// Created by libAntimony v2.13.0
function max_(x, y)
  (x + y + abs(x - y))/2;
end


model *MODEL1302140005()

  // Compartments and Species:
  compartment cell, extracellular;
  species s_0002 in cell, s_0004 in cell, s_0008 in cell, s_0009 in cell;
  species s_0010 in cell, s_0015 in cell, s_0016 in cell, s_0018 in cell;
  species s_0019 in cell, s_0025 in cell, s_0028 in cell, s_0033 in cell;
  species s_0037 in cell, s_0039 in cell, s_0056 in cell, s_0061 in cell;
  species s_0062 in cell, s_0063 in cell, s_0066 in cell, BPG in cell, s_0076 in cell;
  species s_0077 in cell, s_0078 in cell, s_0082 in cell, s_0086 in cell;
  species s_0089 in cell, s_0118 in cell, s_0120 in cell, s_0122 in cell;
  species s_0126 in cell, s_0141 in cell, s_0142 in cell, s_0145 in cell;
  species s_0146 in cell, s_0158 in cell, s_0162 in cell, s_0165 in cell;
  species s_0176 in cell, s_0178 in cell, s_0180 in cell, P2G in cell, s_0190 in cell;
  species s_0201 in cell, s_0204 in cell, s_0207 in cell, s_0209 in cell;
  species s_0210 in cell, s_0211 in cell, s_0218 in cell, s_0231 in cell;
  species s_0232 in cell, P3G in cell, s_0261 in cell, s_0262 in cell, s_0291 in cell;
  species s_0295 in cell, s_0296 in cell, s_0297 in cell, s_0298 in cell;
  species s_0299 in cell, s_0300 in cell, s_0301 in cell, s_0302 in cell;
  species s_0304 in cell, s_0306 in cell, s_0312 in cell, s_0313 in cell;
  species s_0314 in cell, s_0322 in cell, s_0324 in cell, s_0325 in cell;
  species s_0326 in cell, s_0327 in cell, s_0328 in cell, s_0335 in cell;
  species s_0340 in cell, s_0349 in cell, AcAld in cell, $s_0360 in extracellular;
  species s_0362 in cell, s_0367 in cell, s_0373 in cell, s_0380 in cell;
  species s_0386 in cell, s_0390 in cell, s_0393 in cell, ADP in cell, s_0403 in cell;
  species s_0404 in cell, s_0409 in cell, s_0419 in cell, $s_0420 in extracellular;
  species AMP in cell, s_0427 in cell, s_0428 in cell, s_0430 in cell, s_0432 in cell;
  species ATP in cell, s_0445 in cell, s_0454 in cell, s_0455 in cell, CO2 in cell;
  species $s_0458 in extracellular, s_0467 in cell, s_0471 in cell, s_0478 in cell;
  species s_0505 in cell, s_0515 in cell, s_0516 in cell, s_0522 in cell;
  species s_0526 in cell, s_0529 in cell, s_0539 in cell, s_0542 in cell;
  species s_0550 in cell, s_0551 in cell, F16bP in cell, F6P in cell, GLC in cell;
  species $GLCx in extracellular, s_0567 in cell, G6P in cell, s_0573 in cell;
  species s_0574 in cell, s_0577 in cell, s_0581 in cell, s_0582 in cell;
  species s_0584 in cell, s_0586 in cell, s_0587 in cell, s_0589 in cell;
  species s_0595 in cell, s_0602 in cell, s_0613 in cell, s_0615 in cell;
  species s_0619 in cell, s_0625 in cell, DHAP in cell, s_0633 in cell, s_0644 in cell;
  species s_0645 in cell, s_0649 in cell, s_0654 in cell, s_0656 in cell;
  species s_0657 in cell, s_0662 in cell, s_0666 in cell, s_0672 in cell;
  species EtOH in cell, $s_0681 in extracellular, s_0700 in cell, s_0709 in cell;
  species s_0710 in cell, s_0722 in cell, s_0725 in cell, s_0739 in cell;
  species s_0743 in cell, s_0745 in cell, s_0747 in cell, s_0748 in cell;
  species s_0750 in cell, s_0757 in cell, GAP in cell, GLY in cell, $s_0766 in extracellular;
  species s_0767 in cell, s_0773 in cell, s_0779 in cell, s_0782 in cell;
  species s_0785 in cell, s_0816 in cell, s_0832 in cell, s_0835 in cell;
  species s_0836 in cell, s_0841 in cell, s_0847 in cell, s_0849 in cell;
  species s_0897 in cell, s_0940 in cell, s_0943 in cell, s_0951 in cell;
  species s_0953 in cell, s_0955 in cell, s_0959 in cell, s_0965 in cell;
  species s_0969 in cell, s_0973 in cell, s_0978 in cell, s_0979 in cell;
  species s_0980 in cell, s_0981 in cell, s_0991 in cell, s_0999 in cell;
  species s_1003 in cell, s_1006 in cell, s_1010 in cell, s_1011 in cell;
  species s_1012 in cell, s_1014 in cell, s_1016 in cell, s_1021 in cell;
  species s_1025 in cell, s_1029 in cell, s_1032 in cell, s_1035 in cell;
  species s_1038 in cell, s_1039 in cell, s_1045 in cell, s_1048 in cell;
  species s_1051 in cell, s_1056 in cell, s_1059 in cell, s_1065 in cell;
  species s_1073 in cell, s_1077 in cell, s_1084 in cell, s_1099 in cell;
  species s_1101 in cell, s_1107 in cell, s_1148 in cell, s_1151 in cell;
  species s_1153 in cell, s_1161 in cell, s_1176 in cell, s_1182 in cell;
  species s_1187 in cell, s_1191 in cell, s_1192 in cell, s_1194 in cell;
  species NAD in cell, NADH in cell, s_1207 in cell, s_1212 in cell, s_1233 in cell;
  species s_1238 in cell, s_1255 in cell, s_1266 in cell, s_1269 in cell;
  species s_1270 in cell, s_1271 in cell, s_1275 in cell, $s_1277 in extracellular;
  species s_1286 in cell, s_1302 in cell, s_1314 in cell, PHO in cell, $s_1324 in extracellular;
  species s_1331 in cell, s_1337 in cell, s_1342 in cell, s_1343 in cell;
  species s_1346 in cell, s_1351 in cell, PEP in cell, s_1364 in cell, s_1365 in cell;
  species s_1376 in cell, s_1377 in cell, s_1379 in cell, s_1386 in cell;
  species PYR in cell, s_1405 in cell, s_1408 in cell, s_1413 in cell, s_1416 in cell;
  species s_1426 in cell, s_1427 in cell, s_1428 in cell, s_1429 in cell;
  species s_1445 in cell, s_1447 in cell, s_1449 in cell, s_1454 in cell;
  species s_1458 in cell, $s_1459 in extracellular, s_1467 in cell, $s_1468 in extracellular;
  species s_1469 in cell, s_1487 in cell, s_1491 in cell, s_1520 in cell;
  species s_1524 in cell, s_1527 in cell, s_1533 in cell, s_1535 in cell;
  species s_1537 in cell, s_1538 in cell, s_1543 in cell, s_1545 in cell;
  species s_1559 in cell, s_1561 in cell, s_1565 in cell, s_1569 in cell;
  species s_1576 in cell, s_1577 in cell, s_1578 in cell, s_1579 in cell;
  species s_1582 in cell, s_1583 in cell, s_1585 in cell, s_1587 in cell;
  species s_1589 in cell, s_1590 in cell, s_1591 in cell, s_1593 in cell;
  species s_1594 in cell, s_1596 in cell, s_1598 in cell, s_1600 in cell;
  species s_1602 in cell, s_1604 in cell, s_1606 in cell, s_1607 in cell;
  species s_1608 in cell, s_1610 in cell, s_1612 in cell, s_1614 in cell;
  species s_1616 in cell, s_1620 in cell, $e_0001 in cell, $e_0002 in cell;
  species $e_0003 in cell, $e_0004 in cell, $e_0005 in cell, $e_0006 in cell;
  species $e_0007 in cell, $e_0008 in cell, $e_0010 in cell, $e_0011 in cell;
  species $e_0012 in cell, $e_0017 in cell, $e_0020 in cell, $e_0022 in cell;
  species $e_0025 in cell, $e_0026 in cell, $e_0028 in cell, $e_0030 in cell;
  species $e_0031 in cell, $e_0033 in cell, $e_0038 in cell, $e_0045 in cell;
  species $e_0051 in cell, $e_0053 in cell, $e_0054 in cell, $e_0057 in cell;
  species $e_0062 in cell, $e_0063 in cell, $e_0064 in cell, $e_0065 in cell;
  species $e_0066 in cell, $e_0069 in cell, $e_0071 in cell, $e_0074 in cell;
  species $e_0079 in cell, $e_0084 in cell, $e_0087 in cell, $e_0088 in cell;
  species $e_0089 in cell, $e_0090 in cell, $e_0091 in cell, $e_0092 in cell;
  species $e_0100 in cell, $e_0101 in cell, $e_0103 in cell, $e_0106 in cell;
  species $e_0107 in cell, $e_0109 in cell, $e_0111 in cell, $e_0113 in cell;
  species $e_0117 in cell, $e_0122 in cell, $e_0124 in cell, $e_0127 in cell;
  species $e_0128 in cell, $e_0129 in cell, $e_0133 in cell, $e_0134 in cell;
  species $e_0135 in cell, $e_0136 in cell, $e_0137 in cell, $e_0141 in cell;
  species $e_0142 in cell, $e_0146 in cell, $e_0151 in cell, $e_0152 in cell;
  species $e_0154 in cell, $e_0155 in cell, $e_0160 in cell, $e_0165 in cell;
  species $e_0167 in cell, $e_0168 in cell, $e_0169 in cell, $e_0171 in cell;
  species $e_0175 in cell, $e_0176 in cell, $e_0177 in cell, $e_0179 in cell;
  species $e_0182 in cell, $e_0183 in cell, $e_0186 in cell, $e_0188 in cell;
  species $e_0194 in cell, $e_0196 in cell, $e_0202 in cell, $e_0203 in cell;
  species $e_0204 in cell, $e_0207 in cell, $e_0213 in cell, $e_0214 in cell;
  species $e_0218 in cell, $e_0219 in cell, $e_0220 in cell, $e_0223 in cell;
  species $e_0231 in cell, $e_0234 in cell, $e_0237 in cell, $e_0239 in cell;
  species $e_0243 in cell, $e_0249 in cell, $e_0250 in cell, $e_0251 in cell;
  species $e_0255 in cell, $e_0260 in cell, $e_0263 in cell, $e_0268 in cell;
  species $e_0269 in cell, $e_0271 in cell, $e_0273 in cell, $e_0276 in cell;
  species $e_0278 in cell, $e_0280 in cell, $e_0281 in cell, $e_0283 in cell;
  species $e_0288 in cell, $e_0289 in cell, $e_0290 in cell, $e_0291 in cell;
  species $e_0293 in cell, $e_0295 in cell, $e_0296 in cell, $e_0297 in cell;
  species $e_0298 in cell, $e_0299 in cell, $e_0303 in cell, $e_0311 in cell;
  species $e_0312 in cell, $e_0313 in cell, $e_0314 in cell, $e_0317 in cell;
  species $e_0320 in cell, $e_0321 in cell, $e_0322 in cell, $e_0325 in cell;
  species $e_0326 in cell, $e_0328 in cell, $e_0329 in cell, $e_0330 in cell;
  species $e_0334 in cell, $e_0340 in cell, $e_0342 in cell, $e_0343 in cell;
  species $e_0346 in cell, $e_0347 in cell, $e_0348 in cell, $e_0352 in cell;
  species $e_0353 in cell, $e_0355 in cell, $e_0356 in cell, $e_0362 in cell;
  species $e_0364 in cell, $e_0365 in cell, $e_0367 in cell, $e_0368 in cell;
  species $e_0370 in cell, $e_0372 in cell, $e_0376 in cell, $e_0379 in cell;
  species $e_0380 in cell, $e_0381 in cell, $e_0382 in cell, $e_0385 in cell;
  species $e_0387 in cell, $e_0389 in cell, $e_0390 in cell, $e_0392 in cell;
  species $e_0396 in cell, $e_0398 in cell, $e_0401 in cell, $e_0404 in cell;
  species $e_0405 in cell, $e_0407 in cell, $e_0409 in cell, $e_0417 in cell;
  species $e_0418 in cell, $e_0422 in cell, $e_0424 in cell, $e_0425 in cell;
  species $e_0426 in cell, $e_0427 in cell, $e_0428 in cell, $e_0429 in cell;
  species $e_0431 in cell, $e_0432 in cell, $e_0434 in cell, $e_0435 in cell;
  species $e_0436 in cell, $e_0440 in cell, $e_0447 in cell, $e_0448 in cell;
  species $e_0452 in cell, $e_0453 in cell, $e_0454 in cell, $e_0455 in cell;
  species $e_0456 in cell, $e_0457 in cell, $e_0458 in cell, $e_0462 in cell;
  species $e_0465 in cell, $e_0466 in cell, $e_0467 in cell, $e_0470 in cell;
  species $e_0472 in cell, $e_0475 in cell, $e_0476 in cell, $e_0489 in cell;
  species $e_0492 in cell, $e_0494 in cell, $e_0495 in cell, $e_0496 in cell;
  species $e_0499 in cell, $e_0506 in cell, $e_0508 in cell, $e_0510 in cell;
  species $e_0512 in cell, $e_0514 in cell, $e_0515 in cell, $e_0525 in cell;
  species $e_0528 in cell, $e_0531 in cell, $e_0536 in cell, $e_0540 in cell;
  species $e_0541 in cell, $e_0542 in cell, $e_0544 in cell, $e_0545 in cell;
  species $e_0547 in cell, $e_0548 in cell, $e_0549 in cell, $e_0550 in cell;
  species $e_0556 in cell, $e_0557 in cell, $e_0558 in cell, $e_0559 in cell;
  species $e_0561 in cell, $e_0565 in cell, $e_0567 in cell, $e_0568 in cell;
  species $e_0569 in cell, $e_0571 in cell, $e_0574 in cell, $e_0576 in cell;
  species $e_0578 in cell, $e_0579 in cell, $e_0581 in cell, $e_0582 in cell;
  species $e_0585 in cell, $e_0586 in cell, $e_0588 in cell, $e_0591 in cell;
  species $e_0594 in cell, $e_0601 in cell, $e_0603 in cell, $e_0607 in cell;
  species $e_0610 in cell, $e_0611 in cell, $e_0612 in cell, $e_0613 in cell;
  species $e_0615 in cell, $e_0619 in cell, $e_0621 in cell, $e_0629 in cell;
  species $e_0631 in cell, $e_0632 in cell, $e_0633 in cell, $e_0636 in cell;
  species $e_0638 in cell, $e_0639 in cell, $e_0642 in cell, $e_0644 in cell;
  species $e_0647 in cell, $e_0658 in cell, $e_0667 in cell, $e_0671 in cell;
  species $e_0674 in cell, $e_0675 in cell, $e_0682 in cell, $e_0684 in cell;
  species $e_0685 in cell, $e_0686 in cell, $e_0687 in cell, $e_0690 in cell;
  species $e_0692 in cell, $e_0693 in cell, $e_0695 in cell, $e_0697 in cell;
  species $e_0698 in cell, $e_0699 in cell, $e_0704 in cell, $e_0705 in cell;
  species $e_0708 in cell, $e_0709 in cell, $e_0711 in cell, $e_0712 in cell;
  species $e_0716 in cell, $e_0727 in cell, $e_0729 in cell, $e_0730 in cell;
  species $e_0733 in cell, $e_0734 in cell, $e_0736 in cell, $e_0740 in cell;
  species $e_0741 in cell, $e_0742 in cell, $e_0743 in cell, $e_0744 in cell;
  species $e_0745 in cell, $e_0746 in cell, $e_0747 in cell, $e_0750 in cell;
  species $e_0752 in cell, $e_0753 in cell, $e_0754 in cell, $e_0755 in cell;
  species $e_0757 in cell, $e_0761 in cell, $e_0762 in cell, $e_0763 in cell;
  species $e_0765 in cell, $e_0769 in cell, $e_0771 in cell, $e_0774 in cell;
  species $e_0778 in cell, $e_0788 in cell, $e_0791 in cell, $e_0792 in cell;
  species $e_0793 in cell, $e_0799 in cell, $e_0800 in cell, $e_0802 in cell;
  species $e_0805 in cell, $e_0808 in cell, $e_0812 in cell, $e_0813 in cell;
  species $e_0826 in cell, $e_0827 in cell, $e_0829 in cell, $e_0830 in cell;
  species $e_0832 in cell, $e_0834 in cell, $e_0836 in cell, $e_0838 in cell;
  species $e_0840 in cell, $e_0841 in cell, $e_0842 in cell, $e_0846 in cell;
  species $e_0848 in cell, $e_0850 in cell, $e_0851 in cell, $e_0852 in cell;
  species $e_0855 in cell, $e_0860 in cell, $e_0862 in cell, $e_0867 in cell;
  species $e_0869 in cell, $e_0875 in cell, $e_0880 in cell, $e_0883 in cell;
  species $e_0884 in cell, $e_0888 in cell, $e_0889 in cell, $e_0890 in cell;
  species $e_0892 in cell, $e_0894 in cell, $e_0895 in cell, $e_0898 in cell;
  species $e_0903 in cell, $e_0904 in cell, $e_0911 in cell, $e_0913 in cell;
  species $e_0915 in cell, $e_0922 in cell, $e_0924 in cell, $e_0926 in cell;
  species $e_0934 in cell, $e_0935 in cell, $e_0940 in cell, $e_0944 in cell;
  species $e_0947 in cell, $e_0950 in cell, $e_0953 in cell, $e_0955 in cell;
  species $e_0956 in cell, $e_0959 in cell, $e_0962 in cell, $e_0963 in cell;
  species $e_0964 in cell, $e_0970 in cell, $e_0973 in cell, $e_0975 in cell;
  species $e_0976 in cell, $e_0978 in cell, $e_0980 in cell, F26bP in cell;

  // Reactions:
  r_0001: s_0025 + 2 s_0709 -> 2 s_0710 + PYR; cell*r_0001_Vmax*(s_0025*s_0709^2 - s_0710^2*PYR/r_0001_Keq)/(r_0001_Km0025*r_0001_Km0709^2)/((1 + s_0025/r_0001_Km0025)*(1 + s_0709/r_0001_Km0709)^2 + (1 + s_0710/r_0001_Km0710)^2*(1 + PYR/r_0001_KmPYR) - 1);
  r_0004: s_0063 + 2 s_0709 -> 2 s_0710 + PYR; cell*r_0004_Vmax*(s_0063*s_0709^2 - s_0710^2*PYR/r_0004_Keq)/(r_0004_Km0063*r_0004_Km0709^2)/((1 + s_0063/r_0004_Km0063)*(1 + s_0709/r_0004_Km0709)^2 + (1 + s_0710/r_0004_Km0710)^2*(1 + PYR/r_0004_KmPYR) - 1);
  r_0005: s_1543 -> s_0002 + s_1538; cell*r_0005_Vmax*(s_1543 - s_0002*s_1538/r_0005_Keq)/r_0005_Km1543/(1 + s_1543/r_0005_Km1543 + (1 + s_0002/r_0005_Km0002)*(1 + s_1538/r_0005_Km1538) - 1);
  r_0006: s_1543 -> s_0004 + s_1538; cell*r_0006_Vmax*(s_1543 - s_0004*s_1538/r_0006_Keq)/r_0006_Km1543/(1 + s_1543/r_0006_Km1543 + (1 + s_0004/r_0006_Km0004)*(1 + s_1538/r_0006_Km1538) - 1);
  r_0007: s_0077 -> s_0312; cell*r_0007_Vmax*(s_0077 - s_0312/r_0007_Keq)/r_0007_Km0077/(1 + s_0077/r_0007_Km0077 + 1 + s_0312/r_0007_Km0312 - 1);
  r_0008: s_0082 + s_0380 -> s_0529 + s_1331; cell*r_0008_Vmax*(s_0082*s_0380 - s_0529*s_1331/r_0008_Keq)/(r_0008_Km0082*r_0008_Km0380)/((1 + s_0082/r_0008_Km0082)*(1 + s_0380/r_0008_Km0380) + (1 + s_0529/r_0008_Km0529)*(1 + s_1331/r_0008_Km1331) - 1);
  r_0012: s_0991 + NADH -> s_0118 + NAD; cell*r_0012_Vmax*(s_0991*NADH - s_0118*NAD/r_0012_Keq)/(r_0012_Km0991*r_0012_KmNADH)/((1 + s_0991/r_0012_Km0991)*(1 + NADH/r_0012_KmNADH) + (1 + s_0118/r_0012_Km0118)*(1 + NAD/r_0012_KmNAD) - 1);
  r_0014: s_0142 -> s_0313 + s_0419; cell*r_0014_Vmax*(s_0142 - s_0313*s_0419/r_0014_Keq)/r_0014_Km0142/(1 + s_0142/r_0014_Km0142 + (1 + s_0313/r_0014_Km0313)*(1 + s_0419/r_0014_Km0419) - 1);
  r_0015: s_0141 + s_1212 -> s_0142 + s_1207; cell*r_0015_Vmax*(s_0141*s_1212 - s_0142*s_1207/r_0015_Keq)/(r_0015_Km0141*r_0015_Km1212)/((1 + s_0141/r_0015_Km0141)*(1 + s_1212/r_0015_Km1212) + (1 + s_0142/r_0015_Km0142)*(1 + s_1207/r_0015_Km1207) - 1);
  r_0016: s_0178 + PYR -> s_0039 + CO2; cell*r_0016_Vmax*(s_0178*PYR - s_0039*CO2/r_0016_Keq)/(r_0016_Km0178*r_0016_KmPYR)/((1 + s_0178/r_0016_Km0178)*(1 + PYR/r_0016_KmPYR) + (1 + s_0039/r_0016_Km0039)*(1 + CO2/r_0016_KmCO2) - 1);
  r_0018: s_0176 + s_0991 -> s_0180 + s_0953; cell*r_0018_Vmax*(s_0176*s_0991 - s_0180*s_0953/r_0018_Keq)/(r_0018_Km0176*r_0018_Km0991)/((1 + s_0176/r_0018_Km0176)*(1 + s_0991/r_0018_Km0991) + (1 + s_0180/r_0018_Km0180)*(1 + s_0953/r_0018_Km0953) - 1);
  r_0020: s_0551 + PEP -> s_0349 + PHO; cell*r_0020_Vmax*(s_0551*PEP - s_0349*PHO/r_0020_Keq)/(r_0020_Km0551*r_0020_KmPEP)/((1 + s_0551/r_0020_Km0551)*(1 + PEP/r_0020_KmPEP) + (1 + s_0349/r_0020_Km0349)*(1 + PHO/r_0020_KmPHO) - 1);
  r_0023: s_0162 -> s_0165; cell*r_0023_Vmax*(s_0162 - s_0165/r_0023_Keq)/r_0023_Km0162/(1 + s_0162/r_0023_Km0162 + 1 + s_0165/r_0023_Km0165 - 1);
  r_0024: s_0232 + s_0373 -> s_0162 + s_0529; cell*r_0024_Vmax*(s_0232*s_0373 - s_0162*s_0529/r_0024_Keq)/(r_0024_Km0232*r_0024_Km0373)/((1 + s_0232/r_0024_Km0232)*(1 + s_0373/r_0024_Km0373) + (1 + s_0162/r_0024_Km0162)*(1 + s_0529/r_0024_Km0529) - 1);
  r_0027: s_0835 -> s_0454; cell*r_0027_Vmax*(s_0835 - s_0454/r_0027_Keq)/r_0027_Km0835/(1 + s_0835/r_0027_Km0835 + 1 + s_0454/r_0027_Km0454 - 1);
  r_0029: s_0010 -> s_0291 + CO2; cell*r_0029_Vmax*(s_0010 - s_0291*CO2/r_0029_Keq)/r_0029_Km0010/(1 + s_0010/r_0029_Km0010 + (1 + s_0291/r_0029_Km0291)*(1 + CO2/r_0029_KmCO2) - 1);
  r_0032: s_0390 -> AMP + PHO; cell*r_0032_Vmax*(s_0390 - AMP*PHO/r_0032_Keq)/r_0032_Km0390/(1 + s_0390/r_0032_Km0390 + (1 + AMP/r_0032_KmAMP)*(1 + PHO/r_0032_KmPHO) - 1);
  r_0038: s_0577 -> s_0158 + s_0722; cell*r_0038_Vmax*(s_0577 - s_0158*s_0722/r_0038_Keq)/r_0038_Km0577/(1 + s_0577/r_0038_Km0577 + (1 + s_0158/r_0038_Km0158)*(1 + s_0722/r_0038_Km0722) - 1);
  r_0039: s_0210 -> s_0211; cell*r_0039_Vmax*(s_0210 - s_0211/r_0039_Keq)/r_0039_Km0210/(1 + s_0210/r_0039_Km0210 + 1 + s_0211/r_0039_Km0211 - 1);
  r_0040: s_0349 -> s_0210 + PHO; cell*r_0040_Vmax*(s_0349 - s_0210*PHO/r_0040_Keq)/r_0040_Km0349/(1 + s_0349/r_0040_Km0349 + (1 + s_0210/r_0040_Km0210)*(1 + PHO/r_0040_KmPHO) - 1);
  r_0041: s_0231 + s_1212 -> s_1207 + s_1445; cell*r_0041_Vmax*(s_0231*s_1212 - s_1207*s_1445/r_0041_Keq)/(r_0041_Km0231*r_0041_Km1212)/((1 + s_0231/r_0041_Km0231)*(1 + s_1212/r_0041_Km1212) + (1 + s_1207/r_0041_Km1207)*(1 + s_1445/r_0041_Km1445) - 1);
  r_0060: s_0165 -> s_0009; cell*r_0060_Vmax*(s_0165 - s_0009/r_0060_Keq)/r_0060_Km0165/(1 + s_0165/r_0060_Km0165 + 1 + s_0009/r_0060_Km0009 - 1);
  r_0061: s_0009 + NAD -> s_0010 + NADH; cell*r_0061_Vmax*(s_0009*NAD - s_0010*NADH/r_0061_Keq)/(r_0061_Km0009*r_0061_KmNAD)/((1 + s_0009/r_0061_Km0009)*(1 + NAD/r_0061_KmNAD) + (1 + s_0010/r_0061_Km0010)*(1 + NADH/r_0061_KmNADH) - 1);
  r_0065: s_0261 + PEP -> s_0324 + PHO; cell*r_0065_Vmax*(s_0261*PEP - s_0324*PHO/r_0065_Keq)/(r_0065_Km0261*r_0065_KmPEP)/((1 + s_0261/r_0065_Km0261)*(1 + PEP/r_0065_KmPEP) + (1 + s_0324/r_0065_Km0324)*(1 + PHO/r_0065_KmPHO) - 1);
  r_0079: s_0301 + ATP + s_0999 -> s_0302 + ADP + s_0991 + PHO; cell*r_0079_Vmax*(s_0301*ATP*s_0999 - s_0302*ADP*s_0991*PHO/r_0079_Keq)/(r_0079_Km0301*r_0079_KmATP*r_0079_Km0999)/((1 + s_0301/r_0079_Km0301)*(1 + ATP/r_0079_KmATP)*(1 + s_0999/r_0079_Km0999) + (1 + s_0302/r_0079_Km0302)*(1 + ADP/r_0079_KmADP)*(1 + s_0991/r_0079_Km0991)*(1 + PHO/r_0079_KmPHO) - 1);
  r_0080: s_0306 + s_1212 -> s_0322 + s_1207; cell*r_0080_Vmax*(s_0306*s_1212 - s_0322*s_1207/r_0080_Keq)/(r_0080_Km0306*r_0080_Km1212)/((1 + s_0306/r_0080_Km0306)*(1 + s_1212/r_0080_Km1212) + (1 + s_0322/r_0080_Km0322)*(1 + s_1207/r_0080_Km1207) - 1);
  r_0091: s_0335 -> s_0340; cell*r_0091_Vmax*(s_0335 - s_0340/r_0091_Keq)/r_0091_Km0335/(1 + s_0335/r_0091_Km0335 + 1 + s_0340/r_0091_Km0340 - 1);
  r_0096: s_0146 + s_1212 -> s_0016 + s_1207; cell*r_0096_Vmax*(s_0146*s_1212 - s_0016*s_1207/r_0096_Keq)/(r_0096_Km0146*r_0096_Km1212)/((1 + s_0146/r_0096_Km0146)*(1 + s_1212/r_0096_Km1212) + (1 + s_0016/r_0096_Km0016)*(1 + s_1207/r_0096_Km1207) - 1);
  r_0097: 2 PYR -> s_0146 + CO2; cell*r_0097_Vmax*(PYR^2 - s_0146*CO2/r_0097_Keq)/r_0097_KmPYR^2/((1 + PYR/r_0097_KmPYR)^2 + (1 + s_0146/r_0097_Km0146)*(1 + CO2/r_0097_KmCO2) - 1);
  r_0103: 2 s_0373 -> s_0367 + s_0529; cell*r_0103_Vmax*(s_0373^2 - s_0367*s_0529/r_0103_Keq)/r_0103_Km0373^2/((1 + s_0373/r_0103_Km0373)^2 + (1 + s_0367/r_0103_Km0367)*(1 + s_0529/r_0103_Km0529) - 1);
  r_0108: s_0373 + ATP + s_0445 -> ADP + s_1101 + PHO; cell*r_0108_Vmax*(s_0373*ATP*s_0445 - ADP*s_1101*PHO/r_0108_Keq)/(r_0108_Km0373*r_0108_KmATP*r_0108_Km0445)/((1 + s_0373/r_0108_Km0373)*(1 + ATP/r_0108_KmATP)*(1 + s_0445/r_0108_Km0445) + (1 + ADP/r_0108_KmADP)*(1 + s_1101/r_0108_Km1101)*(1 + PHO/r_0108_KmPHO) - 1);
  r_0110: s_0362 + s_0529 -> s_0373; cell*r_0110_Vmax*(s_0362*s_0529 - s_0373/r_0110_Keq)/(r_0110_Km0362*r_0110_Km0529)/((1 + s_0362/r_0110_Km0362)*(1 + s_0529/r_0110_Km0529) + 1 + s_0373/r_0110_Km0373 - 1);
  r_0115: ATP + s_1192 -> ADP + s_1191; cell*r_0115_Vmax*(ATP*s_1192 - ADP*s_1191/r_0115_Keq)/(r_0115_KmATP*r_0115_Km1192)/((1 + ATP/r_0115_KmATP)*(1 + s_1192/r_0115_Km1192) + (1 + ADP/r_0115_KmADP)*(1 + s_1191/r_0115_Km1191) - 1);
  r_0118: s_0145 + s_0991 -> s_0180 + s_1182; cell*r_0118_Vmax*(s_0145*s_0991 - s_0180*s_1182/r_0118_Keq)/(r_0118_Km0145*r_0118_Km0991)/((1 + s_0145/r_0118_Km0145)*(1 + s_0991/r_0118_Km0991) + (1 + s_0180/r_0118_Km0180)*(1 + s_1182/r_0118_Km1182) - 1);
  r_0142: s_0386 + ATP -> ADP + AMP; cell*r_0142_Vmax*(s_0386*ATP - ADP*AMP/r_0142_Keq)/(r_0142_Km0386*r_0142_KmATP)/((1 + s_0386/r_0142_Km0386)*(1 + ATP/r_0142_KmATP) + (1 + ADP/r_0142_KmADP)*(1 + AMP/r_0142_KmAMP) - 1);
  r_0144: s_1413 -> s_0386 + s_1012; cell*r_0144_Vmax*(s_1413 - s_0386*s_1012/r_0144_Keq)/r_0144_Km1413/(1 + s_1413/r_0144_Km1413 + (1 + s_0386/r_0144_Km0386)*(1 + s_1012/r_0144_Km1012) - 1);
  AK: 2 ADP -> AMP + ATP; cell*AK_k*(ADP*ADP - AMP*ATP/AK_Keq);
  r_0150: AMP + s_0785 -> ADP + s_0739; cell*r_0150_Vmax*(AMP*s_0785 - ADP*s_0739/r_0150_Keq)/(r_0150_KmAMP*r_0150_Km0785)/((1 + AMP/r_0150_KmAMP)*(1 + s_0785/r_0150_Km0785) + (1 + ADP/r_0150_KmADP)*(1 + s_0739/r_0150_Km0739) - 1);
  r_0151: s_0299 -> s_0403 + s_0725; cell*r_0151_Vmax*(s_0299 - s_0403*s_0725/r_0151_Keq)/r_0151_Km0299/(1 + s_0299/r_0151_Km0299 + (1 + s_0403/r_0151_Km0403)*(1 + s_0725/r_0151_Km0725) - 1);
  r_0152: s_0393 -> AMP + s_0725; cell*r_0152_Vmax*(s_0393 - AMP*s_0725/r_0152_Keq)/r_0152_Km0393/(1 + s_0393/r_0152_Km0393 + (1 + AMP/r_0152_KmAMP)*(1 + s_0725/r_0152_Km0725) - 1);
  r_0153: s_0785 + s_0849 + s_0973 -> s_0393 + s_0739 + PHO; cell*r_0153_Vmax*(s_0785*s_0849*s_0973 - s_0393*s_0739*PHO/r_0153_Keq)/(r_0153_Km0785*r_0153_Km0849*r_0153_Km0973)/((1 + s_0785/r_0153_Km0785)*(1 + s_0849/r_0153_Km0849)*(1 + s_0973/r_0153_Km0973) + (1 + s_0393/r_0153_Km0393)*(1 + s_0739/r_0153_Km0739)*(1 + PHO/r_0153_KmPHO) - 1);
  r_0154: s_0298 + ATP -> s_0201 + ADP; cell*r_0154_Vmax*(s_0298*ATP - s_0201*ADP/r_0154_Keq)/(r_0154_Km0298*r_0154_KmATP)/((1 + s_0298/r_0154_Km0298)*(1 + ATP/r_0154_KmATP) + (1 + s_0201/r_0154_Km0201)*(1 + ADP/r_0154_KmADP) - 1);
  r_0156: s_0779 + s_0955 -> s_1003 + PYR; cell*r_0156_Vmax*(s_0779*s_0955 - s_1003*PYR/r_0156_Keq)/(r_0156_Km0779*r_0156_Km0955)/((1 + s_0779/r_0156_Km0779)*(1 + s_0955/r_0156_Km0955) + (1 + s_1003/r_0156_Km1003)*(1 + PYR/r_0156_KmPYR) - 1);
  r_0157: ATP + s_0955 + s_1582 -> s_0404 + AMP + s_0633; cell*r_0157_Vmax*(ATP*s_0955*s_1582 - s_0404*AMP*s_0633/r_0157_Keq)/(r_0157_KmATP*r_0157_Km0955*r_0157_Km1582)/((1 + ATP/r_0157_KmATP)*(1 + s_0955/r_0157_Km0955)*(1 + s_1582/r_0157_Km1582) + (1 + s_0404/r_0157_Km0404)*(1 + AMP/r_0157_KmAMP)*(1 + s_0633/r_0157_Km0633) - 1);
  ADH: AcAld + NADH -> EtOH + NAD; cell*(ADH_Vmax*(AcAld*NADH/(ADH_Kacald*ADH_Kinadh) - EtOH*NAD/(ADH_Kacald*ADH_Kinadh*ADH_Keq))/(1 + NADH/ADH_Kinadh + AcAld*ADH_Knadh/(ADH_Kinadh*ADH_Kacald) + EtOH*ADH_Knad/(ADH_Kinad*ADH_Ketoh) + NAD/ADH_Kinad + AcAld*NADH/(ADH_Kinadh*ADH_Kacald) + NADH*EtOH*ADH_Knad/(ADH_Kinadh*ADH_Kinad*ADH_Ketoh) + AcAld*NAD*ADH_Knadh/(ADH_Kinadh*ADH_Kinad*ADH_Kacald) + EtOH*NAD/(ADH_Ketoh*ADH_Kinad) + AcAld*NADH*EtOH/(ADH_Kinadh*ADH_Kietoh*ADH_Kacald) + AcAld*EtOH*NAD/(ADH_Kiacald*ADH_Kinad*ADH_Ketoh)));
  r_0173: AcAld + s_1207 -> s_0362 + s_1212; cell*r_0173_Vmax*(AcAld*s_1207 - s_0362*s_1212/r_0173_Keq)/(r_0173_KmAcAld*r_0173_Km1207)/((1 + AcAld/r_0173_KmAcAld)*(1 + s_1207/r_0173_Km1207) + (1 + s_0362/r_0173_Km0362)*(1 + s_1212/r_0173_Km1212) - 1);
  r_0174: AcAld + NAD -> s_0362 + NADH; cell*r_0174_Vmax*(AcAld*NAD - s_0362*NADH/r_0174_Keq)/(r_0174_KmAcAld*r_0174_KmNAD)/((1 + AcAld/r_0174_KmAcAld)*(1 + NAD/r_0174_KmNAD) + (1 + s_0362/r_0174_Km0362)*(1 + NADH/r_0174_KmNADH) - 1);
  r_0195: G6P + s_1543 -> s_0409 + s_1538; cell*r_0195_Vmax*(G6P*s_1543 - s_0409*s_1538/r_0195_Keq)/(r_0195_KmG6P*r_0195_Km1543)/((1 + G6P/r_0195_KmG6P)*(1 + s_1543/r_0195_Km1543) + (1 + s_0409/r_0195_Km0409)*(1 + s_1538/r_0195_Km1538) - 1);
  r_0202: s_0427 + s_1386 -> s_0633 + s_1187; cell*r_0202_Vmax*(s_0427*s_1386 - s_0633*s_1187/r_0202_Keq)/(r_0202_Km0427*r_0202_Km1386)/((1 + s_0427/r_0202_Km0427)*(1 + s_1386/r_0202_Km1386) + (1 + s_0633/r_0202_Km0633)*(1 + s_1187/r_0202_Km1187) - 1);
  r_0203: s_0515 + s_0999 -> s_0427 + s_0991 + PYR; cell*r_0203_Vmax*(s_0515*s_0999 - s_0427*s_0991*PYR/r_0203_Keq)/(r_0203_Km0515*r_0203_Km0999)/((1 + s_0515/r_0203_Km0515)*(1 + s_0999/r_0203_Km0999) + (1 + s_0427/r_0203_Km0427)*(1 + s_0991/r_0203_Km0991)*(1 + PYR/r_0203_KmPYR) - 1);
