// Created by libAntimony v2.13.0
function Rate_Law_for_reaction_CycDT_decay(kdcycd, CycDT)
  kdcycd*CycDT;
end

Rate_Law_for_reaction_CycDT_decay is "Rate Law for reaction CycDT decay"

function Rate_Law_for_reaction_E2FT_decay(kde2f, kde2fa, CycA, E2FT)
  (kde2f + kde2fa*CycA)*E2FT;
end

Rate_Law_for_reaction_E2FT_decay is "Rate Law for reaction E2FT decay"

function Rate_Law_for_reaction_Comp2_decay(kdise2f, comp2, kdprbp, JdpRb, kprbp, CycE, CycA, JpRbp, kde2f, kde2fa)
  kdise2f*comp2 + kdprbp*(comp2/(JdpRb + comp2)) + kprbp*(CycE + CycA)*(comp2/(JpRbp + comp2)) + (kde2f + kde2fa*CycA)*comp2;
end

Rate_Law_for_reaction_Comp2_decay is "Rate Law for reaction Comp2 decay"

function Rate_Law_for_reaction_CycET_decay(kdcyce, kdcycea, CycA, CycET)
  (kdcyce + kdcycea*CycA)*CycET;
end

Rate_Law_for_reaction_CycET_decay is "Rate Law for reaction CycET decay"

function Rate_Law_for_reaction_CycAT_decay(kdcyca, kdcycac, Cdh1, CycAT)
  (kdcyca + kdcycac*Cdh1)*CycAT;
end

Rate_Law_for_reaction_CycAT_decay is "Rate Law for reaction CycAT decay"

function Rate_Law_for_reaction_for_Myc_production(ksm, S)
  ksm*S;
end

Rate_Law_for_reaction_for_Myc_production is "Rate Law for reaction for Myc production"

function Rate_Law_for_reaction_for_CycET_production(kscyceb, kscycem, Myc, kscyce, E2F, khcyce)
  kscyceb + kscycem*Myc + kscyce*(E2F/(khcyce + E2F));
end

Rate_Law_for_reaction_for_CycET_production is "Rate Law for reaction for CycET production"

function Rate_Law_for_reaction_for_CycDT_production(kscycdm, Myc, kscycds, S)
  kscycdm*Myc + kscycds*S;
end

Rate_Law_for_reaction_for_CycDT_production is "Rate Law for reaction for CycDT production"

function Rate_Law_for_reaction_for_CycAT_production(kscyca, E2F, khcyca)
  kscyca*(E2F/(khcyca + E2F));
end

Rate_Law_for_reaction_for_CycAT_production is "Rate Law for reaction for CycAT production"

function Rate_Law_for_reaction_for_Myc_decay(kdm, myc)
  kdm*myc;
end

Rate_Law_for_reaction_for_Myc_decay is "Rate Law for reaction for Myc decay"

function Rate_Law_for_reaction_for_E2FT_production(kse2fb, kse2fm, Myc, kse2f, E2F, khe2f)
  kse2fb + kse2fm*Myc + kse2f*(E2F/(khe2f + E2F));
end

Rate_Law_for_reaction_for_E2FT_production is "Rate Law for reaction for E2FT production"

function Rate_Law_for_reaction_Comp1_production(kase2f, E2F, Rb, kdprbp, comp2, JdpRb)
  kase2f*E2F*Rb + kdprbp*(comp2/(JdpRb + comp2));
end

Rate_Law_for_reaction_Comp1_production is "Rate Law for reaction Comp1 production"

function Rate_Law_for_reaction_Comp1_decay(kdise2f, comp1, kprb, CycD, JpRb, kpprb, CycE, CycA, JpRbp, kde2f, kde2fa)
  kdise2f*comp1 + kprb*CycD*(comp1/(JpRb + comp1)) + kpprb*(CycE + CycA)*(comp1/(JpRbp + comp1)) + (kde2f + kde2fa*CycA)*comp1;
end

Rate_Law_for_reaction_Comp1_decay is "Rate Law for reaction Comp1 decay"

function Rate_Law_for_reaction_for_Comp2_production(kase2f, E2F, Rbp, kprb, CycD, comp1, JpRb)
  kase2f*E2F*Rbp + kprb*CycD*(comp1/(JpRb + comp1));
end

