//Created by libAntimony v2.4
model wodarz_2007b__environment(time_)

  // Variable initializations:
  time_ = ;
end

model wodarz_2007b__x(x, d, gamma, lambda, beta, v, time_)

  // Rate Rules:
  x' = lambda - (d * x + beta * x * v + gamma * x * v);

  // Variable initializations:
  x = 1;
  d = ;
  gamma = ;
  lambda = ;
  beta = ;
  v = ;
  time_ = ;
end

model wodarz_2007b__y0(y0, beta, x, a0, eta, phi, L, v, pa, za, time_)

  // Rate Rules:
  y0' = (beta * x * v - (a0 * y0 + eta * y0 + pa * y0 * za)) + phi * L;

  // Variable initializations:
  y0 = 0;
  beta = ;
  x = ;
  a0 = ;
  eta = ;
  phi = ;
  L = ;
  v = ;
  pa = ;
  za = ;
  time_ = ;
end

model wodarz_2007b__y1(y1, a1, eta, y0, pa, za, time_)

  // Rate Rules:
  y1' = eta * y0 - (a1 * y1 + pa * y1 * za);

  // Variable initializations:
  y1 = 0;
  a1 = ;
  eta = ;
  y0 = ;
  pa = ;
  za = ;
  time_ = ;
end

model wodarz_2007b__L(L, gamma, x, v, phi, d, time_)

  // Rate Rules:
  L' = gamma * x * v - (phi * L + d * L);

  // Variable initializations:
  L = 0;
  gamma = ;
  x = ;
  v = ;
  phi = ;
  d = ;
  time_ = ;
end

model wodarz_2007b__v(v, k, y1, u, time_)

  // Rate Rules:
  v' = k * y1 - u * v;

  // Variable initializations:
  v = 1;
  k = ;
  y1 = ;
  u = ;
  time_ = ;
end

model wodarz_2007b__m_8(m_8, r, m_7, time_)

  // Rate Rules:
  m_8' = 2 * r * m_7 - r * m_8;

  // Variable initializations:
  m_8 = 0;
  r = ;
  m_7 = ;
  time_ = ;
end

model wodarz_2007b__m_7(m_7, r, m_6, time_)

  // Rate Rules:
  m_7' = 2 * r * m_6 - r * m_7;

  // Variable initializations:
  m_7 = 0;
  r = ;
  m_6 = ;
  time_ = ;
end

model wodarz_2007b__m_6(m_6, r, m_5, time_)

  // Rate Rules:
  m_6' = 2 * r * m_5 - r * m_6;

  // Variable initializations:
  m_6 = 0;
  r = ;
  m_5 = ;
  time_ = ;
end

model wodarz_2007b__m_5(m_5, r, m_4, time_)

  // Rate Rules:
  m_5' = 2 * r * m_4 - r * m_5;

  // Variable initializations:
  m_5 = 0;
  r = ;
  m_4 = ;
  time_ = ;
end

model wodarz_2007b__m_4(m_4, r, m_3, time_)

  // Rate Rules:
  m_4' = 2 * r * m_3 - r * m_4;

  // Variable initializations:
  m_4 = 0;
  r = ;
  m_3 = ;
  time_ = ;
end

model wodarz_2007b__m_3(m_3, r, m_2, time_)

  // Rate Rules:
  m_3' = 2 * r * m_2 - r * m_3;

  // Variable initializations:
  m_3 = 0;
  r = ;
  m_2 = ;
  time_ = ;
end

model wodarz_2007b__m_2(m_2, r, m_1, time_)

  // Rate Rules:
  m_2' = 2 * r * m_1 - r * m_2;

  // Variable initializations:
  m_2 = 0;
  r = ;
  m_1 = ;
  time_ = ;
end

model wodarz_2007b__m_1(m_1, r, m_0, time_)

  // Rate Rules:
  m_1' = 2 * r * m_0 - r * m_1;

  // Variable initializations:
  m_1 = 0;
  r = ;
  m_0 = ;
  time_ = ;
end

model wodarz_2007b__m_0(m_0, r, time_)

  // Rate Rules:
  m_0' = - r * m_0;

  // Variable initializations:
  m_0 = 1;
  r = ;
  time_ = ;
end

model wodarz_2007b__za(za, alpha, m_8, ca, y0, y1, ba, time_)

  // Assignment Rules:
  log_za := log(za);

  // Rate Rules:
  za' = (alpha * m_8 + ca * (y0 + y1) * za) - ba * za;

  // Variable initializations:
  za = 1;
  alpha = ;
  m_8 = ;
  ca = ;
  y0 = ;
  y1 = ;
  ba = ;
  time_ = ;
end

model wodarz_2007b__R0(gamma, lambda, eta, a1, a0, beta, phi, d)

  // Assignment Rules:
  R0 := ((lambda * eta) / (d * a1 * (a0 + eta))) * (beta + (gamma * phi) / (phi + d));

  // Variable initializations:
  gamma = ;
  lambda = ;
  eta = ;
  a1 = ;
  a0 = ;
  beta = ;
  phi = ;
  d = ;
end

model wodarz_2007b__model_parameters(a0, a1, k, u, lambda, d, beta, gamma, alpha, phi, eta, pa, ca, r, ba)

  // Variable initializations:
  a0 = 0.1;
  a1 = 0.2;
  k = 1;
  u = 1;
  lambda = 10;
  d = 0.1;
  beta = 0.1;
  gamma = 0.5;
  alpha = 0.2;
  phi = 0.1;
  eta = 0.01;
  pa = 0.000001;
  ca = 15.5;
  r = 1;
  ba = 0.1;
end

model *wodarz_2007b____main()

  // Sub-modules, and any changes to those submodules:
  environment: wodarz_2007b__environment(time_);
  x: wodarz_2007b__x(x0, d, gamma, lambda, beta, v0, time_);
  y0: wodarz_2007b__y0(y00, beta, x0, a0, eta, phi, L0, v0, pa, za0, time_);
  y1: wodarz_2007b__y1(y10, a1, eta, y00, pa, za0, time_);
  L: wodarz_2007b__L(L0, gamma, x0, v0, phi, d, time_);
  v: wodarz_2007b__v(v0, k, y10, u, time_);
  m_8: wodarz_2007b__m_8(m_80, r, m_70, time_);
  m_7: wodarz_2007b__m_7(m_70, r, m_60, time_);
  m_6: wodarz_2007b__m_6(m_60, r, m_50, time_);
  m_5: wodarz_2007b__m_5(m_50, r, m_40, time_);
  m_4: wodarz_2007b__m_4(m_40, r, m_30, time_);
  m_3: wodarz_2007b__m_3(m_30, r, m_20, time_);
  m_2: wodarz_2007b__m_2(m_20, r, m_10, time_);
  m_1: wodarz_2007b__m_1(m_10, r, m_00, time_);
  m_0: wodarz_2007b__m_0(m_00, r, time_);
  za: wodarz_2007b__za(za0, alpha, m_80, ca, y00, y10, ba, time_);
  R0: wodarz_2007b__R0(gamma, lambda, eta, a1, a0, beta, phi, d);
  model_parameters: wodarz_2007b__model_parameters(a0, a1, k, u, lambda, d, beta, gamma, alpha, phi, eta, pa, ca, r, ba);
end