  r_0207: s_0015 -> s_0725 + s_0965; cell*r_0207_Vmax*(s_0015 - s_0725*s_0965/r_0207_Keq)/r_0207_Km0015/(1 + s_0015/r_0207_Km0015 + (1 + s_0725/r_0207_Km0725)*(1 + s_0965/r_0207_Km0965) - 1);
  r_0208: ATP + s_0973 + s_0979 -> s_0015 + AMP + s_0633; cell*r_0208_Vmax*(ATP*s_0973*s_0979 - s_0015*AMP*s_0633/r_0208_Keq)/(r_0208_KmATP*r_0208_Km0973*r_0208_Km0979)/((1 + ATP/r_0208_KmATP)*(1 + s_0973/r_0208_Km0973)*(1 + s_0979/r_0208_Km0979) + (1 + s_0015/r_0208_Km0015)*(1 + AMP/r_0208_KmAMP)*(1 + s_0633/r_0208_Km0633) - 1);
  r_0209: ATP + s_0965 + s_1583 -> AMP + s_0428 + s_0633; cell*r_0209_Vmax*(ATP*s_0965*s_1583 - AMP*s_0428*s_0633/r_0209_Keq)/(r_0209_KmATP*r_0209_Km0965*r_0209_Km1583)/((1 + ATP/r_0209_KmATP)*(1 + s_0965/r_0209_Km0965)*(1 + s_1583/r_0209_Km1583) + (1 + AMP/r_0209_KmAMP)*(1 + s_0428/r_0209_Km0428)*(1 + s_0633/r_0209_Km0633) - 1);
  r_0211: ATP + s_0973 + s_0999 -> AMP + s_0633 + s_0969 + s_0991; cell*r_0211_Vmax*(ATP*s_0973*s_0999 - AMP*s_0633*s_0969*s_0991/r_0211_Keq)/(r_0211_KmATP*r_0211_Km0973*r_0211_Km0999)/((1 + ATP/r_0211_KmATP)*(1 + s_0973/r_0211_Km0973)*(1 + s_0999/r_0211_Km0999) + (1 + AMP/r_0211_KmAMP)*(1 + s_0633/r_0211_Km0633)*(1 + s_0969/r_0211_Km0969)*(1 + s_0991/r_0211_Km0991) - 1);
  r_0212: ATP + s_0969 + s_1585 -> AMP + s_0430 + s_0633; cell*r_0212_Vmax*(ATP*s_0969*s_1585 - AMP*s_0430*s_0633/r_0212_Keq)/(r_0212_KmATP*r_0212_Km0969*r_0212_Km1585)/((1 + ATP/r_0212_KmATP)*(1 + s_0969/r_0212_Km0969)*(1 + s_1585/r_0212_Km1585) + (1 + AMP/r_0212_KmAMP)*(1 + s_0430/r_0212_Km0430)*(1 + s_0633/r_0212_Km0633) - 1);
  r_0214: s_0455 + s_0973 -> s_1194 + PHO; cell*r_0214_Vmax*(s_0455*s_0973 - s_1194*PHO/r_0214_Keq)/(r_0214_Km0455*r_0214_Km0973)/((1 + s_0455/r_0214_Km0455)*(1 + s_0973/r_0214_Km0973) + (1 + s_1194/r_0214_Km1194)*(1 + PHO/r_0214_KmPHO) - 1);
  r_0215: ATP + s_0973 -> s_0295 + ADP; cell*r_0215_Vmax*(ATP*s_0973 - s_0295*ADP/r_0215_Keq)/(r_0215_KmATP*r_0215_Km0973)/((1 + ATP/r_0215_KmATP)*(1 + s_0973/r_0215_Km0973) + (1 + s_0295/r_0215_Km0295)*(1 + ADP/r_0215_KmADP) - 1);
  r_0216: s_0991 + s_1271 -> s_0180 + s_0973; cell*r_0216_Vmax*(s_0991*s_1271 - s_0180*s_0973/r_0216_Keq)/(r_0216_Km0991*r_0216_Km1271)/((1 + s_0991/r_0216_Km0991)*(1 + s_1271/r_0216_Km1271) + (1 + s_0180/r_0216_Km0180)*(1 + s_0973/r_0216_Km0973) - 1);
  r_0219: s_0295 + s_1212 -> s_0978 + s_1207 + PHO; cell*r_0219_Vmax*(s_0295*s_1212 - s_0978*s_1207*PHO/r_0219_Keq)/(r_0219_Km0295*r_0219_Km1212)/((1 + s_0295/r_0219_Km0295)*(1 + s_1212/r_0219_Km1212) + (1 + s_0978/r_0219_Km0978)*(1 + s_1207/r_0219_Km1207)*(1 + PHO/r_0219_KmPHO) - 1);
  r_0220: ATP + s_0973 + s_1587 -> AMP + s_0432 + s_0633; cell*r_0220_Vmax*(ATP*s_0973*s_1587 - AMP*s_0432*s_0633/r_0220_Keq)/(r_0220_KmATP*r_0220_Km0973*r_0220_Km1587)/((1 + ATP/r_0220_KmATP)*(1 + s_0973/r_0220_Km0973)*(1 + s_1587/r_0220_Km1587) + (1 + AMP/r_0220_KmAMP)*(1 + s_0432/r_0220_Km0432)*(1 + s_0633/r_0220_Km0633) - 1);
  r_0225: ATP + s_1386 -> s_0326 + s_0633; cell*r_0225_Vmax*(ATP*s_1386 - s_0326*s_0633/r_0225_Keq)/(r_0225_KmATP*r_0225_Km1386)/((1 + ATP/r_0225_KmATP)*(1 + s_1386/r_0225_Km1386) + (1 + s_0326/r_0225_Km0326)*(1 + s_0633/r_0225_Km0633) - 1);
  r_0226: ADP + PHO -> ATP; cell*r_0226_Vmax*(ADP*PHO - ATP/r_0226_Keq)/(r_0226_KmADP*r_0226_KmPHO)/((1 + ADP/r_0226_KmADP)*(1 + PHO/r_0226_KmPHO) + 1 + ATP/r_0226_KmATP - 1);
  ATPase: ATP -> ADP + PHO; cell*ATPase_k*ATP;
  r_0231: s_0262 + s_1212 -> s_0122 + s_1207; cell*r_0231_Vmax*(s_0262*s_1212 - s_0122*s_1207/r_0231_Keq)/(r_0231_Km0262*r_0231_Km1212)/((1 + s_0262/r_0231_Km0262)*(1 + s_1212/r_0231_Km1212) + (1 + s_0122/r_0231_Km0122)*(1 + s_1207/r_0231_Km1207) - 1);
  r_0234: s_1207 + s_1578 -> CO2 + s_1212 + s_1579; cell*r_0234_Vmax*(s_1207*s_1578 - CO2*s_1212*s_1579/r_0234_Keq)/(r_0234_Km1207*r_0234_Km1578)/((1 + s_1207/r_0234_Km1207)*(1 + s_1578/r_0234_Km1578) + (1 + CO2/r_0234_KmCO2)*(1 + s_1212/r_0234_Km1212)*(1 + s_1579/r_0234_Km1579) - 1);
  r_0235: s_0297 + NAD -> s_0209 + CO2 + NADH; cell*r_0235_Vmax*(s_0297*NAD - s_0209*CO2*NADH/r_0235_Keq)/(r_0235_Km0297*r_0235_KmNAD)/((1 + s_0297/r_0235_Km0297)*(1 + NAD/r_0235_KmNAD) + (1 + s_0209/r_0235_Km0209)*(1 + CO2/r_0235_KmCO2)*(1 + NADH/r_0235_KmNADH) - 1);
  r_0236: s_0209 + s_1212 -> s_0296 + s_1207; cell*r_0236_Vmax*(s_0209*s_1212 - s_0296*s_1207/r_0236_Keq)/(r_0236_Km0209*r_0236_Km1212)/((1 + s_0209/r_0236_Km0209)*(1 + s_1212/r_0236_Km1212) + (1 + s_0296/r_0236_Km0296)*(1 + s_1207/r_0236_Km1207) - 1);
  r_0237: s_1212 + s_1579 -> s_1207 + s_1569; cell*r_0237_Vmax*(s_1212*s_1579 - s_1207*s_1569/r_0237_Keq)/(r_0237_Km1212*r_0237_Km1579)/((1 + s_1212/r_0237_Km1212)*(1 + s_1579/r_0237_Km1579) + (1 + s_1207/r_0237_Km1207)*(1 + s_1569/r_0237_Km1569) - 1);
  r_0238: s_0296 + s_1212 + s_1275 -> s_1207 + s_1576; cell*r_0238_Vmax*(s_0296*s_1212*s_1275 - s_1207*s_1576/r_0238_Keq)/(r_0238_Km0296*r_0238_Km1212*r_0238_Km1275)/((1 + s_0296/r_0238_Km0296)*(1 + s_1212/r_0238_Km1212)*(1 + s_1275/r_0238_Km1275) + (1 + s_1207/r_0238_Km1207)*(1 + s_1576/r_0238_Km1576) - 1);
  r_0239: s_1212 + s_1275 + s_1576 -> s_1207 + s_1577; cell*r_0239_Vmax*(s_1212*s_1275*s_1576 - s_1207*s_1577/r_0239_Keq)/(r_0239_Km1212*r_0239_Km1275*r_0239_Km1576)/((1 + s_1212/r_0239_Km1212)*(1 + s_1275/r_0239_Km1275)*(1 + s_1576/r_0239_Km1576) + (1 + s_1207/r_0239_Km1207)*(1 + s_1577/r_0239_Km1577) - 1);
  r_0240: s_1212 + s_1275 + s_1577 -> s_1207 + s_1578; cell*r_0240_Vmax*(s_1212*s_1275*s_1577 - s_1207*s_1578/r_0240_Keq)/(r_0240_Km1212*r_0240_Km1275*r_0240_Km1577)/((1 + s_1212/r_0240_Km1212)*(1 + s_1275/r_0240_Km1275)*(1 + s_1577/r_0240_Km1577) + (1 + s_1207/r_0240_Km1207)*(1 + s_1578/r_0240_Km1578) - 1);
  r_0241: s_0122 + 3 s_1212 + 3 s_1275 -> s_0297 + 3 s_1207; cell*r_0241_Vmax*(s_0122*s_1212^3*s_1275^3 - s_0297*s_1207^3/r_0241_Keq)/(r_0241_Km0122*r_0241_Km1212^3*r_0241_Km1275^3)/((1 + s_0122/r_0241_Km0122)*(1 + s_1212/r_0241_Km1212)^3*(1 + s_1275/r_0241_Km1275)^3 + (1 + s_0297/r_0241_Km0297)*(1 + s_1207/r_0241_Km1207)^3 - 1);
  r_0243: s_0700 -> s_0657; cell*r_0243_Vmax*(s_0700 - s_0657/r_0243_Keq)/r_0243_Km0700/(1 + s_0700/r_0243_Km0700 + 1 + s_0657/r_0243_Km0657 - 1);
  r_0244: s_0662 + s_1212 -> s_0666 + s_1207; cell*r_0244_Vmax*(s_0662*s_1212 - s_0666*s_1207/r_0244_Keq)/(r_0244_Km0662*r_0244_Km1212)/((1 + s_0662/r_0244_Km0662)*(1 + s_1212/r_0244_Km1212) + (1 + s_0666/r_0244_Km0666)*(1 + s_1207/r_0244_Km1207) - 1);
  r_0250: 2 ATP + s_0445 + s_0999 -> 2 ADP + s_0455 + s_0991 + PHO; cell*r_0250_Vmax*(ATP^2*s_0445*s_0999 - ADP^2*s_0455*s_0991*PHO/r_0250_Keq)/(r_0250_KmATP^2*r_0250_Km0445*r_0250_Km0999)/((1 + ATP/r_0250_KmATP)^2*(1 + s_0445/r_0250_Km0445)*(1 + s_0999/r_0250_Km0999) + (1 + ADP/r_0250_KmADP)^2*(1 + s_0455/r_0250_Km0455)*(1 + s_0991/r_0250_Km0991)*(1 + PHO/r_0250_KmPHO) - 1);
  r_0257: s_0539 + s_1331 -> s_0471 + s_0633; cell*r_0257_Vmax*(s_0539*s_1331 - s_0471*s_0633/r_0257_Keq)/(r_0257_Km0539*r_0257_Km1331)/((1 + s_0539/r_0257_Km0539)*(1 + s_1331/r_0257_Km1331) + (1 + s_0471/r_0257_Km0471)*(1 + s_0633/r_0257_Km0633) - 1);
  r_0264: s_0816 + s_1445 -> s_0478 + s_0529; cell*r_0264_Vmax*(s_0816*s_1445 - s_0478*s_0529/r_0264_Keq)/(r_0264_Km0816*r_0264_Km1445)/((1 + s_0816/r_0264_Km0816)*(1 + s_1445/r_0264_Km1445) + (1 + s_0478/r_0264_Km0478)*(1 + s_0529/r_0264_Km0529) - 1);
  r_0278: s_0515 -> s_1377; cell*r_0278_Vmax*(s_0515 - s_1377/r_0278_Keq)/r_0278_Km0515/(1 + s_0515/r_0278_Km0515 + 1 + s_1377/r_0278_Km1377 - 1);
  r_0279: s_0324 -> s_0515 + PHO; cell*r_0279_Vmax*(s_0324 - s_0515*PHO/r_0279_Keq)/r_0279_Km0324/(1 + s_0324/r_0279_Km0324 + (1 + s_0515/r_0279_Km0515)*(1 + PHO/r_0279_KmPHO) - 1);
  r_0280: s_0516 -> s_0940; cell*r_0280_Vmax*(s_0516 - s_0940/r_0280_Keq)/r_0280_Km0516/(1 + s_0516/r_0280_Km0516 + 1 + s_0940/r_0280_Km0940 - 1);
  r_0300: s_0373 + s_1271 -> s_0522 + s_0529; cell*r_0300_Vmax*(s_0373*s_1271 - s_0522*s_0529/r_0300_Keq)/(r_0300_Km0373*r_0300_Km1271)/((1 + s_0373/r_0300_Km0373)*(1 + s_1271/r_0300_Km1271) + (1 + s_0522/r_0300_Km0522)*(1 + s_0529/r_0300_Km0529) - 1);
  r_0302: s_0522 -> s_0516; cell*r_0302_Vmax*(s_0522 - s_0516/r_0302_Keq)/r_0302_Km0522/(1 + s_0522/r_0302_Km0522 + 1 + s_0516/r_0302_Km0516 - 1);
  r_0307: s_0419 + ATP + s_1559 -> ADP + s_0539 + PHO; cell*r_0307_Vmax*(s_0419*ATP*s_1559 - ADP*s_0539*PHO/r_0307_Keq)/(r_0307_Km0419*r_0307_KmATP*r_0307_Km1559)/((1 + s_0419/r_0307_Km0419)*(1 + ATP/r_0307_KmATP)*(1 + s_1559/r_0307_Km1559) + (1 + ADP/r_0307_KmADP)*(1 + s_0539/r_0307_Km0539)*(1 + PHO/r_0307_KmPHO) - 1);
  r_0309: s_1012 + s_1039 -> s_0980; cell*r_0309_Vmax*(s_1012*s_1039 - s_0980/r_0309_Keq)/(r_0309_Km1012*r_0309_Km1039)/((1 + s_1012/r_0309_Km1012)*(1 + s_1039/r_0309_Km1039) + 1 + s_0980/r_0309_Km0980 - 1);
  r_0310: s_0980 -> s_0178 + s_0419 + s_0981; cell*r_0310_Vmax*(s_0980 - s_0178*s_0419*s_0981/r_0310_Keq)/r_0310_Km0980/(1 + s_0980/r_0310_Km0980 + (1 + s_0178/r_0310_Km0178)*(1 + s_0419/r_0310_Km0419)*(1 + s_0981/r_0310_Km0981) - 1);
  r_0311: s_0981 + s_1233 -> s_0362 + s_0980; cell*r_0311_Vmax*(s_0981*s_1233 - s_0362*s_0980/r_0311_Keq)/(r_0311_Km0981*r_0311_Km1233)/((1 + s_0981/r_0311_Km0981)*(1 + s_1233/r_0311_Km1233) + (1 + s_0362/r_0311_Km0362)*(1 + s_0980/r_0311_Km0980) - 1);
  r_0313: ATP + s_0981 + s_1589 -> AMP + s_0542 + s_0633; cell*r_0313_Vmax*(ATP*s_0981*s_1589 - AMP*s_0542*s_0633/r_0313_Keq)/(r_0313_KmATP*r_0313_Km0981*r_0313_Km1589)/((1 + ATP/r_0313_KmATP)*(1 + s_0981/r_0313_Km0981)*(1 + s_1589/r_0313_Km1589) + (1 + AMP/r_0313_KmAMP)*(1 + s_0542/r_0313_Km0542)*(1 + s_0633/r_0313_Km0633) - 1);
  r_0317: s_1059 + 3 s_1212 + 3 s_1275 -> s_0262 + s_0722 + 3 s_1207; cell*r_0317_Vmax*(s_1059*s_1212^3*s_1275^3 - s_0262*s_0722*s_1207^3/r_0317_Keq)/(r_0317_Km1059*r_0317_Km1212^3*r_0317_Km1275^3)/((1 + s_1059/r_0317_Km1059)*(1 + s_1212/r_0317_Km1212)^3*(1 + s_1275/r_0317_Km1275)^3 + (1 + s_0262/r_0317_Km0262)*(1 + s_0722/r_0317_Km0722)*(1 + s_1207/r_0317_Km1207)^3 - 1);
  r_0326: s_0589 -> s_0419 + s_0654; cell*r_0326_Vmax*(s_0589 - s_0419*s_0654/r_0326_Keq)/r_0326_Km0589/(1 + s_0589/r_0326_Km0589 + (1 + s_0419/r_0326_Km0419)*(1 + s_0654/r_0326_Km0654) - 1);
  r_0330: ADP + s_0613 -> ATP + s_0615; cell*r_0330_Vmax*(ADP*s_0613 - ATP*s_0615/r_0330_Keq)/(r_0330_KmADP*r_0330_Km0613)/((1 + ADP/r_0330_KmADP)*(1 + s_0613/r_0330_Km0613) + (1 + ATP/r_0330_KmATP)*(1 + s_0615/r_0330_Km0615) - 1);
  r_0336: s_0529 + s_1524 -> s_0380 + s_0619; cell*r_0336_Vmax*(s_0529*s_1524 - s_0380*s_0619/r_0336_Keq)/(r_0336_Km0529*r_0336_Km1524)/((1 + s_0529/r_0336_Km0529)*(1 + s_1524/r_0336_Km1524) + (1 + s_0380/r_0336_Km0380)*(1 + s_0619/r_0336_Km0619) - 1);
  r_0337: s_1331 -> s_0619 + PHO; cell*r_0337_Vmax*(s_1331 - s_0619*PHO/r_0337_Keq)/r_0337_Km1331/(1 + s_1331/r_0337_Km1331 + (1 + s_0619/r_0337_Km0619)*(1 + PHO/r_0337_KmPHO) - 1);
  r_0344: s_0625 + s_1212 -> s_1207 + s_1487; cell*r_0344_Vmax*(s_0625*s_1212 - s_1207*s_1487/r_0344_Keq)/(r_0344_Km0625*r_0344_Km1212)/((1 + s_0625/r_0344_Km0625)*(1 + s_1212/r_0344_Km1212) + (1 + s_1207/r_0344_Km1207)*(1 + s_1487/r_0344_Km1487) - 1);
  r_0349: s_1194 -> s_0061; cell*r_0349_Vmax*(s_1194 - s_0061/r_0349_Keq)/r_0349_Km1194/(1 + s_1194/r_0349_Km1194 + 1 + s_0061/r_0349_Km0061 - 1);
  r_0352: s_0016 -> s_0232; cell*r_0352_Vmax*(s_0016 - s_0232/r_0352_Keq)/r_0352_Km0016/(1 + s_0016/r_0352_Km0016 + 1 + s_0232/r_0352_Km0232 - 1);
  r_0353: s_0008 -> s_0056; cell*r_0353_Vmax*(s_0008 - s_0056/r_0353_Keq)/r_0353_Km0008/(1 + s_0008/r_0353_Km0008 + 1 + s_0056/r_0353_Km0056 - 1);
  r_0355: s_0943 + s_1376 -> s_0633 + s_0745; cell*r_0355_Vmax*(s_0943*s_1376 - s_0633*s_0745/r_0355_Keq)/(r_0355_Km0943*r_0355_Km1376)/((1 + s_0943/r_0355_Km0943)*(1 + s_1376/r_0355_Km1376) + (1 + s_0633/r_0355_Km0633)*(1 + s_0745/r_0355_Km0745) - 1);
  r_0361: s_0645 + s_0743 -> s_0644 + s_0739; cell*r_0361_Vmax*(s_0645*s_0743 - s_0644*s_0739/r_0361_Keq)/(r_0361_Km0645*r_0361_Km0743)/((1 + s_0645/r_0361_Km0645)*(1 + s_0743/r_0361_Km0743) + (1 + s_0644/r_0361_Km0644)*(1 + s_0739/r_0361_Km0739) - 1);
  r_0362: s_0644 -> s_0645 + s_1107; cell*r_0362_Vmax*(s_0644 - s_0645*s_1107/r_0362_Keq)/r_0362_Km0644/(1 + s_0644/r_0362_Km0644 + (1 + s_0645/r_0362_Km0645)*(1 + s_1107/r_0362_Km1107) - 1);
  r_0364: s_0656 -> s_0633 + s_0654; cell*r_0364_Vmax*(s_0656 - s_0633*s_0654/r_0364_Keq)/r_0364_Km0656/(1 + s_0656/r_0364_Km0656 + (1 + s_0633/r_0364_Km0633)*(1 + s_0654/r_0364_Km0654) - 1);
  ENO: P2G -> PEP; cell*(ENO_Vmax*(P2G/ENO_Kp2g - PEP/(ENO_Kp2g*ENO_Keq))/(1 + P2G/ENO_Kp2g + PEP/ENO_Kpep));
  r_0386: s_0595 + s_1101 + 2 s_1212 -> CO2 + s_0529 + s_1065 + 2 s_1207; cell*r_0386_Vmax*(s_0595*s_1101*s_1212^2 - CO2*s_0529*s_1065*s_1207^2/r_0386_Keq)/(r_0386_Km0595*r_0386_Km1101*r_0386_Km1212^2)/((1 + s_0595/r_0386_Km0595)*(1 + s_1101/r_0386_Km1101)*(1 + s_1212/r_0386_Km1212)^2 + (1 + CO2/r_0386_KmCO2)*(1 + s_0529/r_0386_Km0529)*(1 + s_1065/r_0386_Km1065)*(1 + s_1207/r_0386_Km1207)^2 - 1);
  r_0387: s_1065 + s_1101 + 2 s_1212 -> CO2 + s_0529 + s_1161 + 2 s_1207; cell*r_0387_Vmax*(s_1065*s_1101*s_1212^2 - CO2*s_0529*s_1161*s_1207^2/r_0387_Keq)/(r_0387_Km1065*r_0387_Km1101*r_0387_Km1212^2)/((1 + s_1065/r_0387_Km1065)*(1 + s_1101/r_0387_Km1101)*(1 + s_1212/r_0387_Km1212)^2 + (1 + CO2/r_0387_KmCO2)*(1 + s_0529/r_0387_Km0529)*(1 + s_1161/r_0387_Km1161)*(1 + s_1207/r_0387_Km1207)^2 - 1);
  r_0389: s_1101 + s_1161 + 2 s_1212 -> CO2 + s_0529 + 2 s_1207 + s_1286; cell*r_0389_Vmax*(s_1101*s_1161*s_1212^2 - CO2*s_0529*s_1207^2*s_1286/r_0389_Keq)/(r_0389_Km1101*r_0389_Km1161*r_0389_Km1212^2)/((1 + s_1101/r_0389_Km1101)*(1 + s_1161/r_0389_Km1161)*(1 + s_1212/r_0389_Km1212)^2 + (1 + CO2/r_0389_KmCO2)*(1 + s_0529/r_0389_Km0529)*(1 + s_1207/r_0389_Km1207)^2*(1 + s_1286/r_0389_Km1286) - 1);
  r_0391: s_1101 + 2 s_1212 + s_1286 -> CO2 + s_0529 + 2 s_1207 + s_1449; cell*r_0391_Vmax*(s_1101*s_1212^2*s_1286 - CO2*s_0529*s_1207^2*s_1449/r_0391_Keq)/(r_0391_Km1101*r_0391_Km1212^2*r_0391_Km1286)/((1 + s_1101/r_0391_Km1101)*(1 + s_1212/r_0391_Km1212)^2*(1 + s_1286/r_0391_Km1286) + (1 + CO2/r_0391_KmCO2)*(1 + s_0529/r_0391_Km0529)*(1 + s_1207/r_0391_Km1207)^2*(1 + s_1449/r_0391_Km1449) - 1);
  r_0393: 3 s_1101 + 6 s_1212 + s_1449 -> 3 CO2 + 3 s_0529 + s_1084 + 6 s_1207; cell*r_0393_Vmax*(s_1101^3*s_1212^6*s_1449 - CO2^3*s_0529^3*s_1084*s_1207^6/r_0393_Keq)/(r_0393_Km1101^3*r_0393_Km1212^6*r_0393_Km1449)/((1 + s_1101/r_0393_Km1101)^3*(1 + s_1212/r_0393_Km1212)^6*(1 + s_1449/r_0393_Km1449) + (1 + CO2/r_0393_KmCO2)^3*(1 + s_0529/r_0393_Km0529)^3*(1 + s_1084/r_0393_Km1084)*(1 + s_1207/r_0393_Km1207)^6 - 1);
  r_0394: s_1084 + s_1101 + 2 s_1212 -> CO2 + s_0505 + s_0529 + 2 s_1207; cell*r_0394_Vmax*(s_1084*s_1101*s_1212^2 - CO2*s_0505*s_0529*s_1207^2/r_0394_Keq)/(r_0394_Km1084*r_0394_Km1101*r_0394_Km1212^2)/((1 + s_1084/r_0394_Km1084)*(1 + s_1101/r_0394_Km1101)*(1 + s_1212/r_0394_Km1212)^2 + (1 + CO2/r_0394_KmCO2)*(1 + s_0505/r_0394_Km0505)*(1 + s_0529/r_0394_Km0529)*(1 + s_1207/r_0394_Km1207)^2 - 1);
  r_0397: s_1101 + 2 s_1212 + s_1255 -> CO2 + s_0529 + s_0602 + 2 s_1207; cell*r_0397_Vmax*(s_1101*s_1212^2*s_1255 - CO2*s_0529*s_0602*s_1207^2/r_0397_Keq)/(r_0397_Km1101*r_0397_Km1212^2*r_0397_Km1255)/((1 + s_1101/r_0397_Km1101)*(1 + s_1212/r_0397_Km1212)^2*(1 + s_1255/r_0397_Km1255) + (1 + CO2/r_0397_KmCO2)*(1 + s_0529/r_0397_Km0529)*(1 + s_0602/r_0397_Km0602)*(1 + s_1207/r_0397_Km1207)^2 - 1);
  r_0398: s_0373 + 3 s_1101 + 6 s_1212 -> 3 CO2 + 3 s_0529 + 6 s_1207 + s_1255; cell*r_0398_Vmax*(s_0373*s_1101^3*s_1212^6 - CO2^3*s_0529^3*s_1207^6*s_1255/r_0398_Keq)/(r_0398_Km0373*r_0398_Km1101^3*r_0398_Km1212^6)/((1 + s_0373/r_0398_Km0373)*(1 + s_1101/r_0398_Km1101)^3*(1 + s_1212/r_0398_Km1212)^6 + (1 + CO2/r_0398_KmCO2)^3*(1 + s_0529/r_0398_Km0529)^3*(1 + s_1207/r_0398_Km1207)^6*(1 + s_1255/r_0398_Km1255) - 1);
  r_0399: AMP + s_0602 + s_0633 -> ATP + s_0529 + s_0595; cell*r_0399_Vmax*(AMP*s_0602*s_0633 - ATP*s_0529*s_0595/r_0399_Keq)/(r_0399_KmAMP*r_0399_Km0602*r_0399_Km0633)/((1 + AMP/r_0399_KmAMP)*(1 + s_0602/r_0399_Km0602)*(1 + s_0633/r_0399_Km0633) + (1 + ATP/r_0399_KmATP)*(1 + s_0529/r_0399_Km0529)*(1 + s_0595/r_0399_Km0595) - 1);
  r_0400: ATP + s_0529 + s_1065 -> AMP + s_0633 + s_1073; cell*r_0400_Vmax*(ATP*s_0529*s_1065 - AMP*s_0633*s_1073/r_0400_Keq)/(r_0400_KmATP*r_0400_Km0529*r_0400_Km1065)/((1 + ATP/r_0400_KmATP)*(1 + s_0529/r_0400_Km0529)*(1 + s_1065/r_0400_Km1065) + (1 + AMP/r_0400_KmAMP)*(1 + s_0633/r_0400_Km0633)*(1 + s_1073/r_0400_Km1073) - 1);
  r_0406: ATP + s_0505 + s_0529 -> AMP + s_0633 + s_0816; cell*r_0406_Vmax*(ATP*s_0505*s_0529 - AMP*s_0633*s_0816/r_0406_Keq)/(r_0406_KmATP*r_0406_Km0505*r_0406_Km0529)/((1 + ATP/r_0406_KmATP)*(1 + s_0505/r_0406_Km0505)*(1 + s_0529/r_0406_Km0529) + (1 + AMP/r_0406_KmAMP)*(1 + s_0633/r_0406_Km0633)*(1 + s_0816/r_0406_Km0816) - 1);
  r_0407: AMP + s_0633 + s_1454 -> ATP + s_0529 + s_1449; cell*r_0407_Vmax*(AMP*s_0633*s_1454 - ATP*s_0529*s_1449/r_0407_Keq)/(r_0407_KmAMP*r_0407_Km0633*r_0407_Km1454)/((1 + AMP/r_0407_KmAMP)*(1 + s_0633/r_0407_Km0633)*(1 + s_1454/r_0407_Km1454) + (1 + ATP/r_0407_KmATP)*(1 + s_0529/r_0407_Km0529)*(1 + s_1449/r_0407_Km1449) - 1);
  r_0432: s_0602 + s_1101 + 2 s_1212 -> CO2 + s_0529 + s_1073 + 2 s_1207; cell*r_0432_Vmax*(s_0602*s_1101*s_1212^2 - CO2*s_0529*s_1073*s_1207^2/r_0432_Keq)/(r_0432_Km0602*r_0432_Km1101*r_0432_Km1212^2)/((1 + s_0602/r_0432_Km0602)*(1 + s_1101/r_0432_Km1101)*(1 + s_1212/r_0432_Km1212)^2 + (1 + CO2/r_0432_KmCO2)*(1 + s_0529/r_0432_Km0529)*(1 + s_1073/r_0432_Km1073)*(1 + s_1207/r_0432_Km1207)^2 - 1);
  r_0433: s_1073 + s_1101 + 2 s_1212 -> CO2 + s_0529 + s_1176 + 2 s_1207; cell*r_0433_Vmax*(s_1073*s_1101*s_1212^2 - CO2*s_0529*s_1176*s_1207^2/r_0433_Keq)/(r_0433_Km1073*r_0433_Km1101*r_0433_Km1212^2)/((1 + s_1073/r_0433_Km1073)*(1 + s_1101/r_0433_Km1101)*(1 + s_1212/r_0433_Km1212)^2 + (1 + CO2/r_0433_KmCO2)*(1 + s_0529/r_0433_Km0529)*(1 + s_1176/r_0433_Km1176)*(1 + s_1207/r_0433_Km1207)^2 - 1);
  r_0434: s_1101 + s_1176 + 2 s_1212 -> CO2 + s_0529 + 2 s_1207 + s_1302; cell*r_0434_Vmax*(s_1101*s_1176*s_1212^2 - CO2*s_0529*s_1207^2*s_1302/r_0434_Keq)/(r_0434_Km1101*r_0434_Km1176*r_0434_Km1212^2)/((1 + s_1101/r_0434_Km1101)*(1 + s_1176/r_0434_Km1176)*(1 + s_1212/r_0434_Km1212)^2 + (1 + CO2/r_0434_KmCO2)*(1 + s_0529/r_0434_Km0529)*(1 + s_1207/r_0434_Km1207)^2*(1 + s_1302/r_0434_Km1302) - 1);
  r_0435: s_1101 + 2 s_1212 + s_1302 -> CO2 + s_0529 + 2 s_1207 + s_1454; cell*r_0435_Vmax*(s_1101*s_1212^2*s_1302 - CO2*s_0529*s_1207^2*s_1454/r_0435_Keq)/(r_0435_Km1101*r_0435_Km1212^2*r_0435_Km1302)/((1 + s_1101/r_0435_Km1101)*(1 + s_1212/r_0435_Km1212)^2*(1 + s_1302/r_0435_Km1302) + (1 + CO2/r_0435_KmCO2)*(1 + s_0529/r_0435_Km0529)*(1 + s_1207/r_0435_Km1207)^2*(1 + s_1454/r_0435_Km1454) - 1);
  r_0438: 4 s_0710 + s_1275 -> 4 s_0709; cell*r_0438_Vmax*(s_0710^4*s_1275 - s_0709^4/r_0438_Keq)/(r_0438_Km0710^4*r_0438_Km1275)/((1 + s_0710/r_0438_Km0710)^4*(1 + s_1275/r_0438_Km1275) + (1 + s_0709/r_0438_Km0709)^4 - 1);
  r_0439: 2 s_0709 + s_1535 -> 2 s_0710 + s_1537; cell*r_0439_Vmax*(s_0709^2*s_1535 - s_0710^2*s_1537/r_0439_Keq)/(r_0439_Km0709^2*r_0439_Km1535)/((1 + s_0709/r_0439_Km0709)^2*(1 + s_1535/r_0439_Km1535) + (1 + s_0710/r_0439_Km0710)^2*(1 + s_1537/r_0439_Km1537) - 1);
  r_0446: ATP + s_0722 + s_1487 -> s_0120 + ADP + PHO; cell*r_0446_Vmax*(ATP*s_0722*s_1487 - s_0120*ADP*PHO/r_0446_Keq)/(r_0446_KmATP*r_0446_Km0722*r_0446_Km1487)/((1 + ATP/r_0446_KmATP)*(1 + s_0722/r_0446_Km0722)*(1 + s_1487/r_0446_Km1487) + (1 + s_0120/r_0446_Km0120)*(1 + ADP/r_0446_KmADP)*(1 + PHO/r_0446_KmPHO) - 1);
  FBA: F16bP -> DHAP + GAP; cell*(FBA_Vmax*(F16bP/FBA_Kf16bp - DHAP*GAP/(FBA_Kf16bp*FBA_Keq))/(1 + F16bP/FBA_Kf16bp + DHAP/FBA_Kdhap + GAP/FBA_Kgap + F16bP*GAP/(FBA_Kf16bp*FBA_Kigap) + DHAP*GAP/(FBA_Kdhap*FBA_Kgap)));
  r_0451: s_0725 -> s_0066; cell*r_0451_Vmax*(s_0725 - s_0066/r_0451_Keq)/r_0451_Km0725/(1 + s_0725/r_0451_Km0725 + 1 + s_0066/r_0451_Km0066 - 1);
  r_0462: s_0745 + s_0943 -> s_0190 + s_0633; cell*r_0462_Vmax*(s_0745*s_0943 - s_0190*s_0633/r_0462_Keq)/(r_0462_Km0745*r_0462_Km0943)/((1 + s_0745/r_0462_Km0745)*(1 + s_0943/r_0462_Km0943) + (1 + s_0190/r_0462_Km0190)*(1 + s_0633/r_0462_Km0633) - 1);
  r_0466: G6P + s_1207 -> s_0335 + s_1212; cell*r_0466_Vmax*(G6P*s_1207 - s_0335*s_1212/r_0466_Keq)/(r_0466_KmG6P*r_0466_Km1207)/((1 + G6P/r_0466_KmG6P)*(1 + s_1207/r_0466_Km1207) + (1 + s_0335/r_0466_Km0335)*(1 + s_1212/r_0466_Km1212) - 1);
  PGI: G6P -> F6P; cell*(PGI_Vmax*(G6P/PGI_Kg6p - F6P/(PGI_Kg6p*PGI_Keq))/(1 + G6P/PGI_Kg6p + F6P/PGI_Kf6p));
  r_0470: s_0180 + s_0419 + NADH -> s_0991 + NAD; cell*r_0470_Vmax*(s_0180*s_0419*NADH - s_0991*NAD/r_0470_Keq)/(r_0470_Km0180*r_0470_Km0419*r_0470_KmNADH)/((1 + s_0180/r_0470_Km0180)*(1 + s_0419/r_0470_Km0419)*(1 + NADH/r_0470_KmNADH) + (1 + s_0991/r_0470_Km0991)*(1 + NAD/r_0470_KmNAD) - 1);
  r_0476: s_0419 + ATP + s_0991 -> ADP + s_0999 + PHO; cell*r_0476_Vmax*(s_0419*ATP*s_0991 - ADP*s_0999*PHO/r_0476_Keq)/(r_0476_Km0419*r_0476_KmATP*r_0476_Km0991)/((1 + s_0419/r_0476_Km0419)*(1 + ATP/r_0476_KmATP)*(1 + s_0991/r_0476_Km0991) + (1 + ADP/r_0476_KmADP)*(1 + s_0999/r_0476_Km0999)*(1 + PHO/r_0476_KmPHO) - 1);
  r_0478: ATP + s_0999 + s_1590 -> AMP + s_0633 + s_0747; cell*r_0478_Vmax*(ATP*s_0999*s_1590 - AMP*s_0633*s_0747/r_0478_Keq)/(r_0478_KmATP*r_0478_Km0999*r_0478_Km1590)/((1 + ATP/r_0478_KmATP)*(1 + s_0999/r_0478_Km0999)*(1 + s_1590/r_0478_Km1590) + (1 + AMP/r_0478_KmAMP)*(1 + s_0633/r_0478_Km0633)*(1 + s_0747/r_0478_Km0747) - 1);
  r_0479: ATP + s_0991 + s_1591 -> AMP + s_0633 + s_0748; cell*r_0479_Vmax*(ATP*s_0991*s_1591 - AMP*s_0633*s_0748/r_0479_Keq)/(r_0479_KmATP*r_0479_Km0991*r_0479_Km1591)/((1 + ATP/r_0479_KmATP)*(1 + s_0991/r_0479_Km0991)*(1 + s_1591/r_0479_Km1591) + (1 + AMP/r_0479_KmAMP)*(1 + s_0633/r_0479_Km0633)*(1 + s_0748/r_0479_Km0748) - 1);
  TDH: GAP + NAD + PHO -> BPG + NADH; (cell*TDH_Vmax/(TDH_Kgap*TDH_Knad*TDH_Kpho))*(GAP*NAD*PHO - BPG*NADH/TDH_Keq)/((1 + PHO/TDH_Kpho)*(1 + GAP/TDH_Kgap + BPG/TDH_Kbpg)*(1 + NAD/TDH_Knad + NADH/TDH_Knadh));
  r_0489: s_0767 -> GLY + PHO; cell*r_0489_Vmax*(s_0767 - GLY*PHO/r_0489_Keq)/r_0489_Km0767/(1 + s_0767/r_0489_Km0767 + (1 + GLY/r_0489_KmGLY)*(1 + PHO/r_0489_KmPHO) - 1);
  r_0491: DHAP + NADH -> s_0767 + NAD; cell*r_0491_Vmax*(DHAP*NADH - s_0767*NAD/r_0491_Keq)/(r_0491_KmDHAP*r_0491_KmNADH)/((1 + DHAP/r_0491_KmDHAP)*(1 + NADH/r_0491_KmNADH) + (1 + s_0767/r_0491_Km0767)*(1 + NAD/r_0491_KmNAD) - 1);
  r_0495: s_0380 + s_0767 -> s_0082 + s_0529; cell*r_0495_Vmax*(s_0380*s_0767 - s_0082*s_0529/r_0495_Keq)/(r_0495_Km0380*r_0495_Km0767)/((1 + s_0380/r_0495_Km0380)*(1 + s_0767/r_0495_Km0767) + (1 + s_0082/r_0495_Km0082)*(1 + s_0529/r_0495_Km0529) - 1);
  r_0499: s_0120 + s_0325 -> s_0301 + s_1487; cell*r_0499_Vmax*(s_0120*s_0325 - s_0301*s_1487/r_0499_Keq)/(r_0499_Km0120*r_0499_Km0325)/((1 + s_0120/r_0499_Km0120)*(1 + s_0325/r_0499_Km0325) + (1 + s_0301/r_0499_Km0301)*(1 + s_1487/r_0499_Km1487) - 1);
  r_0501: s_1003 + NAD + s_1487 -> s_0306 + s_0419 + CO2 + NADH; cell*r_0501_Vmax*(s_1003*NAD*s_1487 - s_0306*s_0419*CO2*NADH/r_0501_Keq)/(r_0501_Km1003*r_0501_KmNAD*r_0501_Km1487)/((1 + s_1003/r_0501_Km1003)*(1 + NAD/r_0501_KmNAD)*(1 + s_1487/r_0501_Km1487) + (1 + s_0306/r_0501_Km0306)*(1 + s_0419/r_0501_Km0419)*(1 + CO2/r_0501_KmCO2)*(1 + NADH/r_0501_KmNADH) - 1);
  r_0502: s_0306 + s_1003 -> s_1039 + s_1487; cell*r_0502_Vmax*(s_0306*s_1003 - s_1039*s_1487/r_0502_Keq)/(r_0502_Km0306*r_0502_Km1003)/((1 + s_0306/r_0502_Km0306)*(1 + s_1003/r_0502_Km1003) + (1 + s_1039/r_0502_Km1039)*(1 + s_1487/r_0502_Km1487) - 1);
  r_0510: s_1543 -> s_0773 + s_1538; cell*r_0510_Vmax*(s_1543 - s_0773*s_1538/r_0510_Keq)/r_0510_Km1543/(1 + s_1543/r_0510_Km1543 + (1 + s_0773/r_0510_Km0773)*(1 + s_1538/r_0510_Km1538) - 1);
  r_0512: ATP + s_1003 + s_1593 -> AMP + s_0633 + s_0757; cell*r_0512_Vmax*(ATP*s_1003*s_1593 - AMP*s_0633*s_0757/r_0512_Keq)/(r_0512_KmATP*r_0512_Km1003*r_0512_Km1593)/((1 + ATP/r_0512_KmATP)*(1 + s_1003/r_0512_Km1003)*(1 + s_1593/r_0512_Km1593) + (1 + AMP/r_0512_KmAMP)*(1 + s_0633/r_0512_Km0633)*(1 + s_0757/r_0512_Km0757) - 1);
  r_0514: ATP + s_0999 + s_1565 -> AMP + s_0633 + s_0782 + s_0991; cell*r_0514_Vmax*(ATP*s_0999*s_1565 - AMP*s_0633*s_0782*s_0991/r_0514_Keq)/(r_0514_KmATP*r_0514_Km0999*r_0514_Km1565)/((1 + ATP/r_0514_KmATP)*(1 + s_0999/r_0514_Km0999)*(1 + s_1565/r_0514_Km1565) + (1 + AMP/r_0514_KmAMP)*(1 + s_0633/r_0514_Km0633)*(1 + s_0782/r_0514_Km0782)*(1 + s_0991/r_0514_Km0991) - 1);
  r_0525: s_0785 -> s_0141 + s_0633 + s_0722; cell*r_0525_Vmax*(s_0785 - s_0141*s_0633*s_0722/r_0525_Keq)/r_0525_Km0785/(1 + s_0785/r_0525_Km0785 + (1 + s_0141/r_0525_Km0141)*(1 + s_0633/r_0525_Km0633)*(1 + s_0722/r_0525_Km0722) - 1);
  r_0528: ATP + s_0782 -> ADP + s_0739; cell*r_0528_Vmax*(ATP*s_0782 - ADP*s_0739/r_0528_Keq)/(r_0528_KmATP*r_0528_Km0782)/((1 + ATP/r_0528_KmATP)*(1 + s_0782/r_0528_Km0782) + (1 + ADP/r_0528_KmADP)*(1 + s_0739/r_0528_Km0739) - 1);
  r_0529: s_0586 + s_0782 -> s_0582 + s_0739; cell*r_0529_Vmax*(s_0586*s_0782 - s_0582*s_0739/r_0529_Keq)/(r_0529_Km0586*r_0529_Km0782)/((1 + s_0586/r_0529_Km0586)*(1 + s_0782/r_0529_Km0782) + (1 + s_0582/r_0529_Km0582)*(1 + s_0739/r_0529_Km0739) - 1);
  HXK: ATP + GLC -> ADP + G6P; cell*(HXK_Vmax*(GLC*ATP/(HXK_Kglc*HXK_Katp) - G6P*ADP/(HXK_Kglc*HXK_Katp*HXK_Keq))/((1 + GLC/HXK_Kglc + G6P/HXK_Kg6p)*(1 + ATP/HXK_Katp + ADP/HXK_Kadp)));