Rate_Law_for_reaction_for_Comp2_production is "Rate Law for reaction for Comp2 production"

function Rate_Law_for_reaction_for_CkiT_production(kscki)
  kscki;
end

Rate_Law_for_reaction_for_CkiT_production is "Rate Law for reaction for CkiT production"

function Rate_Law_for_reaction_for_EmiC_decay(kdiscdh1, kdemi, kdemi1c, Cdh1, EmiC)
  (kdiscdh1 + kdemi + kdemi1c*Cdh1)*EmiC;
end

Rate_Law_for_reaction_for_EmiC_decay is "Rate Law for reaction for EmiC decay"

function Rate_Law_for_reaction_for_UbI_decay(kdubl, kdublc, Cdh1, Ubl)
  (kdubl + kdublc*Cdh1)*Ubl;
end

Rate_Law_for_reaction_for_UbI_decay is "Rate Law for reaction for UbI decay"

function Rate_Law_for_reaction_for_CycACki_production(kascki, CycA, CkiT, CycECki, CycDCki, CycACki)
  kascki*CycA*(CkiT - CycECki - CycDCki - CycACki);
end

Rate_Law_for_reaction_for_CycACki_production is "Rate Law for reaction for CycACki production"

function Rate_Law_for_reaction_for_Rbpp_production(kprbp, CycE, CycA, Rbp, Jprbp, Comp2, kpprb, Rb, Jpprb, Comp1)
  kprbp*(CycE + CycA)*(Rbp/(Jprbp + Rbp)) + kprbp*(CycE + CycA)*(Comp2/(Jprbp + Comp2)) + kpprb*(CycE + CycA)*(Rb/(Jpprb + Rb)) + kpprb*(CycE + CycA)*(Comp1/(Jpprb + Comp1));
end

Rate_Law_for_reaction_for_Rbpp_production is "Rate Law for reaction for Rbpp production"

function Rate_Law_for_reaction_for_Rbpp_decay(kdprbpp, Rbpp, Jdprb)
  kdprbpp*(Rbpp/(Jdprb + Rbpp));
end

Rate_Law_for_reaction_for_Rbpp_decay is "Rate Law for reaction for Rbpp decay"

function Rate_Law_for_reaction_for_CycACki_decay(kdiscki, kdcyca, kdcycac, Cdh1, kdcki, kdckic, CycE, CycA, UbI, CycACki)
  (kdiscki + kdcyca + kdcycac*Cdh1 + kdcki + kdckic*(CycE + CycA)*UbI)*CycACki;
end

Rate_Law_for_reaction_for_CycACki_decay is "Rate Law for reaction for CycACki decay"

function Rate_Law_for_reaction_for_Cdh1dp_production(kacdh1, Cdh1T, Cdh1dp, Jdpcdh1)
  kacdh1*((Cdh1T - Cdh1dp)/(Jdpcdh1 + (Cdh1T - Cdh1dp)));
end

Rate_Law_for_reaction_for_Cdh1dp_production is "Rate Law for reaction for Cdh1dp production"

function Rate_Law_for_reaction_for_Cdh1dp_decay(kicdh1e, CycE, kicdh1a, CycA, Cdh1dp, Jpcdh1)
  (kicdh1e*CycE + kicdh1a*CycA)*(Cdh1dp/(Jpcdh1 + Cdh1dp));
end

Rate_Law_for_reaction_for_Cdh1dp_decay is "Rate Law for reaction for Cdh1dp decay"

function Rate_Law_for_reaction_for_Emi1T_production(ksemi1, E2F, khemi1)
  ksemi1*(E2F/(khemi1 + E2F));
end

Rate_Law_for_reaction_for_Emi1T_production is "Rate Law for reaction for Emi1T production"

function Rate_Law_for_reactionfor_Rbp_production(kprb, CycD, Rb, JpRb, kdise2f, comp2, kde2f, kde2fa, CycA)
  kprb*CycD*(Rb/(JpRb + Rb)) + kdise2f*comp2 + (kde2f + kde2fa*CycA)*comp2;
end

