%
% Conversions are ranked according to the exp. weighted function W
%
% Elements of the fields below are as follows:
%
% First line: #R rank, substrate -> product, in REAC corresponding reaction
% Following lines: L, length of alt. path, nr of paths of such a length
% Forelast line: #nb_paths= total nr of paths (=value of R)
% Last line: #[un]nor_marg= value of W (see article for details)
%

#R 1 	 X5P 	->	 GA3P 	in REAC X5P + R5P <> S7P + GA3P
L 1 1
L 2 1
L 3 2
L 4 1
#nb_paths=	 5
#[un]nor_marg=	 0.0584722 

#R 2 	 GA3P 	->	 X5P 	in REAC X5P + R5P <> S7P + GA3P
L 1 1
L 2 1
L 3 1
L 6 1
L 7 2
L 8 1
#nb_paths=	 7
#[un]nor_marg=	 0.0574398 

#R 3 	 X5P 	->	 GA3P 	in REAC X5P + E4P <> F6P + GA3P
L 1 1
L 3 3
L 4 2
L 5 3
L 6 2
L 7 1
#nb_paths=	 12
#[un]nor_marg=	 0.0528245 

#R 4 	 GA3P 	->	 X5P 	in REAC X5P + E4P <> F6P + GA3P
L 1 1
L 3 3
L 4 1
L 5 2
L 6 2
L 7 1
L 8 2
L 9 2
#nb_paths=	 14
#[un]nor_marg=	 0.0526844 

#R 5 	 E4P 	->	 GA3P 	in REAC X5P + E4P <> F6P + GA3P
L 1 1
L 3 2
L 4 2
L 5 3
L 6 1
L 8 2
#nb_paths=	 11
#[un]nor_marg=	 0.0519101 

#R 6 	 GA3P 	->	 E4P 	in REAC X5P + E4P <> F6P + GA3P
L 1 1
L 3 2
L 4 1
L 5 2
L 6 1
L 9 1
#nb_paths=	 8
#[un]nor_marg=	 0.0517699 

#R 7 	 E4P 	->	 GA3P 	in REAC GA3P + S7P <> E4P + F6P
L 1 1
L 3 2
L 4 1
L 5 1
L 7 2
#nb_paths=	 7
#[un]nor_marg=	 0.0517516 

#R 8 	 GA3P 	->	 E4P 	in REAC GA3P + S7P <> E4P + F6P
L 1 1
L 3 1
L 5 1
#nb_paths=	 3
#[un]nor_marg=	 0.0507157 

#R 9 	 F6P 	->	 GA3P 	in REAC GA3P + S7P <> E4P + F6P
L 2 4
L 3 1
L 4 2
L 6 4
L 8 3
#nb_paths=	 14
#[un]nor_marg=	 0.0281197 

#R 10 	 GA3P 	->	 F6P 	in REAC GA3P + S7P <> E4P + F6P
L 2 3
L 4 2
L 6 1
#nb_paths=	 6
#[un]nor_marg=	 0.0204629 

#R 11 	 F6P 	->	 E4P 	in REAC X5P + E4P <> F6P + GA3P
L 2 2
L 3 1
L 4 6
L 5 2
L 6 7
L 7 7
L 8 2
L 9 2
#nb_paths=	 29
#[un]nor_marg=	 0.0151797 

#R 12 	 F6P 	->	 X5P 	in REAC X5P + E4P <> F6P + GA3P
L 2 2
L 3 1
L 4 4
L 5 3
L 6 3
L 7 3
L 8 1
L 9 3
#nb_paths=	 20
#[un]nor_marg=	 0.0149393 

#R 13 	 E4P 	->	 F6P 	in REAC X5P + E4P <> F6P + GA3P
L 2 2
L 4 5
L 6 5
#nb_paths=	 12
#[un]nor_marg=	 0.0141042 