  r_0536: s_1010 + 2 NAD -> s_1006 + 2 NADH; cell*r_0536_Vmax*(s_1010*NAD^2 - s_1006*NADH^2/r_0536_Keq)/(r_0536_Km1010*r_0536_KmNAD^2)/((1 + s_1010/r_0536_Km1010)*(1 + NAD/r_0536_KmNAD)^2 + (1 + s_1006/r_0536_Km1006)*(1 + NADH/r_0536_KmNADH)^2 - 1);
  r_0537: s_1011 -> s_1010 + PHO; cell*r_0537_Vmax*(s_1011 - s_1010*PHO/r_0537_Keq)/r_0537_Km1011/(1 + s_1011/r_0537_Km1011 + (1 + s_1010/r_0537_Km1010)*(1 + PHO/r_0537_KmPHO) - 1);
  r_0538: s_0207 + s_0991 -> s_0180 + s_1011; cell*r_0538_Vmax*(s_0207*s_0991 - s_0180*s_1011/r_0538_Keq)/(r_0538_Km0207*r_0538_Km0991)/((1 + s_0207/r_0538_Km0207)*(1 + s_0991/r_0538_Km0991) + (1 + s_0180/r_0538_Km0180)*(1 + s_1011/r_0538_Km1011) - 1);
  r_0539: ATP + s_1006 + s_1594 -> AMP + s_0633 + s_0832; cell*r_0539_Vmax*(ATP*s_1006*s_1594 - AMP*s_0633*s_0832/r_0539_Keq)/(r_0539_KmATP*r_0539_Km1006*r_0539_Km1594)/((1 + ATP/r_0539_KmATP)*(1 + s_1006/r_0539_Km1006)*(1 + s_1594/r_0539_Km1594) + (1 + AMP/r_0539_KmAMP)*(1 + s_0633/r_0539_Km0633)*(1 + s_0832/r_0539_Km0832) - 1);
  r_0542: s_0454 -> s_0836; cell*r_0542_Vmax*(s_0454 - s_0836/r_0542_Keq)/r_0542_Km0454/(1 + s_0454/r_0542_Km0454 + 1 + s_0836/r_0542_Km0836 - 1);
  r_0543: s_0180 + s_0373 -> s_0529 + s_0835; cell*r_0543_Vmax*(s_0180*s_0373 - s_0529*s_0835/r_0543_Keq)/(r_0543_Km0180*r_0543_Km0373)/((1 + s_0180/r_0543_Km0180)*(1 + s_0373/r_0543_Km0373) + (1 + s_0529/r_0543_Km0529)*(1 + s_0835/r_0543_Km0835) - 1);
  r_0545: s_0836 + NAD -> s_0176 + NADH + CO2; cell*r_0545_Vmax*(s_0836*NAD - s_0176*NADH*CO2/r_0545_Keq)/(r_0545_Km0836*r_0545_KmNAD)/((1 + s_0836/r_0545_Km0836)*(1 + NAD/r_0545_KmNAD) + (1 + s_0176/r_0545_Km0176)*(1 + NADH/r_0545_KmNADH)*(1 + CO2/r_0545_KmCO2) - 1);
  r_0547: s_0978 + s_1212 -> s_1014 + s_1207; cell*r_0547_Vmax*(s_0978*s_1212 - s_1014*s_1207/r_0547_Keq)/(r_0547_Km0978*r_0547_Km1212)/((1 + s_0978/r_0547_Km0978)*(1 + s_1212/r_0547_Km1212) + (1 + s_1014/r_0547_Km1014)*(1 + s_1207/r_0547_Km1207) - 1);
  r_0548: ATP + s_1014 -> ADP + s_1238; cell*r_0548_Vmax*(ATP*s_1014 - ADP*s_1238/r_0548_Keq)/(r_0548_KmATP*r_0548_Km1014)/((1 + ATP/r_0548_KmATP)*(1 + s_1014/r_0548_Km1014) + (1 + ADP/r_0548_KmADP)*(1 + s_1238/r_0548_Km1238) - 1);
  r_0549: s_0373 + s_1014 -> s_0529 + s_1233; cell*r_0549_Vmax*(s_0373*s_1014 - s_0529*s_1233/r_0549_Keq)/(r_0549_Km0373*r_0549_Km1014)/((1 + s_0373/r_0549_Km0373)*(1 + s_1014/r_0549_Km1014) + (1 + s_0529/r_0549_Km0529)*(1 + s_1233/r_0549_Km1233) - 1);
  r_0553: s_0033 -> s_0025 + s_0750; cell*r_0553_Vmax*(s_0033 - s_0025*s_0750/r_0553_Keq)/r_0553_Km0033/(1 + s_0033/r_0553_Km0033 + (1 + s_0025/r_0553_Km0025)*(1 + s_0750/r_0553_Km0750) - 1);
  r_0558: s_0218 + 2 s_1212 -> s_0028 + s_0529 + 2 s_1207; cell*r_0558_Vmax*(s_0218*s_1212^2 - s_0028*s_0529*s_1207^2/r_0558_Keq)/(r_0558_Km0218*r_0558_Km1212^2)/((1 + s_0218/r_0558_Km0218)*(1 + s_1212/r_0558_Km1212)^2 + (1 + s_0028/r_0558_Km0028)*(1 + s_0529/r_0558_Km0529)*(1 + s_1207/r_0558_Km1207)^2 - 1);
  r_0559: s_0367 + s_0373 -> s_0218 + s_0529; cell*r_0559_Vmax*(s_0367*s_0373 - s_0218*s_0529/r_0559_Keq)/(r_0559_Km0367*r_0559_Km0373)/((1 + s_0367/r_0559_Km0367)*(1 + s_0373/r_0559_Km0373) + (1 + s_0218/r_0559_Km0218)*(1 + s_0529/r_0559_Km0529) - 1);
  r_0563: s_0312 + s_0999 -> s_0403 + s_0550 + s_0991; cell*r_0563_Vmax*(s_0312*s_0999 - s_0403*s_0550*s_0991/r_0563_Keq)/(r_0563_Km0312*r_0563_Km0999)/((1 + s_0312/r_0563_Km0312)*(1 + s_0999/r_0563_Km0999) + (1 + s_0403/r_0563_Km0403)*(1 + s_0550/r_0563_Km0550)*(1 + s_0991/r_0563_Km0991) - 1);
  r_0564: s_0550 -> s_0207; cell*r_0564_Vmax*(s_0550 - s_0207/r_0564_Keq)/r_0564_Km0550/(1 + s_0550/r_0564_Km0550 + 1 + s_0207/r_0564_Km0207 - 1);
  r_0565: s_0849 + NAD -> NADH + s_1565; cell*r_0565_Vmax*(s_0849*NAD - NADH*s_1565/r_0565_Keq)/(r_0565_Km0849*r_0565_KmNAD)/((1 + s_0849/r_0565_Km0849)*(1 + NAD/r_0565_KmNAD) + (1 + NADH/r_0565_KmNADH)*(1 + s_1565/r_0565_Km1565) - 1);
  r_0566: s_0076 -> s_0086 + CO2; cell*r_0566_Vmax*(s_0076 - s_0086*CO2/r_0566_Keq)/r_0566_Km0076/(1 + s_0076/r_0566_Km0076 + (1 + s_0086/r_0566_Km0086)*(1 + CO2/r_0566_KmCO2) - 1);
  r_0568: s_0633 -> 2 PHO; cell*r_0568_Vmax*(s_0633 - PHO^2/r_0568_Keq)/r_0568_Km0633/(1 + s_0633/r_0568_Km0633 + (1 + PHO/r_0568_KmPHO)^2 - 1);
  r_0570: s_1365 -> s_0849; cell*r_0570_Vmax*(s_1365 - s_0849/r_0570_Keq)/r_0570_Km1365/(1 + s_1365/r_0570_Km1365 + 1 + s_0849/r_0570_Km0849 - 1);
  r_0591: s_0089 + s_0478 -> s_0619 + s_0897; cell*r_0591_Vmax*(s_0089*s_0478 - s_0619*s_0897/r_0591_Keq)/(r_0591_Km0089*r_0591_Km0478)/((1 + s_0089/r_0591_Km0089)*(1 + s_0478/r_0591_Km0478) + (1 + s_0619/r_0591_Km0619)*(1 + s_0897/r_0591_Km0897) - 1);
  r_0658: s_0940 + NAD -> s_0180 + CO2 + NADH; cell*r_0658_Vmax*(s_0940*NAD - s_0180*CO2*NADH/r_0658_Keq)/(r_0658_Km0940*r_0658_KmNAD)/((1 + s_0940/r_0658_Km0940)*(1 + NAD/r_0658_KmNAD) + (1 + s_0180/r_0658_Km0180)*(1 + CO2/r_0658_KmCO2)*(1 + NADH/r_0658_KmNADH) - 1);
  r_0661: s_0940 + s_1207 -> s_0180 + CO2 + s_1212; cell*r_0661_Vmax*(s_0940*s_1207 - s_0180*CO2*s_1212/r_0661_Keq)/(r_0661_Km0940*r_0661_Km1207)/((1 + s_0940/r_0661_Km0940)*(1 + s_1207/r_0661_Km1207) + (1 + s_0180/r_0661_Km0180)*(1 + CO2/r_0661_KmCO2)*(1 + s_1212/r_0661_Km1212) - 1);
  r_0662: s_0940 -> s_0779 + s_1458; cell*r_0662_Vmax*(s_0940 - s_0779*s_1458/r_0662_Keq)/r_0662_Km0940/(1 + s_0940/r_0662_Km0940 + (1 + s_0779/r_0662_Km0779)*(1 + s_1458/r_0662_Km1458) - 1);
  r_0663: s_0056 + s_0991 -> s_0180 + s_1016; cell*r_0663_Vmax*(s_0056*s_0991 - s_0180*s_1016/r_0663_Keq)/(r_0663_Km0056*r_0663_Km0991)/((1 + s_0056/r_0663_Km0056)*(1 + s_0991/r_0663_Km0991) + (1 + s_0180/r_0663_Km0180)*(1 + s_1016/r_0663_Km1016) - 1);
  r_0665: ATP + s_1016 + s_1596 -> AMP + s_0633 + s_0847; cell*r_0665_Vmax*(ATP*s_1016*s_1596 - AMP*s_0633*s_0847/r_0665_Keq)/(r_0665_KmATP*r_0665_Km1016*r_0665_Km1596)/((1 + ATP/r_0665_KmATP)*(1 + s_1016/r_0665_Km1016)*(1 + s_1596/r_0665_Km1596) + (1 + AMP/r_0665_KmAMP)*(1 + s_0633/r_0665_Km0633)*(1 + s_0847/r_0665_Km0847) - 1);
  r_0667: s_0943 -> s_1376; cell*r_0667_Vmax*(s_0943 - s_1376/r_0667_Keq)/r_0667_Km0943/(1 + s_0943/r_0667_Km0943 + 1 + s_1376/r_0667_Km1376 - 1);
  r_0669: s_0039 + s_1212 -> s_0008 + s_1207; cell*r_0669_Vmax*(s_0039*s_1212 - s_0008*s_1207/r_0669_Keq)/(r_0669_Km0039*r_0669_Km1212)/((1 + s_0039/r_0669_Km0039)*(1 + s_1212/r_0669_Km1212) + (1 + s_0008/r_0669_Km0008)*(1 + s_1207/r_0669_Km1207) - 1);
  r_0674: s_0991 + PYR -> s_0180 + s_0955; cell*r_0674_Vmax*(s_0991*PYR - s_0180*s_0955/r_0674_Keq)/(r_0674_Km0991*r_0674_KmPYR)/((1 + s_0991/r_0674_Km0991)*(1 + PYR/r_0674_KmPYR) + (1 + s_0180/r_0674_Km0180)*(1 + s_0955/r_0674_Km0955) - 1);
  r_0678: s_0953 + s_1212 -> s_0959 + s_1207; cell*r_0678_Vmax*(s_0953*s_1212 - s_0959*s_1207/r_0678_Keq)/(r_0678_Km0953*r_0678_Km1212)/((1 + s_0953/r_0678_Km0953)*(1 + s_1212/r_0678_Km1212) + (1 + s_0959/r_0678_Km0959)*(1 + s_1207/r_0678_Km1207) - 1);
  r_0688: s_1151 + s_1212 -> s_0062 + s_1207; cell*r_0688_Vmax*(s_1151*s_1212 - s_0062*s_1207/r_0688_Keq)/(r_0688_Km1151*r_0688_Km1212)/((1 + s_1151/r_0688_Km1151)*(1 + s_1212/r_0688_Km1212) + (1 + s_0062/r_0688_Km0062)*(1 + s_1207/r_0688_Km1207) - 1);
  r_0692: s_1045 -> s_0178 + s_0419; cell*r_0692_Vmax*(s_1045 - s_0178*s_0419/r_0692_Keq)/r_0692_Km1045/(1 + s_1045/r_0692_Km1045 + (1 + s_0178/r_0692_Km0178)*(1 + s_0419/r_0692_Km0419) - 1);
  r_0696: s_0062 + NAD -> s_0063 + NADH; cell*r_0696_Vmax*(s_0062*NAD - s_0063*NADH/r_0696_Keq)/(r_0696_Km0062*r_0696_KmNAD)/((1 + s_0062/r_0696_Km0062)*(1 + NAD/r_0696_KmNAD) + (1 + s_0063/r_0696_Km0063)*(1 + NADH/r_0696_KmNADH) - 1);
  r_0697: s_0750 + s_1151 -> s_0033; cell*r_0697_Vmax*(s_0750*s_1151 - s_0033/r_0697_Keq)/(r_0697_Km0750*r_0697_Km1151)/((1 + s_0750/r_0697_Km0750)*(1 + s_1151/r_0697_Km1151) + 1 + s_0033/r_0697_Km0033 - 1);
  r_0698: s_0037 -> s_1059; cell*r_0698_Vmax*(s_0037 - s_1059/r_0698_Keq)/r_0698_Km0037/(1 + s_0037/r_0698_Km0037 + 1 + s_1059/r_0698_Km1059 - 1);
  r_0699: s_0291 + s_0991 -> s_0180 + s_1021; cell*r_0699_Vmax*(s_0291*s_0991 - s_0180*s_1021/r_0699_Keq)/(r_0699_Km0291*r_0699_Km0991)/((1 + s_0291/r_0699_Km0291)*(1 + s_0991/r_0699_Km0991) + (1 + s_0180/r_0699_Km0180)*(1 + s_1021/r_0699_Km1021) - 1);
  r_0701: ATP + s_1021 + s_1598 -> AMP + s_0633 + s_1077; cell*r_0701_Vmax*(ATP*s_1021*s_1598 - AMP*s_0633*s_1077/r_0701_Keq)/(r_0701_KmATP*r_0701_Km1021*r_0701_Km1598)/((1 + ATP/r_0701_KmATP)*(1 + s_1021/r_0701_Km1021)*(1 + s_1598/r_0701_Km1598) + (1 + AMP/r_0701_KmAMP)*(1 + s_0633/r_0701_Km0633)*(1 + s_1077/r_0701_Km1077) - 1);
  r_0711: ATP + s_1025 + s_1600 -> AMP + s_0633 + s_1099; cell*r_0711_Vmax*(ATP*s_1025*s_1600 - AMP*s_0633*s_1099/r_0711_Keq)/(r_0711_KmATP*r_0711_Km1025*r_0711_Km1600)/((1 + ATP/r_0711_KmATP)*(1 + s_1025/r_0711_Km1025)*(1 + s_1600/r_0711_Km1600) + (1 + AMP/r_0711_KmAMP)*(1 + s_0633/r_0711_Km0633)*(1 + s_1099/r_0711_Km1099) - 1);
  r_0713: s_0066 + NAD -> NADH + s_1271; cell*r_0713_Vmax*(s_0066*NAD - NADH*s_1271/r_0713_Keq)/(r_0713_Km0066*r_0713_KmNAD)/((1 + s_0066/r_0713_Km0066)*(1 + NAD/r_0713_KmNAD) + (1 + NADH/r_0713_KmNADH)*(1 + s_1271/r_0713_Km1271) - 1);
  r_0722: s_0573 + s_0785 -> s_0633 + s_0743; cell*r_0722_Vmax*(s_0573*s_0785 - s_0633*s_0743/r_0722_Keq)/(r_0722_Km0573*r_0722_Km0785)/((1 + s_0573/r_0722_Km0573)*(1 + s_0785/r_0722_Km0785) + (1 + s_0633/r_0722_Km0633)*(1 + s_0743/r_0722_Km0743) - 1);
  r_0723: F6P -> s_0574; cell*r_0723_Vmax*(F6P - s_0574/r_0723_Keq)/r_0723_KmF6P/(1 + F6P/r_0723_KmF6P + 1 + s_0574/r_0723_Km0574 - 1);
  r_0724: s_0304 -> s_0120; cell*r_0724_Vmax*(s_0304 - s_0120/r_0724_Keq)/r_0724_Km0304/(1 + s_0304/r_0724_Km0304 + 1 + s_0120/r_0724_Km0120 - 1);
  r_0726: ATP + s_1029 -> s_0633 + PHO + s_1416; cell*r_0726_Vmax*(ATP*s_1029 - s_0633*PHO*s_1416/r_0726_Keq)/(r_0726_KmATP*r_0726_Km1029)/((1 + ATP/r_0726_KmATP)*(1 + s_1029/r_0726_Km1029) + (1 + s_0633/r_0726_Km0633)*(1 + PHO/r_0726_KmPHO)*(1 + s_1416/r_0726_Km1416) - 1);
  r_0727: s_0322 + s_1012 -> s_1029 + s_1487; cell*r_0727_Vmax*(s_0322*s_1012 - s_1029*s_1487/r_0727_Keq)/(r_0727_Km0322*r_0727_Km1012)/((1 + s_0322/r_0727_Km0322)*(1 + s_1012/r_0727_Km1012) + (1 + s_1029/r_0727_Km1029)*(1 + s_1487/r_0727_Km1487) - 1);
  r_0729: ATP + s_1029 + s_1602 -> AMP + s_0633 + s_1148; cell*r_0729_Vmax*(ATP*s_1029*s_1602 - AMP*s_0633*s_1148/r_0729_Keq)/(r_0729_KmATP*r_0729_Km1029*r_0729_Km1602)/((1 + ATP/r_0729_KmATP)*(1 + s_1029/r_0729_Km1029)*(1 + s_1602/r_0729_Km1602) + (1 + AMP/r_0729_KmAMP)*(1 + s_0633/r_0729_Km0633)*(1 + s_1148/r_0729_Km1148) - 1);
  r_0731: s_0304 + NADH -> s_0306 + NAD; cell*r_0731_Vmax*(s_0304*NADH - s_0306*NAD/r_0731_Keq)/(r_0731_Km0304*r_0731_KmNADH)/((1 + s_0304/r_0731_Km0304)*(1 + NADH/r_0731_KmNADH) + (1 + s_0306/r_0731_Km0306)*(1 + NAD/r_0731_KmNAD) - 1);
  r_0732: s_0306 + s_1207 -> s_0304 + s_1212; cell*r_0732_Vmax*(s_0306*s_1207 - s_0304*s_1212/r_0732_Keq)/(r_0732_Km0306*r_0732_Km1207)/((1 + s_0306/r_0732_Km0306)*(1 + s_1207/r_0732_Km1207) + (1 + s_0304/r_0732_Km0304)*(1 + s_1212/r_0732_Km1212) - 1);
  r_0735: s_0028 + ATP -> s_0019 + ADP; cell*r_0735_Vmax*(s_0028*ATP - s_0019*ADP/r_0735_Keq)/(r_0735_Km0028*r_0735_KmATP)/((1 + s_0028/r_0735_Km0028)*(1 + ATP/r_0735_KmATP) + (1 + s_0019/r_0735_Km0019)*(1 + ADP/r_0735_KmADP) - 1);
  r_0736: s_0028 + s_0539 -> s_0019 + s_0467; cell*r_0736_Vmax*(s_0028*s_0539 - s_0019*s_0467/r_0736_Keq)/(r_0736_Km0028*r_0736_Km0539)/((1 + s_0028/r_0736_Km0028)*(1 + s_0539/r_0736_Km0539) + (1 + s_0019/r_0736_Km0019)*(1 + s_0467/r_0736_Km0467) - 1);
  r_0739: s_0018 + ATP -> ADP + CO2 + s_0943 + PHO; cell*r_0739_Vmax*(s_0018*ATP - ADP*CO2*s_0943*PHO/r_0739_Keq)/(r_0739_Km0018*r_0739_KmATP)/((1 + s_0018/r_0739_Km0018)*(1 + ATP/r_0739_KmATP) + (1 + ADP/r_0739_KmADP)*(1 + CO2/r_0739_KmCO2)*(1 + s_0943/r_0739_Km0943)*(1 + PHO/r_0739_KmPHO) - 1);
  r_0757: s_0126 -> s_1153 + PHO; cell*r_0757_Vmax*(s_0126 - s_1153*PHO/r_0757_Keq)/r_0757_Km0126/(1 + s_0126/r_0757_Km0126 + (1 + s_1153/r_0757_Km1153)*(1 + PHO/r_0757_KmPHO) - 1);
  r_0758: G6P -> s_0126; cell*r_0758_Vmax*(G6P - s_0126/r_0758_Keq)/r_0758_KmG6P/(1 + G6P/r_0758_KmG6P + 1 + s_0126/r_0758_Km0126 - 1);
  r_0759: s_1191 + s_1212 -> s_0145 + s_1207 + PHO; cell*r_0759_Vmax*(s_1191*s_1212 - s_0145*s_1207*PHO/r_0759_Keq)/(r_0759_Km1191*r_0759_Km1212)/((1 + s_1191/r_0759_Km1191)*(1 + s_1212/r_0759_Km1212) + (1 + s_0145/r_0759_Km0145)*(1 + s_1207/r_0759_Km1207)*(1 + PHO/r_0759_KmPHO) - 1);
  r_0792: s_0467 -> s_0526 + PHO; cell*r_0792_Vmax*(s_0467 - s_0526*PHO/r_0792_Keq)/r_0792_Km0467/(1 + s_0467/r_0792_Km0467 + (1 + s_0526/r_0792_Km0526)*(1 + PHO/r_0792_KmPHO) - 1);
  r_0800: ATP + s_0739 -> ADP + s_0785; cell*r_0800_Vmax*(ATP*s_0739 - ADP*s_0785/r_0800_Keq)/(r_0800_KmATP*r_0800_Km0739)/((1 + ATP/r_0800_KmATP)*(1 + s_0739/r_0800_Km0739) + (1 + ADP/r_0800_KmADP)*(1 + s_0785/r_0800_Km0785) - 1);
  r_0811: ATP + s_1538 -> ADP + s_1559; cell*r_0811_Vmax*(ATP*s_1538 - ADP*s_1559/r_0811_Keq)/(r_0811_KmATP*r_0811_Km1538)/((1 + ATP/r_0811_KmATP)*(1 + s_1538/r_0811_Km1538) + (1 + ADP/r_0811_KmADP)*(1 + s_1559/r_0811_Km1559) - 1);
  r_0813: s_0841 + s_1233 -> s_0362 + s_1012; cell*r_0813_Vmax*(s_0841*s_1233 - s_0362*s_1012/r_0813_Keq)/(r_0813_Km0841*r_0813_Km1233)/((1 + s_0841/r_0813_Km0841)*(1 + s_1233/r_0813_Km1233) + (1 + s_0362/r_0813_Km0362)*(1 + s_1012/r_0813_Km1012) - 1);
  r_0816: s_0455 + s_1266 -> s_0979 + PHO; cell*r_0816_Vmax*(s_0455*s_1266 - s_0979*PHO/r_0816_Keq)/(r_0816_Km0455*r_0816_Km1266)/((1 + s_0455/r_0816_Km0455)*(1 + s_1266/r_0816_Km1266) + (1 + s_0979/r_0816_Km0979)*(1 + PHO/r_0816_KmPHO) - 1);
  r_0818: s_0991 + s_1182 -> s_1192 + s_1266; cell*r_0818_Vmax*(s_0991*s_1182 - s_1192*s_1266/r_0818_Keq)/(r_0818_Km0991*r_0818_Km1182)/((1 + s_0991/r_0818_Km0991)*(1 + s_1182/r_0818_Km1182) + (1 + s_1192/r_0818_Km1192)*(1 + s_1266/r_0818_Km1266) - 1);
  r_0820: s_1269 + s_1386 -> s_0633 + s_1270; cell*r_0820_Vmax*(s_1269*s_1386 - s_0633*s_1270/r_0820_Keq)/(r_0820_Km1269*r_0820_Km1386)/((1 + s_1269/r_0820_Km1269)*(1 + s_1386/r_0820_Km1386) + (1 + s_0633/r_0820_Km0633)*(1 + s_1270/r_0820_Km1270) - 1);
  r_0821: s_1270 -> CO2 + s_1545; cell*r_0821_Vmax*(s_1270 - CO2*s_1545/r_0821_Keq)/r_0821_Km1270/(1 + s_1270/r_0821_Km1270 + (1 + CO2/r_0821_KmCO2)*(1 + s_1545/r_0821_Km1545) - 1);
  r_0851: s_0951 + s_0991 -> s_0180 + s_1032; cell*r_0851_Vmax*(s_0951*s_0991 - s_0180*s_1032/r_0851_Keq)/(r_0851_Km0951*r_0851_Km0991)/((1 + s_0951/r_0851_Km0951)*(1 + s_0991/r_0851_Km0991) + (1 + s_0180/r_0851_Km0180)*(1 + s_1032/r_0851_Km1032) - 1);
  r_0852: ATP + s_1032 + s_1604 -> AMP + s_0633 + s_1314; cell*r_0852_Vmax*(ATP*s_1032*s_1604 - AMP*s_0633*s_1314/r_0852_Keq)/(r_0852_KmATP*r_0852_Km1032*r_0852_Km1604)/((1 + ATP/r_0852_KmATP)*(1 + s_1032/r_0852_Km1032)*(1 + s_1604/r_0852_Km1604) + (1 + AMP/r_0852_KmAMP)*(1 + s_0633/r_0852_Km0633)*(1 + s_1314/r_0852_Km1314) - 1);
  r_0855: s_0302 + ATP -> s_0300 + ADP + PHO; cell*r_0855_Vmax*(s_0302*ATP - s_0300*ADP*PHO/r_0855_Keq)/(r_0855_Km0302*r_0855_KmATP)/((1 + s_0302/r_0855_Km0302)*(1 + ATP/r_0855_KmATP) + (1 + s_0300/r_0855_Km0300)*(1 + ADP/r_0855_KmADP)*(1 + PHO/r_0855_KmPHO) - 1);
  r_0858: s_1351 + s_1416 -> s_1343 + s_1413; cell*r_0858_Vmax*(s_1351*s_1416 - s_1343*s_1413/r_0858_Keq)/(r_0858_Km1351*r_0858_Km1416)/((1 + s_1351/r_0858_Km1351)*(1 + s_1416/r_0858_Km1416) + (1 + s_1343/r_0858_Km1343)*(1 + s_1413/r_0858_Km1413) - 1);
  r_0874: s_0471 + s_1153 -> s_0089 + s_0526; cell*r_0874_Vmax*(s_0471*s_1153 - s_0089*s_0526/r_0874_Keq)/(r_0874_Km0471*r_0874_Km1153)/((1 + s_0471/r_0874_Km0471)*(1 + s_1153/r_0874_Km1153) + (1 + s_0089/r_0874_Km0089)*(1 + s_0526/r_0874_Km0526) - 1);
  r_0877: s_1337 -> CO2 + s_1351; cell*r_0877_Vmax*(s_1337 - CO2*s_1351/r_0877_Keq)/r_0877_Km1337/(1 + s_1337/r_0877_Km1337 + (1 + CO2/r_0877_KmCO2)*(1 + s_1351/r_0877_Km1351) - 1);
  r_0880: s_0471 + s_1039 -> s_0526 + s_1337; cell*r_0880_Vmax*(s_0471*s_1039 - s_0526*s_1337/r_0880_Keq)/(r_0880_Km0471*r_0880_Km1039)/((1 + s_0471/r_0880_Km0471)*(1 + s_1039/r_0880_Km1039) + (1 + s_0526/r_0880_Km0526)*(1 + s_1337/r_0880_Km1337) - 1);
  r_0883: s_0201 + s_1616 -> s_0390 + s_1469 + s_1620; cell*r_0883_Vmax*(s_0201*s_1616 - s_0390*s_1469*s_1620/r_0883_Keq)/(r_0883_Km0201*r_0883_Km1616)/((1 + s_0201/r_0883_Km0201)*(1 + s_1616/r_0883_Km1616) + (1 + s_0390/r_0883_Km0390)*(1 + s_1469/r_0883_Km1469)*(1 + s_1620/r_0883_Km1620) - 1);
  r_0884: ATP + s_1271 -> ADP + CO2 + PEP; cell*r_0884_Vmax*(ATP*s_1271 - ADP*CO2*PEP/r_0884_Keq)/(r_0884_KmATP*r_0884_Km1271)/((1 + ATP/r_0884_KmATP)*(1 + s_1271/r_0884_Km1271) + (1 + ADP/r_0884_KmADP)*(1 + CO2/r_0884_KmCO2)*(1 + PEP/r_0884_KmPEP) - 1);
  PFK: ATP + F6P -> ADP + F16bP; cell*PFK_Vmax*(PFK_gR*(F6P/PFK_Kf6p)*(ATP/PFK_Katp)*(1 + F6P/PFK_Kf6p + ATP/PFK_Katp + (PFK_gR*F6P/PFK_Kf6p)*ATP/PFK_Katp)/((1 + F6P/PFK_Kf6p + ATP/PFK_Katp + (PFK_gR*F6P/PFK_Kf6p)*ATP/PFK_Katp)^2 + PFK_L0*((1 + PFK_Ciatp*ATP/PFK_Kiatp)/(1 + ATP/PFK_Kiatp))^2*((1 + PFK_Camp*AMP/PFK_Kamp)/(1 + AMP/PFK_Kamp))^2*((1 + PFK_Cf26*F26bP/PFK_Kf26 + PFK_Cf16*F16bP/PFK_Kf16)/(1 + F26bP/PFK_Kf26 + F16bP/PFK_Kf16))^2*(1 + PFK_Catp*ATP/PFK_Katp)^2));
  r_0888: G6P -> s_0567; cell*r_0888_Vmax*(G6P - s_0567/r_0888_Keq)/r_0888_KmG6P/(1 + G6P/r_0888_KmG6P + 1 + s_0567/r_0888_Km0567 - 1);
  r_0889: s_0340 + s_1207 -> CO2 + s_0577 + s_1212; cell*r_0889_Vmax*(s_0340*s_1207 - CO2*s_0577*s_1212/r_0889_Keq)/(r_0889_Km0340*r_0889_Km1207)/((1 + s_0340/r_0889_Km0340)*(1 + s_1207/r_0889_Km1207) + (1 + CO2/r_0889_KmCO2)*(1 + s_0577/r_0889_Km0577)*(1 + s_1212/r_0889_Km1212) - 1);
  PGK: BPG + ADP -> P3G + ATP; cell*(PGK_Vmax*(BPG*ADP/(PGK_Kbpg*PGK_Kadp) - P3G*ATP/(PGK_Kbpg*PGK_Kadp*PGK_Keq))/((1 + BPG/PGK_Kbpg + P3G/PGK_Kp3g)*(1 + ADP/PGK_Kadp + ATP/PGK_Katp)));
  GPM: P3G -> P2G; cell*(GPM_Vmax*(P3G/GPM_Kp3g - P2G/(GPM_Kp3g*GPM_Keq))/(1 + P3G/GPM_Kp3g + P2G/GPM_Kp2g));
  r_0900: s_1342 + s_1416 -> s_1346 + s_1413; cell*r_0900_Vmax*(s_1342*s_1416 - s_1346*s_1413/r_0900_Keq)/(r_0900_Km1342*r_0900_Km1416)/((1 + s_1342/r_0900_Km1342)*(1 + s_1416/r_0900_Km1416) + (1 + s_1346/r_0900_Km1346)*(1 + s_1413/r_0900_Km1413) - 1);
  r_0901: s_1343 + s_1416 -> s_1342 + s_1413; cell*r_0901_Vmax*(s_1343*s_1416 - s_1342*s_1413/r_0901_Keq)/(r_0901_Km1343*r_0901_Km1416)/((1 + s_1343/r_0901_Km1343)*(1 + s_1416/r_0901_Km1416) + (1 + s_1342/r_0901_Km1342)*(1 + s_1413/r_0901_Km1413) - 1);
  r_0902: s_0574 -> s_0573; cell*r_0902_Vmax*(s_0574 - s_0573/r_0902_Keq)/r_0902_Km0574/(1 + s_0574/r_0902_Km0574 + 1 + s_0573/r_0902_Km0573 - 1);
  r_0904: s_0019 + ATP -> s_0018 + ADP; cell*r_0904_Vmax*(s_0019*ATP - s_0018*ADP/r_0904_Keq)/(r_0904_Km0019*r_0904_KmATP)/((1 + s_0019/r_0904_Km0019)*(1 + ATP/r_0904_KmATP) + (1 + s_0018/r_0904_Km0018)*(1 + ADP/r_0904_KmADP) - 1);
  r_0908: ATP + s_0973 + s_1364 -> s_0299 + ADP + PHO; cell*r_0908_Vmax*(ATP*s_0973*s_1364 - s_0299*ADP*PHO/r_0908_Keq)/(r_0908_KmATP*r_0908_Km0973*r_0908_Km1364)/((1 + ATP/r_0908_KmATP)*(1 + s_0973/r_0908_Km0973)*(1 + s_1364/r_0908_Km1364) + (1 + s_0299/r_0908_Km0299)*(1 + ADP/r_0908_KmADP)*(1 + PHO/r_0908_KmPHO) - 1);
  r_0909: s_0078 -> s_0077; cell*r_0909_Vmax*(s_0078 - s_0077/r_0909_Keq)/r_0909_Km0078/(1 + s_0078/r_0909_Km0078 + 1 + s_0077/r_0909_Km0077 - 1);
  r_0910: s_0326 -> s_0078 + s_0633; cell*r_0910_Vmax*(s_0326 - s_0078*s_0633/r_0910_Keq)/r_0910_Km0326/(1 + s_0326/r_0910_Km0326 + (1 + s_0078/r_0910_Km0078)*(1 + s_0633/r_0910_Km0633) - 1);
  r_0911: s_0300 + CO2 + ATP -> s_1364 + ADP + PHO; cell*r_0911_Vmax*(s_0300*CO2*ATP - s_1364*ADP*PHO/r_0911_Keq)/(r_0911_Km0300*r_0911_KmCO2*r_0911_KmATP)/((1 + s_0300/r_0911_Km0300)*(1 + CO2/r_0911_KmCO2)*(1 + ATP/r_0911_KmATP) + (1 + s_1364/r_0911_Km1364)*(1 + ADP/r_0911_KmADP)*(1 + PHO/r_0911_KmPHO) - 1);
  r_0912: s_0120 + s_0403 -> s_1365 + s_1487; cell*r_0912_Vmax*(s_0120*s_0403 - s_1365*s_1487/r_0912_Keq)/(r_0912_Km0120*r_0912_Km0403)/((1 + s_0120/r_0912_Km0120)*(1 + s_0403/r_0912_Km0403) + (1 + s_1365/r_0912_Km1365)*(1 + s_1487/r_0912_Km1487) - 1);
  r_0913: s_1187 -> s_0076; cell*r_0913_Vmax*(s_1187 - s_0076/r_0913_Keq)/r_0913_Km1187/(1 + s_1187/r_0913_Km1187 + 1 + s_0076/r_0913_Km0076 - 1);
  r_0914: s_0327 + ATP + s_1003 -> s_0325 + ADP + PHO; cell*r_0914_Vmax*(s_0327*ATP*s_1003 - s_0325*ADP*PHO/r_0914_Keq)/(r_0914_Km0327*r_0914_KmATP*r_0914_Km1003)/((1 + s_0327/r_0914_Km0327)*(1 + ATP/r_0914_KmATP)*(1 + s_1003/r_0914_Km1003) + (1 + s_0325/r_0914_Km0325)*(1 + ADP/r_0914_KmADP)*(1 + PHO/r_0914_KmPHO) - 1);
  r_0915: s_0999 + s_1386 -> s_0327 + s_0633 + s_0991; cell*r_0915_Vmax*(s_0999*s_1386 - s_0327*s_0633*s_0991/r_0915_Keq)/(r_0915_Km0999*r_0915_Km1386)/((1 + s_0999/r_0915_Km0999)*(1 + s_1386/r_0915_Km1386) + (1 + s_0327/r_0915_Km0327)*(1 + s_0633/r_0915_Km0633)*(1 + s_0991/r_0915_Km0991) - 1);
  r_0916: ATP + s_1408 -> AMP + s_1386; cell*r_0916_Vmax*(ATP*s_1408 - AMP*s_1386/r_0916_Keq)/(r_0916_KmATP*r_0916_Km1408)/((1 + ATP/r_0916_KmATP)*(1 + s_1408/r_0916_Km1408) + (1 + AMP/r_0916_KmAMP)*(1 + s_1386/r_0916_Km1386) - 1);
  r_0938: s_1377 -> CO2 + s_0951; cell*r_0938_Vmax*(s_1377 - CO2*s_0951/r_0938_Keq)/r_0938_Km1377/(1 + s_1377/r_0938_Km1377 + (1 + CO2/r_0938_KmCO2)*(1 + s_0951/r_0938_Km0951) - 1);
  r_0939: s_1207 + s_1377 -> s_0204 + CO2 + s_1212; cell*r_0939_Vmax*(s_1207*s_1377 - s_0204*CO2*s_1212/r_0939_Keq)/(r_0939_Km1207*r_0939_Km1377)/((1 + s_1207/r_0939_Km1207)*(1 + s_1377/r_0939_Km1377) + (1 + s_0204/r_0939_Km0204)*(1 + CO2/r_0939_KmCO2)*(1 + s_1212/r_0939_Km1212) - 1);
  r_0941: ATP + s_1035 + s_1606 -> AMP + s_0633 + s_1379; cell*r_0941_Vmax*(ATP*s_1035*s_1606 - AMP*s_0633*s_1379/r_0941_Keq)/(r_0941_KmATP*r_0941_Km1035*r_0941_Km1606)/((1 + ATP/r_0941_KmATP)*(1 + s_1035/r_0941_Km1035)*(1 + s_1606/r_0941_Km1606) + (1 + AMP/r_0941_KmAMP)*(1 + s_0633/r_0941_Km0633)*(1 + s_1379/r_0941_Km1379) - 1);
  r_0957: s_0118 + s_1212 -> s_1035 + s_1207; cell*r_0957_Vmax*(s_0118*s_1212 - s_1035*s_1207/r_0957_Keq)/(r_0957_Km0118*r_0957_Km1212)/((1 + s_0118/r_0957_Km0118)*(1 + s_1212/r_0957_Km1212) + (1 + s_1035/r_0957_Km1035)*(1 + s_1207/r_0957_Km1207) - 1);
  r_0958: ATP + s_0445 + PYR -> ADP + s_1271 + PHO; cell*r_0958_Vmax*(ATP*s_0445*PYR - ADP*s_1271*PHO/r_0958_Keq)/(r_0958_KmATP*r_0958_Km0445*r_0958_KmPYR)/((1 + ATP/r_0958_KmATP)*(1 + s_0445/r_0958_Km0445)*(1 + PYR/r_0958_KmPYR) + (1 + ADP/r_0958_KmADP)*(1 + s_1271/r_0958_Km1271)*(1 + PHO/r_0958_KmPHO) - 1);
  PDC: PYR -> AcAld + CO2; cell*(PDC_Vmax*(PYR/PDC_Kpyr)^PDC_nH/(1 + (PYR/PDC_Kpyr)^PDC_nH));
  PYK: ADP + PEP -> ATP + PYR; cell*(PYK_Vmax*(PEP*ADP/(PYK_Kpep*PYK_Kadp) - PYR*ATP/(PYK_Kpep*PYK_Kadp*PYK_Keq))/((1 + PEP/PYK_Kpep + PYR/PYK_Kpyr)*(1 + ADP/PYK_Kadp + ATP/PYK_Katp)));
  r_0967: s_0158 + s_0314 -> s_0328 + PHO; cell*r_0967_Vmax*(s_0158*s_0314 - s_0328*PHO/r_0967_Keq)/(r_0967_Km0158*r_0967_Km0314)/((1 + s_0158/r_0967_Km0158)*(1 + s_0314/r_0967_Km0314) + (1 + s_0328/r_0967_Km0328)*(1 + PHO/r_0967_KmPHO) - 1);
  r_0968: 2 s_0328 -> s_0314 + s_1405; cell*r_0968_Vmax*(s_0328^2 - s_0314*s_1405/r_0968_Keq)/r_0968_Km0328^2/((1 + s_0328/r_0968_Km0328)^2 + (1 + s_0314/r_0968_Km0314)*(1 + s_1405/r_0968_Km1405) - 1);
  r_0970: ATP + s_1616 -> s_0586 + s_1620; cell*r_0970_Vmax*(ATP*s_1616 - s_0586*s_1620/r_0970_Keq)/(r_0970_KmATP*r_0970_Km1616)/((1 + ATP/r_0970_KmATP)*(1 + s_1616/r_0970_Km1616) + (1 + s_0586/r_0970_Km0586)*(1 + s_1620/r_0970_Km1620) - 1);
  r_0973: s_1559 + s_1616 -> s_0656 + s_1620; cell*r_0973_Vmax*(s_1559*s_1616 - s_0656*s_1620/r_0973_Keq)/(r_0973_Km1559*r_0973_Km1616)/((1 + s_1559/r_0973_Km1559)*(1 + s_1616/r_0973_Km1616) + (1 + s_0656/r_0973_Km0656)*(1 + s_1620/r_0973_Km1620) - 1);
  r_0974: ADP + s_1616 -> s_0582 + s_1620; cell*r_0974_Vmax*(ADP*s_1616 - s_0582*s_1620/r_0974_Keq)/(r_0974_KmADP*r_0974_Km1616)/((1 + ADP/r_0974_KmADP)*(1 + s_1616/r_0974_Km1616) + (1 + s_0582/r_0974_Km0582)*(1 + s_1620/r_0974_Km1620) - 1);
  r_0976: s_0467 + s_1616 -> s_0587 + s_1620; cell*r_0976_Vmax*(s_0467*s_1616 - s_0587*s_1620/r_0976_Keq)/(r_0976_Km0467*r_0976_Km1616)/((1 + s_0467/r_0976_Km0467)*(1 + s_1616/r_0976_Km1616) + (1 + s_0587/r_0976_Km0587)*(1 + s_1620/r_0976_Km1620) - 1);
  r_0978: s_0739 + s_1616 -> s_0613 + s_1620; cell*r_0978_Vmax*(s_0739*s_1616 - s_0613*s_1620/r_0978_Keq)/(r_0978_Km0739*r_0978_Km1616)/((1 + s_0739/r_0978_Km0739)*(1 + s_1616/r_0978_Km1616) + (1 + s_0613/r_0978_Km0613)*(1 + s_1620/r_0978_Km1620) - 1);
  r_0982: s_0577 -> s_1408; cell*r_0982_Vmax*(s_0577 - s_1408/r_0982_Keq)/r_0982_Km0577/(1 + s_0577/r_0982_Km0577 + 1 + s_1408/r_0982_Km1408 - 1);
  r_0984: s_0577 -> s_0581; cell*r_0984_Vmax*(s_0577 - s_0581/r_0984_Keq)/r_0984_Km0577/(1 + s_0577/r_0984_Km0577 + 1 + s_0581/r_0984_Km0581 - 1);
  r_0986: s_1416 + s_1569 -> s_0700 + s_1413; cell*r_0986_Vmax*(s_1416*s_1569 - s_0700*s_1413/r_0986_Keq)/(r_0986_Km1416*r_0986_Km1569)/((1 + s_1416/r_0986_Km1416)*(1 + s_1569/r_0986_Km1569) + (1 + s_0700/r_0986_Km0700)*(1 + s_1413/r_0986_Km1413) - 1);
  r_0988: s_1038 + NAD -> s_0180 + s_1025 + NADH; cell*r_0988_Vmax*(s_1038*NAD - s_0180*s_1025*NADH/r_0988_Keq)/(r_0988_Km1038*r_0988_KmNAD)/((1 + s_1038/r_0988_Km1038)*(1 + NAD/r_0988_KmNAD) + (1 + s_0180/r_0988_Km0180)*(1 + s_1025/r_0988_Km1025)*(1 + NADH/r_0988_KmNADH) - 1);