Rate_Law_for_reactionfor_Rbp_production is "Rate Law for reactionfor Rbp production"

function Rate_Law_for_reaction_for_Rbp_decay(kase2f, E2F, Rbp, kdprbp, JpRbp, kprbp, CycE, CycA, JpRb)
  kase2f*E2F*Rbp + kdprbp*(Rbp/(JpRb + Rbp)) + kprbp*(CycE + CycA)*(Rbp/(JpRbp + Rbp));
end

Rate_Law_for_reaction_for_Rbp_decay is "Rate Law for reaction for Rbp decay"

function Rate_Law_for_reaction_for_CycECki_decay(kdiscki, kdcyce, kcdycea, CycA, kdcki, kdckic, CycE, UbI, CycECki)
  (kdiscki + kdcyce + kcdycea*CycA + kdcki + kdckic*(CycE + CycA)*UbI)*CycECki;
end

Rate_Law_for_reaction_for_CycECki_decay is "Rate Law for reaction for CycECki decay"

function Rate_Law_for_reaction_for_Emi1T_decay(kdemi1, kdemi1c, Cdh1, Emi1T)
  (kdemi1 + kdemi1c*Cdh1)*Emi1T;
end

Rate_Law_for_reaction_for_Emi1T_decay is "Rate Law for reaction for Emi1T decay"

function Rate_Law_for_reaction_for_EmiC_production(Cdh1T, EmiC, kascdh1, Emi1T)
  kascdh1*(Cdh1T - EmiC)*(Emi1T - EmiC);
end

Rate_Law_for_reaction_for_EmiC_production is "Rate Law for reaction for EmiC production"

function Rate_Law_for_reaction_for_CycECki_production(kascki, CycD, CkiT, CycECki, CycDCki, CycACki)
  kascki*CycD*(CkiT - CycECki - CycDCki - CycACki);
end

Rate_Law_for_reaction_for_CycECki_production is "Rate Law for reaction for CycECki production"

function Rate_Law_for_reaction_for_CkiT_decay(kdcki, kdckic, CycE, CycA, Ubl, CkiT)
  (kdcki + kdckic*(CycE + CycA)*Ubl)*CkiT;
end

Rate_Law_for_reaction_for_CkiT_decay is "Rate Law for reaction for CkiT decay"

function Rate_Law_for_reaction_for_CycDCki_production(kascki, CycD, CkiT, CycECki, CycDCki, CycACki)
  kascki*CycD*(CkiT - CycECki - CycDCki - CycACki);
end

Rate_Law_for_reaction_for_CycDCki_production is "Rate Law for reaction for CycDCki production"

function Rate_Law_for_reaction_for_Cdh1_production(kacdh1, Cdh1T, EmiC, Cdh1, Jdpcdh1, Cdh1dp, kdiscdh1, kdemi, kdemi1c)
  kacdh1*((Cdh1T - EmiC - Cdh1)/(Jdpcdh1 + (Cdh1T - Cdh1dp))) + (kdiscdh1 + kdemi + kdemi1c*Cdh1)*(Cdh1dp - Cdh1);
end

Rate_Law_for_reaction_for_Cdh1_production is "Rate Law for reaction for Cdh1 production"

function Rate_Law_for_reaction_for_UbI_production(ksubl)
  ksubl;
end

Rate_Law_for_reaction_for_UbI_production is "Rate Law for reaction for UbI production"

function Rate_Law_for_reaction_for_CycDCki_decay(kdiscki, kdcycd, kdcki, kdckic, CycE, CycA, UbI, CycDCki)
  (kdiscki + kdcycd + kdcki + kdckic*(CycE + CycA)*UbI)*CycDCki;
end

Rate_Law_for_reaction_for_CycDCki_decay is "Rate Law for reaction for CycDCki decay"

function Rate_Law_for_reaction_for_Cdh1_decay(kicdh1e, CycE, kicdh1a, CycA, Cdh1, Jpcdh1, Cdh1dp, kascdh1, Emi1T, EmiC)
  (kicdh1e*CycE + kicdh1a*CycA)*(Cdh1/(Jpcdh1 + Cdh1dp)) + kascdh1*Cdh1*(Emi1T - EmiC);
end

Rate_Law_for_reaction_for_Cdh1_decay is "Rate Law for reaction for Cdh1 decay"


model *Pandey2018_reversible_transition_between_quiescence_and_proliferation()