#R 14 	 X5P 	->	 F6P 	in REAC X5P + E4P <> F6P + GA3P
L 2 2
L 4 3
L 6 1
#nb_paths=	 6
#[un]nor_marg=	 0.0138484 

#R 15 	 F6P 	->	 FDP 	in REAC F6P + ATP > FDP + ADP + H
L 2 1
L 3 5
L 4 8
L 5 10
L 6 9
L 7 11
L 8 8
L 9 5
L 10 5
#nb_paths=	 62
#[un]nor_marg=	 0.0124757 

#R 16 	 GA3P 	->	 FDP 	in REAC FDP <> GA3P + DHAP
L 2 1
L 3 4
L 4 4
L 5 6
L 6 3
L 7 5
#nb_paths=	 23
#[un]nor_marg=	 0.0109876 

#R 17 	 S7P 	->	 X5P 	in REAC X5P + R5P <> S7P + GA3P
L 2 1
L 3 4
L 4 2
L 5 2
L 6 2
L 7 1
L 8 1
L 9 1
#nb_paths=	 14
#[un]nor_marg=	 0.0106706 

#R 18 	 X5P 	->	 S7P 	in REAC X5P + R5P <> S7P + GA3P
L 2 1
L 3 4
L 4 1
L 5 2
L 6 2
#nb_paths=	 10
#[un]nor_marg=	 0.0105468 

#R 19 	 GA3P 	->	 DHAP 	in REAC DHAP <> GA3P
L 2 1
L 3 1
L 4 4
L 5 4
L 6 6
L 7 3
L 8 5
#nb_paths=	 24
#[un]nor_marg=	 0.00822496 

#R 20 	 F6P 	->	 S7P 	in REAC GA3P + S7P <> E4P + F6P
L 2 1
L 4 7
L 5 3
L 6 7
L 7 3
L 8 1
#nb_paths=	 22
#[un]nor_marg=	 0.0076687 

#R 21 	 S7P 	->	 F6P 	in REAC GA3P + S7P <> E4P + F6P
L 2 1
L 4 4
L 6 2
#nb_paths=	 7
#[un]nor_marg=	 0.00723611 

#R 22 	 DHAP 	->	 GA3P 	in REAC DHAP <> GA3P
L 2 1
#nb_paths=	 1
#[un]nor_marg=	 0.00673795 

#R 23 	 HX 	->	 INO 	in REAC INO + Pi <> HX + R1P
L 2 1
#nb_paths=	 1
#[un]nor_marg=	 0.00673795 

#R 24 	 13DPG 	->	 3PG 	in REAC 13DPG + ADP <> 3PG + ATP
L 2 1
#nb_paths=	 1
#[un]nor_marg=	 0.00673795 

#R 25 	 PRPP 	->	 IMP 	in REAC PRPP + HX + H2O > IMP + (2) Pi
L 2 1
#nb_paths=	 1
#[un]nor_marg=	 0.00673795 

#R 26 	 E4P 	->	 S7P 	in REAC GA3P + S7P <> E4P + F6P
L 3 4
L 4 1
L 5 7
L 6 4
L 7 5
L 8 5
#nb_paths=	 26
#[un]nor_marg=	 0.00389863 

#R 27 	 S7P 	->	 E4P 	in REAC GA3P + S7P <> E4P + F6P
L 3 4
L 4 1
L 5 5
L 6 2
L 7 1
L 8 1
L 9 1
#nb_paths=	 15
#[un]nor_marg=	 0.00385932 

#R 28 	 X5P 	->	 RL5P 	in REAC RL5P <> X5P
L 3 3
L 4 2
L 5 13
L 6 12
L 7 7
L 8 6
#nb_paths=	 43
#[un]nor_marg=	 0.0032291 

#R 29 	 RL5P 	->	 R5P 	in REAC RL5P <> R5P
L 3 3
L 4 2
L 5 12
L 6 9
L 7 4
L 8 3
#nb_paths=	 33
#[un]nor_marg=	 0.00320458 