  r_0989: s_0959 + s_0991 + s_1212 -> s_1038 + s_1207; cell*r_0989_Vmax*(s_0959*s_0991*s_1212 - s_1038*s_1207/r_0989_Keq)/(r_0989_Km0959*r_0989_Km0991*r_0989_Km1212)/((1 + s_0959/r_0989_Km0959)*(1 + s_0991/r_0989_Km0991)*(1 + s_1212/r_0989_Km1212) + (1 + s_1038/r_0989_Km1038)*(1 + s_1207/r_0989_Km1207) - 1);
  r_0990: s_0551 + DHAP -> s_1426; cell*r_0990_Vmax*(s_0551*DHAP - s_1426/r_0990_Keq)/(r_0990_Km0551*r_0990_KmDHAP)/((1 + s_0551/r_0990_Km0551)*(1 + DHAP/r_0990_KmDHAP) + 1 + s_1426/r_0990_Km1426 - 1);
  r_0993: s_1039 + s_1302 -> s_0231 + CO2 + s_0529; cell*r_0993_Vmax*(s_1039*s_1302 - s_0231*CO2*s_0529/r_0993_Keq)/(r_0993_Km1039*r_0993_Km1302)/((1 + s_1039/r_0993_Km1039)*(1 + s_1302/r_0993_Km1302) + (1 + s_0231/r_0993_Km0231)*(1 + CO2/r_0993_KmCO2)*(1 + s_0529/r_0993_Km0529) - 1);
  r_0995: ATP + s_1039 + s_1607 -> AMP + s_0633 + s_1428; cell*r_0995_Vmax*(ATP*s_1039*s_1607 - AMP*s_0633*s_1428/r_0995_Keq)/(r_0995_KmATP*r_0995_Km1039*r_0995_Km1607)/((1 + ATP/r_0995_KmATP)*(1 + s_1039/r_0995_Km1039)*(1 + s_1607/r_0995_Km1607) + (1 + AMP/r_0995_KmAMP)*(1 + s_0633/r_0995_Km0633)*(1 + s_1428/r_0995_Km1428) - 1);
  r_0996: s_0211 + s_1212 -> s_1207 + s_1429; cell*r_0996_Vmax*(s_0211*s_1212 - s_1207*s_1429/r_0996_Keq)/(r_0996_Km0211*r_0996_Km1212)/((1 + s_0211/r_0996_Km0211)*(1 + s_1212/r_0996_Km1212) + (1 + s_1207/r_0996_Km1207)*(1 + s_1429/r_0996_Km1429) - 1);
  r_0997: ATP + s_1429 -> s_0261 + ADP; cell*r_0997_Vmax*(ATP*s_1429 - s_0261*ADP/r_0997_Keq)/(r_0997_KmATP*r_0997_Km1429)/((1 + ATP/r_0997_KmATP)*(1 + s_1429/r_0997_Km1429) + (1 + s_0261/r_0997_Km0261)*(1 + ADP/r_0997_KmADP) - 1);
  r_1010: NADH + s_1275 + s_1447 -> s_0037 + NAD; cell*r_1010_Vmax*(NADH*s_1275*s_1447 - s_0037*NAD/r_1010_Keq)/(r_1010_KmNADH*r_1010_Km1275*r_1010_Km1447)/((1 + NADH/r_1010_KmNADH)*(1 + s_1275/r_1010_Km1275)*(1 + s_1447/r_1010_Km1447) + (1 + s_0037/r_1010_Km0037)*(1 + NAD/r_1010_KmNAD) - 1);
  r_1012: 2 s_0190 + s_1212 -> 2 s_0633 + s_1207 + s_1447; cell*r_1012_Vmax*(s_0190^2*s_1212 - s_0633^2*s_1207*s_1447/r_1012_Keq)/(r_1012_Km0190^2*r_1012_Km1212)/((1 + s_0190/r_1012_Km0190)^2*(1 + s_1212/r_1012_Km1212) + (1 + s_0633/r_1012_Km0633)^2*(1 + s_1207/r_1012_Km1207)*(1 + s_1447/r_1012_Km1447) - 1);
  r_1014: s_0666 + 1.8 s_0595 -> s_0672; cell*r_1014_Vmax*(s_0666*s_0595 - s_0672/r_1014_Keq)/(r_1014_Km0666*r_1014_Km0595)/((1 + s_0666/r_1014_Km0666)*(1 + s_0595/r_1014_Km0595) + 1 + s_0672/r_1014_Km0672 - 1);
  r_1021: s_1458 + s_1537 -> s_0725 + s_1535; cell*r_1021_Vmax*(s_1458*s_1537 - s_0725*s_1535/r_1021_Keq)/(r_1021_Km1458*r_1021_Km1537)/((1 + s_1458/r_1021_Km1458)*(1 + s_1537/r_1021_Km1537) + (1 + s_0725/r_1021_Km0725)*(1 + s_1535/r_1021_Km1535) - 1);
  r_1026: ADP + s_1467 -> s_0298 + PHO; cell*r_1026_Vmax*(ADP*s_1467 - s_0298*PHO/r_1026_Keq)/(r_1026_KmADP*r_1026_Km1467)/((1 + ADP/r_1026_KmADP)*(1 + s_1467/r_1026_Km1467) + (1 + s_0298/r_1026_Km0298)*(1 + PHO/r_1026_KmPHO) - 1);
  r_1027: 3 s_1212 + s_1469 -> s_0841 + 3 s_1207; cell*r_1027_Vmax*(s_1212^3*s_1469 - s_0841*s_1207^3/r_1027_Keq)/(r_1027_Km1212^3*r_1027_Km1469)/((1 + s_1212/r_1027_Km1212)^3*(1 + s_1469/r_1027_Km1469) + (1 + s_0841/r_1027_Km0841)*(1 + s_1207/r_1027_Km1207)^3 - 1);
  r_1038: s_1212 + s_1620 -> s_1207 + s_1616; cell*r_1038_Vmax*(s_1212*s_1620 - s_1207*s_1616/r_1038_Keq)/(r_1038_Km1212*r_1038_Km1620)/((1 + s_1212/r_1038_Km1212)*(1 + s_1620/r_1038_Km1620) + (1 + s_1207/r_1038_Km1207)*(1 + s_1616/r_1038_Km1616) - 1);
  r_1040: s_1045 -> AcAld + s_1003; cell*r_1040_Vmax*(s_1045 - AcAld*s_1003/r_1040_Keq)/r_1040_Km1045/(1 + s_1045/r_1040_Km1045 + (1 + AcAld/r_1040_KmAcAld)*(1 + s_1003/r_1040_Km1003) - 1);
  r_1041: s_1238 -> s_1045 + PHO; cell*r_1041_Vmax*(s_1238 - s_1045*PHO/r_1041_Keq)/r_1041_Km1238/(1 + s_1238/r_1041_Km1238 + (1 + s_1045/r_1041_Km1045)*(1 + PHO/r_1041_KmPHO) - 1);
  r_1042: ATP + s_1045 + s_1608 -> AMP + s_0633 + s_1491; cell*r_1042_Vmax*(ATP*s_1045*s_1608 - AMP*s_0633*s_1491/r_1042_Keq)/(r_1042_KmATP*r_1042_Km1045*r_1042_Km1608)/((1 + ATP/r_1042_KmATP)*(1 + s_1045/r_1042_Km1045)*(1 + s_1608/r_1042_Km1608) + (1 + AMP/r_1042_KmAMP)*(1 + s_0633/r_1042_Km0633)*(1 + s_1491/r_1042_Km1491) - 1);
  r_1045: s_0306 + s_0654 -> s_0625 + s_0649; cell*r_1045_Vmax*(s_0306*s_0654 - s_0625*s_0649/r_1045_Keq)/(r_1045_Km0306*r_1045_Km0654)/((1 + s_0306/r_1045_Km0306)*(1 + s_0654/r_1045_Km0654) + (1 + s_0625/r_1045_Km0625)*(1 + s_0649/r_1045_Km0649) - 1);
  r_1048: GAP + s_1427 -> s_0551 + F6P; cell*r_1048_Vmax*(GAP*s_1427 - s_0551*F6P/r_1048_Keq)/(r_1048_KmGAP*r_1048_Km1427)/((1 + GAP/r_1048_KmGAP)*(1 + s_1427/r_1048_Km1427) + (1 + s_0551/r_1048_Km0551)*(1 + F6P/r_1048_KmF6P) - 1);
  r_1049: s_0581 + s_1408 -> GAP + s_1427; cell*r_1049_Vmax*(s_0581*s_1408 - GAP*s_1427/r_1049_Keq)/(r_1049_Km0581*r_1049_Km1408)/((1 + s_0581/r_1049_Km0581)*(1 + s_1408/r_1049_Km1408) + (1 + GAP/r_1049_KmGAP)*(1 + s_1427/r_1049_Km1427) - 1);
  r_1050: s_0551 + s_0581 -> F6P + GAP; cell*r_1050_Vmax*(s_0551*s_0581 - F6P*GAP/r_1050_Keq)/(r_1050_Km0551*r_1050_Km0581)/((1 + s_0551/r_1050_Km0551)*(1 + s_0581/r_1050_Km0581) + (1 + F6P/r_1050_KmF6P)*(1 + GAP/r_1050_KmGAP) - 1);
  r_1051: s_0409 -> PHO + s_1520; cell*r_1051_Vmax*(s_0409 - PHO*s_1520/r_1051_Keq)/r_1051_Km0409/(1 + s_0409/r_1051_Km0409 + (1 + PHO/r_1051_KmPHO)*(1 + s_1520/r_1051_Km1520) - 1);
  r_1052: s_0619 + 2.6 s_0595 -> s_1524; cell*r_1052_Vmax*(s_0619*s_0595 - s_1524/r_1052_Keq)/(r_1052_Km0619*r_1052_Km0595)/((1 + s_0619/r_1052_Km0619)*(1 + s_0595/r_1052_Km0595) + 1 + s_1524/r_1052_Km1524 - 1);
  TPI: DHAP -> GAP; cell*TPI_k*(DHAP - GAP/TPI_Keq);
  r_1055: s_0086 + s_1039 -> GAP + s_1048; cell*r_1055_Vmax*(s_0086*s_1039 - GAP*s_1048/r_1055_Keq)/(r_1055_Km0086*r_1055_Km1039)/((1 + s_0086/r_1055_Km0086)*(1 + s_1039/r_1055_Km1039) + (1 + GAP/r_1055_KmGAP)*(1 + s_1048/r_1055_Km1048) - 1);
  r_1057: ATP + s_1048 + s_1610 -> AMP + s_0633 + s_1527; cell*r_1057_Vmax*(ATP*s_1048*s_1610 - AMP*s_0633*s_1527/r_1057_Keq)/(r_1057_KmATP*r_1057_Km1048*r_1057_Km1610)/((1 + ATP/r_1057_KmATP)*(1 + s_1048/r_1057_Km1048)*(1 + s_1610/r_1057_Km1610) + (1 + AMP/r_1057_KmAMP)*(1 + s_0633/r_1057_Km0633)*(1 + s_1527/r_1057_Km1527) - 1);
  r_1063: s_0204 + s_0991 -> s_0180 + s_1051; cell*r_1063_Vmax*(s_0204*s_0991 - s_0180*s_1051/r_1063_Keq)/(r_1063_Km0204*r_1063_Km0991)/((1 + s_0204/r_1063_Km0204)*(1 + s_0991/r_1063_Km0991) + (1 + s_0180/r_1063_Km0180)*(1 + s_1051/r_1063_Km1051) - 1);
  r_1066: ATP + s_1051 + s_1612 -> AMP + s_0633 + s_1533; cell*r_1066_Vmax*(ATP*s_1051*s_1612 - AMP*s_0633*s_1533/r_1066_Keq)/(r_1066_KmATP*r_1066_Km1051*r_1066_Km1612)/((1 + ATP/r_1066_KmATP)*(1 + s_1051/r_1066_Km1051)*(1 + s_1612/r_1066_Km1612) + (1 + AMP/r_1066_KmAMP)*(1 + s_0633/r_1066_Km0633)*(1 + s_1533/r_1066_Km1533) - 1);
  r_1072: ATP + s_1545 -> ADP + s_1538; cell*r_1072_Vmax*(ATP*s_1545 - ADP*s_1538/r_1072_Keq)/(r_1072_KmATP*r_1072_Km1545)/((1 + ATP/r_1072_KmATP)*(1 + s_1545/r_1072_Km1545) + (1 + ADP/r_1072_KmADP)*(1 + s_1538/r_1072_Km1538) - 1);
  r_1084: s_0567 + s_1559 -> s_0633 + s_1543; cell*r_1084_Vmax*(s_0567*s_1559 - s_0633*s_1543/r_1084_Keq)/(r_1084_Km0567*r_1084_Km1559)/((1 + s_0567/r_1084_Km0567)*(1 + s_1559/r_1084_Km1559) + (1 + s_0633/r_1084_Km0633)*(1 + s_1543/r_1084_Km1543) - 1);
  r_1087: s_0232 + s_0991 -> s_0180 + s_1056; cell*r_1087_Vmax*(s_0232*s_0991 - s_0180*s_1056/r_1087_Keq)/(r_1087_Km0232*r_1087_Km0991)/((1 + s_0232/r_1087_Km0232)*(1 + s_0991/r_1087_Km0991) + (1 + s_0180/r_1087_Km0180)*(1 + s_1056/r_1087_Km1056) - 1);
  r_1089: ATP + s_1056 + s_1614 -> AMP + s_0633 + s_1561; cell*r_1089_Vmax*(ATP*s_1056*s_1614 - AMP*s_0633*s_1561/r_1089_Keq)/(r_1089_KmATP*r_1089_Km1056*r_1089_Km1614)/((1 + ATP/r_1089_KmATP)*(1 + s_1056/r_1089_Km1056)*(1 + s_1614/r_1089_Km1614) + (1 + AMP/r_1089_KmAMP)*(1 + s_0633/r_1089_Km0633)*(1 + s_1561/r_1089_Km1561) - 1);
  r_1115: $s_0420 -> s_0419; cell*r_1115_Vmax*(s_0420 - s_0419)/r_1115_Km0420/(1 + s_0420/r_1115_Km0420 + 1 + s_0419/r_1115_Km0419 - 1);
  HXT: $GLCx -> GLC; cell*(HXT_Vmax*(GLCx - GLC)/HXT_Kglc/(1 + GLCx/HXT_Kglc + GLC/HXT_Kglc + (HXT_Ki*GLCx/HXT_Kglc)*GLC/HXT_Kglc));
  r_1172: GLY => $s_0766; cell*r_1172_Vmax*GLY/r_1172_KmGLY/(1 + GLY/r_1172_KmGLY);
  r_1244: $s_1324 -> PHO; cell*r_1244_Vmax*(s_1324 - PHO)/r_1244_Km1324/(1 + s_1324/r_1244_Km1324 + 1 + PHO/r_1244_KmPHO - 1);
  r_1266: $s_1468 -> s_1467; cell*r_1266_Vmax*(s_1468 - s_1467)/r_1266_Km1468/(1 + s_1468/r_1266_Km1468 + 1 + s_1467/r_1266_Km1467 - 1);
  r_1633: AcAld => $s_0360; cell*r_1633_Vmax*AcAld/r_1633_KmAcAld/(1 + AcAld/r_1633_KmAcAld);
  r_1664: CO2 -> s_0445; cell*r_1664_Vmax*(CO2 - s_0445/r_1664_Keq)/r_1664_KmCO2/(1 + CO2/r_1664_KmCO2 + 1 + s_0445/r_1664_Km0445 - 1);
  r_1682: s_1275 + s_1416 + s_1569 -> s_0662 + s_1413; cell*r_1682_Vmax*(s_1275*s_1416*s_1569 - s_0662*s_1413/r_1682_Keq)/(r_1682_Km1275*r_1682_Km1416*r_1682_Km1569)/((1 + s_1275/r_1682_Km1275)*(1 + s_1416/r_1682_Km1416)*(1 + s_1569/r_1682_Km1569) + (1 + s_0662/r_1682_Km0662)*(1 + s_1413/r_1682_Km1413) - 1);
  r_1697: CO2 => $s_0458; cell*r_1697_Vmax*CO2/r_1697_KmCO2/(1 + CO2/r_1697_KmCO2);
  r_1704: ADP + s_0587 -> ATP + s_0589; cell*r_1704_Vmax*(ADP*s_0587 - ATP*s_0589/r_1704_Keq)/(r_1704_KmADP*r_1704_Km0587)/((1 + ADP/r_1704_KmADP)*(1 + s_0587/r_1704_Km0587) + (1 + ATP/r_1704_KmATP)*(1 + s_0589/r_1704_Km0589) - 1);
  r_1729: ADP + s_0582 -> ATP + s_0584; cell*r_1729_Vmax*(ADP*s_0582 - ATP*s_0584/r_1729_Keq)/(r_1729_KmADP*r_1729_Km0582)/((1 + ADP/r_1729_KmADP)*(1 + s_0582/r_1729_Km0582) + (1 + ATP/r_1729_KmATP)*(1 + s_0584/r_1729_Km0584) - 1);
  r_1762: EtOH => $s_0681; cell*r_1762_Vmax*EtOH/r_1762_KmEtOH/(1 + EtOH/r_1762_KmEtOH);
  r_1936: DHAP -> s_1151 + PHO; cell*r_1936_Vmax*(DHAP - s_1151*PHO/r_1936_Keq)/r_1936_KmDHAP/(1 + DHAP/r_1936_KmDHAP + (1 + s_1151/r_1936_Km1151)*(1 + PHO/r_1936_KmPHO) - 1);
  r_1979: $s_1277 -> s_1275; cell*r_1979_Vmax*(s_1277 - s_1275)/r_1979_Km1277/(1 + s_1277/r_1979_Km1277 + 1 + s_1275/r_1979_Km1275 - 1);
  r_2030: s_0313 -> s_0314 + PHO; cell*r_2030_Vmax*(s_0313 - s_0314*PHO/r_2030_Keq)/r_2030_Km0313/(1 + s_0313/r_2030_Km0313 + (1 + s_0314/r_2030_Km0314)*(1 + PHO/r_2030_KmPHO) - 1);
  r_2057: s_1458 => $s_1459; cell*r_2057_Vmax*s_1458/r_2057_Km1458/(1 + s_1458/r_2057_Km1458);
  r_2111: 1.1348 s_0002 + 0.046 AMP + 59.276 ATP + 0.0447 s_0526 + 0.0036 s_0584 + 0.0024 s_0589 + 0.0024 s_0615 + 0.0036 s_0649 + 0.5185 s_0773 + 0.046 s_0782 + 0.8079 s_1107 + 0.00099 s_1405 + 0.02 s_1467 + 0.0234 s_1520 + 0.0599 s_1545 + 1.1348 s_0004 + 0.4588 s_0404 + 0.1607 s_0428 + 0.1017 s_0430 + 0.2975 s_0432 + 0.0066 s_0542 + 0.1054 s_0747 + 0.3018 s_0748 + 0.2904 s_0757 + 0.0663 s_0832 + 0.1927 s_0847 + 0.2964 s_1077 + 0.2862 s_1099 + 0.0507 s_1148 + 0.1339 s_1314 + 0.1647 s_1379 + 0.00039 s_1337 + 0.001583 s_0089 + 0.1854 s_1428 + 0.1914 s_1491 + 0.0284 s_1527 + 0.102 s_1533 + 0.2646 s_1561 + 5.6e-05 s_0122 + 0.00051708 s_0897 + 9.6e-05 s_0657 + 0.000125 s_0662 + 0.0056 s_0666 + 0.000812 s_0672 + 0.0005356 s_0595 + 0.000114 s_0700 + 3.2e-05 s_1059 + 0.00288 s_1346 + 0.000697 s_1351 + 0.000781 s_1524 + 1.5e-05 s_1569 => 59.276 ADP + 58.7 PHO + 0.4588 s_1582 + 0.1607 s_1583 + 0.1017 s_1585 + 0.2975 s_1587 + 0.0066 s_1589 + 0.1054 s_1590 + 0.3018 s_1591 + 0.2904 s_1593 + 0.0663 s_1594 + 0.1927 s_1596 + 0.2964 s_1598 + 0.2862 s_1600 + 0.0507 s_1602 + 0.1339 s_1604 + 0.1647 s_1606 + 0.1854 s_1607 + 0.1914 s_1608 + 0.0284 s_1610 + 0.102 s_1612 + 0.2646 s_1614; cell*max_(r_2111_v0*(1 + r_2111_ep0002*ln(s_0002/r_2111_ic0002) + r_2111_epAMP*ln(AMP/r_2111_icAMP) + r_2111_epATP*ln(ATP/r_2111_icATP) + r_2111_ep0526*ln(s_0526/r_2111_ic0526) + r_2111_ep0584*ln(s_0584/r_2111_ic0584) + r_2111_ep0589*ln(s_0589/r_2111_ic0589) + r_2111_ep0615*ln(s_0615/r_2111_ic0615) + r_2111_ep0649*ln(s_0649/r_2111_ic0649) + r_2111_ep0773*ln(s_0773/r_2111_ic0773) + r_2111_ep0782*ln(s_0782/r_2111_ic0782) + r_2111_ep1107*ln(s_1107/r_2111_ic1107) + r_2111_ep1405*ln(s_1405/r_2111_ic1405) + r_2111_ep1467*ln(s_1467/r_2111_ic1467) + r_2111_ep1520*ln(s_1520/r_2111_ic1520) + r_2111_ep1545*ln(s_1545/r_2111_ic1545) + r_2111_ep0004*ln(s_0004/r_2111_ic0004) + r_2111_ep0404*ln(s_0404/r_2111_ic0404) + r_2111_ep0428*ln(s_0428/r_2111_ic0428) + r_2111_ep0430*ln(s_0430/r_2111_ic0430) + r_2111_ep0432*ln(s_0432/r_2111_ic0432) + r_2111_ep0542*ln(s_0542/r_2111_ic0542) + r_2111_ep0747*ln(s_0747/r_2111_ic0747) + r_2111_ep0748*ln(s_0748/r_2111_ic0748) + r_2111_ep0757*ln(s_0757/r_2111_ic0757) + r_2111_ep0832*ln(s_0832/r_2111_ic0832) + r_2111_ep0847*ln(s_0847/r_2111_ic0847) + r_2111_ep1077*ln(s_1077/r_2111_ic1077) + r_2111_ep1099*ln(s_1099/r_2111_ic1099) + r_2111_ep1148*ln(s_1148/r_2111_ic1148) + r_2111_ep1314*ln(s_1314/r_2111_ic1314) + r_2111_ep1379*ln(s_1379/r_2111_ic1379) + r_2111_ep1337*ln(s_1337/r_2111_ic1337) + r_2111_ep0089*ln(s_0089/r_2111_ic0089) + r_2111_ep1428*ln(s_1428/r_2111_ic1428) + r_2111_ep1491*ln(s_1491/r_2111_ic1491) + r_2111_ep1527*ln(s_1527/r_2111_ic1527) + r_2111_ep1533*ln(s_1533/r_2111_ic1533) + r_2111_ep1561*ln(s_1561/r_2111_ic1561) + r_2111_ep0122*ln(s_0122/r_2111_ic0122) + r_2111_ep0897*ln(s_0897/r_2111_ic0897) + r_2111_ep0657*ln(s_0657/r_2111_ic0657) + r_2111_ep0662*ln(s_0662/r_2111_ic0662) + r_2111_ep0666*ln(s_0666/r_2111_ic0666) + r_2111_ep0672*ln(s_0672/r_2111_ic0672) + r_2111_ep0595*ln(s_0595/r_2111_ic0595) + r_2111_ep0700*ln(s_0700/r_2111_ic0700) + r_2111_ep1059*ln(s_1059/r_2111_ic1059) + r_2111_ep1346*ln(s_1346/r_2111_ic1346) + r_2111_ep1351*ln(s_1351/r_2111_ic1351) + r_2111_ep1524*ln(s_1524/r_2111_ic1524) + r_2111_ep1569*ln(s_1569/r_2111_ic1569)), r_2111_zero_flux);
  r_2126: s_1426 -> s_1427 + PHO; cell*r_2126_Vmax*(s_1426 - s_1427*PHO/r_2126_Keq)/r_2126_Km1426/(1 + s_1426/r_2126_Km1426 + (1 + s_1427/r_2126_Km1427)*(1 + PHO/r_2126_KmPHO) - 1);
  r_2127: s_0061 + NAD -> s_1269 + NADH; cell*r_2127_Vmax*(s_0061*NAD - s_1269*NADH/r_2127_Keq)/(r_2127_Km0061*r_2127_KmNAD)/((1 + s_0061/r_2127_Km0061)*(1 + NAD/r_2127_KmNAD) + (1 + s_1269/r_2127_Km1269)*(1 + NADH/r_2127_KmNADH) - 1);

  // Species initializations:
  s_0002 = 0.1;
  s_0004 = 0.1;
  s_0008 = 0.1;
  s_0009 = 0.1;
  s_0010 = 0.1;
  s_0015 = 0.1;
  s_0016 = 0.1;
  s_0018 = 0.1;
  s_0019 = 0.1;
  s_0025 = 0.1;
  s_0028 = 0.1;
  s_0033 = 0.1;
  s_0037 = 0.1;
  s_0039 = 0.1;
  s_0056 = 0.1;
  s_0061 = 0.1;
  s_0062 = 0.1;
  s_0063 = 0.1;
  s_0066 = 0.1;
  BPG = 0.000736873499865602;
  s_0076 = 0.1;
  s_0077 = 0.1;
  s_0078 = 0.1;
  s_0082 = 0.1;
  s_0086 = 0.1;
  s_0089 = 0.1;
  s_0118 = 0.1;
  s_0120 = 0.1;
  s_0122 = 0.1;
  s_0126 = 0.1;
  s_0141 = 0.1;
  s_0142 = 0.1;
  s_0145 = 0.1;
  s_0146 = 0.1;
  s_0158 = 0.1;
  s_0162 = 0.1;
  s_0165 = 0.1;
  s_0176 = 0.1;
  s_0178 = 0.1;
  s_0180 = 0.1;
  P2G = 0.127695817386632;
  s_0190 = 0.1;
  s_0201 = 0.1;
  s_0204 = 0.1;
  s_0207 = 0.1;
  s_0209 = 0.1;
  s_0210 = 0.1;
  s_0211 = 0.1;
  s_0218 = 0.1;
  s_0231 = 0.1;
  s_0232 = 0.1;
  P3G = 0.885688538360659;
  s_0261 = 0.1;
  s_0262 = 0.1;
  s_0291 = 0.1;
  s_0295 = 0.1;
  s_0296 = 0.1;
  s_0297 = 0.1;
  s_0298 = 0.1;
  s_0299 = 0.1;
  s_0300 = 0.1;
  s_0301 = 0.1;
  s_0302 = 0.1;
  s_0304 = 0.1;
  s_0306 = 0.1;
  s_0312 = 0.1;
  s_0313 = 0.1;
  s_0314 = 0.1;
  s_0322 = 0.1;
  s_0324 = 0.1;
  s_0325 = 0.1;
  s_0326 = 0.1;
  s_0327 = 0.1;
  s_0328 = 0.1;
  s_0335 = 0.1;
  s_0340 = 0.1;
  s_0349 = 0.1;
  AcAld = 0.178140579850657;
  s_0360 = 0;
  s_0362 = 0.1;
  s_0367 = 0.1;
  s_0373 = 0.1;
  s_0380 = 0.1;
  s_0386 = 0.1;
  s_0390 = 0.1;
  s_0393 = 0.1;
  ADP = 1.28198768168719;
  s_0403 = 0.1;
  s_0404 = 0.1;
  s_0409 = 0.1;
  s_0419 = 0.1;
  s_0420 = 1;
  AMP = 0.292884853320091;
  s_0427 = 0.1;
  s_0428 = 0.1;
  s_0430 = 0.1;
  s_0432 = 0.1;
  ATP = 2.52512746499271;
  s_0445 = 0.1;
  s_0454 = 0.1;
  s_0455 = 0.1;
  CO2 = 1;
  s_0458 = 0;
  s_0467 = 0.1;
  s_0471 = 0.1;
  s_0478 = 0.1;
  s_0505 = 0.1;
  s_0515 = 0.1;
  s_0516 = 0.1;
  s_0522 = 0.1;
  s_0526 = 0.1;
  s_0529 = 0.1;
  s_0539 = 0.1;
  s_0542 = 0.1;
  s_0550 = 0.1;
  s_0551 = 0.1;
  F16bP = 6.22132076069411;
  F6P = 0.624976405532373;
  GLC = 0.097652231064563;
  GLCx = 100;
  s_0567 = 0.1;
  G6P = 2.67504014044787;
  s_0573 = 0.1;
  s_0574 = 0.1;
  s_0577 = 0.1;
  s_0581 = 0.1;
  s_0582 = 0.1;
  s_0584 = 0.1;
  s_0586 = 0.1;
  s_0587 = 0.1;
  s_0589 = 0.1;
  s_0595 = 0.1;
  s_0602 = 0.1;
  s_0613 = 0.1;
  s_0615 = 0.1;
  s_0619 = 0.1;
  s_0625 = 0.1;
  DHAP = 1.00415254899644;
  s_0633 = 0.1;
  s_0644 = 0.1;
  s_0645 = 0.1;
  s_0649 = 0.1;
  s_0654 = 0.1;
  s_0656 = 0.1;
  s_0657 = 0.1;
  s_0662 = 0.1;
  s_0666 = 0.1;
  s_0672 = 0.1;
  EtOH = 50;
  s_0681 = 0;
  s_0700 = 0.1;
  s_0709 = 0.1;
  s_0710 = 0.1;
  s_0722 = 0.1;
  s_0725 = 0.1;
  s_0739 = 0.1;
  s_0743 = 0.1;
  s_0745 = 0.1;
  s_0747 = 0.1;
  s_0748 = 0.1;
  s_0750 = 0.1;
  s_0757 = 0.1;
  GAP = 0.0451809175780963;
  GLY = 0.15;
  s_0766 = 0;
  s_0767 = 0.1;
  s_0773 = 0.1;
  s_0779 = 0.1;
  s_0782 = 0.1;
  s_0785 = 0.1;
  s_0816 = 0.1;
  s_0832 = 0.1;
  s_0835 = 0.1;
  s_0836 = 0.1;
  s_0841 = 0.1;
  s_0847 = 0.1;
  s_0849 = 0.1;
  s_0897 = 0.1;
  s_0940 = 0.1;
  s_0943 = 0.1;
  s_0951 = 0.1;
  s_0953 = 0.1;
  s_0955 = 0.1;
  s_0959 = 0.1;
  s_0965 = 0.1;
  s_0969 = 0.1;
  s_0973 = 0.1;
  s_0978 = 0.1;
  s_0979 = 0.1;
  s_0980 = 0.1;
  s_0981 = 0.1;
  s_0991 = 0.1;
  s_0999 = 0.1;
  s_1003 = 0.1;
  s_1006 = 0.1;
  s_1010 = 0.1;
  s_1011 = 0.1;
  s_1012 = 0.1;
  s_1014 = 0.1;
  s_1016 = 0.1;
  s_1021 = 0.1;
  s_1025 = 0.1;
  s_1029 = 0.1;
  s_1032 = 0.1;
  s_1035 = 0.1;
  s_1038 = 0.1;
  s_1039 = 0.1;
  s_1045 = 0.1;
  s_1048 = 0.1;
  s_1051 = 0.1;
  s_1056 = 0.1;
  s_1059 = 0.1;
  s_1065 = 0.1;
  s_1073 = 0.1;
  s_1077 = 0.1;
  s_1084 = 0.1;
  s_1099 = 0.1;
  s_1101 = 0.1;
  s_1107 = 0.1;
  s_1148 = 0.1;
  s_1151 = 0.1;
  s_1153 = 0.1;
  s_1161 = 0.1;
  s_1176 = 0.1;
  s_1182 = 0.1;
  s_1187 = 0.1;
  s_1191 = 0.1;
  s_1192 = 0.1;
  s_1194 = 0.1;
  NAD = 1.50329030201531;
  NADH = 0.0867096979846952;
  s_1207 = 0.1;
  s_1212 = 0.1;
  s_1233 = 0.1;
  s_1238 = 0.1;
  s_1255 = 0.1;
  s_1266 = 0.1;
  s_1269 = 0.1;
  s_1270 = 0.1;
  s_1271 = 0.1;
  s_1275 = 0.1;
  s_1277 = 1;
  s_1286 = 0.1;
  s_1302 = 0.1;
  s_1314 = 0.1;
  PHO = 0.1;
  s_1324 = 1;
  s_1331 = 0.1;
  s_1337 = 0.1;
  s_1342 = 0.1;
  s_1343 = 0.1;
  s_1346 = 0.1;
  s_1351 = 0.1;
  PEP = 0.0632352144936527;
  s_1364 = 0.1;
  s_1365 = 0.1;
  s_1376 = 0.1;
  s_1377 = 0.1;
  s_1379 = 0.1;
  s_1386 = 0.1;
  PYR = 1.81531251192736;
  s_1405 = 0.1;
  s_1408 = 0.1;
  s_1413 = 0.1;
  s_1416 = 0.1;
  s_1426 = 0.1;
  s_1427 = 0.1;
  s_1428 = 0.1;
  s_1429 = 0.1;
  s_1445 = 0.1;
  s_1447 = 0.1;
  s_1449 = 0.1;
  s_1454 = 0.1;
  s_1458 = 0.1;
  s_1459 = 0;
  s_1467 = 0.1;
  s_1468 = 1;
  s_1469 = 0.1;
  s_1487 = 0.1;
  s_1491 = 0.1;
  s_1520 = 0.1;
  s_1524 = 0.1;
  s_1527 = 0.1;
  s_1533 = 0.1;
  s_1535 = 0.1;
  s_1537 = 0.1;
  s_1538 = 0.1;
  s_1543 = 0.1;
  s_1545 = 0.1;
  s_1559 = 0.1;
  s_1561 = 0.1;
  s_1565 = 0.1;
  s_1569 = 0.1;
  s_1576 = 0.1;
  s_1577 = 0.1;
  s_1578 = 0.1;
  s_1579 = 0.1;
  s_1582 = 0.1;
  s_1583 = 0.1;
  s_1585 = 0.1;
  s_1587 = 0.1;
  s_1589 = 0.1;
  s_1590 = 0.1;
  s_1591 = 0.1;
  s_1593 = 0.1;
  s_1594 = 0.1;
  s_1596 = 0.1;
  s_1598 = 0.1;
  s_1600 = 0.1;
  s_1602 = 0.1;
  s_1604 = 0.1;
  s_1606 = 0.1;
  s_1607 = 0.1;
  s_1608 = 0.1;
  s_1610 = 0.1;
  s_1612 = 0.1;
  s_1614 = 0.1;
  s_1616 = 0.1;
  s_1620 = 0.1;
  e_0001 = 0.001;
  e_0002 = 0.001;
  e_0003 = 0.001;
  e_0004 = 0.001;
  e_0005 = 0.001;
  e_0006 = 0.001;
  e_0007 = 0.001;
  e_0008 = 0.001;
  e_0010 = 0.001;
  e_0011 = 0.001;
  e_0012 = 0.001;
  e_0017 = 0.001;
  e_0020 = 0.001;
  e_0022 = 0.001;
  e_0025 = 0.001;
  e_0026 = 0.001;
  e_0028 = 0.001;
  e_0030 = 0.001;
  e_0031 = 0.001;
  e_0033 = 0.001;
  e_0038 = 0.001;
  e_0045 = 0.001;
  e_0051 = 0.001;
  e_0053 = 0.001;
  e_0054 = 0.001;
  e_0057 = 0.001;
  e_0062 = 0.001;
  e_0063 = 0.001;
  e_0064 = 0.001;
  e_0065 = 0.001;
  e_0066 = 0.001;
  e_0069 = 0.001;
  e_0071 = 0.001;
  e_0074 = 0.001;
  e_0079 = 0.001;
  e_0084 = 0.001;
  e_0087 = 0.001;
  e_0088 = 0.001;
  e_0089 = 0.001;
  e_0090 = 0.001;
  e_0091 = 0.001;
  e_0092 = 0.001;
  e_0100 = 0.001;
  e_0101 = 0.001;
  e_0103 = 0.001;
  e_0106 = 0.001;
  e_0107 = 0.001;
  e_0109 = 0.001;
  e_0111 = 0.001;
  e_0113 = 0.001;
  e_0117 = 0.001;
  e_0122 = 0.001;
  e_0124 = 0.001;
  e_0127 = 0.001;
  e_0128 = 0.001;
  e_0129 = 0.001;
  e_0133 = 0.001;
  e_0134 = 0.001;
  e_0135 = 0.001;
  e_0136 = 0.001;
  e_0137 = 0.001;
  e_0141 = 0.001;
  e_0142 = 0.001;
  e_0146 = 0.001;
  e_0151 = 0.001;
  e_0152 = 0.001;
  e_0154 = 0.001;
  e_0155 = 0.001;
  e_0160 = 0.001;
  e_0165 = 0.001;
  e_0167 = 0.001;
  e_0168 = 0.001;
  e_0169 = 0.001;
  e_0171 = 0.001;
  e_0175 = 0.001;
  e_0176 = 0.001;
  e_0177 = 0.001;
  e_0179 = 0.001;
  e_0182 = 0.001;
  e_0183 = 0.001;
  e_0186 = 0.001;
  e_0188 = 0.001;
  e_0194 = 0.001;
  e_0196 = 0.001;
  e_0202 = 0.001;
  e_0203 = 0.001;
  e_0204 = 0.001;
  e_0207 = 0.001;
  e_0213 = 0.001;
  e_0214 = 0.001;
  e_0218 = 0.001;
  e_0219 = 0.001;
  e_0220 = 0.001;
  e_0223 = 0.001;
  e_0231 = 0.001;
  e_0234 = 0.001;
  e_0237 = 0.001;
  e_0239 = 0.001;
  e_0243 = 0.001;
  e_0249 = 0.001;
  e_0250 = 0.001;
  e_0251 = 0.001;
  e_0255 = 0.001;
  e_0260 = 0.001;
  e_0263 = 0.001;
  e_0268 = 0.001;
  e_0269 = 0.001;
  e_0271 = 0.001;
  e_0273 = 0.001;
  e_0276 = 0.001;
  e_0278 = 0.001;
  e_0280 = 0.001;
  e_0281 = 0.001;
  e_0283 = 0.001;
  e_0288 = 0.001;
  e_0289 = 0.001;
  e_0290 = 0.001;
  e_0291 = 0.001;
  e_0293 = 0.001;
  e_0295 = 0.001;
  e_0296 = 0.001;
  e_0297 = 0.001;
  e_0298 = 0.001;
  e_0299 = 0.001;
  e_0303 = 0.001;
  e_0311 = 0.001;
  e_0312 = 0.001;
  e_0313 = 0.001;
  e_0314 = 0.001;
  e_0317 = 0.001;
  e_0320 = 0.001;
  e_0321 = 0.001;
  e_0322 = 0.001;
  e_0325 = 0.001;
  e_0326 = 0.001;
  e_0328 = 0.001;
  e_0329 = 0.001;
  e_0330 = 0.001;
  e_0334 = 0.001;
  e_0340 = 0.001;
  e_0342 = 0.001;
  e_0343 = 0.001;
  e_0346 = 0.001;
  e_0347 = 0.001;
  e_0348 = 0.001;
  e_0352 = 0.001;
  e_0353 = 0.001;
  e_0355 = 0.001;
  e_0356 = 0.001;
  e_0362 = 0.001;
  e_0364 = 0.001;
  e_0365 = 0.001;
  e_0367 = 0.001;
  e_0368 = 0.001;
  e_0370 = 0.001;
  e_0372 = 0.001;
  e_0376 = 0.001;
  e_0379 = 0.001;
  e_0380 = 0.001;
  e_0381 = 0.001;
  e_0382 = 0.001;
  e_0385 = 0.001;
  e_0387 = 0.001;
  e_0389 = 0.001;
  e_0390 = 0.001;
  e_0392 = 0.001;
  e_0396 = 0.001;
  e_0398 = 0.001;
  e_0401 = 0.001;
  e_0404 = 0.001;
  e_0405 = 0.001;
  e_0407 = 0.001;
  e_0409 = 0.001;
  e_0417 = 0.001;
  e_0418 = 0.001;
  e_0422 = 0.001;
  e_0424 = 0.001;
  e_0425 = 0.001;
  e_0426 = 0.001;
  e_0427 = 0.001;
  e_0428 = 0.001;
  e_0429 = 0.001;
  e_0431 = 0.001;
  e_0432 = 0.001;
  e_0434 = 0.001;
  e_0435 = 0.001;
  e_0436 = 0.001;
  e_0440 = 0.001;
  e_0447 = 0.001;
  e_0448 = 0.001;
  e_0452 = 0.001;
  e_0453 = 0.001;
  e_0454 = 0.001;
  e_0455 = 0.001;
  e_0456 = 0.001;
  e_0457 = 0.001;
  e_0458 = 0.001;
  e_0462 = 0.001;
  e_0465 = 0.001;
  e_0466 = 0.001;
  e_0467 = 0.001;
  e_0470 = 0.001;
  e_0472 = 0.001;
  e_0475 = 0.001;
  e_0476 = 0.001;
  e_0489 = 0.001;
  e_0492 = 0.001;
  e_0494 = 0.001;
  e_0495 = 0.001;
  e_0496 = 0.001;
  e_0499 = 0.001;
  e_0506 = 0.001;
  e_0508 = 0.001;
  e_0510 = 0.001;
  e_0512 = 0.001;
  e_0514 = 0.001;
  e_0515 = 0.001;
  e_0525 = 0.001;
  e_0528 = 0.001;
  e_0531 = 0.001;
  e_0536 = 0.001;
  e_0540 = 0.001;
  e_0541 = 0.001;
  e_0542 = 0.001;
  e_0544 = 0.001;
  e_0545 = 0.001;
  e_0547 = 0.001;
  e_0548 = 0.001;
  e_0549 = 0.001;
  e_0550 = 0.001;
  e_0556 = 0.001;
  e_0557 = 0.001;
  e_0558 = 0.001;
  e_0559 = 0.001;
  e_0561 = 0.001;
  e_0565 = 0.001;
  e_0567 = 0.001;
  e_0568 = 0.001;
  e_0569 = 0.001;
  e_0571 = 0.001;
  e_0574 = 0.001;
  e_0576 = 0.001;
  e_0578 = 0.001;
  e_0579 = 0.001;
  e_0581 = 0.001;
  e_0582 = 0.001;
  e_0585 = 0.001;
  e_0586 = 0.001;
  e_0588 = 0.001;
  e_0591 = 0.001;
  e_0594 = 0.001;
  e_0601 = 0.001;
  e_0603 = 0.001;
  e_0607 = 0.001;
  e_0610 = 0.001;
  e_0611 = 0.001;
  e_0612 = 0.001;
  e_0613 = 0.001;
  e_0615 = 0.001;
  e_0619 = 0.001;
  e_0621 = 0.001;
  e_0629 = 0.001;
  e_0631 = 0.001;
  e_0632 = 0.001;
  e_0633 = 0.001;
  e_0636 = 0.001;
  e_0638 = 0.001;
  e_0639 = 0.001;
  e_0642 = 0.001;
  e_0644 = 0.001;
  e_0647 = 0.001;
  e_0658 = 0.001;
  e_0667 = 0.001;
  e_0671 = 0.001;
  e_0674 = 0.001;
  e_0675 = 0.001;
  e_0682 = 0.001;
  e_0684 = 0.001;
  e_0685 = 0.001;
  e_0686 = 0.001;
  e_0687 = 0.001;
  e_0690 = 0.001;
  e_0692 = 0.001;
  e_0693 = 0.001;
  e_0695 = 0.001;
  e_0697 = 0.001;
  e_0698 = 0.001;
  e_0699 = 0.001;
  e_0704 = 0.001;
  e_0705 = 0.001;
  e_0708 = 0.001;
  e_0709 = 0.001;
  e_0711 = 0.001;
  e_0712 = 0.001;
  e_0716 = 0.001;
  e_0727 = 0.001;
  e_0729 = 0.001;
  e_0730 = 0.001;
  e_0733 = 0.001;
  e_0734 = 0.001;
  e_0736 = 0.001;
  e_0740 = 0.001;
  e_0741 = 0.001;
  e_0742 = 0.001;
  e_0743 = 0.001;
  e_0744 = 0.001;
  e_0745 = 0.001;
  e_0746 = 0.001;
  e_0747 = 0.001;
  e_0750 = 0.001;
  e_0752 = 0.001;
  e_0753 = 0.001;
  e_0754 = 0.001;
  e_0755 = 0.001;
  e_0757 = 0.001;
  e_0761 = 0.001;
  e_0762 = 0.001;
  e_0763 = 0.001;
  e_0765 = 0.001;
  e_0769 = 0.001;
  e_0771 = 0.001;
  e_0774 = 0.001;
  e_0778 = 0.001;
  e_0788 = 0.001;
  e_0791 = 0.001;
  e_0792 = 0.001;
  e_0793 = 0.001;
  e_0799 = 0.001;
  e_0800 = 0.001;
  e_0802 = 0.001;
  e_0805 = 0.001;
  e_0808 = 0.001;
  e_0812 = 0.001;
  e_0813 = 0.001;
  e_0826 = 0.001;
  e_0827 = 0.001;
  e_0829 = 0.001;
  e_0830 = 0.001;
  e_0832 = 0.001;
  e_0834 = 0.001;