  // Compartments and Species:
  compartment compartment_;
  species Myc in compartment_, CycDT in compartment_, CycET in compartment_;
  species CycAT in compartment_, E2FT in compartment_, Comp1 in compartment_;
  species Comp2 in compartment_, Rbp in compartment_, CkiT in compartment_;
  species CycECki in compartment_, CycDCki in compartment_, CycACki in compartment_;
  species Cdh1dp in compartment_, Emi1T in compartment_, EmiC in compartment_;
  species Cdh1 in compartment_, UbI in compartment_, $E2F in compartment_;
  species $Rb in compartment_, Rbpp in compartment_, $CycE in compartment_;
  species $CycD in compartment_, $CycA in compartment_, $Cdh1p in compartment_;
  species $Cdh1T in compartment_;

  // Assignment Rules:
  E2F := E2FT - Comp1 - Comp2;
  Rb := RbT - Rbp - Rbpp - Comp1 - Comp2;
  CycE := CycET - CycECki;
  CycD := CycDT - CycDCki;
  CycA := CycAT - CycACki;
  Cdh1p := Cdh1T - Cdh1 - EmiC;

  // Reactions:
  reaction_for_Myc_production:  => Myc; compartment_*Rate_Law_for_reaction_for_Myc_production(Ksm, S);
  reaction_for_Myc_decay: Myc => ; compartment_*Rate_Law_for_reaction_for_Myc_decay(Kdm, Myc);
  reaction_for_CycDT_production:  => CycDT; compartment_*Rate_Law_for_reaction_for_CycDT_production(Kscycdm, Myc, Kscycds, S);
  reaction_CycDT_decay: CycDT => ; compartment_*Rate_Law_for_reaction_CycDT_decay(Kdcycd, CycDT);
  reaction_for_CycET_production:  => CycET; compartment_*Rate_Law_for_reaction_for_CycET_production(Kscyceb, Kscycem, Myc, Kscyce, E2F, Khcyce);
  reaction_CycET_decay: CycET => ; compartment_*Rate_Law_for_reaction_CycET_decay(Kdcyce, Kdcycea, CycA, CycET);
  reaction_for_CycAT_production:  => CycAT; compartment_*Rate_Law_for_reaction_for_CycAT_production(Kscyca, E2F, Khcyca);
  reaction_CycAT_decay: CycAT => ; compartment_*Rate_Law_for_reaction_CycAT_decay(Kdcyca, Kdcycac, Cdh1, CycAT);
  reaction_for_E2FT_production:  => E2FT; compartment_*Rate_Law_for_reaction_for_E2FT_production(Kse2fb, Kse2fm, Myc, Kse2f, E2F, Khe2f);
  reaction_E2FT_decay: E2FT => ; compartment_*Rate_Law_for_reaction_E2FT_decay(Kde2f, Kde2fa, CycA, E2FT);
  reaction_Comp1_production:  => Comp1; compartment_*Rate_Law_for_reaction_Comp1_production(Kase2f, E2F, Rb, Kdprbp, Comp2, JdpRb);
  reaction_Comp1_decay: Comp1 => ; compartment_*Rate_Law_for_reaction_Comp1_decay(Kdise2f, Comp1, Kprb, CycD, JpRb, Kppeb, CycE, CycA, JppRb, Kde2f, Kde2fa);
  reaction_for_Comp2_production:  => Comp2; compartment_*Rate_Law_for_reaction_for_Comp2_production(Kase2f, E2F, Rbp, Kprb, CycD, Comp1, JpRb);
  reaction_Comp2_decay: Comp2 => ; compartment_*Rate_Law_for_reaction_Comp2_decay(Kdise2f, Comp2, Kdprbp, JdpRb, Kprbp, CycE, CycA, JpRbp, Kde2f, Kde2fa);
  reactionfor_Rbp_production:  => Rbp; compartment_*Rate_Law_for_reactionfor_Rbp_production(Kprb, CycD, Rb, JpRb, Kdise2f, Comp2, Kde2f, Kde2fa, CycA);