#R 30 	 R5P 	->	 RL5P 	in REAC RL5P <> R5P
L 3 3
L 4 2
L 5 11
L 6 11
L 7 10
L 8 4
L 9 4
#nb_paths=	 45
#[un]nor_marg=	 0.00319429 

#R 31 	 RL5P 	->	 X5P 	in REAC RL5P <> X5P
L 3 3
L 4 2
L 5 11
L 6 9
L 7 4
L 8 2
#nb_paths=	 31
#[un]nor_marg=	 0.00318783 

#R 32 	 DHAP 	->	 FDP 	in REAC FDP <> GA3P + DHAP
L 3 1
L 4 4
L 5 4
L 6 6
L 7 3
L 8 5
#nb_paths=	 23
#[un]nor_marg=	 0.00148701 

#R 33 	 R5P 	->	 GA3P 	in REAC X5P + R5P <> S7P + GA3P
L 3 1
L 4 1
L 5 2
L 6 1
#nb_paths=	 5
#[un]nor_marg=	 0.00107096 

#R 34 	 GA3P 	->	 R5P 	in REAC X5P + R5P <> S7P + GA3P
L 3 1
L 4 1
L 5 1
L 6 1
L 7 3
L 8 2
L 9 1
#nb_paths=	 10
#[un]nor_marg=	 0.00105526 

#R 35 	 ADO 	->	 INO 	in REAC ADO + H2O > INO + NH3
L 3 1
#nb_paths=	 1
#[un]nor_marg=	 0.000911882 

#R 36 	 R5P 	->	 R1P 	in REAC R1P <> R5P
L 4 3
L 5 2
#nb_paths=	 5
#[un]nor_marg=	 0.000403633 

#R 37 	 R1P 	->	 INO 	in REAC INO + Pi <> HX + R1P
L 4 3
L 5 2
#nb_paths=	 5
#[un]nor_marg=	 0.000403633 

#R 38 	 S7P 	->	 R5P 	in REAC X5P + R5P <> S7P + GA3P
L 4 1
L 5 4
L 6 3
L 7 3
L 8 1
L 9 1
#nb_paths=	 13
#[un]nor_marg=	 0.000197962 

#R 39 	 R5P 	->	 S7P 	in REAC X5P + R5P <> S7P + GA3P
L 4 1
L 5 4
L 6 1
L 7 2
L 8 2
#nb_paths=	 10
#[un]nor_marg=	 0.000193172 

#R 40 	 ADO 	->	 AMP 	in REAC ADO + ATP > ADP + AMP
L 4 1
L 5 1
#nb_paths=	 2
#[un]nor_marg=	 0.000140112 

#R 41 	 AMP 	->	 IMP 	in REAC AMP + H2O > IMP + NH3
L 4 1
L 6 1
#nb_paths=	 2
#[un]nor_marg=	 0.00012567 

#R 42 	 G6P 	->	 F6P 	in REAC G6P <> F6P
L 5 1
L 6 5
L 7 9
L 8 5
L 9 4
#nb_paths=	 24
#[un]nor_marg=	 3.09859e-05 

#R 43 	 6PGC 	->	 6PGL 	in REAC 6PGL + H2O <> 6PGC + H
L 5 1
L 6 5
L 7 9
L 8 5
L 9 4
#nb_paths=	 24
#[un]nor_marg=	 3.09859e-05 

#R 44 	 HX 	->	 IMP 	in REAC PRPP + HX + H2O > IMP + (2) Pi
L 5 1
L 6 1
#nb_paths=	 2
#[un]nor_marg=	 1.8962e-05 

#R 45 	 PRPP 	->	 AMP 	in REAC PRPP + ADE + H2O > AMP + (2) Pi
L 5 1
#nb_paths=	 1
#[un]nor_marg=	 1.67017e-05