  e_0836 = 0.001;
  e_0838 = 0.001;
  e_0840 = 0.001;
  e_0841 = 0.001;
  e_0842 = 0.001;
  e_0846 = 0.001;
  e_0848 = 0.001;
  e_0850 = 0.001;
  e_0851 = 0.001;
  e_0852 = 0.001;
  e_0855 = 0.001;
  e_0860 = 0.001;
  e_0862 = 0.001;
  e_0867 = 0.001;
  e_0869 = 0.001;
  e_0875 = 0.001;
  e_0880 = 0.001;
  e_0883 = 0.001;
  e_0884 = 0.001;
  e_0888 = 0.001;
  e_0889 = 0.001;
  e_0890 = 0.001;
  e_0892 = 0.001;
  e_0894 = 0.001;
  e_0895 = 0.001;
  e_0898 = 0.001;
  e_0903 = 0.001;
  e_0904 = 0.001;
  e_0911 = 0.001;
  e_0913 = 0.001;
  e_0915 = 0.001;
  e_0922 = 0.001;
  e_0924 = 0.001;
  e_0926 = 0.001;
  e_0934 = 0.001;
  e_0935 = 0.001;
  e_0940 = 0.001;
  e_0944 = 0.001;
  e_0947 = 0.001;
  e_0950 = 0.001;
  e_0953 = 0.001;
  e_0955 = 0.001;
  e_0956 = 0.001;
  e_0959 = 0.001;
  e_0962 = 0.001;
  e_0963 = 0.001;
  e_0964 = 0.001;
  e_0970 = 0.001;
  e_0973 = 0.001;
  e_0975 = 0.001;
  e_0976 = 0.001;
  e_0978 = 0.001;
  e_0980 = 0.001;
  F26bP = 0.02;

  // Compartment initializations:
  cell = 1;
  extracellular = 1;

  // Variable initializations:
  r_0001_FLUX_VALUE = 0.164683028785161;
  r_0001_FLUX_VALUE has dimensionless;
  r_0001_Vmax = 4.94049086356688;
  r_0001_Vmax has mM_per_s;
  r_0001_Keq = 36.3062502385472;
  r_0001_Keq has dimensionless;
  r_0001_Km0025 = 0.1;
  r_0001_Km0025 has mM;
  r_0001_Km0709 = 0.1;
  r_0001_Km0709 has mM;
  r_0001_Km0710 = 0.1;
  r_0001_Km0710 has mM;
  r_0001_KmPYR = 1.81531251192736;
  r_0001_KmPYR has mM;
  r_0004_FLUX_VALUE = 0.0510711821801315;
  r_0004_FLUX_VALUE has dimensionless;
  r_0004_Vmax = 1.53213546540633;
  r_0004_Vmax has mM_per_s;
  r_0004_Keq = 36.3062502385472;
  r_0004_Keq has dimensionless;
  r_0004_Km0063 = 0.1;
  r_0004_Km0063 has mM;
  r_0004_Km0709 = 0.1;
  r_0004_Km0709 has mM;
  r_0004_Km0710 = 0.1;
  r_0004_Km0710 has mM;
  r_0004_KmPYR = 1.81531251192736;
  r_0004_KmPYR has mM;
  r_0005_FLUX_VALUE = 0.0487844783292279;
  r_0005_FLUX_VALUE has dimensionless;
  r_0005_Vmax = 0.487844783292558;
  r_0005_Vmax has mM_per_s;
  r_0005_Keq = 0.2;
  r_0005_Keq has mM;
  r_0005_Km1543 = 0.1;
  r_0005_Km1543 has mM;
  r_0005_Km0002 = 0.1;
  r_0005_Km0002 has mM;
  r_0005_Km1538 = 0.1;
  r_0005_Km1538 has mM;
  r_0006_FLUX_VALUE = 0.0487844783292279;
  r_0006_FLUX_VALUE has dimensionless;
  r_0006_Vmax = 0.487844783292558;
  r_0006_Vmax has mM_per_s;
  r_0006_Keq = 0.2;
  r_0006_Keq has mM;
  r_0006_Km1543 = 0.1;
  r_0006_Km1543 has mM;
  r_0006_Km0004 = 0.1;
  r_0006_Km0004 has mM;
  r_0006_Km1538 = 0.1;
  r_0006_Km1538 has mM;
  r_0007_FLUX_VALUE = 0.00285020348363397;
  r_0007_FLUX_VALUE has dimensionless;
  r_0007_Vmax = 0.0171012209018076;
  r_0007_Vmax has mM_per_s;
  r_0007_Keq = 2;
  r_0007_Keq has dimensionless;
  r_0007_Km0077 = 0.1;
  r_0007_Km0077 has mM;
  r_0007_Km0312 = 0.1;
  r_0007_Km0312 has mM;
  r_0008_FLUX_VALUE = 0.000272166486160745;
  r_0008_FLUX_VALUE has dimensionless;
  r_0008_Vmax = 0.00381033080625086;
  r_0008_Vmax has mM_per_s;
  r_0008_Keq = 2;
  r_0008_Keq has dimensionless;
  r_0008_Km0082 = 0.1;
  r_0008_Km0082 has mM;
  r_0008_Km0380 = 0.1;
  r_0008_Km0380 has mM;
  r_0008_Km0529 = 0.1;
  r_0008_Km0529 has mM;
  r_0008_Km1331 = 0.1;
  r_0008_Km1331 has mM;
  r_0012_FLUX_VALUE = 0.00708036974499435;
  r_0012_FLUX_VALUE has dimensionless;
  r_0012_Vmax = 0.0991251764301895;
  r_0012_Vmax has mM_per_s;
  r_0012_Keq = 34.6740984446895;
  r_0012_Keq has dimensionless;
  r_0012_Km0991 = 0.1;
  r_0012_Km0991 has mM;
  r_0012_KmNADH = 0.0867096979846952;
  r_0012_KmNADH has mM;
  r_0012_Km0118 = 0.1;
  r_0012_Km0118 has mM;
  r_0012_KmNAD = 1.50329030201531;
  r_0012_KmNAD has mM;
  r_0014_FLUX_VALUE = 4.25595995293758e-05;
  r_0014_FLUX_VALUE has dimensionless;
  r_0014_Vmax = 0.000425595995293516;
  r_0014_Vmax has mM_per_s;
  r_0014_Keq = 0.2;
  r_0014_Keq has mM;
  r_0014_Km0142 = 0.1;
  r_0014_Km0142 has mM;
  r_0014_Km0313 = 0.1;
  r_0014_Km0313 has mM;
  r_0014_Km0419 = 0.1;
  r_0014_Km0419 has mM;
  r_0015_FLUX_VALUE = 4.25595995293758e-05;
  r_0015_FLUX_VALUE has dimensionless;
  r_0015_Vmax = 0.000595834393411522;
  r_0015_Vmax has mM_per_s;
  r_0015_Keq = 2;
  r_0015_Keq has dimensionless;
  r_0015_Km0141 = 0.1;
  r_0015_Km0141 has mM;
  r_0015_Km1212 = 0.1;
  r_0015_Km1212 has mM;
  r_0015_Km0142 = 0.1;
  r_0015_Km0142 has mM;
  r_0015_Km1207 = 0.1;
  r_0015_Km1207 has mM;
  r_0016_FLUX_VALUE = 0.00828407559195422;
  r_0016_FLUX_VALUE has dimensionless;
  r_0016_Vmax = 0.115977058286883;
  r_0016_Vmax has mM_per_s;
  r_0016_Keq = 1.10173867411763;
  r_0016_Keq has dimensionless;
  r_0016_Km0178 = 0.1;
  r_0016_Km0178 has mM;
  r_0016_KmPYR = 1.81531251192736;
  r_0016_KmPYR has mM;
  r_0016_Km0039 = 0.1;
  r_0016_Km0039 has mM;
  r_0016_KmCO2 = 1;
  r_0016_KmCO2 has mM;
  r_0018_FLUX_VALUE = 0.0123035933209063;
  r_0018_FLUX_VALUE has dimensionless;
  r_0018_Vmax = 0.172250306492376;
  r_0018_Vmax has mM_per_s;
  r_0018_Keq = 2;
  r_0018_Keq has dimensionless;
  r_0018_Km0176 = 0.1;
  r_0018_Km0176 has mM;
  r_0018_Km0991 = 0.1;
  r_0018_Km0991 has mM;
  r_0018_Km0180 = 0.1;
  r_0018_Km0180 has mM;
  r_0018_Km0953 = 0.1;
  r_0018_Km0953 has mM;
  r_0020_FLUX_VALUE = 0.0113621233895091;
  r_0020_FLUX_VALUE has dimensionless;
  r_0020_Vmax = 0.159069727453122;
  r_0020_Vmax has mM_per_s;
  r_0020_Keq = 3.16279468017105;
  r_0020_Keq has dimensionless;
  r_0020_Km0551 = 0.1;
  r_0020_Km0551 has mM;
  r_0020_KmPEP = 0.0632352144936527;
  r_0020_KmPEP has mM;
  r_0020_Km0349 = 0.1;
  r_0020_Km0349 has mM;
  r_0020_KmPHO = 0.1;
  r_0020_KmPHO has mM;
  r_0023_FLUX_VALUE = 0.01274208616162;
  r_0023_FLUX_VALUE has dimensionless;
  r_0023_Vmax = 0.07645251696974;
  r_0023_Vmax has mM_per_s;
  r_0023_Keq = 2;
  r_0023_Keq has dimensionless;
  r_0023_Km0162 = 0.1;
  r_0023_Km0162 has mM;
  r_0023_Km0165 = 0.1;
  r_0023_Km0165 has mM;
  r_0024_FLUX_VALUE = 0.0127420861583158;
  r_0024_FLUX_VALUE has dimensionless;
  r_0024_Vmax = 0.178389206216842;
  r_0024_Vmax has mM_per_s;
  r_0024_Keq = 2;
  r_0024_Keq has dimensionless;
  r_0024_Km0232 = 0.1;
  r_0024_Km0232 has mM;
  r_0024_Km0373 = 0.1;
  r_0024_Km0373 has mM;
  r_0024_Km0162 = 0.1;
  r_0024_Km0162 has mM;
  r_0024_Km0529 = 0.1;
  r_0024_Km0529 has mM;
  r_0027_FLUX_VALUE = 0.0123035933209063;
  r_0027_FLUX_VALUE has dimensionless;
  r_0027_Vmax = 0.0738215599254756;
  r_0027_Vmax has mM_per_s;
  r_0027_Keq = 2;
  r_0027_Keq has dimensionless;
  r_0027_Km0835 = 0.1;
  r_0027_Km0835 has mM;
  r_0027_Km0454 = 0.1;
  r_0027_Km0454 has mM;
  r_0029_FLUX_VALUE = 0.01274208616162;
  r_0029_FLUX_VALUE has dimensionless;
  r_0029_Vmax = 0.1274208616164;
  r_0029_Vmax has mM_per_s;
  r_0029_Keq = 2;
  r_0029_Keq has mM;
  r_0029_Km0010 = 0.1;
  r_0029_Km0010 has mM;
  r_0029_Km0291 = 0.1;
  r_0029_Km0291 has mM;
  r_0029_KmCO2 = 1;
  r_0029_KmCO2 has mM;
  r_0032_FLUX_VALUE = 0.00246329803162576;
  r_0032_FLUX_VALUE has dimensionless;
  r_0032_Vmax = 0.0246329803162152;
  r_0032_Vmax has mM_per_s;
  r_0032_Keq = 0.585769706640182;
  r_0032_Keq has mM;
  r_0032_Km0390 = 0.1;
  r_0032_Km0390 has mM;
  r_0032_KmAMP = 0.292884853320091;
  r_0032_KmAMP has mM;
  r_0032_KmPHO = 0.1;
  r_0032_KmPHO has mM;
  r_0038_FLUX_VALUE = 8.51191990587516e-05;
  r_0038_FLUX_VALUE has dimensionless;
  r_0038_Vmax = 0.000851191990587032;
  r_0038_Vmax has mM_per_s;
  r_0038_Keq = 0.2;
  r_0038_Keq has mM;
  r_0038_Km0577 = 0.1;
  r_0038_Km0577 has mM;
  r_0038_Km0158 = 0.1;
  r_0038_Km0158 has mM;
  r_0038_Km0722 = 0.1;
  r_0038_Km0722 has mM;
  r_0039_FLUX_VALUE = 0.0113621233895091;
  r_0039_FLUX_VALUE has dimensionless;
  r_0039_Vmax = 0.0681727403370092;
  r_0039_Vmax has mM_per_s;
  r_0039_Keq = 2;
  r_0039_Keq has dimensionless;
  r_0039_Km0210 = 0.1;
  r_0039_Km0210 has mM;
  r_0039_Km0211 = 0.1;
  r_0039_Km0211 has mM;
  r_0040_FLUX_VALUE = 0.0113621233895091;
  r_0040_FLUX_VALUE has dimensionless;
  r_0040_Vmax = 0.113621233895182;
  r_0040_Vmax has mM_per_s;
  r_0040_Keq = 0.2;
  r_0040_Keq has mM;
  r_0040_Km0349 = 0.1;
  r_0040_Km0349 has mM;
  r_0040_Km0210 = 0.1;
  r_0040_Km0210 has mM;
  r_0040_KmPHO = 0.1;
  r_0040_KmPHO has mM;
  r_0041_FLUX_VALUE = 2.22290041668838e-05;
  r_0041_FLUX_VALUE has dimensionless;
  r_0041_Vmax = 0.000311206058336746;
  r_0041_Vmax has mM_per_s;
  r_0041_Keq = 2;
  r_0041_Keq has dimensionless;
  r_0041_Km0231 = 0.1;
  r_0041_Km0231 has mM;
  r_0041_Km1212 = 0.1;
  r_0041_Km1212 has mM;
  r_0041_Km1207 = 0.1;
  r_0041_Km1207 has mM;
  r_0041_Km1445 = 0.1;
  r_0041_Km1445 has mM;
  r_0060_FLUX_VALUE = 0.01274208616162;
  r_0060_FLUX_VALUE has dimensionless;
  r_0060_Vmax = 0.07645251696974;
  r_0060_Vmax has mM_per_s;
  r_0060_Keq = 2;
  r_0060_Keq has dimensionless;
  r_0060_Km0165 = 0.1;
  r_0060_Km0165 has mM;
  r_0060_Km0009 = 0.1;
  r_0060_Km0009 has mM;
  r_0061_FLUX_VALUE = 0.01274208616162;
  r_0061_FLUX_VALUE has dimensionless;
  r_0061_Vmax = 0.178389206261542;
  r_0061_Vmax has mM_per_s;
  r_0061_Keq = 0.115359884738766;
  r_0061_Keq has dimensionless;
  r_0061_Km0009 = 0.1;
  r_0061_Km0009 has mM;
  r_0061_KmNAD = 1.50329030201531;
  r_0061_KmNAD has mM;
  r_0061_Km0010 = 0.1;
  r_0061_Km0010 has mM;
  r_0061_KmNADH = 0.0867096979846952;
  r_0061_KmNADH has mM;
  r_0065_FLUX_VALUE = 0.0113621233895091;
  r_0065_FLUX_VALUE has dimensionless;
  r_0065_Vmax = 0.159069727453122;
  r_0065_Vmax has mM_per_s;
  r_0065_Keq = 3.16279468017105;
  r_0065_Keq has dimensionless;
  r_0065_Km0261 = 0.1;
  r_0065_Km0261 has mM;
  r_0065_KmPEP = 0.0632352144936527;
  r_0065_KmPEP has mM;
  r_0065_Km0324 = 0.1;
  r_0065_Km0324 has mM;
  r_0065_KmPHO = 0.1;
  r_0065_KmPHO has mM;
  r_0079_FLUX_VALUE = 0.00425553005793811;
  r_0079_FLUX_VALUE has dimensionless;
  r_0079_Vmax = 0.195754382665769;
  r_0079_Vmax has mM_per_s;
  r_0079_Keq = 0.101538452966048;
  r_0079_Keq has mM;
  r_0079_Km0301 = 0.1;
  r_0079_Km0301 has mM;
  r_0079_KmATP = 2.52512746499271;
  r_0079_KmATP has mM;
  r_0079_Km0999 = 0.1;
  r_0079_Km0999 has mM;
  r_0079_Km0302 = 0.1;
  r_0079_Km0302 has mM;
  r_0079_KmADP = 1.28198768168719;
  r_0079_KmADP has mM;
  r_0079_Km0991 = 0.1;
  r_0079_Km0991 has mM;
  r_0079_KmPHO = 0.1;
  r_0079_KmPHO has mM;
  r_0080_FLUX_VALUE = 0.00284104672032285;
  r_0080_FLUX_VALUE has dimensionless;
  r_0080_Vmax = 0.0397746540845398;
  r_0080_Vmax has mM_per_s;
  r_0080_Keq = 2;
  r_0080_Keq has dimensionless;
  r_0080_Km0306 = 0.1;
  r_0080_Km0306 has mM;
  r_0080_Km1212 = 0.1;
  r_0080_Km1212 has mM;
  r_0080_Km0322 = 0.1;
  r_0080_Km0322 has mM;
  r_0080_Km1207 = 0.1;
  r_0080_Km1207 has mM;
  r_0091_FLUX_VALUE = 0.0580388007275702;
  r_0091_FLUX_VALUE has dimensionless;
  r_0091_Vmax = 0.348232804365842;
  r_0091_Vmax has mM_per_s;
  r_0091_Keq = 2;
  r_0091_Keq has dimensionless;
  r_0091_Km0335 = 0.1;
  r_0091_Km0335 has mM;
  r_0091_Km0340 = 0.1;
  r_0091_Km0340 has mM;
  r_0096_FLUX_VALUE = 0.0241171063991091;
  r_0096_FLUX_VALUE has dimensionless;
  r_0096_Vmax = 0.337639489587055;
  r_0096_Vmax has mM_per_s;
  r_0096_Keq = 2;
  r_0096_Keq has dimensionless;
  r_0096_Km0146 = 0.1;
  r_0096_Km0146 has mM;
  r_0096_Km1212 = 0.1;
  r_0096_Km1212 has mM;
  r_0096_Km0016 = 0.1;
  r_0096_Km0016 has mM;
  r_0096_Km1207 = 0.1;
  r_0096_Km1207 has mM;
  r_0097_FLUX_VALUE = 0.0241171063991091;
  r_0097_FLUX_VALUE has dimensionless;
  r_0097_Vmax = 0.337639489586358;
  r_0097_Vmax has mM_per_s;
  r_0097_Keq = 0.060691405302324;
  r_0097_Keq has dimensionless;
  r_0097_KmPYR = 1.81531251192736;
  r_0097_KmPYR has mM;
  r_0097_Km0146 = 0.1;
  r_0097_Km0146 has mM;
  r_0097_KmCO2 = 1;
  r_0097_KmCO2 has mM;
  r_0103_FLUX_VALUE = 0.00176686822395045;
  r_0103_FLUX_VALUE has dimensionless;
  r_0103_Vmax = 0.0247361551353126;
  r_0103_Vmax has mM_per_s;
  r_0103_Keq = 2;
  r_0103_Keq has dimensionless;
  r_0103_Km0373 = 0.1;
  r_0103_Km0373 has mM;
  r_0103_Km0367 = 0.1;
  r_0103_Km0367 has mM;
  r_0103_Km0529 = 0.1;
  r_0103_Km0529 has mM;
  r_0108_FLUX_VALUE = 0.00677602649271165;
  r_0108_FLUX_VALUE has dimensionless;
  r_0108_Vmax = 0.203280794782218;
  r_0108_Vmax has mM_per_s;
  r_0108_Keq = 1.01538452966048;
  r_0108_Keq has dimensionless;
  r_0108_Km0373 = 0.1;
  r_0108_Km0373 has mM;
  r_0108_KmATP = 2.52512746499271;
  r_0108_KmATP has mM;
  r_0108_Km0445 = 0.1;
  r_0108_Km0445 has mM;
  r_0108_KmADP = 1.28198768168719;
  r_0108_KmADP has mM;
  r_0108_Km1101 = 0.1;
  r_0108_Km1101 has mM;
  r_0108_KmPHO = 0.1;
  r_0108_KmPHO has mM;
  r_0110_FLUX_VALUE = 0.121832060085064;
  r_0110_FLUX_VALUE has dimensionless;
  r_0110_Vmax = 1.21832060085128;
  r_0110_Vmax has mM_per_s;
  r_0110_Keq = 20;
  r_0110_Keq has per_mM;
  r_0110_Km0362 = 0.1;
  r_0110_Km0362 has mM;
  r_0110_Km0529 = 0.1;
  r_0110_Km0529 has mM;
  r_0110_Km0373 = 0.1;
  r_0110_Km0373 has mM;
  r_0115_FLUX_VALUE = 0.00690841177420332;
  r_0115_FLUX_VALUE has dimensionless;
  r_0115_Vmax = 0.0967177648392158;
  r_0115_Vmax has mM_per_s;
  r_0115_Keq = 1.01538452966048;
  r_0115_Keq has dimensionless;
  r_0115_KmATP = 2.52512746499271;
  r_0115_KmATP has mM;
  r_0115_Km1192 = 0.1;
  r_0115_Km1192 has mM;
  r_0115_KmADP = 1.28198768168719;
  r_0115_KmADP has mM;
  r_0115_Km1191 = 0.1;
  r_0115_Km1191 has mM;
  r_0118_FLUX_VALUE = 0.00690841177420332;
  r_0118_FLUX_VALUE has dimensionless;
  r_0118_Vmax = 0.096717764838893;
  r_0118_Vmax has mM_per_s;
  r_0118_Keq = 2;
  r_0118_Keq has dimensionless;
  r_0118_Km0145 = 0.1;
  r_0118_Km0145 has mM;
  r_0118_Km0991 = 0.1;
  r_0118_Km0991 has mM;
  r_0118_Km0180 = 0.1;
  r_0118_Km0180 has mM;
  r_0118_Km1182 = 0.1;
  r_0118_Km1182 has mM;
  r_0142_FLUX_VALUE = 0.000661479376058174;
  r_0142_FLUX_VALUE has dimensionless;
  r_0142_Vmax = 0.00926071126484976;
  r_0142_Vmax has mM_per_s;
  r_0142_Keq = 2.97390749033099;
  r_0142_Keq has dimensionless;
  r_0142_Km0386 = 0.1;
  r_0142_Km0386 has mM;
  r_0142_KmATP = 2.52512746499271;
  r_0142_KmATP has mM;
  r_0142_KmADP = 1.28198768168719;
  r_0142_KmADP has mM;
  r_0142_KmAMP = 0.292884853320091;
  r_0142_KmAMP has mM;
  r_0144_FLUX_VALUE = 0.00066147934932568;
  r_0144_FLUX_VALUE has dimensionless;
  r_0144_Vmax = 0.0066147934932536;
  r_0144_Vmax has mM_per_s;
  r_0144_Keq = 0.2;
  r_0144_Keq has mM;
  r_0144_Km1413 = 0.1;
  r_0144_Km1413 has mM;
  r_0144_Km0386 = 0.1;
  r_0144_Km0386 has mM;
  r_0144_Km1012 = 0.1;
  r_0144_Km1012 has mM;
  AK_k = 0.75;
  AK_k has per_mM_per_s;
  AK_Keq = 0.45;
  AK_Keq has dimensionless;
  AK_FLUX_VALUE = 7.17842452147011e-12;
  AK_FLUX_VALUE has dimensionless;
  r_0150_FLUX_VALUE = 0.189468372806467;
  r_0150_FLUX_VALUE has dimensionless;
  r_0150_Vmax = 2.65255721929185;
  r_0150_Vmax has mM_per_s;
  r_0150_Keq = 8.75420949328587;
  r_0150_Keq has dimensionless;
  r_0150_KmAMP = 0.292884853320091;
  r_0150_KmAMP has mM;
  r_0150_Km0785 = 0.1;
  r_0150_Km0785 has mM;
  r_0150_KmADP = 1.28198768168719;
  r_0150_KmADP has mM;
  r_0150_Km0739 = 0.1;
  r_0150_Km0739 has mM;
  r_0151_FLUX_VALUE = 0.00425553005793811;
  r_0151_FLUX_VALUE has dimensionless;
  r_0151_Vmax = 0.0425553005793622;
  r_0151_Vmax has mM_per_s;
  r_0151_Keq = 0.2;
  r_0151_Keq has mM;
  r_0151_Km0299 = 0.1;
  r_0151_Km0299 has mM;
  r_0151_Km0403 = 0.1;
  r_0151_Km0403 has mM;
  r_0151_Km0725 = 0.1;
  r_0151_Km0725 has mM;
  r_0152_FLUX_VALUE = 0.00498248241769124;
  r_0152_FLUX_VALUE has dimensionless;
  r_0152_Vmax = 0.0498248241769248;
  r_0152_Vmax has mM_per_s;
  r_0152_Keq = 0.585769706640182;
  r_0152_Keq has mM;
  r_0152_Km0393 = 0.1;
  r_0152_Km0393 has mM;
  r_0152_KmAMP = 0.292884853320091;
  r_0152_KmAMP has mM;
  r_0152_Km0725 = 0.1;
  r_0152_Km0725 has mM;
  r_0153_FLUX_VALUE = 0.00498248241769124;
  r_0153_FLUX_VALUE has dimensionless;
  r_0153_Vmax = 0.149474472530474;
  r_0153_Vmax has mM_per_s;
  r_0153_Keq = 2;
  r_0153_Keq has dimensionless;
  r_0153_Km0785 = 0.1;
  r_0153_Km0785 has mM;
  r_0153_Km0849 = 0.1;
  r_0153_Km0849 has mM;
  r_0153_Km0973 = 0.1;
  r_0153_Km0973 has mM;
  r_0153_Km0393 = 0.1;
  r_0153_Km0393 has mM;
  r_0153_Km0739 = 0.1;
  r_0153_Km0739 has mM;
  r_0153_KmPHO = 0.1;
  r_0153_KmPHO has mM;
  r_0154_FLUX_VALUE = 0.00246329802950139;
  r_0154_FLUX_VALUE has dimensionless;
  r_0154_Vmax = 0.0344861724131967;
  r_0154_Vmax has mM_per_s;
  r_0154_Keq = 1.01538452966048;
  r_0154_Keq has dimensionless;
  r_0154_Km0298 = 0.1;
  r_0154_Km0298 has mM;
  r_0154_KmATP = 2.52512746499271;
  r_0154_KmATP has mM;
  r_0154_Km0201 = 0.1;
  r_0154_Km0201 has mM;
  r_0154_KmADP = 1.28198768168719;
  r_0154_KmADP has mM;
  r_0156_FLUX_VALUE = 0.0328157050385547;
  r_0156_FLUX_VALUE has dimensionless;
  r_0156_Vmax = 0.459419870541062;
  r_0156_Vmax has mM_per_s;
  r_0156_Keq = 36.3062502385472;
  r_0156_Keq has dimensionless;
  r_0156_Km0779 = 0.1;
  r_0156_Km0779 has mM;
  r_0156_Km0955 = 0.1;
  r_0156_Km0955 has mM;
  r_0156_Km1003 = 0.1;
  r_0156_Km1003 has mM;
  r_0156_KmPYR = 1.81531251192736;
  r_0156_KmPYR has mM;
  r_0157_FLUX_VALUE = 0.0197235800647249;
  r_0157_FLUX_VALUE has dimensionless;
  r_0157_Vmax = 0.591707401941354;
  r_0157_Vmax has mM_per_s;
  r_0157_Keq = 0.2319762921916;
  r_0157_Keq has dimensionless;
  r_0157_KmATP = 2.52512746499271;
  r_0157_KmATP has mM;
  r_0157_Km0955 = 0.1;
  r_0157_Km0955 has mM;
  r_0157_Km1582 = 0.1;
  r_0157_Km1582 has mM;
  r_0157_Km0404 = 0.1;
  r_0157_Km0404 has mM;
  r_0157_KmAMP = 0.292884853320091;
  r_0157_KmAMP has mM;
  r_0157_Km0633 = 0.1;
  r_0157_Km0633 has mM;
  ADH_Vmax = 111.334973490802;
  ADH_Vmax has mM_per_s;
  ADH_Ketoh = 17;
  ADH_Ketoh has mM;
  ADH_Kinad = 0.92;
  ADH_Kinad has mM;
  ADH_Keq = 14492.7536231884;
  ADH_Keq has dimensionless;
  ADH_Knad = 0.17;
  ADH_Knad has mM;
  ADH_Knadh = 0.11;
  ADH_Knadh has mM;
  ADH_Kinadh = 0.031;
  ADH_Kinadh has mM;
  ADH_Kacald = 1.11;
  ADH_Kacald has mM;
  ADH_Kiacald = 1.1;
  ADH_Kiacald has mM;
  ADH_Kietoh = 90;
  ADH_Kietoh has mM;
  ADH_FLUX_VALUE = 2.17298600141811;
  ADH_FLUX_VALUE has dimensionless;
  r_0173_FLUX_VALUE = 0.08619625580535;
  r_0173_FLUX_VALUE has dimensionless;
  r_0173_Vmax = 1.20674758126899;
  r_0173_Vmax has mM_per_s;
  r_0173_Keq = 1.12270881888713;
  r_0173_Keq has dimensionless;
  r_0173_KmAcAld = 0.178140579850657;
  r_0173_KmAcAld has mM;
  r_0173_Km1207 = 0.1;
  r_0173_Km1207 has mM;
  r_0173_Km0362 = 0.1;
  r_0173_Km0362 has mM;
  r_0173_Km1212 = 0.1;
  r_0173_Km1212 has mM;
  r_0174_FLUX_VALUE = 0.029172333789626;
  r_0174_FLUX_VALUE has dimensionless;
  r_0174_Vmax = 0.408412673052549;
  r_0174_Vmax has mM_per_s;
  r_0174_Keq = 0.0647577799710077;
  r_0174_Keq has dimensionless;
  r_0174_KmAcAld = 0.178140579850657;
  r_0174_KmAcAld has mM;
  r_0174_KmNAD = 1.50329030201531;
  r_0174_KmNAD has mM;
  r_0174_Km0362 = 0.1;
  r_0174_Km0362 has mM;
  r_0174_KmNADH = 0.0867096979846952;
  r_0174_KmNADH has mM;
  r_0195_FLUX_VALUE = 0.00100595417069432;
  r_0195_FLUX_VALUE has dimensionless;
  r_0195_Vmax = 0.0140833583897285;
  r_0195_Vmax has mM_per_s;
  r_0195_Keq = 0.0747652332299264;
  r_0195_Keq has dimensionless;
  r_0195_KmG6P = 2.67504014044787;
  r_0195_KmG6P has mM;
  r_0195_Km1543 = 0.1;
  r_0195_Km1543 has mM;
  r_0195_Km0409 = 0.1;
  r_0195_Km0409 has mM;
  r_0195_Km1538 = 0.1;
  r_0195_Km1538 has mM;
  r_0202_FLUX_VALUE = 0.0012209016222774;
  r_0202_FLUX_VALUE has dimensionless;
  r_0202_Vmax = 0.0170926227118672;
  r_0202_Vmax has mM_per_s;
  r_0202_Keq = 2;
  r_0202_Keq has dimensionless;
  r_0202_Km0427 = 0.1;
  r_0202_Km0427 has mM;
  r_0202_Km1386 = 0.1;
  r_0202_Km1386 has mM;
  r_0202_Km0633 = 0.1;
  r_0202_Km0633 has mM;
  r_0202_Km1187 = 0.1;
  r_0202_Km1187 has mM;
  r_0203_FLUX_VALUE = 0.00122090164306482;
  r_0203_FLUX_VALUE has dimensionless;
  r_0203_Vmax = 0.0268598361475;
  r_0203_Vmax has mM_per_s;
  r_0203_Keq = 3.63062502385472;
  r_0203_Keq has mM;
  r_0203_Km0515 = 0.1;
  r_0203_Km0515 has mM;
  r_0203_Km0999 = 0.1;
  r_0203_Km0999 has mM;
  r_0203_Km0427 = 0.1;
  r_0203_Km0427 has mM;
  r_0203_Km0991 = 0.1;
  r_0203_Km0991 has mM;
  r_0203_KmPYR = 1.81531251192736;
  r_0203_KmPYR has mM;
  r_0207_FLUX_VALUE = 0.0069084117612002;
  r_0207_FLUX_VALUE has dimensionless;
  r_0207_Vmax = 0.069084117612004;
  r_0207_Vmax has mM_per_s;
  r_0207_Keq = 0.2;
  r_0207_Keq has mM;
  r_0207_Km0015 = 0.1;
  r_0207_Km0015 has mM;
  r_0207_Km0725 = 0.1;
  r_0207_Km0725 has mM;
  r_0207_Km0965 = 0.1;
  r_0207_Km0965 has mM;
  r_0208_FLUX_VALUE = 0.0069084117612002;
  r_0208_FLUX_VALUE has dimensionless;
  r_0208_Vmax = 0.207252352835613;
  r_0208_Vmax has mM_per_s;
  r_0208_Keq = 0.2319762921916;
  r_0208_Keq has dimensionless;
  r_0208_KmATP = 2.52512746499271;
  r_0208_KmATP has mM;
  r_0208_Km0973 = 0.1;
  r_0208_Km0973 has mM;
  r_0208_Km0979 = 0.1;
  r_0208_Km0979 has mM;
  r_0208_Km0015 = 0.1;
  r_0208_Km0015 has mM;
  r_0208_KmAMP = 0.292884853320091;
  r_0208_KmAMP has mM;
  r_0208_Km0633 = 0.1;
  r_0208_Km0633 has mM;
  r_0209_FLUX_VALUE = 0.0069084117619906;
  r_0209_FLUX_VALUE has dimensionless;
  r_0209_Vmax = 0.207252352859037;
  r_0209_Vmax has mM_per_s;
  r_0209_Keq = 0.2319762921916;
  r_0209_Keq has dimensionless;
  r_0209_KmATP = 2.52512746499271;
  r_0209_KmATP has mM;
  r_0209_Km0965 = 0.1;
  r_0209_Km0965 has mM;
  r_0209_Km1583 = 0.1;
  r_0209_Km1583 has mM;
  r_0209_KmAMP = 0.292884853320091;
  r_0209_KmAMP has mM;
  r_0209_Km0428 = 0.1;
  r_0209_Km0428 has mM;
  r_0209_Km0633 = 0.1;
  r_0209_Km0633 has mM;
  r_0211_FLUX_VALUE = 0.00437203159645897;
  r_0211_FLUX_VALUE has dimensionless;
  r_0211_Vmax = 0.201113453436838;
  r_0211_Vmax has mM_per_s;
  r_0211_Keq = 0.02319762921916;
  r_0211_Keq has mM;
  r_0211_KmATP = 2.52512746499271;
  r_0211_KmATP has mM;
  r_0211_Km0973 = 0.1;
  r_0211_Km0973 has mM;
  r_0211_Km0999 = 0.1;
  r_0211_Km0999 has mM;
  r_0211_KmAMP = 0.292884853320091;
  r_0211_KmAMP has mM;
  r_0211_Km0633 = 0.1;
  r_0211_Km0633 has mM;
  r_0211_Km0969 = 0.1;
  r_0211_Km0969 has mM;
  r_0211_Km0991 = 0.1;
  r_0211_Km0991 has mM;
  r_0212_FLUX_VALUE = 0.00437203158801769;
  r_0212_FLUX_VALUE has dimensionless;
  r_0212_Vmax = 0.131160947640809;
  r_0212_Vmax has mM_per_s;
  r_0212_Keq = 0.2319762921916;
  r_0212_Keq has dimensionless;
  r_0212_KmATP = 2.52512746499271;
  r_0212_KmATP has mM;
  r_0212_Km0969 = 0.1;
  r_0212_Km0969 has mM;
  r_0212_Km1585 = 0.1;
  r_0212_Km1585 has mM;
  r_0212_KmAMP = 0.292884853320091;
  r_0212_KmAMP has mM;
  r_0212_Km0430 = 0.1;
  r_0212_Km0430 has mM;
  r_0212_Km0633 = 0.1;
  r_0212_Km0633 has mM;
  r_0214_FLUX_VALUE = 0.00475463808883757;
  r_0214_FLUX_VALUE has dimensionless;
  r_0214_Vmax = 0.066564933243752;
  r_0214_Vmax has mM_per_s;
  r_0214_Keq = 2;
  r_0214_Keq has dimensionless;
  r_0214_Km0455 = 0.1;
  r_0214_Km0455 has mM;
  r_0214_Km0973 = 0.1;
  r_0214_Km0973 has mM;
  r_0214_Km1194 = 0.1;
  r_0214_Km1194 has mM;
  r_0214_KmPHO = 0.1;
  r_0214_KmPHO has mM;
  r_0215_FLUX_VALUE = 0.0358874035357151;
  r_0215_FLUX_VALUE has dimensionless;
  r_0215_Vmax = 0.502423649501778;
  r_0215_Vmax has mM_per_s;
  r_0215_Keq = 1.01538452966048;
  r_0215_Keq has dimensionless;
  r_0215_KmATP = 2.52512746499271;
  r_0215_KmATP has mM;
  r_0215_Km0973 = 0.1;
  r_0215_Km0973 has mM;
  r_0215_Km0295 = 0.1;
  r_0215_Km0295 has mM;
  r_0215_KmADP = 1.28198768168719;
  r_0215_KmADP has mM;
  r_0216_FLUX_VALUE = 0.0739498720561206;
  r_0216_FLUX_VALUE has dimensionless;
  r_0216_Vmax = 1.03529820878138;
  r_0216_Vmax has mM_per_s;
  r_0216_Keq = 2;
  r_0216_Keq has dimensionless;
  r_0216_Km0991 = 0.1;
  r_0216_Km0991 has mM;
  r_0216_Km1271 = 0.1;
  r_0216_Km1271 has mM;
  r_0216_Km0180 = 0.1;
  r_0216_Km0180 has mM;
  r_0216_Km0973 = 0.1;
  r_0216_Km0973 has mM;
  r_0219_FLUX_VALUE = 0.0358874035357151;
  r_0219_FLUX_VALUE has dimensionless;
  r_0219_Vmax = 0.789522877785464;
  r_0219_Vmax has mM_per_s;
  r_0219_Keq = 0.2;
  r_0219_Keq has mM;
  r_0219_Km0295 = 0.1;
  r_0219_Km0295 has mM;
  r_0219_Km1212 = 0.1;
  r_0219_Km1212 has mM;
  r_0219_Km0978 = 0.1;
  r_0219_Km0978 has mM;
  r_0219_Km1207 = 0.1;
  r_0219_Km1207 has mM;
  r_0219_KmPHO = 0.1;
  r_0219_KmPHO has mM;
  r_0220_FLUX_VALUE = 0.0127893746060498;
  r_0220_FLUX_VALUE has dimensionless;
  r_0220_Vmax = 0.383681238181249;
  r_0220_Vmax has mM_per_s;
  r_0220_Keq = 0.2319762921916;
  r_0220_Keq has dimensionless;
  r_0220_KmATP = 2.52512746499271;
  r_0220_KmATP has mM;
  r_0220_Km0973 = 0.1;
  r_0220_Km0973 has mM;
  r_0220_Km1587 = 0.1;
  r_0220_Km1587 has mM;
  r_0220_KmAMP = 0.292884853320091;
  r_0220_KmAMP has mM;
  r_0220_Km0432 = 0.1;
  r_0220_Km0432 has mM;
  r_0220_Km0633 = 0.1;
  r_0220_Km0633 has mM;
  r_0225_FLUX_VALUE = 0.00285020348363397;
  r_0225_FLUX_VALUE has dimensionless;
  r_0225_Vmax = 0.039902848770934;
  r_0225_Vmax has mM_per_s;
  r_0225_Keq = 0.0792039224841972;
  r_0225_Keq has dimensionless;
  r_0225_KmATP = 2.52512746499271;
  r_0225_KmATP has mM;
  r_0225_Km1386 = 0.1;
  r_0225_Km1386 has mM;
  r_0225_Km0326 = 0.1;
  r_0225_Km0326 has mM;
  r_0225_Km0633 = 0.1;
  r_0225_Km0633 has mM;
  r_0226_FLUX_VALUE = 3.29212520688142;
  r_0226_FLUX_VALUE has dimensionless;
  r_0226_Vmax = 32.9212520686871;
  r_0226_Vmax has mM_per_s;
  r_0226_Keq = 39.3939427197843;
  r_0226_Keq has per_mM;