  reaction_for_Rbp_decay: Rbp => ; compartment_*Rate_Law_for_reaction_for_Rbp_decay(Kase2f, E2F, Rbp, Kdprbp, JpRbp, Kprbp, CycE, CycA, JpRb);
  reaction_for_CkiT_production:  => CkiT; compartment_*Rate_Law_for_reaction_for_CkiT_production(Kscki);
  reaction_for_CkiT_decay: CkiT => ; compartment_*Rate_Law_for_reaction_for_CkiT_decay(Kdcki, Kdckic, CycE, CycA, UbI, CkiT);
  reaction_for_CycECki_production:  => CycECki; compartment_*Rate_Law_for_reaction_for_CycECki_production(Kascki, CycE, CkiT, CycECki, CycDCki, CycACki);
  reaction_for_CycECki_decay: CycECki => ; compartment_*Rate_Law_for_reaction_for_CycECki_decay(Kdiscki, Kdcyce, Kdcycea, CycA, Kdcki, Kdckic, CycE, UbI, CycECki);
  reaction_for_CycDCki_production:  => CycDCki; compartment_*Rate_Law_for_reaction_for_CycDCki_production(Kascki, CycD, CkiT, CycECki, CycDCki, CycACki);
  reaction_for_CycDCki_decay: CycDCki => ; compartment_*Rate_Law_for_reaction_for_CycDCki_decay(Kdiscki, Kdcycd, Kdcki, Kdckic, CycE, CycA, UbI, CycDCki);
  reaction_for_CycACki_production:  => CycACki; compartment_*Rate_Law_for_reaction_for_CycACki_production(Kascki, CycA, CkiT, CycECki, CycDCki, CycACki);
  reaction_for_CycACki_decay: CycACki => ; compartment_*Rate_Law_for_reaction_for_CycACki_decay(Kdiscki, Kdcyca, Kdcycac, Cdh1, Kdcki, Kdckic, CycE, CycA, UbI, CycACki);
  reaction_for_Cdh1dp_production:  => Cdh1dp; compartment_*Rate_Law_for_reaction_for_Cdh1dp_production(Kacdh1, Cdh1T, Cdh1dp, JdpCdh1);
  reaction_for_Cdh1dp_decay: Cdh1dp => ; compartment_*Rate_Law_for_reaction_for_Cdh1dp_decay(Kicdh1e, CycE, Kicdh1a, CycA, Cdh1dp, JpCdh1);
  reaction_for_Emi1T_production:  => Emi1T; compartment_*Rate_Law_for_reaction_for_Emi1T_production(Ksemi1, E2F, Khemi1);
  reaction_for_Emi1T_decay: Emi1T => ; compartment_*Rate_Law_for_reaction_for_Emi1T_decay(Kdemi1, Kdemi1c, Cdh1, Emi1T);
  reaction_for_EmiC_production:  => EmiC; compartment_*Rate_Law_for_reaction_for_EmiC_production(Cdh1T, EmiC, Kascdh1, Emi1T);
  reaction_for_EmiC_decay: EmiC => ; compartment_*Rate_Law_for_reaction_for_EmiC_decay(Kdiscdh1, Kdemi1, Kdemi1c, Cdh1, EmiC);
  reaction_for_Cdh1_production:  => Cdh1; compartment_*Rate_Law_for_reaction_for_Cdh1_production(Kacdh1, Cdh1T, EmiC, Cdh1, JdpCdh1, Cdh1dp, Kdiscdh1, Kdemi1, Kdemi1c);
  reaction_for_Cdh1_decay: Cdh1 => ; compartment_*Rate_Law_for_reaction_for_Cdh1_decay(Kicdh1e, CycE, Kicdh1a, CycA, Cdh1, JpCdh1, Cdh1dp, Kascdh1, Emi1T, EmiC);
  reaction_for_UbI_production:  => UbI; compartment_*Rate_Law_for_reaction_for_UbI_production(Ksub1);
  reaction_for_UbI_decay: UbI => ; compartment_*Rate_Law_for_reaction_for_UbI_decay(Kdub1, Kdub1c, Cdh1, UbI);
  reaction_for_Rbpp_production:  => Rbpp; compartment_*Rate_Law_for_reaction_for_Rbpp_production(Kprbp, CycE, CycA, Rbp, JpRbp, Comp2, Kppeb, Rb, JppRb, Comp1);
  reaction_for_Rbpp_decay: Rbpp => ; compartment_*Rate_Law_for_reaction_for_Rbpp_decay(Kdprbpp, Rbpp, JdpRb);

