format version = 1.0
 
 
 begin solution of problem pe_6genes1                    
 
 date =  8-Jun-09 21:15:27
 url = http://www.odeidentification.org
 
 // Settings for the Gennemark & Wedelin (2007) algorithm
 randomStarts_ =  800  1
 smoothingParameter =   9.99999994E-09
 randomSeed =  9
 
 
 
 // VARIABLE  3
  
reaction_1 of variable_3
has type = mrnaProduction                
has variable X1 = variable_1
has variable X2 = variable_2
has parameter k1 =   0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.200000000000E+01
has parameter k4 =   0.100000000000E+01
has parameter k5 =   0.200000000000E+01
  
reaction_2 of variable_3
has type = uniMolecularMassAction        
has variable X1 = variable_3
has parameter k1 =  -0.100000000000E+01
  
 
 
 // VARIABLE  4
  
reaction_1 of variable_4
has type = mrnaProduction                
has variable X1 = variable_1
has variable X2 = variable_15
has parameter k1 =   0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.200000000000E+01
has parameter k4 =   0.100000000000E+01
has parameter k5 =   0.200000000000E+01
  
reaction_2 of variable_4
has type = uniMolecularMassAction        
has variable X1 = variable_4
has parameter k1 =  -0.100000000000E+01
  
 
 
 // VARIABLE  5
  
reaction_1 of variable_5
has type = mrnaProduction                
has variable X1 = variable_1
has variable X2 = variable_16
has parameter k1 =   0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.200000000000E+01
has parameter k4 =   0.100000000000E+01
has parameter k5 =   0.200000000000E+01
  
reaction_2 of variable_5
has type = uniMolecularMassAction        
has variable X1 = variable_5
has parameter k1 =  -0.100000000000E+01
  
 
 
 // VARIABLE  6
  
reaction_1 of variable_6
has type = mrnaProduction                
has variable X1 = variable_1
has variable X2 = variable_17
has parameter k1 =   0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.200000000000E+01
has parameter k4 =   0.100000000000E+01
has parameter k5 =   0.200000000000E+01
  
reaction_2 of variable_6
has type = uniMolecularMassAction        
has variable X1 = variable_6
has parameter k1 =  -0.100000000000E+01
  
 
 
 // VARIABLE  7
  
reaction_1 of variable_7
has type = mrnaProduction                
has variable X1 = variable_1
has variable X2 = variable_18
has parameter k1 =   0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.200000000000E+01
has parameter k4 =   0.100000000000E+01
has parameter k5 =   0.200000000000E+01
  
reaction_2 of variable_7
has type = uniMolecularMassAction        
has variable X1 = variable_7
has parameter k1 =  -0.100000000000E+01
  
 
 
 // VARIABLE  8
  
reaction_1 of variable_8
has type = mrnaProduction                
has variable X1 = variable_1
has variable X2 = variable_19
has parameter k1 =   0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.200000000000E+01
has parameter k4 =   0.100000000000E+01
has parameter k5 =   0.200000000000E+01
  
reaction_2 of variable_8
has type = uniMolecularMassAction        
has variable X1 = variable_8
has parameter k1 =  -0.100000000000E+01
  
 
 
 // VARIABLE  9
  
reaction_1 of variable_9
has type = michaelisMenten               
has variable X1 = variable_3
has parameter k1 =   0.100000001490E+00
has parameter k2 =   0.100000000000E+01
  
reaction_2 of variable_9
has type = uniMolecularMassAction        
has variable X1 = variable_9
has parameter k1 =  -0.100000001490E+00
  
 
 
 // VARIABLE  10
  
reaction_1 of variable_10
has type = michaelisMenten               
has variable X1 = variable_4
has parameter k1 =   0.100000001490E+00
has parameter k2 =   0.100000000000E+01
  
reaction_2 of variable_10
has type = uniMolecularMassAction        
has variable X1 = variable_10
has parameter k1 =  -0.100000001490E+00
  
 
 