  r_0226_KmADP = 1.28198768168719;
  r_0226_KmADP has mM;
  r_0226_KmPHO = 0.1;
  r_0226_KmPHO has mM;
  r_0226_KmATP = 2.52512746499271;
  r_0226_KmATP has mM;
  ATPase_k = 0.658333333333335;
  ATPase_k has per_s;
  ATPase_FLUX_VALUE = 1.66237558111758;
  ATPase_FLUX_VALUE has dimensionless;
  r_0231_FLUX_VALUE = 0.000293102373430305;
  r_0231_FLUX_VALUE has dimensionless;
  r_0231_Vmax = 0.00410343322802854;
  r_0231_Vmax has mM_per_s;
  r_0231_Keq = 2;
  r_0231_Keq has dimensionless;
  r_0231_Km0262 = 0.1;
  r_0231_Km0262 has mM;
  r_0231_Km1212 = 0.1;
  r_0231_Km1212 has mM;
  r_0231_Km0122 = 0.1;
  r_0231_Km0122 has mM;
  r_0231_Km1207 = 0.1;
  r_0231_Km1207 has mM;
  r_0234_FLUX_VALUE = 0.000290694961726454;
  r_0234_FLUX_VALUE has dimensionless;
  r_0234_Vmax = 0.00639528915798398;
  r_0234_Vmax has mM_per_s;
  r_0234_Keq = 2;
  r_0234_Keq has mM;
  r_0234_Km1207 = 0.1;
  r_0234_Km1207 has mM;
  r_0234_Km1578 = 0.1;
  r_0234_Km1578 has mM;
  r_0234_KmCO2 = 1;
  r_0234_KmCO2 has mM;
  r_0234_Km1212 = 0.1;
  r_0234_Km1212 has mM;
  r_0234_Km1579 = 0.1;
  r_0234_Km1579 has mM;
  r_0235_FLUX_VALUE = 0.000290694961726454;
  r_0235_FLUX_VALUE has dimensionless;
  r_0235_Vmax = 0.0063952891579488;
  r_0235_Vmax has mM_per_s;
  r_0235_Keq = 0.115359884738766;
  r_0235_Keq has mM;
  r_0235_Km0297 = 0.1;
  r_0235_Km0297 has mM;
  r_0235_KmNAD = 1.50329030201531;
  r_0235_KmNAD has mM;
  r_0235_Km0209 = 0.1;
  r_0235_Km0209 has mM;
  r_0235_KmCO2 = 1;
  r_0235_KmCO2 has mM;
  r_0235_KmNADH = 0.0867096979846952;
  r_0235_KmNADH has mM;
  r_0236_FLUX_VALUE = 0.000290694961726454;
  r_0236_FLUX_VALUE has dimensionless;
  r_0236_Vmax = 0.00406972946417071;
  r_0236_Vmax has mM_per_s;
  r_0236_Keq = 2;
  r_0236_Keq has dimensionless;
  r_0236_Km0209 = 0.1;
  r_0236_Km0209 has mM;
  r_0236_Km1212 = 0.1;
  r_0236_Km1212 has mM;
  r_0236_Km0296 = 0.1;
  r_0236_Km0296 has mM;
  r_0236_Km1207 = 0.1;
  r_0236_Km1207 has mM;
  r_0237_FLUX_VALUE = 0.000290694961726454;
  r_0237_FLUX_VALUE has dimensionless;
  r_0237_Vmax = 0.00406972946417071;
  r_0237_Vmax has mM_per_s;
  r_0237_Keq = 2;
  r_0237_Keq has dimensionless;
  r_0237_Km1212 = 0.1;
  r_0237_Km1212 has mM;
  r_0237_Km1579 = 0.1;
  r_0237_Km1579 has mM;
  r_0237_Km1207 = 0.1;
  r_0237_Km1207 has mM;
  r_0237_Km1569 = 0.1;
  r_0237_Km1569 has mM;
  r_0238_FLUX_VALUE = 0.000290694961726454;
  r_0238_FLUX_VALUE has dimensionless;
  r_0238_Vmax = 0.00639528915798398;
  r_0238_Vmax has mM_per_s;
  r_0238_Keq = 20;
  r_0238_Keq has per_mM;
  r_0238_Km0296 = 0.1;
  r_0238_Km0296 has mM;
  r_0238_Km1212 = 0.1;
  r_0238_Km1212 has mM;
  r_0238_Km1275 = 0.1;
  r_0238_Km1275 has mM;
  r_0238_Km1207 = 0.1;
  r_0238_Km1207 has mM;
  r_0238_Km1576 = 0.1;
  r_0238_Km1576 has mM;
  r_0239_FLUX_VALUE = 0.000290694961726454;
  r_0239_FLUX_VALUE has dimensionless;
  r_0239_Vmax = 0.00639528915798398;
  r_0239_Vmax has mM_per_s;
  r_0239_Keq = 20;
  r_0239_Keq has per_mM;
  r_0239_Km1212 = 0.1;
  r_0239_Km1212 has mM;
  r_0239_Km1275 = 0.1;
  r_0239_Km1275 has mM;
  r_0239_Km1576 = 0.1;
  r_0239_Km1576 has mM;
  r_0239_Km1207 = 0.1;
  r_0239_Km1207 has mM;
  r_0239_Km1577 = 0.1;
  r_0239_Km1577 has mM;
  r_0240_FLUX_VALUE = 0.000290694961726454;
  r_0240_FLUX_VALUE has dimensionless;
  r_0240_Vmax = 0.00639528915798398;
  r_0240_Vmax has mM_per_s;
  r_0240_Keq = 20;
  r_0240_Keq has per_mM;
  r_0240_Km1212 = 0.1;
  r_0240_Km1212 has mM;
  r_0240_Km1275 = 0.1;
  r_0240_Km1275 has mM;
  r_0240_Km1577 = 0.1;
  r_0240_Km1577 has mM;
  r_0240_Km1207 = 0.1;
  r_0240_Km1207 has mM;
  r_0240_Km1578 = 0.1;
  r_0240_Km1578 has mM;
  r_0241_FLUX_VALUE = 0.000290694961726454;
  r_0241_FLUX_VALUE has dimensionless;
  r_0241_Vmax = 0.0831387590537316;
  r_0241_Vmax has mM_per_s;
  r_0241_Keq = 2000;
  r_0241_Keq has per_mM_cubed;
  r_0241_Km0122 = 0.1;
  r_0241_Km0122 has mM;
  r_0241_Km1212 = 0.1;
  r_0241_Km1212 has mM;
  r_0241_Km1275 = 0.1;
  r_0241_Km1275 has mM;
  r_0241_Km0297 = 0.1;
  r_0241_Km0297 has mM;
  r_0241_Km1207 = 0.1;
  r_0241_Km1207 has mM;
  r_0243_FLUX_VALUE = 4.12702283642471e-06;
  r_0243_FLUX_VALUE has dimensionless;
  r_0243_Vmax = 2.47621370185965e-05;
  r_0243_Vmax has mM_per_s;
  r_0243_Keq = 2;
  r_0243_Keq has dimensionless;
  r_0243_Km0700 = 0.1;
  r_0243_Km0700 has mM;
  r_0243_Km0657 = 0.1;
  r_0243_Km0657 has mM;
  r_0244_FLUX_VALUE = 0.00027564863865831;
  r_0244_FLUX_VALUE has dimensionless;
  r_0244_Vmax = 0.00385908094121268;
  r_0244_Vmax has mM_per_s;
  r_0244_Keq = 2;
  r_0244_Keq has dimensionless;
  r_0244_Km0662 = 0.1;
  r_0244_Km0662 has mM;
  r_0244_Km1212 = 0.1;
  r_0244_Km1212 has mM;
  r_0244_Km0666 = 0.1;
  r_0244_Km0666 has mM;
  r_0244_Km1207 = 0.1;
  r_0244_Km1207 has mM;
  r_0250_FLUX_VALUE = 0.0116630498500378;
  r_0250_FLUX_VALUE has dimensionless;
  r_0250_Vmax = 1.09632668591107;
  r_0250_Vmax has mM_per_s;
  r_0250_Keq = 0.0515502871536916;
  r_0250_Keq has mM;
  r_0250_KmATP = 2.52512746499271;
  r_0250_KmATP has mM;
  r_0250_Km0445 = 0.1;
  r_0250_Km0445 has mM;
  r_0250_Km0999 = 0.1;
  r_0250_Km0999 has mM;
  r_0250_KmADP = 1.28198768168719;
  r_0250_KmADP has mM;
  r_0250_Km0455 = 0.1;
  r_0250_Km0455 has mM;
  r_0250_Km0991 = 0.1;
  r_0250_Km0991 has mM;
  r_0250_KmPHO = 0.1;
  r_0250_KmPHO has mM;
  r_0257_FLUX_VALUE = 0.000260820701144352;
  r_0257_FLUX_VALUE has dimensionless;
  r_0257_Vmax = 0.00365148981602186;
  r_0257_Vmax has mM_per_s;
  r_0257_Keq = 2;
  r_0257_Keq has dimensionless;
  r_0257_Km0539 = 0.1;
  r_0257_Km0539 has mM;
  r_0257_Km1331 = 0.1;
  r_0257_Km1331 has mM;
  r_0257_Km0471 = 0.1;
  r_0257_Km0471 has mM;
  r_0257_Km0633 = 0.1;
  r_0257_Km0633 has mM;
  r_0264_FLUX_VALUE = 2.22290012145366e-05;
  r_0264_FLUX_VALUE has dimensionless;
  r_0264_Vmax = 0.000311206017003025;
  r_0264_Vmax has mM_per_s;
  r_0264_Keq = 2;
  r_0264_Keq has dimensionless;
  r_0264_Km0816 = 0.1;
  r_0264_Km0816 has mM;
  r_0264_Km1445 = 0.1;
  r_0264_Km1445 has mM;
  r_0264_Km0478 = 0.1;
  r_0264_Km0478 has mM;
  r_0264_Km0529 = 0.1;
  r_0264_Km0529 has mM;
  r_0278_FLUX_VALUE = 0.0101412217464439;
  r_0278_FLUX_VALUE has dimensionless;
  r_0278_Vmax = 0.0608473304786268;
  r_0278_Vmax has mM_per_s;
  r_0278_Keq = 2;
  r_0278_Keq has dimensionless;
  r_0278_Km0515 = 0.1;
  r_0278_Km0515 has mM;
  r_0278_Km1377 = 0.1;
  r_0278_Km1377 has mM;
  r_0279_FLUX_VALUE = 0.0113621233895091;
  r_0279_FLUX_VALUE has dimensionless;
  r_0279_Vmax = 0.113621233895182;
  r_0279_Vmax has mM_per_s;
  r_0279_Keq = 0.2;
  r_0279_Keq has mM;
  r_0279_Km0324 = 0.1;
  r_0279_Km0324 has mM;
  r_0279_Km0515 = 0.1;
  r_0279_Km0515 has mM;
  r_0279_KmPHO = 0.1;
  r_0279_KmPHO has mM;
  r_0280_FLUX_VALUE = 0.0766134020848108;
  r_0280_FLUX_VALUE has dimensionless;
  r_0280_Vmax = 0.459680412508729;
  r_0280_Vmax has mM_per_s;
  r_0280_Keq = 2;
  r_0280_Keq has dimensionless;
  r_0280_Km0516 = 0.1;
  r_0280_Km0516 has mM;
  r_0280_Km0940 = 0.1;
  r_0280_Km0940 has mM;
  r_0300_FLUX_VALUE = 0.0766134020477328;
  r_0300_FLUX_VALUE has dimensionless;
  r_0300_Vmax = 1.07258762866652;
  r_0300_Vmax has mM_per_s;
  r_0300_Keq = 2;
  r_0300_Keq has dimensionless;
  r_0300_Km0373 = 0.1;
  r_0300_Km0373 has mM;
  r_0300_Km1271 = 0.1;
  r_0300_Km1271 has mM;
  r_0300_Km0522 = 0.1;
  r_0300_Km0522 has mM;
  r_0300_Km0529 = 0.1;
  r_0300_Km0529 has mM;
  r_0302_FLUX_VALUE = 0.0766134020848108;
  r_0302_FLUX_VALUE has dimensionless;
  r_0302_Vmax = 0.459680412508729;
  r_0302_Vmax has mM_per_s;
  r_0302_Keq = 2;
  r_0302_Keq has dimensionless;
  r_0302_Km0522 = 0.1;
  r_0302_Km0522 has mM;
  r_0302_Km0516 = 0.1;
  r_0302_Km0516 has mM;
  r_0307_FLUX_VALUE = 0.00202624708227366;
  r_0307_FLUX_VALUE has dimensionless;
  r_0307_Vmax = 0.0607874124684739;
  r_0307_Vmax has mM_per_s;
  r_0307_Keq = 1.01538452966048;
  r_0307_Keq has dimensionless;
  r_0307_Km0419 = 0.1;
  r_0307_Km0419 has mM;
  r_0307_KmATP = 2.52512746499271;
  r_0307_KmATP has mM;
  r_0307_Km1559 = 0.1;
  r_0307_Km1559 has mM;
  r_0307_KmADP = 1.28198768168719;
  r_0307_KmADP has mM;
  r_0307_Km0539 = 0.1;
  r_0307_Km0539 has mM;
  r_0307_KmPHO = 0.1;
  r_0307_KmPHO has mM;
  r_0309_FLUX_VALUE = 0.000283730618430864;
  r_0309_FLUX_VALUE has dimensionless;
  r_0309_Vmax = 0.00283730618430728;
  r_0309_Vmax has mM_per_s;
  r_0309_Keq = 20;
  r_0309_Keq has per_mM;
  r_0309_Km1012 = 0.1;
  r_0309_Km1012 has mM;
  r_0309_Km1039 = 0.1;
  r_0309_Km1039 has mM;
  r_0309_Km0980 = 0.1;
  r_0309_Km0980 has mM;
  r_0310_FLUX_VALUE = 0.0042839031237274;
  r_0310_FLUX_VALUE has dimensionless;
  r_0310_Vmax = 0.0771102562270864;
  r_0310_Vmax has mM_per_s;
  r_0310_Keq = 0.02;
  r_0310_Keq has mM_squared;
  r_0310_Km0980 = 0.1;
  r_0310_Km0980 has mM;
  r_0310_Km0178 = 0.1;
  r_0310_Km0178 has mM;
  r_0310_Km0419 = 0.1;
  r_0310_Km0419 has mM;
  r_0310_Km0981 = 0.1;
  r_0310_Km0981 has mM;
  r_0311_FLUX_VALUE = 0.00400017250529654;
  r_0311_FLUX_VALUE has dimensionless;
  r_0311_Vmax = 0.0560024150741031;
  r_0311_Vmax has mM_per_s;
  r_0311_Keq = 2;
  r_0311_Keq has dimensionless;
  r_0311_Km0981 = 0.1;
  r_0311_Km0981 has mM;
  r_0311_Km1233 = 0.1;
  r_0311_Km1233 has mM;
  r_0311_Km0362 = 0.1;
  r_0311_Km0362 has mM;
  r_0311_Km0980 = 0.1;
  r_0311_Km0980 has mM;
  r_0313_FLUX_VALUE = 0.000283730663529172;
  r_0313_FLUX_VALUE has dimensionless;
  r_0313_Vmax = 0.00851191990586391;
  r_0313_Vmax has mM_per_s;
  r_0313_Keq = 0.2319762921916;
  r_0313_Keq has dimensionless;
  r_0313_KmATP = 2.52512746499271;
  r_0313_KmATP has mM;
  r_0313_Km0981 = 0.1;
  r_0313_Km0981 has mM;
  r_0313_Km1589 = 0.1;
  r_0313_Km1589 has mM;
  r_0313_KmAMP = 0.292884853320091;
  r_0313_KmAMP has mM;
  r_0313_Km0542 = 0.1;
  r_0313_Km0542 has mM;
  r_0313_Km0633 = 0.1;
  r_0313_Km0633 has mM;
  r_0317_FLUX_VALUE = 0.000293102373430305;
  r_0317_FLUX_VALUE has dimensionless;
  r_0317_Vmax = 0.093206554750874;
  r_0317_Vmax has mM_per_s;
  r_0317_Keq = 200;
  r_0317_Keq has per_mM_squared;
  r_0317_Km1059 = 0.1;
  r_0317_Km1059 has mM;
  r_0317_Km1212 = 0.1;
  r_0317_Km1212 has mM;
  r_0317_Km1275 = 0.1;
  r_0317_Km1275 has mM;
  r_0317_Km0262 = 0.1;
  r_0317_Km0262 has mM;
  r_0317_Km0722 = 0.1;
  r_0317_Km0722 has mM;
  r_0317_Km1207 = 0.1;
  r_0317_Km1207 has mM;
  r_0326_FLUX_VALUE = 1.44213152998562e-06;
  r_0326_FLUX_VALUE has dimensionless;
  r_0326_Vmax = 1.44213152998124e-05;
  r_0326_Vmax has mM_per_s;
  r_0326_Keq = 0.2;
  r_0326_Keq has mM;
  r_0326_Km0589 = 0.1;
  r_0326_Km0589 has mM;
  r_0326_Km0419 = 0.1;
  r_0326_Km0419 has mM;
  r_0326_Km0654 = 0.1;
  r_0326_Km0654 has mM;
  r_0330_FLUX_VALUE = 0.000103174788678278;
  r_0330_FLUX_VALUE has dimensionless;
  r_0330_Vmax = 0.0014444470414912;
  r_0330_Vmax has mM_per_s;
  r_0330_Keq = 3.93939427197843;
  r_0330_Keq has dimensionless;
  r_0330_KmADP = 1.28198768168719;
  r_0330_KmADP has mM;
  r_0330_Km0613 = 0.1;
  r_0330_Km0613 has mM;
  r_0330_KmATP = 2.52512746499271;
  r_0330_KmATP has mM;
  r_0330_Km0615 = 0.1;
  r_0330_Km0615 has mM;
  r_0336_FLUX_VALUE = 0.000544332973675324;
  r_0336_FLUX_VALUE has dimensionless;
  r_0336_Vmax = 0.00762066163145907;
  r_0336_Vmax has mM_per_s;
  r_0336_Keq = 2;
  r_0336_Keq has dimensionless;
  r_0336_Km0529 = 0.1;
  r_0336_Km0529 has mM;
  r_0336_Km1524 = 0.1;
  r_0336_Km1524 has mM;
  r_0336_Km0380 = 0.1;
  r_0336_Km0380 has mM;
  r_0336_Km0619 = 0.1;
  r_0336_Km0619 has mM;
  r_0337_FLUX_VALUE = 1.13457877977285e-05;
  r_0337_FLUX_VALUE has dimensionless;
  r_0337_Vmax = 0.00011345787797757;
  r_0337_Vmax has mM_per_s;
  r_0337_Keq = 0.2;
  r_0337_Keq has mM;
  r_0337_Km1331 = 0.1;
  r_0337_Km1331 has mM;
  r_0337_Km0619 = 0.1;
  r_0337_Km0619 has mM;
  r_0337_KmPHO = 0.1;
  r_0337_KmPHO has mM;
  r_0344_FLUX_VALUE = 0.000154762180106816;
  r_0344_FLUX_VALUE has dimensionless;
  r_0344_Vmax = 0.00216667052149085;
  r_0344_Vmax has mM_per_s;
  r_0344_Keq = 2;
  r_0344_Keq has dimensionless;
  r_0344_Km0625 = 0.1;
  r_0344_Km0625 has mM;
  r_0344_Km1212 = 0.1;
  r_0344_Km1212 has mM;
  r_0344_Km1207 = 0.1;
  r_0344_Km1207 has mM;
  r_0344_Km1487 = 0.1;
  r_0344_Km1487 has mM;
  r_0349_FLUX_VALUE = 0.00475463808883757;
  r_0349_FLUX_VALUE has dimensionless;
  r_0349_Vmax = 0.0285278285330508;
  r_0349_Vmax has mM_per_s;
  r_0349_Keq = 2;
  r_0349_Keq has dimensionless;
  r_0349_Km1194 = 0.1;
  r_0349_Km1194 has mM;
  r_0349_Km0061 = 0.1;
  r_0349_Km0061 has mM;
  r_0352_FLUX_VALUE = 0.0241171063991091;
  r_0352_FLUX_VALUE has dimensionless;
  r_0352_Vmax = 0.144702638394309;
  r_0352_Vmax has mM_per_s;
  r_0352_Keq = 2;
  r_0352_Keq has dimensionless;
  r_0352_Km0016 = 0.1;
  r_0352_Km0016 has mM;
  r_0352_Km0232 = 0.1;
  r_0352_Km0232 has mM;
  r_0353_FLUX_VALUE = 0.00828407559195422;
  r_0353_FLUX_VALUE has dimensionless;
  r_0353_Vmax = 0.0497044535517506;
  r_0353_Vmax has mM_per_s;
  r_0353_Keq = 2;
  r_0353_Keq has dimensionless;
  r_0353_Km0008 = 0.1;
  r_0353_Km0008 has mM;
  r_0353_Km0056 = 0.1;
  r_0353_Km0056 has mM;
  r_0355_FLUX_VALUE = 0.000588956076077212;
  r_0355_FLUX_VALUE has dimensionless;
  r_0355_Vmax = 0.00824538506508194;
  r_0355_Vmax has mM_per_s;
  r_0355_Keq = 2;
  r_0355_Keq has dimensionless;
  r_0355_Km0943 = 0.1;
  r_0355_Km0943 has mM;
  r_0355_Km1376 = 0.1;
  r_0355_Km1376 has mM;
  r_0355_Km0633 = 0.1;
  r_0355_Km0633 has mM;
  r_0355_Km0745 = 0.1;
  r_0355_Km0745 has mM;
  r_0361_FLUX_VALUE = 0.0347312125856391;
  r_0361_FLUX_VALUE has dimensionless;
  r_0361_Vmax = 0.486236976198895;
  r_0361_Vmax has mM_per_s;
  r_0361_Keq = 2;
  r_0361_Keq has dimensionless;
  r_0361_Km0645 = 0.1;
  r_0361_Km0645 has mM;
  r_0361_Km0743 = 0.1;
  r_0361_Km0743 has mM;
  r_0361_Km0644 = 0.1;
  r_0361_Km0644 has mM;
  r_0361_Km0739 = 0.1;
  r_0361_Km0739 has mM;
  r_0362_FLUX_VALUE = 0.0347312125856391;
  r_0362_FLUX_VALUE has dimensionless;
  r_0362_Vmax = 0.347312125856782;
  r_0362_Vmax has mM_per_s;
  r_0362_Keq = 0.2;
  r_0362_Keq has mM;
  r_0362_Km0644 = 0.1;
  r_0362_Km0644 has mM;
  r_0362_Km0645 = 0.1;
  r_0362_Km0645 has mM;
  r_0362_Km1107 = 0.1;
  r_0362_Km1107 has mM;
  r_0364_FLUX_VALUE = 0.000153320048576619;
  r_0364_FLUX_VALUE has dimensionless;
  r_0364_Vmax = 0.00153320048576238;
  r_0364_Vmax has mM_per_s;
  r_0364_Keq = 0.2;
  r_0364_Keq has mM;
  r_0364_Km0656 = 0.1;
  r_0364_Km0656 has mM;
  r_0364_Km0633 = 0.1;
  r_0364_Km0633 has mM;
  r_0364_Km0654 = 0.1;
  r_0364_Km0654 has mM;
  ENO_Vmax = 3.35999999999999;
  ENO_Vmax has mM_per_s;
  ENO_Kp2g = 0.04;
  ENO_Kp2g has mM;
  ENO_Keq = 6.7;
  ENO_Keq has dimensionless;
  ENO_Kpep = 0.5;
  ENO_Kpep has mM;
  ENO_FLUX_VALUE = 2.30005961518428;
  ENO_FLUX_VALUE has dimensionless;
  r_0386_FLUX_VALUE = 1.11145361985654e-05;
  r_0386_FLUX_VALUE has dimensionless;
  r_0386_Vmax = 0.0010447664026603;
  r_0386_Vmax has mM_per_s;
  r_0386_Keq = 2;
  r_0386_Keq has mM;
  r_0386_Km0595 = 0.1;
  r_0386_Km0595 has mM;
  r_0386_Km1101 = 0.1;
  r_0386_Km1101 has mM;
  r_0386_Km1212 = 0.1;
  r_0386_Km1212 has mM;
  r_0386_KmCO2 = 1;
  r_0386_KmCO2 has mM;
  r_0386_Km0529 = 0.1;
  r_0386_Km0529 has mM;
  r_0386_Km1065 = 0.1;
  r_0386_Km1065 has mM;
  r_0386_Km1207 = 0.1;
  r_0386_Km1207 has mM;
  r_0387_FLUX_VALUE = 1.11144810306745e-05;
  r_0387_FLUX_VALUE has dimensionless;
  r_0387_Vmax = 0.00104476121688681;
  r_0387_Vmax has mM_per_s;
  r_0387_Keq = 2;
  r_0387_Keq has mM;
  r_0387_Km1065 = 0.1;
  r_0387_Km1065 has mM;
  r_0387_Km1101 = 0.1;
  r_0387_Km1101 has mM;
  r_0387_Km1212 = 0.1;
  r_0387_Km1212 has mM;
  r_0387_KmCO2 = 1;
  r_0387_KmCO2 has mM;
  r_0387_Km0529 = 0.1;
  r_0387_Km0529 has mM;
  r_0387_Km1161 = 0.1;
  r_0387_Km1161 has mM;
  r_0387_Km1207 = 0.1;
  r_0387_Km1207 has mM;
  r_0389_FLUX_VALUE = 1.11144810306745e-05;
  r_0389_FLUX_VALUE has dimensionless;
  r_0389_Vmax = 0.00104476121688681;
  r_0389_Vmax has mM_per_s;
  r_0389_Keq = 2;
  r_0389_Keq has mM;
  r_0389_Km1101 = 0.1;
  r_0389_Km1101 has mM;
  r_0389_Km1161 = 0.1;
  r_0389_Km1161 has mM;
  r_0389_Km1212 = 0.1;
  r_0389_Km1212 has mM;
  r_0389_KmCO2 = 1;
  r_0389_KmCO2 has mM;
  r_0389_Km0529 = 0.1;
  r_0389_Km0529 has mM;
  r_0389_Km1207 = 0.1;
  r_0389_Km1207 has mM;
  r_0389_Km1286 = 0.1;
  r_0389_Km1286 has mM;
  r_0391_FLUX_VALUE = 1.11144810306745e-05;
  r_0391_FLUX_VALUE has dimensionless;
  r_0391_Vmax = 0.00104476121688681;
  r_0391_Vmax has mM_per_s;
  r_0391_Keq = 2;
  r_0391_Keq has mM;
  r_0391_Km1101 = 0.1;
  r_0391_Km1101 has mM;
  r_0391_Km1212 = 0.1;
  r_0391_Km1212 has mM;
  r_0391_Km1286 = 0.1;
  r_0391_Km1286 has mM;
  r_0391_KmCO2 = 1;
  r_0391_KmCO2 has mM;
  r_0391_Km0529 = 0.1;
  r_0391_Km0529 has mM;
  r_0391_Km1207 = 0.1;
  r_0391_Km1207 has mM;
  r_0391_Km1449 = 0.1;
  r_0391_Km1449 has mM;
  r_0393_FLUX_VALUE = 2.22290048783841e-05;
  r_0393_FLUX_VALUE has dimensionless;
  r_0393_Vmax = 0.409680559908238;
  r_0393_Vmax has mM_per_s;
  r_0393_Keq = 2;
  r_0393_Keq has mM_cubed;
  r_0393_Km1101 = 0.1;
  r_0393_Km1101 has mM;
  r_0393_Km1212 = 0.1;
  r_0393_Km1212 has mM;
  r_0393_Km1449 = 0.1;
  r_0393_Km1449 has mM;
  r_0393_KmCO2 = 1;
  r_0393_KmCO2 has mM;
  r_0393_Km0529 = 0.1;
  r_0393_Km0529 has mM;
  r_0393_Km1084 = 0.1;
  r_0393_Km1084 has mM;
  r_0393_Km1207 = 0.1;
  r_0393_Km1207 has mM;
  r_0394_FLUX_VALUE = 2.22290070597961e-05;
  r_0394_FLUX_VALUE has dimensionless;
  r_0394_Vmax = 0.00208952666362167;
  r_0394_Vmax has mM_per_s;
  r_0394_Keq = 2;
  r_0394_Keq has mM;
  r_0394_Km1084 = 0.1;
  r_0394_Km1084 has mM;
  r_0394_Km1101 = 0.1;
  r_0394_Km1101 has mM;
  r_0394_Km1212 = 0.1;
  r_0394_Km1212 has mM;
  r_0394_KmCO2 = 1;
  r_0394_KmCO2 has mM;
  r_0394_Km0505 = 0.1;
  r_0394_Km0505 has mM;
  r_0394_Km0529 = 0.1;
  r_0394_Km0529 has mM;
  r_0394_Km1207 = 0.1;
  r_0394_Km1207 has mM;
  r_0397_FLUX_VALUE = 0.00163287683739387;
  r_0397_FLUX_VALUE has dimensionless;
  r_0397_Vmax = 0.153490422715048;
  r_0397_Vmax has mM_per_s;
  r_0397_Keq = 2;
  r_0397_Keq has mM;
  r_0397_Km1101 = 0.1;
  r_0397_Km1101 has mM;
  r_0397_Km1212 = 0.1;
  r_0397_Km1212 has mM;
  r_0397_Km1255 = 0.1;
  r_0397_Km1255 has mM;
  r_0397_KmCO2 = 1;
  r_0397_KmCO2 has mM;
  r_0397_Km0529 = 0.1;
  r_0397_Km0529 has mM;
  r_0397_Km0602 = 0.1;
  r_0397_Km0602 has mM;
  r_0397_Km1207 = 0.1;
  r_0397_Km1207 has mM;
  r_0398_FLUX_VALUE = 0.00163287685017081;
  r_0398_FLUX_VALUE has dimensionless;
  r_0398_Vmax = 30.0939203486961;
  r_0398_Vmax has mM_per_s;
  r_0398_Keq = 2;
  r_0398_Keq has mM_cubed;
  r_0398_Km0373 = 0.1;
  r_0398_Km0373 has mM;
  r_0398_Km1101 = 0.1;
  r_0398_Km1101 has mM;
  r_0398_Km1212 = 0.1;
  r_0398_Km1212 has mM;
  r_0398_KmCO2 = 1;
  r_0398_KmCO2 has mM;
  r_0398_Km0529 = 0.1;
  r_0398_Km0529 has mM;
  r_0398_Km1207 = 0.1;
  r_0398_Km1207 has mM;
  r_0398_Km1255 = 0.1;
  r_0398_Km1255 has mM;
  r_0399_FLUX_VALUE = 0.00159953337270158;
  r_0399_FLUX_VALUE has dimensionless;
  r_0399_Vmax = 0.0479860011809812;
  r_0399_Vmax has mM_per_s;
  r_0399_Keq = 17.2431413667748;
  r_0399_Keq has dimensionless;
  r_0399_KmAMP = 0.292884853320091;
  r_0399_KmAMP has mM;
  r_0399_Km0602 = 0.1;
  r_0399_Km0602 has mM;
  r_0399_Km0633 = 0.1;
  r_0399_Km0633 has mM;
  r_0399_KmATP = 2.52512746499271;
  r_0399_KmATP has mM;
  r_0399_Km0529 = 0.1;
  r_0399_Km0529 has mM;
  r_0399_Km0595 = 0.1;
  r_0399_Km0595 has mM;
  r_0400_FLUX_VALUE = 3.40095790139533e-11;
  r_0400_FLUX_VALUE has dimensionless;
  r_0400_Vmax = 1.02028737041523e-09;
  r_0400_Vmax has mM_per_s;
  r_0400_Keq = 0.2319762921916;
  r_0400_Keq has dimensionless;
  r_0400_KmATP = 2.52512746499271;
  r_0400_KmATP has mM;
  r_0400_Km0529 = 0.1;
  r_0400_Km0529 has mM;
  r_0400_Km1065 = 0.1;
  r_0400_Km1065 has mM;
  r_0400_KmAMP = 0.292884853320091;
  r_0400_KmAMP has mM;
  r_0400_Km0633 = 0.1;
  r_0400_Km0633 has mM;
  r_0400_Km1073 = 0.1;
  r_0400_Km1073 has mM;
  r_0406_FLUX_VALUE = 2.22290070597961e-05;
  r_0406_FLUX_VALUE has dimensionless;
  r_0406_Vmax = 0.000666870211793481;
  r_0406_Vmax has mM_per_s;
  r_0406_Keq = 0.2319762921916;
  r_0406_Keq has dimensionless;
  r_0406_KmATP = 2.52512746499271;
  r_0406_KmATP has mM;
  r_0406_Km0505 = 0.1;
  r_0406_Km0505 has mM;
  r_0406_Km0529 = 0.1;
  r_0406_Km0529 has mM;
  r_0406_KmAMP = 0.292884853320091;
  r_0406_KmAMP has mM;
  r_0406_Km0633 = 0.1;
  r_0406_Km0633 has mM;
  r_0406_Km0816 = 0.1;
  r_0406_Km0816 has mM;
  r_0407_FLUX_VALUE = 1.11145238477096e-05;
  r_0407_FLUX_VALUE has dimensionless;
  r_0407_Vmax = 0.000333435715430091;
  r_0407_Vmax has mM_per_s;
  r_0407_Keq = 17.2431413667748;
  r_0407_Keq has dimensionless;
  r_0407_KmAMP = 0.292884853320091;
  r_0407_KmAMP has mM;
  r_0407_Km0633 = 0.1;
  r_0407_Km0633 has mM;
  r_0407_Km1454 = 0.1;
  r_0407_Km1454 has mM;
  r_0407_KmATP = 2.52512746499271;
  r_0407_KmATP has mM;
  r_0407_Km0529 = 0.1;
  r_0407_Km0529 has mM;
  r_0407_Km1449 = 0.1;
  r_0407_Km1449 has mM;
  r_0432_FLUX_VALUE = 3.33434646922878e-05;
  r_0432_FLUX_VALUE has dimensionless;
  r_0432_Vmax = 0.00313428568107011;
  r_0432_Vmax has mM_per_s;
  r_0432_Keq = 2;
  r_0432_Keq has mM;
  r_0432_Km0602 = 0.1;
  r_0432_Km0602 has mM;
  r_0432_Km1101 = 0.1;
  r_0432_Km1101 has mM;
  r_0432_Km1212 = 0.1;
  r_0432_Km1212 has mM;
  r_0432_KmCO2 = 1;
  r_0432_KmCO2 has mM;
  r_0432_Km0529 = 0.1;
  r_0432_Km0529 has mM;
  r_0432_Km1073 = 0.1;
  r_0432_Km1073 has mM;
  r_0432_Km1207 = 0.1;
  r_0432_Km1207 has mM;
  r_0433_FLUX_VALUE = 3.33435576399053e-05;
  r_0433_FLUX_VALUE has dimensionless;
  r_0433_Vmax = 0.0031342944181522;
  r_0433_Vmax has mM_per_s;
  r_0433_Keq = 2;
  r_0433_Keq has mM;
  r_0433_Km1073 = 0.1;
  r_0433_Km1073 has mM;
  r_0433_Km1101 = 0.1;
  r_0433_Km1101 has mM;
  r_0433_Km1212 = 0.1;
  r_0433_Km1212 has mM;
  r_0433_KmCO2 = 1;
  r_0433_KmCO2 has mM;
  r_0433_Km0529 = 0.1;
  r_0433_Km0529 has mM;
  r_0433_Km1176 = 0.1;
  r_0433_Km1176 has mM;
  r_0433_Km1207 = 0.1;
  r_0433_Km1207 has mM;
  r_0434_FLUX_VALUE = 3.33435576399053e-05;
  r_0434_FLUX_VALUE has dimensionless;
  r_0434_Vmax = 0.00313429441815219;
  r_0434_Vmax has mM_per_s;
  r_0434_Keq = 2;
  r_0434_Keq has mM;
  r_0434_Km1101 = 0.1;
  r_0434_Km1101 has mM;
  r_0434_Km1176 = 0.1;
  r_0434_Km1176 has mM;
  r_0434_Km1212 = 0.1;
  r_0434_Km1212 has mM;
  r_0434_KmCO2 = 1;
  r_0434_KmCO2 has mM;
  r_0434_Km0529 = 0.1;
  r_0434_Km0529 has mM;
  r_0434_Km1207 = 0.1;
  r_0434_Km1207 has mM;
  r_0434_Km1302 = 0.1;
  r_0434_Km1302 has mM;
  r_0435_FLUX_VALUE = 1.11145238477096e-05;
  r_0435_FLUX_VALUE has dimensionless;
  r_0435_Vmax = 0.0010447652416894;
  r_0435_Vmax has mM_per_s;
  r_0435_Keq = 2;
  r_0435_Keq has mM;
  r_0435_Km1101 = 0.1;
  r_0435_Km1101 has mM;
  r_0435_Km1212 = 0.1;
  r_0435_Km1212 has mM;
  r_0435_Km1302 = 0.1;
  r_0435_Km1302 has mM;
  r_0435_KmCO2 = 1;
  r_0435_KmCO2 has mM;
  r_0435_Km0529 = 0.1;
  r_0435_Km0529 has mM;
  r_0435_Km1207 = 0.1;
  r_0435_Km1207 has mM;
  r_0435_Km1454 = 0.1;
  r_0435_Km1454 has mM;
  r_0438_FLUX_VALUE = 0.116081031795502;
  r_0438_FLUX_VALUE has dimensionless;
  r_0438_Vmax = 10.9116169887544;
  r_0438_Vmax has mM_per_s;
  r_0438_Keq = 20;
  r_0438_Keq has per_mM;
  r_0438_Km0710 = 0.1;
  r_0438_Km0710 has mM;
  r_0438_Km1275 = 0.1;
  r_0438_Km1275 has mM;
  r_0438_Km0709 = 0.1;
  r_0438_Km0709 has mM;
  r_0439_FLUX_VALUE = 0.016407852625713;
  r_0439_FLUX_VALUE has dimensionless;
  r_0439_Vmax = 0.49223557877178;
  r_0439_Vmax has mM_per_s;
  r_0439_Keq = 2;
  r_0439_Keq has dimensionless;
  r_0439_Km0709 = 0.1;
  r_0439_Km0709 has mM;
  r_0439_Km1535 = 0.1;
  r_0439_Km1535 has mM;
  r_0439_Km0710 = 0.1;
  r_0439_Km0710 has mM;
  r_0439_Km1537 = 0.1;
  r_0439_Km1537 has mM;
  r_0446_FLUX_VALUE = 0.000420781143195575;
  r_0446_FLUX_VALUE has dimensionless;
  r_0446_Vmax = 0.0126234342959288;
  r_0446_Vmax has mM_per_s;
  r_0446_Keq = 1.01538452966048;
  r_0446_Keq has dimensionless;
  r_0446_KmATP = 2.52512746499271;
  r_0446_KmATP has mM;
  r_0446_Km0722 = 0.1;
  r_0446_Km0722 has mM;
  r_0446_Km1487 = 0.1;
  r_0446_Km1487 has mM;
  r_0446_Km0120 = 0.1;
  r_0446_Km0120 has mM;
  r_0446_KmADP = 1.28198768168719;
  r_0446_KmADP has mM;
  r_0446_KmPHO = 0.1;
  r_0446_KmPHO has mM;
  FBA_Vmax = 1.57816666666667;
  FBA_Vmax has mM_per_s;
  FBA_Kf16bp = 0.3;
  FBA_Kf16bp has mM;
  FBA_Keq = 0.069;
  FBA_Keq has mM;
  FBA_Kdhap = 2;
  FBA_Kdhap has mM;
  FBA_Kgap = 2.4;
  FBA_Kgap has mM;
  FBA_Kigap = 10;
  FBA_Kigap has mM;
  FBA_FLUX_VALUE = 1.30887182462633;
  FBA_FLUX_VALUE has dimensionless;
  r_0451_FLUX_VALUE = 0.0325542768625425;
  r_0451_FLUX_VALUE has dimensionless;
  r_0451_Vmax = 0.19532566117551;
  r_0451_Vmax has mM_per_s;
  r_0451_Keq = 2;
  r_0451_Keq has dimensionless;
  r_0451_Km0725 = 0.1;
  r_0451_Km0725 has mM;
  r_0451_Km0066 = 0.1;
  r_0451_Km0066 has mM;
  r_0462_FLUX_VALUE = 0.000588956076077212;
  r_0462_FLUX_VALUE has dimensionless;
  r_0462_Vmax = 0.00824538506508194;
  r_0462_Vmax has mM_per_s;
  r_0462_Keq = 2;
  r_0462_Keq has dimensionless;
  r_0462_Km0745 = 0.1;
  r_0462_Km0745 has mM;
  r_0462_Km0943 = 0.1;
  r_0462_Km0943 has mM;
  r_0462_Km0190 = 0.1;
  r_0462_Km0190 has mM;
  r_0462_Km0633 = 0.1;
  r_0462_Km0633 has mM;
  r_0466_FLUX_VALUE = 0.0580388007275702;
  r_0466_FLUX_VALUE has dimensionless;
  r_0466_Vmax = 0.812543210185245;
