] = x[6]; y[7] = x[7]; y[8] = x[8]; y[9] = x[9]; y[10] = x[10]; y[11] = x[11]; y[12] = x[12]; y[13] = x[13]; y[14] = x[14]; y[15] = x[15]; y[16] = x[16]; y[17] = x[17]; y[18] = x[18]; y[19] = x[19]; y[20] = x[20]; y[21] = x[21]; y[22] = x[22]; y[23] = x[23]; y[24] = x[24]; y[25] = x[25]; y[26] = x[26]; y[27] = x[27]; y[28] = x[28]; y[29] = x[29]; y[30] = x[30]; y[31] = x[31]; y[32] = x[32]; y[33] = x[33]; y[34] = x[34]; y[35] = x[35]; y[36] = x[36]; y[37] = x[37]; y[38] = x[38]; y[39] = x[39]; y[40] = x[40]; y[41] = x[41]; y[42] = x[42]; y[43] = x[43]; y[44] = x[44]; y[45] = x[45]; y[46] = x[46]; y[47] = x[47]; y[48] = x[48]; y[49] = x[49]; y[50] = x[50]; y[51] = x[51]; y[52] = x[52]; y[53] = x[53]; y[54] = kalive; return y; } public double[] getInitialValues() { double [] x = new double[54]; this.time = 0.0; x[0] = 0.0; // - $"cellMembrane.budscar" x[1] = 1000.0; // - $"cellMembrane.nucleus.ADP" x[2] = 10000.0; // - $"cellMembrane.nucleus.ATP" x[3] = 300.0; // - $"cellMembrane.nucleus.Cdc13" x[4] = 0.0; // - $"cellMembrane.nucleus.Chk1A" x[5] = 60.0; // - $"cellMembrane.nucleus.Chk1I" x[6] = 64.0; // - $"cellMembrane.nucleus.Ctelo" x[7] = 0.0; // - $"cellMembrane.nucleus.Dun1A" x[8] = 3000.0; // - $"cellMembrane.nucleus.Dun1I" x[9] = 0.0; // - $"cellMembrane.nucleus.Exo1A" x[10] = 670.0; // - $"cellMembrane.nucleus.Exo1I" x[11] = 0.0; // - $"cellMembrane.nucleus.ExoXA" x[12] = 70.0; // - $"cellMembrane.nucleus.ExoXI" x[13] = 1.0; // - $"cellMembrane.nucleus.G1" x[14] = 0.0; // - $"cellMembrane.nucleus.G1CdkA" x[15] = 1.0; // - $"cellMembrane.nucleus.G1CdkI" x[16] = 1.0; // - $"cellMembrane.nucleus.G1Soff" x[17] = 0.0; // - $"cellMembrane.nucleus.G1Son" x[18] = 0.0; // - $"cellMembrane.nucleus.G1cyclin" x[19] = 0.0; // - $"cellMembrane.nucleus.G2" x[20] = 0.0; // - $"cellMembrane.nucleus.G2CdkA" x[21] = 1.0; // - $"cellMembrane.nucleus.G2CdkI" x[22] = 1.0; // - $"cellMembrane.nucleus.G2Moff" x[23] = 0.0; // - $"cellMembrane.nucleus.G2Mon" x[24] = 0.0; // - $"cellMembrane.nucleus.G2cyclin" x[25] = 0.0; // - $"cellMembrane.nucleus.M" x[26] = 0.0; // - $"cellMembrane.nucleus.MCdkA" x[27] = 1.0; // - $"cellMembrane.nucleus.MCdkI" x[28] = 1.0; // - $"cellMembrane.nucleus.MG1off" x[29] = 0.0; // - $"cellMembrane.nucleus.MG1on" x[30] = 0.0; // - $"cellMembrane.nucleus.Mcyclin" x[31] = 4000.0; // - $"cellMembrane.nucleus.Mec1" x[32] = 0.0; // - $"cellMembrane.nucleus.Mec1RPAssDNA" x[33] = 4000.0; // - $"cellMembrane.nucleus.RPA" x[34] = 0.0; // - $"cellMembrane.nucleus.RPAssDNA" x[35] = 0.0; // - $"cellMembrane.nucleus.RPAssDNA1" x[36] = 0.0; // - $"cellMembrane.nucleus.RPAssDNA2" x[37] = 70.0; // - $"cellMembrane.nucleus.Rad17" x[38] = 0.0; // - $"cellMembrane.nucleus.Rad17Utelo" x[39] = 70.0; // - $"cellMembrane.nucleus.Rad24" x[40] = 0.0; // - $"cellMembrane.nucleus.Rad53A" x[41] = 6900.0; // - $"cellMembrane.nucleus.Rad53I" x[42] = 0.0; // - $"cellMembrane.nucleus.Rad9A" x[43] = 20.0; // - $"cellMembrane.nucleus.Rad9I" x[44] = 0.0; // - $"cellMembrane.nucleus.Rad9Kin" x[45] = 0.0; // - $"cellMembrane.nucleus.S" x[46] = 0.0; // - $"cellMembrane.nucleus.SCdkA" x[47] = 1.0; // - $"cellMembrane.nucleus.SCdkI" x[48] = 1.0; // - $"cellMembrane.nucleus.SG2off" x[49] = 0.0; // - $"cellMembrane.nucleus.SG2on" x[50] = 0.0; // - $"cellMembrane.nucleus.Scyclin" x[51] = 0.0; // - $"cellMembrane.nucleus.Utelo" x[52] = 0.0; // - $"cellMembrane.nucleus.recovery" x[53] = 