 // VARIABLE  11
  
reaction_1 of variable_11
has type = michaelisMenten               
has variable X1 = variable_5
has parameter k1 =   0.100000001490E+00
has parameter k2 =   0.100000000000E+01
  
reaction_2 of variable_11
has type = uniMolecularMassAction        
has variable X1 = variable_11
has parameter k1 =  -0.100000001490E+00
  
 
 
 // VARIABLE  12
  
reaction_1 of variable_12
has type = michaelisMenten               
has variable X1 = variable_6
has parameter k1 =   0.100000001490E+00
has parameter k2 =   0.100000000000E+01
  
reaction_2 of variable_12
has type = uniMolecularMassAction        
has variable X1 = variable_12
has parameter k1 =  -0.100000001490E+00
  
 
 
 // VARIABLE  13
  
reaction_1 of variable_13
has type = michaelisMenten               
has variable X1 = variable_7
has parameter k1 =   0.100000001490E+00
has parameter k2 =   0.100000000000E+01
  
reaction_2 of variable_13
has type = uniMolecularMassAction        
has variable X1 = variable_13
has parameter k1 =  -0.100000001490E+00
  
 
 
 // VARIABLE  14
  
reaction_1 of variable_14
has type = michaelisMenten               
has variable X1 = variable_8
has parameter k1 =   0.100000001490E+00
has parameter k2 =   0.100000000000E+01
  
reaction_2 of variable_14
has type = uniMolecularMassAction        
has variable X1 = variable_14
has parameter k1 =  -0.100000001490E+00
  
 
 
 // VARIABLE  15
  
reaction_1 of variable_15
has type = reversibleEnzymatic           
has variable X1 = variable_9
has variable X2 = variable_2
has variable X3 = variable_15
has parameter k1 =   0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.100000000000E+01
  
reaction_2 of variable_15
has type = reversibleEnzymatic           
has variable X1 = variable_10
has variable X2 = variable_15
has variable X3 = variable_16
has parameter k1 =  -0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.100000000000E+01
  
 
 
 // VARIABLE  16
  
reaction_1 of variable_16
has type = reversibleEnzymatic           
has variable X1 = variable_10
has variable X2 = variable_15
has variable X3 = variable_16
has parameter k1 =   0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.100000000000E+01
  
reaction_2 of variable_16
has type = reversibleEnzymatic           
has variable X1 = variable_11
has variable X2 = variable_16
has variable X3 = variable_17
has parameter k1 =  -0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.100000000000E+01
  
 
 
 // VARIABLE  17
  
reaction_1 of variable_17
has type = reversibleEnzymatic           
has variable X1 = variable_11
has variable X2 = variable_16
has variable X3 = variable_17
has parameter k1 =   0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.100000000000E+01
  
reaction_2 of variable_17
has type = reversibleEnzymatic           
has variable X1 = variable_12
has variable X2 = variable_17
has variable X3 = variable_18
has parameter k1 =  -0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.100000000000E+01
  
 
 
 // VARIABLE  18
  
reaction_1 of variable_18
has type = reversibleEnzymatic           
has variable X1 = variable_12
has variable X2 = variable_17
has variable X3 = variable_18
has parameter k1 =   0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.100000000000E+01
  
reaction_2 of variable_18
has type = reversibleEnzymatic           
has variable X1 = variable_13
has variable X2 = variable_18
has variable X3 = variable_19
has parameter k1 =  -0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.100000000000E+01
  
 
 
 // VARIABLE  19
  
reaction_1 of variable_19
has type = reversibleEnzymatic           
has variable X1 = variable_13
has variable X2 = variable_18
has variable X3 = variable_19
has parameter k1 =   0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.100000000000E+01
  
reaction_2 of variable_19
has type = reversibleEnzymatic           
has variable X1 = variable_14
has variable X2 = variable_19
has variable X3 = variable_1
has parameter k1 =  -0.100000000000E+01
has parameter k2 =   0.100000000000E+01
has parameter k3 =   0.100000000000E+01
  
 
 
 // INITIAL VALUES
 // Perfect data, not required
 
 
 // ERROR 
 // residual = -L
 residual =   1.35195644E-21
  
 end of solution of problem pe_6genes1