  r_0466_Vmax has mM_per_s;
  r_0466_Keq = 0.0747652332299264;
  r_0466_Keq has dimensionless;
  r_0466_KmG6P = 2.67504014044787;
  r_0466_KmG6P has mM;
  r_0466_Km1207 = 0.1;
  r_0466_Km1207 has mM;
  r_0466_Km0335 = 0.1;
  r_0466_Km0335 has mM;
  r_0466_Km1212 = 0.1;
  r_0466_Km1212 has mM;
  PGI_Vmax = 17.6;
  PGI_Vmax has mM_per_s;
  PGI_Kg6p = 1.4;
  PGI_Kg6p has mM;
  PGI_Keq = 0.29;
  PGI_Keq has dimensionless;
  PGI_Kf6p = 0.3;
  PGI_Kf6p has mM;
  PGI_FLUX_VALUE = 1.30887182463095;
  PGI_FLUX_VALUE has dimensionless;
  r_0470_FLUX_VALUE = 0.234891466636016;
  r_0470_FLUX_VALUE has dimensionless;
  r_0470_Vmax = 5.16761226600326;
  r_0470_Vmax has mM_per_s;
  r_0470_Keq = 346.740984446895;
  r_0470_Keq has per_mM;
  r_0470_Km0180 = 0.1;
  r_0470_Km0180 has mM;
  r_0470_Km0419 = 0.1;
  r_0470_Km0419 has mM;
  r_0470_KmNADH = 0.0867096979846952;
  r_0470_KmNADH has mM;
  r_0470_Km0991 = 0.1;
  r_0470_Km0991 has mM;
  r_0470_KmNAD = 1.50329030201531;
  r_0470_KmNAD has mM;
  r_0476_FLUX_VALUE = 0.0352715905304057;
  r_0476_FLUX_VALUE has dimensionless;
  r_0476_Vmax = 1.05814771591225;
  r_0476_Vmax has mM_per_s;
  r_0476_Keq = 1.01538452966048;
  r_0476_Keq has dimensionless;
  r_0476_Km0419 = 0.1;
  r_0476_Km0419 has mM;
  r_0476_KmATP = 2.52512746499271;
  r_0476_KmATP has mM;
  r_0476_Km0991 = 0.1;
  r_0476_Km0991 has mM;
  r_0476_KmADP = 1.28198768168719;
  r_0476_KmADP has mM;
  r_0476_Km0999 = 0.1;
  r_0476_Km0999 has mM;
  r_0476_KmPHO = 0.1;
  r_0476_KmPHO has mM;
  r_0478_FLUX_VALUE = 0.00453109271757193;
  r_0478_FLUX_VALUE has dimensionless;
  r_0478_Vmax = 0.135932781527054;
  r_0478_Vmax has mM_per_s;
  r_0478_Keq = 0.2319762921916;
  r_0478_Keq has dimensionless;
  r_0478_KmATP = 2.52512746499271;
  r_0478_KmATP has mM;
  r_0478_Km0999 = 0.1;
  r_0478_Km0999 has mM;
  r_0478_Km1590 = 0.1;
  r_0478_Km1590 has mM;
  r_0478_KmAMP = 0.292884853320091;
  r_0478_KmAMP has mM;
  r_0478_Km0633 = 0.1;
  r_0478_Km0633 has mM;
  r_0478_Km0747 = 0.1;
  r_0478_Km0747 has mM;
  r_0479_FLUX_VALUE = 0.0129742294322885;
  r_0479_FLUX_VALUE has dimensionless;
  r_0479_Vmax = 0.38922688296856;
  r_0479_Vmax has mM_per_s;
  r_0479_Keq = 0.2319762921916;
  r_0479_Keq has dimensionless;
  r_0479_KmATP = 2.52512746499271;
  r_0479_KmATP has mM;
  r_0479_Km0991 = 0.1;
  r_0479_Km0991 has mM;
  r_0479_Km1591 = 0.1;
  r_0479_Km1591 has mM;
  r_0479_KmAMP = 0.292884853320091;
  r_0479_KmAMP has mM;
  r_0479_Km0633 = 0.1;
  r_0479_Km0633 has mM;
  r_0479_Km0748 = 0.1;
  r_0479_Km0748 has mM;
  TDH_Vmax = 19.2192000003017;
  TDH_Vmax has mM_per_s;
  TDH_Kgap = 0.21;
  TDH_Kgap has mM;
  TDH_Knad = 0.09;
  TDH_Knad has mM;
  TDH_Kbpg = 0.0098;
  TDH_Kbpg has mM;
  TDH_Knadh = 0.06;
  TDH_Knadh has mM;
  TDH_Keq = 0.0533412710224736;
  TDH_Keq has dimensionless;
  TDH_Kpho = 0.0001;
  TDH_Kpho has mM;
  TDH_FLUX_VALUE = 2.3000596152207;
  TDH_FLUX_VALUE has dimensionless;
  r_0489_FLUX_VALUE = 0.0930539823300854;
  r_0489_FLUX_VALUE has dimensionless;
  r_0489_Vmax = 0.930539823300708;
  r_0489_Vmax has mM_per_s;
  r_0489_Keq = 0.3;
  r_0489_Keq has mM;
  r_0489_Km0767 = 0.1;
  r_0489_Km0767 has mM;
  r_0489_KmGLY = 0.15;
  r_0489_KmGLY has mM;
  r_0489_KmPHO = 0.1;
  r_0489_KmPHO has mM;
  r_0491_FLUX_VALUE = 0.0933261488162462;
  r_0491_FLUX_VALUE has dimensionless;
  r_0491_Vmax = 1.30656608342273;
  r_0491_Vmax has mM_per_s;
  r_0491_Keq = 3.45307079878881;
  r_0491_Keq has dimensionless;
  r_0491_KmDHAP = 1.00415254899644;
  r_0491_KmDHAP has mM;
  r_0491_KmNADH = 0.0867096979846952;
  r_0491_KmNADH has mM;
  r_0491_Km0767 = 0.1;
  r_0491_Km0767 has mM;
  r_0491_KmNAD = 1.50329030201531;
  r_0491_KmNAD has mM;
  r_0495_FLUX_VALUE = 0.000272166486160745;
  r_0495_FLUX_VALUE has dimensionless;
  r_0495_Vmax = 0.00381033080625086;
  r_0495_Vmax has mM_per_s;
  r_0495_Keq = 2;
  r_0495_Keq has dimensionless;
  r_0495_Km0380 = 0.1;
  r_0495_Km0380 has mM;
  r_0495_Km0767 = 0.1;
  r_0495_Km0767 has mM;
  r_0495_Km0082 = 0.1;
  r_0495_Km0082 has mM;
  r_0495_Km0529 = 0.1;
  r_0495_Km0529 has mM;
  r_0499_FLUX_VALUE = 0.00425553005793811;
  r_0499_FLUX_VALUE has dimensionless;
  r_0499_Vmax = 0.0595774208111671;
  r_0499_Vmax has mM_per_s;
  r_0499_Keq = 2;
  r_0499_Keq has dimensionless;
  r_0499_Km0120 = 0.1;
  r_0499_Km0120 has mM;
  r_0499_Km0325 = 0.1;
  r_0499_Km0325 has mM;
  r_0499_Km0301 = 0.1;
  r_0499_Km0301 has mM;
  r_0499_Km1487 = 0.1;
  r_0499_Km1487 has mM;
  r_0501_FLUX_VALUE = 0.0236039441855424;
  r_0501_FLUX_VALUE has dimensionless;
  r_0501_Vmax = 1.08578143252884;
  r_0501_Vmax has mM_per_s;
  r_0501_Keq = 0.115359884738766;
  r_0501_Keq has mM;
  r_0501_Km1003 = 0.1;
  r_0501_Km1003 has mM;
  r_0501_KmNAD = 1.50329030201531;
  r_0501_KmNAD has mM;
  r_0501_Km1487 = 0.1;
  r_0501_Km1487 has mM;
  r_0501_Km0306 = 0.1;
  r_0501_Km0306 has mM;
  r_0501_Km0419 = 0.1;
  r_0501_Km0419 has mM;
  r_0501_KmCO2 = 1;
  r_0501_KmCO2 has mM;
  r_0501_KmNADH = 0.0867096979846952;
  r_0501_KmNADH has mM;
  r_0502_FLUX_VALUE = 0.00966765286937471;
  r_0502_FLUX_VALUE has dimensionless;
  r_0502_Vmax = 0.135347140171492;
  r_0502_Vmax has mM_per_s;
  r_0502_Keq = 2;
  r_0502_Keq has dimensionless;
  r_0502_Km0306 = 0.1;
  r_0502_Km0306 has mM;
  r_0502_Km1003 = 0.1;
  r_0502_Km1003 has mM;
  r_0502_Km1039 = 0.1;
  r_0502_Km1039 has mM;
  r_0502_Km1487 = 0.1;
  r_0502_Km1487 has mM;
  r_0510_FLUX_VALUE = 0.0222900528766687;
  r_0510_FLUX_VALUE has dimensionless;
  r_0510_Vmax = 0.222900528766374;
  r_0510_Vmax has mM_per_s;
  r_0510_Keq = 0.2;
  r_0510_Keq has mM;
  r_0510_Km1543 = 0.1;
  r_0510_Km1543 has mM;
  r_0510_Km0773 = 0.1;
  r_0510_Km0773 has mM;
  r_0510_Km1538 = 0.1;
  r_0510_Km1538 has mM;
  r_0512_FLUX_VALUE = 0.0124841491952836;
  r_0512_FLUX_VALUE has dimensionless;
  r_0512_Vmax = 0.374524475858294;
  r_0512_Vmax has mM_per_s;
  r_0512_Keq = 0.2319762921916;
  r_0512_Keq has dimensionless;
  r_0512_KmATP = 2.52512746499271;
  r_0512_KmATP has mM;
  r_0512_Km1003 = 0.1;
  r_0512_Km1003 has mM;
  r_0512_Km1593 = 0.1;
  r_0512_Km1593 has mM;
  r_0512_KmAMP = 0.292884853320091;
  r_0512_KmAMP has mM;
  r_0512_Km0633 = 0.1;
  r_0512_Km0633 has mM;
  r_0512_Km0757 = 0.1;
  r_0512_Km0757 has mM;
  r_0514_FLUX_VALUE = 0.00212325112240554;
  r_0514_FLUX_VALUE has dimensionless;
  r_0514_Vmax = 0.0976695516305215;
  r_0514_Vmax has mM_per_s;
  r_0514_Keq = 0.02319762921916;
  r_0514_Keq has mM;
  r_0514_KmATP = 2.52512746499271;
  r_0514_KmATP has mM;
  r_0514_Km0999 = 0.1;
  r_0514_Km0999 has mM;
  r_0514_Km1565 = 0.1;
  r_0514_Km1565 has mM;
  r_0514_KmAMP = 0.292884853320091;
  r_0514_KmAMP has mM;
  r_0514_Km0633 = 0.1;
  r_0514_Km0633 has mM;
  r_0514_Km0782 = 0.1;
  r_0514_Km0782 has mM;
  r_0514_Km0991 = 0.1;
  r_0514_Km0991 has mM;
  r_0525_FLUX_VALUE = 4.25595995293758e-05;
  r_0525_FLUX_VALUE has dimensionless;
  r_0525_Vmax = 0.000766072791528529;
  r_0525_Vmax has mM_per_s;
  r_0525_Keq = 0.02;
  r_0525_Keq has mM_squared;
  r_0525_Km0785 = 0.1;
  r_0525_Km0785 has mM;
  r_0525_Km0141 = 0.1;
  r_0525_Km0141 has mM;
  r_0525_Km0633 = 0.1;
  r_0525_Km0633 has mM;
  r_0525_Km0722 = 0.1;
  r_0525_Km0722 has mM;
  r_0528_FLUX_VALUE = 7.2867193132727e-05;
  r_0528_FLUX_VALUE has dimensionless;
  r_0528_Vmax = 0.00102014070386398;
  r_0528_Vmax has mM_per_s;
  r_0528_Keq = 1.01538452966048;
  r_0528_Keq has dimensionless;
  r_0528_KmATP = 2.52512746499271;
  r_0528_KmATP has mM;
  r_0528_Km0782 = 0.1;
  r_0528_Km0782 has mM;
  r_0528_KmADP = 1.28198768168719;
  r_0528_KmADP has mM;
  r_0528_Km0739 = 0.1;
  r_0528_Km0739 has mM;
  r_0529_FLUX_VALUE = 7.28671814146884e-05;
  r_0529_FLUX_VALUE has dimensionless;
  r_0529_Vmax = 0.00102014053980128;
  r_0529_Vmax has mM_per_s;
  r_0529_Keq = 2;
  r_0529_Keq has dimensionless;
  r_0529_Km0586 = 0.1;
  r_0529_Km0586 has mM;
  r_0529_Km0782 = 0.1;
  r_0529_Km0782 has mM;
  r_0529_Km0582 = 0.1;
  r_0529_Km0582 has mM;
  r_0529_Km0739 = 0.1;
  r_0529_Km0739 has mM;
  HXK_Vmax = 3.94500000000001;
  HXK_Vmax has mM_per_s;
  HXK_Kglc = 0.08;
  HXK_Kglc has mM;
  HXK_Katp = 0.15;
  HXK_Katp has mM;
  HXK_Keq = 2000;
  HXK_Keq has dimensionless;
  HXK_Kg6p = 30;
  HXK_Kg6p has mM;
  HXK_Kadp = 0.23;
  HXK_Kadp has mM;
  HXK_FLUX_VALUE = 1.48887182462075;
  HXK_FLUX_VALUE has dimensionless;
  r_0536_FLUX_VALUE = 0.00285020348363397;
  r_0536_FLUX_VALUE has dimensionless;
  r_0536_Vmax = 0.0855061045085068;
  r_0536_Vmax has mM_per_s;
  r_0536_Keq = 0.00665395150347065;
  r_0536_Keq has dimensionless;
  r_0536_Km1010 = 0.1;
  r_0536_Km1010 has mM;
  r_0536_KmNAD = 1.50329030201531;
  r_0536_KmNAD has mM;
  r_0536_Km1006 = 0.1;
  r_0536_Km1006 has mM;
  r_0536_KmNADH = 0.0867096979846952;
  r_0536_KmNADH has mM;
  r_0537_FLUX_VALUE = 0.00285020348363397;
  r_0537_FLUX_VALUE has dimensionless;
  r_0537_Vmax = 0.0285020348363794;
  r_0537_Vmax has mM_per_s;
  r_0537_Keq = 0.2;
  r_0537_Keq has mM;
  r_0537_Km1011 = 0.1;
  r_0537_Km1011 has mM;
  r_0537_Km1010 = 0.1;
  r_0537_Km1010 has mM;
  r_0537_KmPHO = 0.1;
  r_0537_KmPHO has mM;
  r_0538_FLUX_VALUE = 0.00285020348363397;
  r_0538_FLUX_VALUE has dimensionless;
  r_0538_Vmax = 0.0399028487708512;
  r_0538_Vmax has mM_per_s;
  r_0538_Keq = 2;
  r_0538_Keq has dimensionless;
  r_0538_Km0207 = 0.1;
  r_0538_Km0207 has mM;
  r_0538_Km0991 = 0.1;
  r_0538_Km0991 has mM;
  r_0538_Km0180 = 0.1;
  r_0538_Km0180 has mM;
  r_0538_Km1011 = 0.1;
  r_0538_Km1011 has mM;
  r_0539_FLUX_VALUE = 0.00285020348363395;
  r_0539_FLUX_VALUE has dimensionless;
  r_0539_Vmax = 0.0855061045089722;
  r_0539_Vmax has mM_per_s;
  r_0539_Keq = 0.2319762921916;
  r_0539_Keq has dimensionless;
  r_0539_KmATP = 2.52512746499271;
  r_0539_KmATP has mM;
  r_0539_Km1006 = 0.1;
  r_0539_Km1006 has mM;
  r_0539_Km1594 = 0.1;
  r_0539_Km1594 has mM;
  r_0539_KmAMP = 0.292884853320091;
  r_0539_KmAMP has mM;
  r_0539_Km0633 = 0.1;
  r_0539_Km0633 has mM;
  r_0539_Km0832 = 0.1;
  r_0539_Km0832 has mM;
  r_0542_FLUX_VALUE = 0.0123035933209063;
  r_0542_FLUX_VALUE has dimensionless;
  r_0542_Vmax = 0.0738215599254756;
  r_0542_Vmax has mM_per_s;
  r_0542_Keq = 2;
  r_0542_Keq has dimensionless;
  r_0542_Km0454 = 0.1;
  r_0542_Km0454 has mM;
  r_0542_Km0836 = 0.1;
  r_0542_Km0836 has mM;
  r_0543_FLUX_VALUE = 0.0123035933209063;
  r_0543_FLUX_VALUE has dimensionless;
  r_0543_Vmax = 0.172250306492376;
  r_0543_Vmax has mM_per_s;
  r_0543_Keq = 2;
  r_0543_Keq has dimensionless;
  r_0543_Km0180 = 0.1;
  r_0543_Km0180 has mM;
  r_0543_Km0373 = 0.1;
  r_0543_Km0373 has mM;
  r_0543_Km0529 = 0.1;
  r_0543_Km0529 has mM;
  r_0543_Km0835 = 0.1;
  r_0543_Km0835 has mM;
  r_0545_FLUX_VALUE = 0.0123035933209063;
  r_0545_FLUX_VALUE has dimensionless;
  r_0545_Vmax = 0.270679053058119;
  r_0545_Vmax has mM_per_s;
  r_0545_Keq = 0.115359884738766;
  r_0545_Keq has mM;
  r_0545_Km0836 = 0.1;
  r_0545_Km0836 has mM;
  r_0545_KmNAD = 1.50329030201531;
  r_0545_KmNAD has mM;
  r_0545_Km0176 = 0.1;
  r_0545_Km0176 has mM;
  r_0545_KmNADH = 0.0867096979846952;
  r_0545_KmNADH has mM;
  r_0545_KmCO2 = 1;
  r_0545_KmCO2 has mM;
  r_0547_FLUX_VALUE = 0.0358874035357151;
  r_0547_FLUX_VALUE has dimensionless;
  r_0547_Vmax = 0.502423649500023;
  r_0547_Vmax has mM_per_s;
  r_0547_Keq = 2;
  r_0547_Keq has dimensionless;
  r_0547_Km0978 = 0.1;
  r_0547_Km0978 has mM;
  r_0547_Km1212 = 0.1;
  r_0547_Km1212 has mM;
  r_0547_Km1014 = 0.1;
  r_0547_Km1014 has mM;
  r_0547_Km1207 = 0.1;
  r_0547_Km1207 has mM;
  r_0548_FLUX_VALUE = 0.0294239329923396;
  r_0548_FLUX_VALUE has dimensionless;
  r_0548_Vmax = 0.411935061894587;
  r_0548_Vmax has mM_per_s;
  r_0548_Keq = 1.01538452966048;
  r_0548_Keq has dimensionless;
  r_0548_KmATP = 2.52512746499271;
  r_0548_KmATP has mM;
  r_0548_Km1014 = 0.1;
  r_0548_Km1014 has mM;
  r_0548_KmADP = 1.28198768168719;
  r_0548_KmADP has mM;
  r_0548_Km1238 = 0.1;
  r_0548_Km1238 has mM;
  r_0549_FLUX_VALUE = 0.00646347054337555;
  r_0549_FLUX_VALUE has dimensionless;
  r_0549_Vmax = 0.0904885876072154;
  r_0549_Vmax has mM_per_s;
  r_0549_Keq = 2;
  r_0549_Keq has dimensionless;
  r_0549_Km0373 = 0.1;
  r_0549_Km0373 has mM;
  r_0549_Km1014 = 0.1;
  r_0549_Km1014 has mM;
  r_0549_Km0529 = 0.1;
  r_0549_Km0529 has mM;
  r_0549_Km1233 = 0.1;
  r_0549_Km1233 has mM;
  r_0553_FLUX_VALUE = 0.164683028785161;
  r_0553_FLUX_VALUE has dimensionless;
  r_0553_Vmax = 1.64683028785322;
  r_0553_Vmax has mM_per_s;
  r_0553_Keq = 0.2;
  r_0553_Keq has mM;
  r_0553_Km0033 = 0.1;
  r_0553_Km0033 has mM;
  r_0553_Km0025 = 0.1;
  r_0553_Km0025 has mM;
  r_0553_Km0750 = 0.1;
  r_0553_Km0750 has mM;
  r_0558_FLUX_VALUE = 0.00176686822395045;
  r_0558_FLUX_VALUE has dimensionless;
  r_0558_Vmax = 0.0812759383017414;
  r_0558_Vmax has mM_per_s;
  r_0558_Keq = 0.2;
  r_0558_Keq has mM;
  r_0558_Km0218 = 0.1;
  r_0558_Km0218 has mM;
  r_0558_Km1212 = 0.1;
  r_0558_Km1212 has mM;
  r_0558_Km0028 = 0.1;
  r_0558_Km0028 has mM;
  r_0558_Km0529 = 0.1;
  r_0558_Km0529 has mM;
  r_0558_Km1207 = 0.1;
  r_0558_Km1207 has mM;
  r_0559_FLUX_VALUE = 0.00176686822395045;
  r_0559_FLUX_VALUE has dimensionless;
  r_0559_Vmax = 0.0247361551353126;
  r_0559_Vmax has mM_per_s;
  r_0559_Keq = 2;
  r_0559_Keq has dimensionless;
  r_0559_Km0367 = 0.1;
  r_0559_Km0367 has mM;
  r_0559_Km0373 = 0.1;
  r_0559_Km0373 has mM;
  r_0559_Km0218 = 0.1;
  r_0559_Km0218 has mM;
  r_0559_Km0529 = 0.1;
  r_0559_Km0529 has mM;
  r_0563_FLUX_VALUE = 0.00285020348363397;
  r_0563_FLUX_VALUE has dimensionless;
  r_0563_Vmax = 0.0627044766399947;
  r_0563_Vmax has mM_per_s;
  r_0563_Keq = 0.2;
  r_0563_Keq has mM;
  r_0563_Km0312 = 0.1;
  r_0563_Km0312 has mM;
  r_0563_Km0999 = 0.1;
  r_0563_Km0999 has mM;
  r_0563_Km0403 = 0.1;
  r_0563_Km0403 has mM;
  r_0563_Km0550 = 0.1;
  r_0563_Km0550 has mM;
  r_0563_Km0991 = 0.1;
  r_0563_Km0991 has mM;
  r_0564_FLUX_VALUE = 0.00285020348363397;
  r_0564_FLUX_VALUE has dimensionless;
  r_0564_Vmax = 0.0171012209018076;
  r_0564_Vmax has mM_per_s;
  r_0564_Keq = 2;
  r_0564_Keq has dimensionless;
  r_0564_Km0550 = 0.1;
  r_0564_Km0550 has mM;
  r_0564_Km0207 = 0.1;
  r_0564_Km0207 has mM;
  r_0565_FLUX_VALUE = 0.00212325112979508;
  r_0565_FLUX_VALUE has dimensionless;
  r_0565_Vmax = 0.0297255158169593;
  r_0565_Vmax has mM_per_s;
  r_0565_Keq = 0.115359884738766;
  r_0565_Keq has dimensionless;
  r_0565_Km0849 = 0.1;
  r_0565_Km0849 has mM;
  r_0565_KmNAD = 1.50329030201531;
  r_0565_KmNAD has mM;
  r_0565_KmNADH = 0.0867096979846952;
  r_0565_KmNADH has mM;
  r_0565_Km1565 = 0.1;
  r_0565_Km1565 has mM;
  r_0566_FLUX_VALUE = 0.0012209016222774;
  r_0566_FLUX_VALUE has dimensionless;
  r_0566_Vmax = 0.012209016222748;
  r_0566_Vmax has mM_per_s;
  r_0566_Keq = 2;
  r_0566_Keq has mM;
  r_0566_Km0076 = 0.1;
  r_0566_Km0076 has mM;
  r_0566_Km0086 = 0.1;
  r_0566_Km0086 has mM;
  r_0566_KmCO2 = 1;
  r_0566_KmCO2 has mM;
  r_0568_FLUX_VALUE = 0.344670057643959;
  r_0568_FLUX_VALUE has dimensionless;
  r_0568_Vmax = 3.44670057643918;
  r_0568_Vmax has mM_per_s;
  r_0568_Keq = 0.2;
  r_0568_Keq has mM;
  r_0568_Km0633 = 0.1;
  r_0568_Km0633 has mM;
  r_0568_KmPHO = 0.1;
  r_0568_KmPHO has mM;
  r_0570_FLUX_VALUE = 0.00710573354157207;
  r_0570_FLUX_VALUE has dimensionless;
  r_0570_Vmax = 0.0426344012494648;
  r_0570_Vmax has mM_per_s;
  r_0570_Keq = 2;
  r_0570_Keq has dimensionless;
  r_0570_Km1365 = 0.1;
  r_0570_Km1365 has mM;
  r_0570_Km0849 = 0.1;
  r_0570_Km0849 has mM;
  r_0591_FLUX_VALUE = 2.22289676445616e-05;
  r_0591_FLUX_VALUE has dimensionless;
  r_0591_Vmax = 0.000311205547023725;
  r_0591_Vmax has mM_per_s;
  r_0591_Keq = 2;
  r_0591_Keq has dimensionless;
  r_0591_Km0089 = 0.1;
  r_0591_Km0089 has mM;
  r_0591_Km0478 = 0.1;
  r_0591_Km0478 has mM;
  r_0591_Km0619 = 0.1;
  r_0591_Km0619 has mM;
  r_0591_Km0897 = 0.1;
  r_0591_Km0897 has mM;
  r_0658_FLUX_VALUE = 0.0218988485072582;
  r_0658_FLUX_VALUE has dimensionless;
  r_0658_Vmax = 0.481774667157451;
  r_0658_Vmax has mM_per_s;
  r_0658_Keq = 0.115359884738766;
  r_0658_Keq has mM;
  r_0658_Km0940 = 0.1;
  r_0658_Km0940 has mM;
  r_0658_KmNAD = 1.50329030201531;
  r_0658_KmNAD has mM;
  r_0658_Km0180 = 0.1;
  r_0658_Km0180 has mM;
  r_0658_KmCO2 = 1;
  r_0658_KmCO2 has mM;
  r_0658_KmNADH = 0.0867096979846952;
  r_0658_KmNADH has mM;
  r_0661_FLUX_VALUE = 0.0218988484840627;
  r_0661_FLUX_VALUE has dimensionless;
  r_0661_Vmax = 0.481774666649759;
  r_0661_Vmax has mM_per_s;
  r_0661_Keq = 2;
  r_0661_Keq has mM;
  r_0661_Km0940 = 0.1;
  r_0661_Km0940 has mM;
  r_0661_Km1207 = 0.1;
  r_0661_Km1207 has mM;
  r_0661_Km0180 = 0.1;
  r_0661_Km0180 has mM;
  r_0661_KmCO2 = 1;
  r_0661_KmCO2 has mM;
  r_0661_Km1212 = 0.1;
  r_0661_Km1212 has mM;
  r_0662_FLUX_VALUE = 0.0328157050442014;
  r_0662_FLUX_VALUE has dimensionless;
  r_0662_Vmax = 0.328157050442028;
  r_0662_Vmax has mM_per_s;
  r_0662_Keq = 0.2;
  r_0662_Keq has mM;
  r_0662_Km0940 = 0.1;
  r_0662_Km0940 has mM;
  r_0662_Km0779 = 0.1;
  r_0662_Km0779 has mM;
  r_0662_Km1458 = 0.1;
  r_0662_Km1458 has mM;
  r_0663_FLUX_VALUE = 0.00828407558805172;
  r_0663_FLUX_VALUE has dimensionless;
  r_0663_Vmax = 0.115977058232448;
  r_0663_Vmax has mM_per_s;
  r_0663_Keq = 2;
  r_0663_Keq has dimensionless;
  r_0663_Km0056 = 0.1;
  r_0663_Km0056 has mM;
  r_0663_Km0991 = 0.1;
  r_0663_Km0991 has mM;
  r_0663_Km0180 = 0.1;
  r_0663_Km0180 has mM;
  r_0663_Km1016 = 0.1;
  r_0663_Km1016 has mM;
  r_0665_FLUX_VALUE = 0.00828407558516234;
  r_0665_FLUX_VALUE has dimensionless;
  r_0665_Vmax = 0.248522267554262;
  r_0665_Vmax has mM_per_s;
  r_0665_Keq = 0.2319762921916;
  r_0665_Keq has dimensionless;
  r_0665_KmATP = 2.52512746499271;
  r_0665_KmATP has mM;
  r_0665_Km1016 = 0.1;
  r_0665_Km1016 has mM;
  r_0665_Km1596 = 0.1;
  r_0665_Km1596 has mM;
  r_0665_KmAMP = 0.292884853320091;
  r_0665_KmAMP has mM;
  r_0665_Km0633 = 0.1;
  r_0665_Km0633 has mM;
  r_0665_Km0847 = 0.1;
  r_0665_Km0847 has mM;
  r_0667_FLUX_VALUE = 0.000588956076077212;
  r_0667_FLUX_VALUE has dimensionless;
  r_0667_Vmax = 0.00353373645646654;
  r_0667_Vmax has mM_per_s;
  r_0667_Keq = 2;
  r_0667_Keq has dimensionless;
  r_0667_Km0943 = 0.1;
  r_0667_Km0943 has mM;
  r_0667_Km1376 = 0.1;
  r_0667_Km1376 has mM;
  r_0669_FLUX_VALUE = 0.00828407559195422;
  r_0669_FLUX_VALUE has dimensionless;
  r_0669_Vmax = 0.115977058287718;
  r_0669_Vmax has mM_per_s;
  r_0669_Keq = 2;
  r_0669_Keq has dimensionless;
  r_0669_Km0039 = 0.1;
  r_0669_Km0039 has mM;
  r_0669_Km1212 = 0.1;
  r_0669_Km1212 has mM;
  r_0669_Km0008 = 0.1;
  r_0669_Km0008 has mM;
  r_0669_Km1207 = 0.1;
  r_0669_Km1207 has mM;
  r_0674_FLUX_VALUE = 0.0525392851982949;
  r_0674_FLUX_VALUE has dimensionless;
  r_0674_Vmax = 0.735549992773958;
  r_0674_Vmax has mM_per_s;
  r_0674_Keq = 0.110173867411763;
  r_0674_Keq has dimensionless;
  r_0674_Km0991 = 0.1;
  r_0674_Km0991 has mM;
  r_0674_KmPYR = 1.81531251192736;
  r_0674_KmPYR has mM;
  r_0674_Km0180 = 0.1;
  r_0674_Km0180 has mM;
  r_0674_Km0955 = 0.1;
  r_0674_Km0955 has mM;
  r_0678_FLUX_VALUE = 0.0123035933209063;
  r_0678_FLUX_VALUE has dimensionless;
  r_0678_Vmax = 0.172250306492376;
  r_0678_Vmax has mM_per_s;
  r_0678_Keq = 2;
  r_0678_Keq has dimensionless;
  r_0678_Km0953 = 0.1;
  r_0678_Km0953 has mM;
  r_0678_Km1212 = 0.1;
  r_0678_Km1212 has mM;
  r_0678_Km0959 = 0.1;
  r_0678_Km0959 has mM;
  r_0678_Km1207 = 0.1;
  r_0678_Km1207 has mM;
  r_0688_FLUX_VALUE = 0.0510711821801315;
  r_0688_FLUX_VALUE has dimensionless;
  r_0688_Vmax = 0.714996550521682;
  r_0688_Vmax has mM_per_s;
  r_0688_Keq = 2;
  r_0688_Keq has dimensionless;
  r_0688_Km1151 = 0.1;
  r_0688_Km1151 has mM;
  r_0688_Km1212 = 0.1;
  r_0688_Km1212 has mM;
  r_0688_Km0062 = 0.1;
  r_0688_Km0062 has mM;
  r_0688_Km1207 = 0.1;
  r_0688_Km1207 has mM;
  r_0692_FLUX_VALUE = 0.00400017246822682;
  r_0692_FLUX_VALUE has dimensionless;
  r_0692_Vmax = 0.0400017246822364;
  r_0692_Vmax has mM_per_s;
  r_0692_Keq = 0.2;
  r_0692_Keq has mM;
  r_0692_Km1045 = 0.1;
  r_0692_Km1045 has mM;
  r_0692_Km0178 = 0.1;
  r_0692_Km0178 has mM;
  r_0692_Km0419 = 0.1;
  r_0692_Km0419 has mM;
  r_0696_FLUX_VALUE = 0.0510711821801315;
  r_0696_FLUX_VALUE has dimensionless;
  r_0696_Vmax = 0.714996550518395;
  r_0696_Vmax has mM_per_s;
  r_0696_Keq = 0.115359884738766;
  r_0696_Keq has dimensionless;
  r_0696_Km0062 = 0.1;
  r_0696_Km0062 has mM;
  r_0696_KmNAD = 1.50329030201531;
  r_0696_KmNAD has mM;
  r_0696_Km0063 = 0.1;
  r_0696_Km0063 has mM;
  r_0696_KmNADH = 0.0867096979846952;
  r_0696_KmNADH has mM;
  r_0697_FLUX_VALUE = 0.164683028785161;
  r_0697_FLUX_VALUE has dimensionless;
  r_0697_Vmax = 1.64683028785322;
  r_0697_Vmax has mM_per_s;
  r_0697_Keq = 20;
  r_0697_Keq has per_mM;
  r_0697_Km0750 = 0.1;
  r_0697_Km0750 has mM;
  r_0697_Km1151 = 0.1;
  r_0697_Km1151 has mM;
  r_0697_Km0033 = 0.1;
  r_0697_Km0033 has mM;
  r_0698_FLUX_VALUE = 0.000294478036673883;
  r_0698_FLUX_VALUE has dimensionless;
  r_0698_Vmax = 0.0017668682200466;
  r_0698_Vmax has mM_per_s;
  r_0698_Keq = 2;
  r_0698_Keq has dimensionless;
  r_0698_Km0037 = 0.1;
  r_0698_Km0037 has mM;
  r_0698_Km1059 = 0.1;
  r_0698_Km1059 has mM;
  r_0699_FLUX_VALUE = 0.0127420861652554;
  r_0699_FLUX_VALUE has dimensionless;
  r_0699_Vmax = 0.178389206313151;
  r_0699_Vmax has mM_per_s;
  r_0699_Keq = 2;
  r_0699_Keq has dimensionless;
  r_0699_Km0291 = 0.1;
  r_0699_Km0291 has mM;
  r_0699_Km0991 = 0.1;
  r_0699_Km0991 has mM;
  r_0699_Km0180 = 0.1;
  r_0699_Km0180 has mM;
  r_0699_Km1021 = 0.1;
  r_0699_Km1021 has mM;
  r_0701_FLUX_VALUE = 0.0127420861621283;
  r_0701_FLUX_VALUE has dimensionless;
  r_0701_Vmax = 0.382262584863961;
  r_0701_Vmax has mM_per_s;
  r_0701_Keq = 0.2319762921916;
  r_0701_Keq has dimensionless;
  r_0701_KmATP = 2.52512746499271;
  r_0701_KmATP has mM;
  r_0701_Km1021 = 0.1;
  r_0701_Km1021 has mM;
  r_0701_Km1598 = 0.1;
  r_0701_Km1598 has mM;
  r_0701_KmAMP = 0.292884853320091;
  r_0701_KmAMP has mM;
  r_0701_Km0633 = 0.1;
  r_0701_Km0633 has mM;
  r_0701_Km1077 = 0.1;
  r_0701_Km1077 has mM;
  r_0711_FLUX_VALUE = 0.0123035933184923;
  r_0711_FLUX_VALUE has dimensionless;
  r_0711_Vmax = 0.369107799554827;
  r_0711_Vmax has mM_per_s;
  r_0711_Keq = 0.2319762921916;
  r_0711_Keq has dimensionless;
  r_0711_KmATP = 2.52512746499271;
  r_0711_KmATP has mM;
  r_0711_Km1025 = 0.1;
  r_0711_Km1025 has mM;
  r_0711_Km1600 = 0.1;
  r_0711_Km1600 has mM;
  r_0711_KmAMP = 0.292884853320091;
  r_0711_KmAMP has mM;
  r_0711_Km0633 = 0.1;
  r_0711_Km0633 has mM;
  r_0711_Km1099 = 0.1;
  r_0711_Km1099 has mM;
  r_0713_FLUX_VALUE = 0.0325542768625425;
  r_0713_FLUX_VALUE has dimensionless;
  r_0713_Vmax = 0.455759876073545;
  r_0713_Vmax has mM_per_s;
  r_0713_Keq = 0.115359884738766;
  r_0713_Keq has dimensionless;
  r_0713_Km0066 = 0.1;
  r_0713_Km0066 has mM;
  r_0713_KmNAD = 1.50329030201531;
  r_0713_KmNAD has mM;
  r_0713_KmNADH = 0.0867096979846952;
  r_0713_KmNADH has mM;
  r_0713_Km1271 = 0.1;
  r_0713_Km1271 has mM;
  r_0722_FLUX_VALUE = 0.0347312125856392;
  r_0722_FLUX_VALUE has dimensionless;
  r_0722_Vmax = 0.486236976198897;
  r_0722_Vmax has mM_per_s;
  r_0722_Keq = 2;
  r_0722_Keq has dimensionless;
  r_0722_Km0573 = 0.1;
  r_0722_Km0573 has mM;
  r_0722_Km0785 = 0.1;
  r_0722_Km0785 has mM;
  r_0722_Km0633 = 0.1;
  r_0722_Km0633 has mM;
  r_0722_Km0743 = 0.1;
  r_0722_Km0743 has mM;
  r_0723_FLUX_VALUE = 0.0347312125856392;
  r_0723_FLUX_VALUE has dimensionless;
  r_0723_Vmax = 0.208387275514557;
  r_0723_Vmax has mM_per_s;
  r_0723_Keq = 0.32001208082349;
  r_0723_Keq has dimensionless;
  r_0723_KmF6P = 0.624976405532373;
  r_0723_KmF6P has mM;
  r_0723_Km0574 = 0.1;
  r_0723_Km0574 has mM;
  r_0724_FLUX_VALUE = 0.0109404824355924;
  r_0724_FLUX_VALUE has dimensionless;
  r_0724_Vmax = 0.0656428946135088;
  r_0724_Vmax has mM_per_s;
  r_0724_Keq = 2;
  r_0724_Keq has dimensionless;
  r_0724_Km0304 = 0.1;
  r_0724_Km0304 has mM;
  r_0724_Km0120 = 0.1;
  r_0724_Km0120 has mM;
  r_0726_FLUX_VALUE = 0.000661479358800954;
  r_0726_FLUX_VALUE has dimensionless;
  r_0726_Vmax = 0.0145525458936722;
  r_0726_Vmax has mM_per_s;
  r_0726_Keq = 0.00792039224841972;
  r_0726_Keq has mM;
  r_0726_KmATP = 2.52512746499271;
  r_0726_KmATP has mM;
  r_0726_Km1029 = 0.1;
  r_0726_Km1029 has mM;
  r_0726_Km0633 = 0.1;
  r_0726_Km0633 has mM;
  r_0726_KmPHO = 0.1;
  r_0726_KmPHO has mM;
  r_0726_Km1416 = 0.1;
  r_0726_Km1416 has mM;
  r_0727_FLUX_VALUE = 0.00284104672032285;
  r_0727_FLUX_VALUE has dimensionless;
  r_0727_Vmax = 0.0397746540845398;
  r_0727_Vmax has mM_per_s;
  r_0727_Keq = 2;
  r_0727_Keq has dimensionless;
  r_0727_Km0322 = 0.1;
  r_0727_Km0322 has mM;
  r_0727_Km1012 = 0.1;
  r_0727_Km1012 has mM;
  r_0727_Km1029 = 0.1;
  r_0727_Km1029 has mM;
  r_0727_Km1487 = 0.1;
  r_0727_Km1487 has mM;
  r_0729_FLUX_VALUE = 0.00217956736983773;
  r_0729_FLUX_VALUE has dimensionless;
  r_0729_Vmax = 0.0653870210950378;
  r_0729_Vmax has mM_per_s;
  r_0729_Keq = 0.2319762921916;
  r_0729_Keq has dimensionless;
  r_0729_KmATP = 2.52512746499271;
  r_0729_KmATP has mM;
  r_0729_Km1029 = 0.1;
  r_0729_Km1029 has mM;
  r_0729_Km1602 = 0.1;
  r_0729_Km1602 has mM;
  r_0729_KmAMP = 0.292884853320091;