0.0; // - $"cellMembrane.nucleus.ssDNA" __internalRateVarInitFunc_0(time, x); __internalRateVarInitFunc_1(time, x); return x; } /* * code for algebraic rules calculations */ /* * end of code for algebraic rules calculations */ protected void calculateRates(double time, double[] x) { __internalRateVarInitFunc_0(time, x); __internalRateVarInitFunc_1(time, x); } /* * calculate dy/dt for 'BIOMD0000000087.xml' model */ public void __internalDyDt_0(double time, double [] x, double[] result) { result[0] = +rate_MtoG1Progession; result[1] = +rate_Rad17binding; result[2] = -rate_Rad17binding; result[3] = -rate_Capping-rate_Recovery+rate_Uncapping; result[4] = +rate_Chk1Activation+rate_Chk1cellArrest-rate_Chk1cellArrest; result[5] = -rate_Chk1Activation; result[6] = +rate_Capping+rate_Recovery-rate_Uncapping; result[7] = +rate_Dun1activation+rate_Dun1cellArrest-rate_Dun1cellArrest; result[8] = -rate_Dun1activation; result[9] = +rate_Exo1Rad17dependentActivity-rate_Exo1Rad17dependentActivity+rate_Exo1Rad17independentActivity-rate_Exo1Rad17independentActivity+rate_Exo1Rad24dependentActivation+rate_Exo1activation-rate_Exo1inhibition; result[10] = -rate_Exo1Rad24dependentActivation-rate_Exo1activation+rate_Exo1inhibition; result[11] = +rate_ExoXactivation+rate_ExoXactivity-rate_ExoXactivity-rate_ExoXinhibition2-rate_ExoXinhibition; result[12] = -rate_ExoXactivation+rate_ExoXinhibition2+rate_ExoXinhibition; result[13] = +rate_G1cyclinSynthesis-rate_G1cyclinSynthesis+rate_G1toSGenesOn-rate_G1toSGenesOn-rate_G1toSProgession+rate_MtoG1Progession; result[14] = +rate_G1toSGenesOn-rate_G1toSGenesOn-rate_G1toSProgession; result[15] = +rate_G1toSProgession; result[16] = -rate_G1toSGenesOn+rate_G1toSProgession; result[17] = +rate_G1toSGenesOn-rate_G1toSProgession; result[18] = -rate_G1cyclinDegradation+rate_G1cyclinSynthesis; result[19] = +rate_G2DNArepair1-rate_G2DNArepair1+rate_G2DNArepair2-rate_G2DNArepair2+rate_G2cyclinSynthesis-rate_G2cyclinSynthesis+rate_G2toMGenesOn-rate_G2toMGenesOn-rate_G2toMProgession+rate_StoG2Progession; result[20] = +rate_G2toMGenesOn-rate_G2toMGenesOn-rate_G2toMProgession; result[21] = +rate_G2toMProgession; result[22] = +rate_Chk1cellArrest+rate_Dun1cellArrest+rate_G2DNArepair1-rate_G2DNArepair1+rate_G2DNArepair2-rate_G2DNArepair2-rate_G2toMGenesOn+rate_G2toMProgession; result[23] = -rate_Chk1cellArrest-rate_Dun1cellArrest+rate_G2toMGenesOn-rate_G2toMProgession; result[24] = -rate_G2cyclinDegradation+rate_G2cyclinSynthesis; result[25] = +rate_G2toMProgession+rate_McyclinSynthesis-rate_McyclinSynthesis+rate_MtoG1GenesOn-rate_MtoG1GenesOn-rate_MtoG1Progession; result[26] = +rate_MtoG1GenesOn-rate_MtoG1GenesOn-rate_MtoG1Progession; result[27] = +rate_MtoG1Progession; result[28] = -rate_MtoG1GenesOn+rate_MtoG1Progession; result[29] = +rate_MtoG1GenesOn-rate_MtoG1Progession; result[30] = -rate_McyclinDegradation+rate_McyclinSynthesis; result[31] = +rate_G2DNArepair1-rate_Mec1binding+rate_SDNArepair1; result[32] = -rate_G2DNArepair1+rate_Mec1binding-rate_SDNArepair1; result[33] = +rate_G2DNArepair1-rate_RPAbinding1+rate_SDNArepair1; result[34] = -rate_Mec1binding+rate_RPAbinding; result[35] = +rate_RPAbinding1-rate_RPAbinding2; result[36] = +rate_RPAbinding2-rate_RPAbinding; result[37] = -rate_Rad17binding+rate_Recovery; result[38] = +rate_Exo1Rad17dependentActivity-rate_Exo1Rad17dependentActivity+rate_ExoXactivation-rate_ExoXactivation+rate_ExoXactivity-rate_ExoXactivity+rate_Rad17binding-rate_Recovery; result[39] = +rate_Exo1Rad24dependentActivation-rate_Exo1Rad24dependentActivation+rate_Rad17binding-rate_Rad17binding; result[40] = +rate_Dun1activation-rate_Dun1activation+rate_Exo1inhibition-rate_Exo1inhibition+rate_Rad53activation; result[41] = -rate_Rad53activation; result[42] = +rate_Chk1Activation-rate_Chk1Activation+rate_ExoXinhibition-rate_ExoXinhibition+rate_Rad53activation-rate_Rad53activation+rate_Rad9activation; result[43] = +rate_ExoXinhibition2-rate_ExoXinhibition2-rate_Rad9activation; result[44] = +rate_Rad9activation-rate_Rad9activation; result[45] = +rate_G1toSProgession+rate_SDNArepair1-rate_SDNArepair1+rate_SDNArepair2-rate_SDNArepair2+rate_ScyclinSynthesis-rate_ScyclinSynthesis+rate_StoG2GenesOn-rate_StoG2GenesOn-rate_StoG2Progession; result[46] = +rate_StoG2GenesOn-rate_StoG2GenesOn-rate_StoG2Progession; result[47] = +rate_StoG2Progession; result[48] = -rate_StoG2GenesOn+rate_StoG2Progession; result[49] = +rate_StoG2GenesOn-rate_StoG2Progession; result[50] = -rate_ScyclinDegradation+rate_ScyclinSynthesis; result[51] = -rate_Capping+rate_Exo1Rad17independentActivity-rate_Exo1Rad17independentActivity-rate_Rad17binding+rate_Uncapping; result[52] = +rate_Recovery-rate_Recovery; result[53] = +rate_Exo1Rad17dependentActivity+rate_Exo1Rad17independentActivity+rate_ExoXactivity+rate_G2DNArepair1*3-rate_G2DNArepair2-rate_RPAbinding1-rate_RPAbinding2-rate_RPAbinding+rate_SDNArepair1*3-rate_SDNArepair2; } protected double [] calculateResult(double time, double[] x) { double[] result = new double[54]; __internalDyDt_0(time, x, result); return result; } public double[] dy_dt(double time, double[] x) { this.time = time; calculateRates( time,x ); return calculateResult( time,x ); } public double[] checkEvent(double time, double[] x) { this.time = time; __internalRateVarInitFunc_0(time, x); __internalRateVarInitFunc_1(time, x); double [] flags = new double[9]; flags[0] = (x[32] + x[34] + x[53] >= 2000) ? +1 : -1; //CellDeath flags[1] = (x[18] > 100) ? +1 : -1; //G1CdkActivation flags[2] = (x[24] > 100) ? +1 : -1; //G2CdkActivation flags[3] = (x[19] == 1 && x[38] == 0) ? +1 : -1; //G2MRecoveryCompleted flags[4] = (x[30] > 100) ? +1 : -1; //MCdkActivation flags[5] = (x[32] >= 800) ? +1 : -1; //Rad9KinaseActivation flags[6] = (x[50] > 100) ? +1 : -1; //SCdkActivation flags[7] = (x[38] == 0) ? +1 : -1; //SphaseRecoveryCompleted flags[8] = (x[32] + x[34] + x[53] <= 1) ? +1 : -1; //ssDNAremoval return flags; } public void processEvent(int __internalVar12060040885150, double time, double[] x) { this.time = time; if ( __internalVar12060040885150 == 0) //CellDeath { kalive = 0; } else if ( __internalVar12060040885150 == 1) //G1CdkActivation { x[14] = 1; x[15] = 0; } else if ( __internalVar12060040885150 == 2) //G2CdkActivation { x[20] = 1; x[21] = 0; } else if ( __internalVar12060040885150 == 3) //G2MRecoveryCompleted { x[23] = 1; x[22] = 0; x[52] = 0; x[42] = 0; x[43] = 20; x[4] = 0; x[5] = 60; x[7] = 0; x[8] = 3000; x[9] = 0; x[10] = 670; x[11] = 0; x[12] = 70; x[41] = 6900; x[40] = 0; } else if ( __internalVar12060040885150 == 4) //MCdkActivation { x[26] = 1; x[27] = 0; } else if ( __internalVar12060040885150 == 5) //Rad9KinaseActivation { x[44] = 1; } else if ( __internalVar12060040885150 == 6) //SCdkActivation { x[46] = 1; x[47] = 0; } else if ( __internalVar12060040885150 == 7) //SphaseRecoveryCompleted { x[52] = 0; } else if ( __internalVar12060040885150 == 8) //ssDNAremoval { x[52] = 1; x[32] = 0; x[34] = 0; x[53] = 0; } } } // class ...