  // Species initializations:
  Myc = 0;
  Myc has substance_per_volume;
  CycDT = 0;
  CycDT has substance_per_volume;
  CycET = 0.119;
  CycET has substance_per_volume;
  CycAT = 0;
  CycAT has substance_per_volume;
  E2FT = 0.106;
  E2FT has substance_per_volume;
  Comp1 = 0.105;
  Comp1 has substance_per_volume;
  Comp2 = 0;
  Comp2 has substance_per_volume;
  Rbp = 0;
  Rbp has substance_per_volume;
  CkiT = 0.2;
  CkiT has substance_per_volume;
  CycECki = 0.115;
  CycECki has substance_per_volume;
  CycDCki = 0;
  CycDCki has substance_per_volume;
  CycACki = 0;
  CycACki has substance_per_volume;
  Cdh1dp = 1;
  Cdh1dp has substance_per_volume;
  Emi1T = 0.002;
  Emi1T has substance_per_volume;
  EmiC = 0.002;
  EmiC has substance_per_volume;
  Cdh1 = 0.998;
  Cdh1 has substance_per_volume;
  UbI = 0.02;
  UbI has substance_per_volume;
  E2F has substance_per_volume;
  Rb has substance_per_volume;
  Rbpp = 0.001;
  Rbpp has substance_per_volume;
  CycE has substance_per_volume;
  CycD has substance_per_volume;
  CycA has substance_per_volume;
  Cdh1p has substance_per_volume;
  Cdh1T = 1;
  Cdh1T has substance_per_volume;

  // Compartment initializations:
  compartment_ = 1;
  compartment_ has volume;

  // Variable initializations:
  RbT = 1;
  S = 1;
  Ksm = 0.1;
  Kdm = 0.1;
  Kscycdm = 0.004;
  Kscycds = 0.004;
  Kdcycd = 0.008;
  Kscyceb = 0.0001;
  Kscycem = 0;
  Kscyce = 0.004;
  Kdcyce = 0.001;
  Kdcycea = 0.01;
  Khcyce = 0.25;
  Kscyca = 0.008;
  Kdcyca = 0.004;
  Kdcycac = 0.5;
  Khcyca = 0.1;
  Kse2fm = 0;
  Kse2f = 0.004;
  Kde2f = 0.003;
  Kde2fa = 0.01;
  Khe2f = 0.25;
  Kase2f = 100;
  Kdise2f = 1;
  Kprb = 5;
  Kdprbp = 1;
  Kppeb = 0.5;
  Kdprbpp = 0.1;
  Kprbp = 2;
  JpRb = 0.01;
  JpRbp = 0.05;
  JdpRb = 0.05;
  JppRb = 0.5;
  Kscki = 0.04;
  Kdcki = 0.2;
  Kascki = 100;
  Kdiscki = 0.1;
  Ksub1 = 0.004;
  Kdub1 = 0.002;
  Kdub1c = 0.2;
  Ksemi1 = 0.45;
  Kdemi1 = 0.2;
  Kdemi1c = 2;
  Khemi1 = 0.1;
  Kascdh1 = 100;
  Kdiscdh1 = 0.1;
  Kacdh1 = 0.1;
  Kicdh1e = 0.14;
  Kicdh1a = 0.2;
  JdpCdh1 = 0.02;
  JpCdh1 = 0.25;
  Kse2fb = 0.0003;
  Kdckic = 1;

  // Other declarations:
  const compartment_, RbT, S, Ksm, Kdm, Kscycdm, Kscycds, Kdcycd, Kscyceb;
  const Kscycem, Kscyce, Kdcyce, Kdcycea, Khcyce, Kscyca, Kdcyca, Kdcycac;
  const Khcyca, Kse2fm, Kse2f, Kde2f, Kde2fa, Khe2f, Kase2f, Kdise2f, Kprb;
  const Kdprbp, Kppeb, Kdprbpp, Kprbp, JpRb, JpRbp, JdpRb, JppRb, Kscki, Kdcki;
  const Kascki, Kdiscki, Ksub1, Kdub1, Kdub1c, Ksemi1, Kdemi1, Kdemi1c, Khemi1;
  const Kascdh1, Kdiscdh1, Kacdh1, Kicdh1e, Kicdh1a, JdpCdh1, JpCdh1, Kse2fb;
  const Kdckic;

  // Unit definitions:
  unit length = metre;
  unit area = metre^2;
  unit volume = 1e-3 litre;
  unit time_unit = time_unit;
  unit substance = 1e-3 mole;
  unit extent = substance;
  unit substance_per_volume = 1e-3 mole / 1e-3 litre;

  // Display Names:
  time_unit is "time";
  compartment_ is "compartment";
  reaction_for_Myc_production is "reaction for Myc production";
  reaction_for_Myc_decay is "reaction for Myc decay";
  reaction_for_CycDT_production is "reaction for CycDT production";
  reaction_CycDT_decay is "reaction CycDT decay";
  reaction_for_CycET_production is "reaction for CycET production";
  reaction_CycET_decay is "reaction CycET decay";
  reaction_for_CycAT_production is "reaction for CycAT production";
  reaction_CycAT_decay is "reaction CycAT decay";
  reaction_for_E2FT_production is "reaction for E2FT production";
  reaction_E2FT_decay is "reaction E2FT decay";
  reaction_Comp1_production is "reaction Comp1 production";
  reaction_Comp1_decay is "reaction Comp1 decay";
  reaction_for_Comp2_production is "reaction for Comp2 production";
  reaction_Comp2_decay is "reaction Comp2 decay";
  reactionfor_Rbp_production is "reactionfor Rbp production";
  reaction_for_Rbp_decay is "reaction for Rbp decay";
  reaction_for_CkiT_production is "reaction for CkiT production";
  reaction_for_CkiT_decay is "reaction for CkiT decay";
  reaction_for_CycECki_production is "reaction for CycECki production";
  reaction_for_CycECki_decay is "reaction for CycECki decay";
  reaction_for_CycDCki_production is "reaction for CycDCki production";
  reaction_for_CycDCki_decay is "reaction for CycDCki decay";
  reaction_for_CycACki_production is "reaction for CycACki production";
  reaction_for_CycACki_decay is "reaction for CycACki decay";
  reaction_for_Cdh1dp_production is "reaction for Cdh1dp production";
  reaction_for_Cdh1dp_decay is "reaction for Cdh1dp decay";
  reaction_for_Emi1T_production is "reaction for Emi1T production";
  reaction_for_Emi1T_decay is "reaction for Emi1T decay";
  reaction_for_EmiC_production is "reaction for EmiC production";
  reaction_for_EmiC_decay is "reaction for EmiC decay";
  reaction_for_Cdh1_production is "reaction for Cdh1 production";
  reaction_for_Cdh1_decay is "reaction for Cdh1 decay";
  reaction_for_UbI_production is "reaction for UbI production";
  reaction_for_UbI_decay is "reaction for UbI decay";
  reaction_for_Rbpp_production is "reaction for Rbpp production";
  reaction_for_Rbpp_decay is "reaction for Rbpp decay";

  // CV terms:
  Myc property "http://identifiers.org/uniprot/P01106"
  CycDT property "http://identifiers.org/uniprot/P24385"
  CycDT property "http://identifiers.org/ncit/C25304"
  CycET property "http://identifiers.org/ncit/C25304"
  CycET property "http://identifiers.org/uniprot/P24864"
  CycAT property "http://identifiers.org/ncit/C25304"
  CycAT property "http://identifiers.org/uniprot/P20248"
  E2FT property "http://identifiers.org/ncit/C25304"
  E2FT property "http://identifiers.org/uniprot/PR:000050007"
  Comp1 property "http://identifiers.org/go/GO:0035189"
  Comp2 property "http://identifiers.org/pato/PATO:0002220"
  Comp2 property "http://identifiers.org/go/GO:0035189"
  Rbp property "http://identifiers.org/ncit/C44044"
  Rbp property "http://identifiers.org/uniprot/P06400"
  Rbp property "http://identifiers.org/pato/PATO:0002262"
  CkiT property "http://identifiers.org/ncit/C2185"
  CkiT property "http://identifiers.org/ncit/C25304"
  CycECki property "http://identifiers.org/ncit/C2185"
  CycECki property "http://identifiers.org/uniprot/P24864"
  CycDCki property "http://identifiers.org/uniprot/P24385"
  CycDCki property "http://identifiers.org/ncit/C2185"
  CycACki property "http://identifiers.org/ncit/C2185"
  CycACki property "http://identifiers.org/uniprot/P20248"
  Cdh1dp property "http://identifiers.org/ncit/C25304"
  Cdh1dp property "http://identifiers.org/pato/PATO:0002263"
  Cdh1dp property "http://identifiers.org/uniprot/Q9UM11"
  Emi1T property "http://identifiers.org/ncit/C25304"
  Emi1T property "http://identifiers.org/uniprot/Q9UKT4"
  EmiC property "http://identifiers.org/ncit/C47881"
  EmiC property "http://identifiers.org/uniprot/Q9UKT4"
  EmiC property "http://identifiers.org/uniprot/Q9UM11"
  EmiC property "http://identifiers.org/pato/PATO:0002220"
  EmiC property "http://identifiers.org/pato/PATO:0002263"
  Cdh1 property "http://identifiers.org/omit/0006811"
  Cdh1 property "http://identifiers.org/uniprot/Q9UM11"
  Cdh1 property "http://identifiers.org/pato/PATO:0002263"
  UbI property "http://identifiers.org/ncit/C16796"
  UbI property "http://identifiers.org/ncit/C17227"
  E2F property "http://identifiers.org/pr/PR:000050007"
  Rb property "http://identifiers.org/uniprot/P06400"
  Rbpp property "http://identifiers.org/ncit/C17648"
  Rbpp property "http://identifiers.org/pato/PATO:0002262"
  Rbpp property "http://identifiers.org/uniprot/P06400"
  CycE property "http://identifiers.org/uniprot/P24864"
  CycD property "http://identifiers.org/uniprot/P24385"
  CycA property "http://identifiers.org/uniprot/P20248"
  Cdh1p property "http://identifiers.org/uniprot/Q9UM11"
  Cdh1p property "http://identifiers.org/pato/PATO:0002220"
  Cdh1p property "http://identifiers.org/omit/0006811"
  Cdh1T property "http://identifiers.org/ncit/C25304"
  Cdh1T property "http://identifiers.org/uniprot/Q9UM11"
  reaction_for_Myc_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_for_Myc_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_CycDT_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_CycDT_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_CycET_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_CycET_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_CycAT_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_CycAT_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_E2FT_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_E2FT_decay property "http://identifiers.org/ncit/C75947"
  reaction_Comp1_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_Comp1_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_Comp2_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_Comp2_decay property "http://identifiers.org/ncit/C75947"
  reactionfor_Rbp_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_for_Rbp_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_CkiT_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_for_CkiT_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_CycECki_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_for_CycECki_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_CycDCki_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_for_CycDCki_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_CycACki_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_for_CycACki_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_Cdh1dp_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_for_Cdh1dp_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_Emi1T_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_for_Emi1T_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_EmiC_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_for_EmiC_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_Cdh1_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_for_Cdh1_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_UbI_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_for_UbI_decay property "http://identifiers.org/ncit/C75947"
  reaction_for_Rbpp_production property "http://identifiers.org/sbo/SBO:0000393"
  reaction_for_Rbpp_decay property "http://identifiers.org/ncit/C75947"
end

Pandey2018_reversible_transition_between_quiescence_and_proliferation is "Pandey2018-reversible transition between quiescence and proliferation"

Pandey2018_reversible_transition_between_quiescence_and_proliferation model_entity_is "http://identifiers.org/biomodels.db/MODEL2006220001",
                                                                                      "http://identifiers.org/biomodels.db/BIOMD0000000954"
Pandey2018_reversible_transition_between_quiescence_and_proliferation taxon "http://identifiers.org/taxonomy/9606"
Pandey2018_reversible_transition_between_quiescence_and_proliferation description "http://identifiers.org/pubmed/29856829"
Pandey2018_reversible_transition_between_quiescence_and_proliferation property "http://identifiers.org/go/GO:0007049",
                                                                               "http://identifiers.org/go/GO:0044838",
                                                                               "http://identifiers.org/mamo/MAMO_0000046"