  r_0729_KmAMP has mM;
  r_0729_Km0633 = 0.1;
  r_0729_Km0633 has mM;
  r_0729_Km1148 = 0.1;
  r_0729_Km1148 has mM;
  r_0731_FLUX_VALUE = 7.08627601042622e-12;
  r_0731_FLUX_VALUE has dimensionless;
  r_0731_Vmax = 9.92078641462824e-11;
  r_0731_Vmax has mM_per_s;
  r_0731_Keq = 34.6740984446895;
  r_0731_Keq has dimensionless;
  r_0731_Km0304 = 0.1;
  r_0731_Km0304 has mM;
  r_0731_KmNADH = 0.0867096979846952;
  r_0731_KmNADH has mM;
  r_0731_Km0306 = 0.1;
  r_0731_Km0306 has mM;
  r_0731_KmNAD = 1.50329030201531;
  r_0731_KmNAD has mM;
  r_0732_FLUX_VALUE = 0.0109404824426787;
  r_0732_FLUX_VALUE has dimensionless;
  r_0732_Vmax = 0.153166754197004;
  r_0732_Vmax has mM_per_s;
  r_0732_Keq = 2;
  r_0732_Keq has dimensionless;
  r_0732_Km0306 = 0.1;
  r_0732_Km0306 has mM;
  r_0732_Km1207 = 0.1;
  r_0732_Km1207 has mM;
  r_0732_Km0304 = 0.1;
  r_0732_Km0304 has mM;
  r_0732_Km1212 = 0.1;
  r_0732_Km1212 has mM;
  r_0735_FLUX_VALUE = 1.44184282113713e-06;
  r_0735_FLUX_VALUE has dimensionless;
  r_0735_Vmax = 2.01857994959905e-05;
  r_0735_Vmax has mM_per_s;
  r_0735_Keq = 1.01538452966048;
  r_0735_Keq has dimensionless;
  r_0735_Km0028 = 0.1;
  r_0735_Km0028 has mM;
  r_0735_KmATP = 2.52512746499271;
  r_0735_KmATP has mM;
  r_0735_Km0019 = 0.1;
  r_0735_Km0019 has mM;
  r_0735_KmADP = 1.28198768168719;
  r_0735_KmADP has mM;
  r_0736_FLUX_VALUE = 0.00176542638112931;
  r_0736_FLUX_VALUE has dimensionless;
  r_0736_Vmax = 0.0247159693358207;
  r_0736_Vmax has mM_per_s;
  r_0736_Keq = 2;
  r_0736_Keq has dimensionless;
  r_0736_Km0028 = 0.1;
  r_0736_Km0028 has mM;
  r_0736_Km0539 = 0.1;
  r_0736_Km0539 has mM;
  r_0736_Km0019 = 0.1;
  r_0736_Km0019 has mM;
  r_0736_Km0467 = 0.1;
  r_0736_Km0467 has mM;
  r_0739_FLUX_VALUE = 0.00176686822823163;
  r_0739_FLUX_VALUE has dimensionless;
  r_0739_Vmax = 0.0671409926730056;
  r_0739_Vmax has mM_per_s;
  r_0739_Keq = 0.101538452966048;
  r_0739_Keq has mM_squared;
  r_0739_Km0018 = 0.1;
  r_0739_Km0018 has mM;
  r_0739_KmATP = 2.52512746499271;
  r_0739_KmATP has mM;
  r_0739_KmADP = 1.28198768168719;
  r_0739_KmADP has mM;
  r_0739_KmCO2 = 1;
  r_0739_KmCO2 has mM;
  r_0739_Km0943 = 0.1;
  r_0739_Km0943 has mM;
  r_0739_KmPHO = 0.1;
  r_0739_KmPHO has mM;
  r_0757_FLUX_VALUE = 9.028139427404e-05;
  r_0757_FLUX_VALUE has dimensionless;
  r_0757_Vmax = 0.0009028139427408;
  r_0757_Vmax has mM_per_s;
  r_0757_Keq = 0.2;
  r_0757_Keq has mM;
  r_0757_Km0126 = 0.1;
  r_0757_Km0126 has mM;
  r_0757_Km1153 = 0.1;
  r_0757_Km1153 has mM;
  r_0757_KmPHO = 0.1;
  r_0757_KmPHO has mM;
  r_0758_FLUX_VALUE = 9.02813775553284e-05;
  r_0758_FLUX_VALUE has dimensionless;
  r_0758_Vmax = 0.00054168826533146;
  r_0758_Vmax has mM_per_s;
  r_0758_Keq = 0.0747652332299264;
  r_0758_Keq has dimensionless;
  r_0758_KmG6P = 2.67504014044787;
  r_0758_KmG6P has mM;
  r_0758_Km0126 = 0.1;
  r_0758_Km0126 has mM;
  r_0759_FLUX_VALUE = 0.00690841177420332;
  r_0759_FLUX_VALUE has dimensionless;
  r_0759_Vmax = 0.151985059032946;
  r_0759_Vmax has mM_per_s;
  r_0759_Keq = 0.2;
  r_0759_Keq has mM;
  r_0759_Km1191 = 0.1;
  r_0759_Km1191 has mM;
  r_0759_Km1212 = 0.1;
  r_0759_Km1212 has mM;
  r_0759_Km0145 = 0.1;
  r_0759_Km0145 has mM;
  r_0759_Km1207 = 0.1;
  r_0759_Km1207 has mM;
  r_0759_KmPHO = 0.1;
  r_0759_KmPHO has mM;
  r_0792_FLUX_VALUE = 0.00166080972545792;
  r_0792_FLUX_VALUE has dimensionless;
  r_0792_Vmax = 0.0166080972545584;
  r_0792_Vmax has mM_per_s;
  r_0792_Keq = 0.2;
  r_0792_Keq has mM;
  r_0792_Km0467 = 0.1;
  r_0792_Km0467 has mM;
  r_0792_Km0526 = 0.1;
  r_0792_Km0526 has mM;
  r_0792_KmPHO = 0.1;
  r_0792_KmPHO has mM;
  r_0800_FLUX_VALUE = 0.22922462740014;
  r_0800_FLUX_VALUE has dimensionless;
  r_0800_Vmax = 3.2091447836179;
  r_0800_Vmax has mM_per_s;
  r_0800_Keq = 1.01538452966048;
  r_0800_Keq has dimensionless;
  r_0800_KmATP = 2.52512746499271;
  r_0800_KmATP has mM;
  r_0800_Km0739 = 0.1;
  r_0800_Km0739 has mM;
  r_0800_KmADP = 1.28198768168719;
  r_0800_KmADP has mM;
  r_0800_Km0785 = 0.1;
  r_0800_Km0785 has mM;
  r_0811_FLUX_VALUE = 0.123044531161555;
  r_0811_FLUX_VALUE has dimensionless;
  r_0811_Vmax = 1.72262343626641;
  r_0811_Vmax has mM_per_s;
  r_0811_Keq = 1.01538452966048;
  r_0811_Keq has dimensionless;
  r_0811_KmATP = 2.52512746499271;
  r_0811_KmATP has mM;
  r_0811_Km1538 = 0.1;
  r_0811_Km1538 has mM;
  r_0811_KmADP = 1.28198768168719;
  r_0811_KmADP has mM;
  r_0811_Km1559 = 0.1;
  r_0811_Km1559 has mM;
  r_0813_FLUX_VALUE = 0.00246329798479173;
  r_0813_FLUX_VALUE has dimensionless;
  r_0813_Vmax = 0.0344861717870684;
  r_0813_Vmax has mM_per_s;
  r_0813_Keq = 2;
  r_0813_Keq has dimensionless;
  r_0813_Km0841 = 0.1;
  r_0813_Km0841 has mM;
  r_0813_Km1233 = 0.1;
  r_0813_Km1233 has mM;
  r_0813_Km0362 = 0.1;
  r_0813_Km0362 has mM;
  r_0813_Km1012 = 0.1;
  r_0813_Km1012 has mM;
  r_0816_FLUX_VALUE = 0.0069084117612002;
  r_0816_FLUX_VALUE has dimensionless;
  r_0816_Vmax = 0.0967177646568056;
  r_0816_Vmax has mM_per_s;
  r_0816_Keq = 2;
  r_0816_Keq has dimensionless;
  r_0816_Km0455 = 0.1;
  r_0816_Km0455 has mM;
  r_0816_Km1266 = 0.1;
  r_0816_Km1266 has mM;
  r_0816_Km0979 = 0.1;
  r_0816_Km0979 has mM;
  r_0816_KmPHO = 0.1;
  r_0816_KmPHO has mM;
  r_0818_FLUX_VALUE = 0.00690841177420332;
  r_0818_FLUX_VALUE has dimensionless;
  r_0818_Vmax = 0.096717764838893;
  r_0818_Vmax has mM_per_s;
  r_0818_Keq = 2;
  r_0818_Keq has dimensionless;
  r_0818_Km0991 = 0.1;
  r_0818_Km0991 has mM;
  r_0818_Km1182 = 0.1;
  r_0818_Km1182 has mM;
  r_0818_Km1192 = 0.1;
  r_0818_Km1192 has mM;
  r_0818_Km1266 = 0.1;
  r_0818_Km1266 has mM;
  r_0820_FLUX_VALUE = 0.00475463808883757;
  r_0820_FLUX_VALUE has dimensionless;
  r_0820_Vmax = 0.066564933243752;
  r_0820_Vmax has mM_per_s;
  r_0820_Keq = 2;
  r_0820_Keq has dimensionless;
  r_0820_Km1269 = 0.1;
  r_0820_Km1269 has mM;
  r_0820_Km1386 = 0.1;
  r_0820_Km1386 has mM;
  r_0820_Km0633 = 0.1;
  r_0820_Km0633 has mM;
  r_0820_Km1270 = 0.1;
  r_0820_Km1270 has mM;
  r_0821_FLUX_VALUE = 0.00475463808883758;
  r_0821_FLUX_VALUE has dimensionless;
  r_0821_Vmax = 0.0475463808883516;
  r_0821_Vmax has mM_per_s;
  r_0821_Keq = 2;
  r_0821_Keq has mM;
  r_0821_Km1270 = 0.1;
  r_0821_Km1270 has mM;
  r_0821_KmCO2 = 1;
  r_0821_KmCO2 has mM;
  r_0821_Km1545 = 0.1;
  r_0821_Km1545 has mM;
  r_0851_FLUX_VALUE = 0.00575629338495522;
  r_0851_FLUX_VALUE has dimensionless;
  r_0851_Vmax = 0.0805881073893461;
  r_0851_Vmax has mM_per_s;
  r_0851_Keq = 2;
  r_0851_Keq has dimensionless;
  r_0851_Km0951 = 0.1;
  r_0851_Km0951 has mM;
  r_0851_Km0991 = 0.1;
  r_0851_Km0991 has mM;
  r_0851_Km0180 = 0.1;
  r_0851_Km0180 has mM;
  r_0851_Km1032 = 0.1;
  r_0851_Km1032 has mM;
  r_0852_FLUX_VALUE = 0.00575629331008426;
  r_0852_FLUX_VALUE has dimensionless;
  r_0852_Vmax = 0.172688799302723;
  r_0852_Vmax has mM_per_s;
  r_0852_Keq = 0.2319762921916;
  r_0852_Keq has dimensionless;
  r_0852_KmATP = 2.52512746499271;
  r_0852_KmATP has mM;
  r_0852_Km1032 = 0.1;
  r_0852_Km1032 has mM;
  r_0852_Km1604 = 0.1;
  r_0852_Km1604 has mM;
  r_0852_KmAMP = 0.292884853320091;
  r_0852_KmAMP has mM;
  r_0852_Km0633 = 0.1;
  r_0852_Km0633 has mM;
  r_0852_Km1314 = 0.1;
  r_0852_Km1314 has mM;
  r_0855_FLUX_VALUE = 0.00425553005793811;
  r_0855_FLUX_VALUE has dimensionless;
  r_0855_Vmax = 0.0936216612749765;
  r_0855_Vmax has mM_per_s;
  r_0855_Keq = 0.101538452966048;
  r_0855_Keq has mM;
  r_0855_Km0302 = 0.1;
  r_0855_Km0302 has mM;
  r_0855_KmATP = 2.52512746499271;
  r_0855_KmATP has mM;
  r_0855_Km0300 = 0.1;
  r_0855_Km0300 has mM;
  r_0855_KmADP = 1.28198768168719;
  r_0855_KmADP has mM;
  r_0855_KmPHO = 0.1;
  r_0855_KmPHO has mM;
  r_0858_FLUX_VALUE = 0.000123809739802672;
  r_0858_FLUX_VALUE has dimensionless;
  r_0858_Vmax = 0.00173333635723482;
  r_0858_Vmax has mM_per_s;
  r_0858_Keq = 2;
  r_0858_Keq has dimensionless;
  r_0858_Km1351 = 0.1;
  r_0858_Km1351 has mM;
  r_0858_Km1416 = 0.1;
  r_0858_Km1416 has mM;
  r_0858_Km1343 = 0.1;
  r_0858_Km1343 has mM;
  r_0858_Km1413 = 0.1;
  r_0858_Km1413 has mM;
  r_0874_FLUX_VALUE = 9.028139427404e-05;
  r_0874_FLUX_VALUE has dimensionless;
  r_0874_Vmax = 0.00126393951983312;
  r_0874_Vmax has mM_per_s;
  r_0874_Keq = 2;
  r_0874_Keq has dimensionless;
  r_0874_Km0471 = 0.1;
  r_0874_Km0471 has mM;
  r_0874_Km1153 = 0.1;
  r_0874_Km1153 has mM;
  r_0874_Km0089 = 0.1;
  r_0874_Km0089 has mM;
  r_0874_Km0526 = 0.1;
  r_0874_Km0526 has mM;
  r_0877_FLUX_VALUE = 0.000153773416789459;
  r_0877_FLUX_VALUE has dimensionless;
  r_0877_Vmax = 0.00153773416789918;
  r_0877_Vmax has mM_per_s;
  r_0877_Keq = 2;
  r_0877_Keq has mM;
  r_0877_Km1337 = 0.1;
  r_0877_Km1337 has mM;
  r_0877_KmCO2 = 1;
  r_0877_KmCO2 has mM;
  r_0877_Km1351 = 0.1;
  r_0877_Km1351 has mM;
  r_0880_FLUX_VALUE = 0.000170539319634365;
  r_0880_FLUX_VALUE has dimensionless;
  r_0880_Vmax = 0.00238755047488222;
  r_0880_Vmax has mM_per_s;
  r_0880_Keq = 2;
  r_0880_Keq has dimensionless;
  r_0880_Km0471 = 0.1;
  r_0880_Km0471 has mM;
  r_0880_Km1039 = 0.1;
  r_0880_Km1039 has mM;
  r_0880_Km0526 = 0.1;
  r_0880_Km0526 has mM;
  r_0880_Km1337 = 0.1;
  r_0880_Km1337 has mM;
  r_0883_FLUX_VALUE = 0.00246329802950139;
  r_0883_FLUX_VALUE has dimensionless;
  r_0883_Vmax = 0.0541925566490612;
  r_0883_Vmax has mM_per_s;
  r_0883_Keq = 0.2;
  r_0883_Keq has mM;
  r_0883_Km0201 = 0.1;
  r_0883_Km0201 has mM;
  r_0883_Km1616 = 0.1;
  r_0883_Km1616 has mM;
  r_0883_Km0390 = 0.1;
  r_0883_Km0390 has mM;
  r_0883_Km1469 = 0.1;
  r_0883_Km1469 has mM;
  r_0883_Km1620 = 0.1;
  r_0883_Km1620 has mM;
  r_0884_FLUX_VALUE = 0.0227242467860983;
  r_0884_FLUX_VALUE has dimensionless;
  r_0884_Vmax = 0.499933429296603;
  r_0884_Vmax has mM_per_s;
  r_0884_Keq = 0.642080585266171;
  r_0884_Keq has mM;
  r_0884_KmATP = 2.52512746499271;
  r_0884_KmATP has mM;
  r_0884_Km1271 = 0.1;
  r_0884_Km1271 has mM;
  r_0884_KmADP = 1.28198768168719;
  r_0884_KmADP has mM;
  r_0884_KmCO2 = 1;
  r_0884_KmCO2 has mM;
  r_0884_KmPEP = 0.0632352144936527;
  r_0884_KmPEP has mM;
  PFK_Vmax = 1.83333333333333;
  PFK_Vmax has mM_per_s;
  PFK_gR = 5.12;
  PFK_gR has dimensionless;
  PFK_Kf6p = 0.1;
  PFK_Kf6p has mM;
  PFK_Katp = 0.71;
  PFK_Katp has mM;
  PFK_L0 = 0.66;
  PFK_L0 has dimensionless;
  PFK_Ciatp = 100;
  PFK_Ciatp has dimensionless;
  PFK_Kiatp = 0.65;
  PFK_Kiatp has mM;
  PFK_Camp = 0.0845;
  PFK_Camp has dimensionless;
  PFK_Kamp = 0.0995;
  PFK_Kamp has mM;
  PFK_Cf26 = 0.0174;
  PFK_Cf26 has dimensionless;
  PFK_Kf26 = 0.000682;
  PFK_Kf26 has mM;
  PFK_Cf16 = 0.397;
  PFK_Cf16 has dimensionless;
  PFK_Kf16 = 0.111;
  PFK_Kf16 has mM;
  PFK_Catp = 3;
  PFK_Catp has dimensionless;
  PFK_FLUX_VALUE = 1.30887182461986;
  PFK_FLUX_VALUE has dimensionless;
  r_0888_FLUX_VALUE = 0.120864963713311;
  r_0888_FLUX_VALUE has dimensionless;
  r_0888_Vmax = 0.725189782279089;
  r_0888_Vmax has mM_per_s;
  r_0888_Keq = 0.0747652332299264;
  r_0888_Keq has dimensionless;
  r_0888_KmG6P = 2.67504014044787;
  r_0888_KmG6P has mM;
  r_0888_Km0567 = 0.1;
  r_0888_Km0567 has mM;
  r_0889_FLUX_VALUE = 0.0580388007275702;
  r_0889_FLUX_VALUE has dimensionless;
  r_0889_Vmax = 1.27685361600309;
  r_0889_Vmax has mM_per_s;
  r_0889_Keq = 2;
  r_0889_Keq has mM;
  r_0889_Km0340 = 0.1;
  r_0889_Km0340 has mM;
  r_0889_Km1207 = 0.1;
  r_0889_Km1207 has mM;
  r_0889_KmCO2 = 1;
  r_0889_KmCO2 has mM;
  r_0889_Km0577 = 0.1;
  r_0889_Km0577 has mM;
  r_0889_Km1212 = 0.1;
  r_0889_Km1212 has mM;
  PGK_Vmax = 259.220125786164;
  PGK_Vmax has mM_per_s;
  PGK_Keq = 3200;
  PGK_Keq has dimensionless;
  PGK_Kp3g = 0.53;
  PGK_Kp3g has mM;
  PGK_Katp = 0.3;
  PGK_Katp has mM;
  PGK_Kbpg = 0.003;
  PGK_Kbpg has mM;
  PGK_Kadp = 0.2;
  PGK_Kadp has mM;
  PGK_FLUX_VALUE = 2.30005961520794;
  PGK_FLUX_VALUE has dimensionless;
  GPM_Vmax = 43.0833333333332;
  GPM_Vmax has mM_per_s;
  GPM_Kp3g = 1.2;
  GPM_Kp3g has mM;
  GPM_Keq = 0.19;
  GPM_Keq has dimensionless;
  GPM_Kp2g = 0.08;
  GPM_Kp2g has mM;
  GPM_FLUX_VALUE = 2.30005961515984;
  GPM_FLUX_VALUE has dimensionless;
  r_0900_FLUX_VALUE = 0.000123809739802672;
  r_0900_FLUX_VALUE has dimensionless;
  r_0900_Vmax = 0.00173333635723482;
  r_0900_Vmax has mM_per_s;
  r_0900_Keq = 2;
  r_0900_Keq has dimensionless;
  r_0900_Km1342 = 0.1;
  r_0900_Km1342 has mM;
  r_0900_Km1416 = 0.1;
  r_0900_Km1416 has mM;
  r_0900_Km1346 = 0.1;
  r_0900_Km1346 has mM;
  r_0900_Km1413 = 0.1;
  r_0900_Km1413 has mM;
  r_0901_FLUX_VALUE = 0.000123809739802672;
  r_0901_FLUX_VALUE has dimensionless;
  r_0901_Vmax = 0.00173333635723482;
  r_0901_Vmax has mM_per_s;
  r_0901_Keq = 2;
  r_0901_Keq has dimensionless;
  r_0901_Km1343 = 0.1;
  r_0901_Km1343 has mM;
  r_0901_Km1416 = 0.1;
  r_0901_Km1416 has mM;
  r_0901_Km1342 = 0.1;
  r_0901_Km1342 has mM;
  r_0901_Km1413 = 0.1;
  r_0901_Km1413 has mM;
  r_0902_FLUX_VALUE = 0.0347312125856392;
  r_0902_FLUX_VALUE has dimensionless;
  r_0902_Vmax = 0.20838727551367;
  r_0902_Vmax has mM_per_s;
  r_0902_Keq = 2;
  r_0902_Keq has dimensionless;
  r_0902_Km0574 = 0.1;
  r_0902_Km0574 has mM;
  r_0902_Km0573 = 0.1;
  r_0902_Km0573 has mM;
  r_0904_FLUX_VALUE = 0.00176686822823163;
  r_0904_FLUX_VALUE has dimensionless;
  r_0904_Vmax = 0.0247361551953705;
  r_0904_Vmax has mM_per_s;
  r_0904_Keq = 1.01538452966048;
  r_0904_Keq has dimensionless;
  r_0904_Km0019 = 0.1;
  r_0904_Km0019 has mM;
  r_0904_KmATP = 2.52512746499271;
  r_0904_KmATP has mM;
  r_0904_Km0018 = 0.1;
  r_0904_Km0018 has mM;
  r_0904_KmADP = 1.28198768168719;
  r_0904_KmADP has mM;
  r_0908_FLUX_VALUE = 0.00425553005793811;
  r_0908_FLUX_VALUE has dimensionless;
  r_0908_Vmax = 0.127665901738241;
  r_0908_Vmax has mM_per_s;
  r_0908_Keq = 1.01538452966048;
  r_0908_Keq has dimensionless;
  r_0908_KmATP = 2.52512746499271;
  r_0908_KmATP has mM;
  r_0908_Km0973 = 0.1;
  r_0908_Km0973 has mM;
  r_0908_Km1364 = 0.1;
  r_0908_Km1364 has mM;
  r_0908_Km0299 = 0.1;
  r_0908_Km0299 has mM;
  r_0908_KmADP = 1.28198768168719;
  r_0908_KmADP has mM;
  r_0908_KmPHO = 0.1;
  r_0908_KmPHO has mM;
  r_0909_FLUX_VALUE = 0.00285020348363397;
  r_0909_FLUX_VALUE has dimensionless;
  r_0909_Vmax = 0.0171012209018076;
  r_0909_Vmax has mM_per_s;
  r_0909_Keq = 2;
  r_0909_Keq has dimensionless;
  r_0909_Km0078 = 0.1;
  r_0909_Km0078 has mM;
  r_0909_Km0077 = 0.1;
  r_0909_Km0077 has mM;
  r_0910_FLUX_VALUE = 0.00285020348363397;
  r_0910_FLUX_VALUE has dimensionless;
  r_0910_Vmax = 0.0285020348363794;
  r_0910_Vmax has mM_per_s;
  r_0910_Keq = 0.2;
  r_0910_Keq has mM;
  r_0910_Km0326 = 0.1;
  r_0910_Km0326 has mM;
  r_0910_Km0078 = 0.1;
  r_0910_Km0078 has mM;
  r_0910_Km0633 = 0.1;
  r_0910_Km0633 has mM;
  r_0911_FLUX_VALUE = 0.00425553005793811;
  r_0911_FLUX_VALUE has dimensionless;
  r_0911_Vmax = 0.127665901738241;
  r_0911_Vmax has mM_per_s;
  r_0911_Keq = 0.101538452966048;
  r_0911_Keq has dimensionless;
  r_0911_Km0300 = 0.1;
  r_0911_Km0300 has mM;
  r_0911_KmCO2 = 1;
  r_0911_KmCO2 has mM;
  r_0911_KmATP = 2.52512746499271;
  r_0911_KmATP has mM;
  r_0911_Km1364 = 0.1;
  r_0911_Km1364 has mM;
  r_0911_KmADP = 1.28198768168719;
  r_0911_KmADP has mM;
  r_0911_KmPHO = 0.1;
  r_0911_KmPHO has mM;
  r_0912_FLUX_VALUE = 0.00710573354157207;
  r_0912_FLUX_VALUE has dimensionless;
  r_0912_Vmax = 0.099480269582018;
  r_0912_Vmax has mM_per_s;
  r_0912_Keq = 2;
  r_0912_Keq has dimensionless;
  r_0912_Km0120 = 0.1;
  r_0912_Km0120 has mM;
  r_0912_Km0403 = 0.1;
  r_0912_Km0403 has mM;
  r_0912_Km1365 = 0.1;
  r_0912_Km1365 has mM;
  r_0912_Km1487 = 0.1;
  r_0912_Km1487 has mM;
  r_0913_FLUX_VALUE = 0.0012209016222774;
  r_0913_FLUX_VALUE has dimensionless;
  r_0913_Vmax = 0.0073254097336688;
  r_0913_Vmax has mM_per_s;
  r_0913_Keq = 2;
  r_0913_Keq has dimensionless;
  r_0913_Km1187 = 0.1;
  r_0913_Km1187 has mM;
  r_0913_Km0076 = 0.1;
  r_0913_Km0076 has mM;
  r_0914_FLUX_VALUE = 0.00425553005793811;
  r_0914_FLUX_VALUE has dimensionless;
  r_0914_Vmax = 0.127665901738241;
  r_0914_Vmax has mM_per_s;
  r_0914_Keq = 1.01538452966048;
  r_0914_Keq has dimensionless;
  r_0914_Km0327 = 0.1;
  r_0914_Km0327 has mM;
  r_0914_KmATP = 2.52512746499271;
  r_0914_KmATP has mM;
  r_0914_Km1003 = 0.1;
  r_0914_Km1003 has mM;
  r_0914_Km0325 = 0.1;
  r_0914_Km0325 has mM;
  r_0914_KmADP = 1.28198768168719;
  r_0914_KmADP has mM;
  r_0914_KmPHO = 0.1;
  r_0914_KmPHO has mM;
  r_0915_FLUX_VALUE = 0.00425553005793811;
  r_0915_FLUX_VALUE has dimensionless;
  r_0915_Vmax = 0.0936216612746768;
  r_0915_Vmax has mM_per_s;
  r_0915_Keq = 0.2;
  r_0915_Keq has mM;
  r_0915_Km0999 = 0.1;
  r_0915_Km0999 has mM;
  r_0915_Km1386 = 0.1;
  r_0915_Km1386 has mM;
  r_0915_Km0327 = 0.1;
  r_0915_Km0327 has mM;
  r_0915_Km0633 = 0.1;
  r_0915_Km0633 has mM;
  r_0915_Km0991 = 0.1;
  r_0915_Km0991 has mM;
  r_0916_FLUX_VALUE = 0.0130812732613324;
  r_0916_FLUX_VALUE has dimensionless;
  r_0916_Vmax = 0.183137825658954;
  r_0916_Vmax has mM_per_s;
  r_0916_Keq = 0.2319762921916;
  r_0916_Keq has dimensionless;
  r_0916_KmATP = 2.52512746499271;
  r_0916_KmATP has mM;
  r_0916_Km1408 = 0.1;
  r_0916_Km1408 has mM;
  r_0916_KmAMP = 0.292884853320091;
  r_0916_KmAMP has mM;
  r_0916_Km1386 = 0.1;
  r_0916_Km1386 has mM;
  r_0938_FLUX_VALUE = 0.00575629331008437;
  r_0938_FLUX_VALUE has dimensionless;
  r_0938_Vmax = 0.0575629331008874;
  r_0938_Vmax has mM_per_s;
  r_0938_Keq = 2;
  r_0938_Keq has mM;
  r_0938_Km1377 = 0.1;
  r_0938_Km1377 has mM;
  r_0938_KmCO2 = 1;
  r_0938_KmCO2 has mM;
  r_0938_Km0951 = 0.1;
  r_0938_Km0951 has mM;
  r_0939_FLUX_VALUE = 0.00438492843635988;
  r_0939_FLUX_VALUE has dimensionless;
  r_0939_Vmax = 0.0964684255999347;
  r_0939_Vmax has mM_per_s;
  r_0939_Keq = 2;
  r_0939_Keq has mM;
  r_0939_Km1207 = 0.1;
  r_0939_Km1207 has mM;
  r_0939_Km1377 = 0.1;
  r_0939_Km1377 has mM;
  r_0939_Km0204 = 0.1;
  r_0939_Km0204 has mM;
  r_0939_KmCO2 = 1;
  r_0939_KmCO2 has mM;
  r_0939_Km1212 = 0.1;
  r_0939_Km1212 has mM;
  r_0941_FLUX_VALUE = 0.00708036973988706;
  r_0941_FLUX_VALUE has dimensionless;
  r_0941_Vmax = 0.212411092196814;
  r_0941_Vmax has mM_per_s;
  r_0941_Keq = 0.2319762921916;
  r_0941_Keq has dimensionless;
  r_0941_KmATP = 2.52512746499271;
  r_0941_KmATP has mM;
  r_0941_Km1035 = 0.1;
  r_0941_Km1035 has mM;
  r_0941_Km1606 = 0.1;
  r_0941_Km1606 has mM;
  r_0941_KmAMP = 0.292884853320091;
  r_0941_KmAMP has mM;
  r_0941_Km0633 = 0.1;
  r_0941_Km0633 has mM;
  r_0941_Km1379 = 0.1;
  r_0941_Km1379 has mM;
  r_0957_FLUX_VALUE = 0.00708036973057843;
  r_0957_FLUX_VALUE has dimensionless;
  r_0957_Vmax = 0.099125176228096;
  r_0957_Vmax has mM_per_s;
  r_0957_Keq = 2;
  r_0957_Keq has dimensionless;
  r_0957_Km0118 = 0.1;
  r_0957_Km0118 has mM;
  r_0957_Km1212 = 0.1;
  r_0957_Km1212 has mM;
  r_0957_Km1035 = 0.1;
  r_0957_Km1035 has mM;
  r_0957_Km1207 = 0.1;
  r_0957_Km1207 has mM;
  r_0958_FLUX_VALUE = 0.140733244027409;
  r_0958_FLUX_VALUE has dimensionless;
  r_0958_Vmax = 4.22199732082751;
  r_0958_Vmax has mM_per_s;
  r_0958_Keq = 0.0559344202713846;
  r_0958_Keq has dimensionless;
  r_0958_KmATP = 2.52512746499271;
  r_0958_KmATP has mM;
  r_0958_Km0445 = 0.1;
  r_0958_Km0445 has mM;
  r_0958_KmPYR = 1.81531251192736;
  r_0958_KmPYR has mM;
  r_0958_KmADP = 1.28198768168719;
  r_0958_KmADP has mM;
  r_0958_Km1271 = 0.1;
  r_0958_Km1271 has mM;
  r_0958_KmPHO = 0.1;
  r_0958_KmPHO has mM;
  PDC_Vmax = 14.2966666666667;
  PDC_Vmax has mM_per_s;
  PDC_Kpyr = 4.33;
  PDC_Kpyr has mM;
  PDC_nH = 1.9;
  PDC_nH has dimensionless;
  PDC_FLUX_VALUE = 2.30005961519295;
  PDC_FLUX_VALUE has dimensionless;
  PYK_Vmax = 16.6666666666667;
  PYK_Vmax has mM_per_s;
  PYK_Kpep = 0.14;
  PYK_Kpep has mM;
  PYK_Kadp = 0.53;
  PYK_Kadp has mM;
  PYK_Keq = 6500;
  PYK_Keq has dimensionless;
  PYK_Kpyr = 21;
  PYK_Kpyr has mM;
  PYK_Katp = 1.5;
  PYK_Katp has mM;
  PYK_FLUX_VALUE = 2.30005961519136;
  PYK_FLUX_VALUE has dimensionless;
  r_0967_FLUX_VALUE = 8.51191990587516e-05;
  r_0967_FLUX_VALUE has dimensionless;
  r_0967_Vmax = 0.00119166878682504;
  r_0967_Vmax has mM_per_s;
  r_0967_Keq = 2;
  r_0967_Keq has dimensionless;
  r_0967_Km0158 = 0.1;
  r_0967_Km0158 has mM;
  r_0967_Km0314 = 0.1;
  r_0967_Km0314 has mM;
  r_0967_Km0328 = 0.1;
  r_0967_Km0328 has mM;
  r_0967_KmPHO = 0.1;
  r_0967_KmPHO has mM;
  r_0968_FLUX_VALUE = 4.25595995293758e-05;
  r_0968_FLUX_VALUE has dimensionless;
  r_0968_Vmax = 0.000595834393411522;
  r_0968_Vmax has mM_per_s;
  r_0968_Keq = 2;
  r_0968_Keq has dimensionless;
  r_0968_Km0328 = 0.1;
  r_0968_Km0328 has mM;
  r_0968_Km0314 = 0.1;
  r_0968_Km0314 has mM;
  r_0968_Km1405 = 0.1;
  r_0968_Km1405 has mM;
  r_0970_FLUX_VALUE = 7.28671814146884e-05;
  r_0970_FLUX_VALUE has dimensionless;
  r_0970_Vmax = 0.00102014053980339;
  r_0970_Vmax has mM_per_s;
  r_0970_Keq = 0.0792039224841972;
  r_0970_Keq has dimensionless;
  r_0970_KmATP = 2.52512746499271;
  r_0970_KmATP has mM;
  r_0970_Km1616 = 0.1;
  r_0970_Km1616 has mM;
  r_0970_Km0586 = 0.1;
  r_0970_Km0586 has mM;
  r_0970_Km1620 = 0.1;
  r_0970_Km1620 has mM;
  r_0973_FLUX_VALUE = 0.000153320048576619;
  r_0973_FLUX_VALUE has dimensionless;
  r_0973_Vmax = 0.00214648068007533;
  r_0973_Vmax has mM_per_s;
  r_0973_Keq = 2;
  r_0973_Keq has dimensionless;
  r_0973_Km1559 = 0.1;
  r_0973_Km1559 has mM;
  r_0973_Km1616 = 0.1;
  r_0973_Km1616 has mM;
  r_0973_Km0656 = 0.1;
  r_0973_Km0656 has mM;
  r_0973_Km1620 = 0.1;
  r_0973_Km1620 has mM;
  r_0974_FLUX_VALUE = 8.18949921570746e-05;
  r_0974_FLUX_VALUE has dimensionless;
  r_0974_Vmax = 0.00114652989019652;
  r_0974_Vmax has mM_per_s;
  r_0974_Keq = 0.156007739276235;
  r_0974_Keq has dimensionless;
  r_0974_KmADP = 1.28198768168719;
  r_0974_KmADP has mM;
  r_0974_Km1616 = 0.1;
  r_0974_Km1616 has mM;
  r_0974_Km0582 = 0.1;
  r_0974_Km0582 has mM;
  r_0974_Km1620 = 0.1;
  r_0974_Km1620 has mM;
  r_0976_FLUX_VALUE = 0.000104616655671391;
  r_0976_FLUX_VALUE has dimensionless;
  r_0976_Vmax = 0.00146463317939895;
  r_0976_Vmax has mM_per_s;
  r_0976_Keq = 2;
  r_0976_Keq has dimensionless;
  r_0976_Km0467 = 0.1;
  r_0976_Km0467 has mM;
  r_0976_Km1616 = 0.1;
  r_0976_Km1616 has mM;
  r_0976_Km0587 = 0.1;
  r_0976_Km0587 has mM;
  r_0976_Km1620 = 0.1;
  r_0976_Km1620 has mM;
  r_0978_FLUX_VALUE = 0.000103174784204643;
  r_0978_FLUX_VALUE has dimensionless;
  r_0978_Vmax = 0.00144444697886;
  r_0978_Vmax has mM_per_s;
  r_0978_Keq = 2;
  r_0978_Keq has dimensionless;
  r_0978_Km0739 = 0.1;
  r_0978_Km0739 has mM;
  r_0978_Km1616 = 0.1;
  r_0978_Km1616 has mM;
  r_0978_Km0613 = 0.1;
  r_0978_Km0613 has mM;
  r_0978_Km1620 = 0.1;
  r_0978_Km1620 has mM;
  r_0982_FLUX_VALUE = 0.0318261171454807;
  r_0982_FLUX_VALUE has dimensionless;
  r_0982_Vmax = 0.190956702872768;
  r_0982_Vmax has mM_per_s;
  r_0982_Keq = 2;
  r_0982_Keq has dimensionless;
  r_0982_Km0577 = 0.1;
  r_0982_Km0577 has mM;
  r_0982_Km1408 = 0.1;
  r_0982_Km1408 has mM;
  r_0984_FLUX_VALUE = 0.0261275643830308;
  r_0984_FLUX_VALUE has dimensionless;
  r_0984_Vmax = 0.15676538629837;
  r_0984_Vmax has mM_per_s;
  r_0984_Keq = 2;
  r_0984_Keq has dimensionless;
  r_0984_Km0577 = 0.1;
  r_0984_Km0577 has mM;
  r_0984_Km0581 = 0.1;
  r_0984_Km0581 has mM;
  r_0986_FLUX_VALUE = 9.0277971522068e-06;
  r_0986_FLUX_VALUE has dimensionless;
  r_0986_Vmax = 0.00012638916013079;
  r_0986_Vmax has mM_per_s;
  r_0986_Keq = 2;
  r_0986_Keq has dimensionless;
  r_0986_Km1416 = 0.1;
  r_0986_Km1416 has mM;
  r_0986_Km1569 = 0.1;
  r_0986_Km1569 has mM;
  r_0986_Km0700 = 0.1;
  r_0986_Km0700 has mM;
  r_0986_Km1413 = 0.1;
  r_0986_Km1413 has mM;
  r_0988_FLUX_VALUE = 0.0123035933209063;
  r_0988_FLUX_VALUE has dimensionless;
  r_0988_Vmax = 0.270679053058119;
  r_0988_Vmax has mM_per_s;
  r_0988_Keq = 0.0115359884738766;
  r_0988_Keq has mM;
  r_0988_Km1038 = 0.1;
  r_0988_Km1038 has mM;
  r_0988_KmNAD = 1.50329030201531;
  r_0988_KmNAD has mM;
  r_0988_Km0180 = 0.1;
  r_0988_Km0180 has mM;
  r_0988_Km1025 = 0.1;
  r_0988_Km1025 has mM;
  r_0988_KmNADH = 0.0867096979846952;
  r_0988_KmNADH has mM;
  r_0989_FLUX_VALUE = 0.0123035933209063;
  r_0989_FLUX_VALUE has dimensionless;
  r_0989_Vmax = 0.270679053059877;
  r_0989_Vmax has mM_per_s;
  r_0989_Keq = 20;
  r_0989_Keq has per_mM;
  r_0989_Km0959 = 0.1;
  r_0989_Km0959 has mM;
  r_0989_Km0991 = 0.1;
  r_0989_Km0991 has mM;
  r_0989_Km1212 = 0.1;
  r_0989_Km1212 has mM;
  r_0989_Km1038 = 0.1;
  r_0989_Km1038 has mM;
  r_0989_Km1207 = 0.1;
  r_0989_Km1207 has mM;
  r_0990_FLUX_VALUE = 0.00860364819259676;
  r_0990_FLUX_VALUE has dimensionless;
  r_0990_Vmax = 0.0860364819254253;
  r_0990_Vmax has mM_per_s;
  r_0990_Keq = 1.99172924671537;
  r_0990_Keq has per_mM;
  r_0990_Km0551 = 0.1;
  r_0990_Km0551 has mM;
  r_0990_KmDHAP = 1.00415254899644;
  r_0990_KmDHAP has mM;
  r_0990_Km1426 = 0.1;
  r_0990_Km1426 has mM;
  r_0993_FLUX_VALUE = 2.22290041668838e-05;
  r_0993_FLUX_VALUE has dimensionless;
  r_0993_Vmax = 0.000489038091671887;
  r_0993_Vmax has mM_per_s;
  r_0993_Keq = 2;
  r_0993_Keq has mM;
  r_0993_Km1039 = 0.1;
  r_0993_Km1039 has mM;
  r_0993_Km1302 = 0.1;
  r_0993_Km1302 has mM;
  r_0993_Km0231 = 0.1;
  r_0993_Km0231 has mM;
  r_0993_KmCO2 = 1;
  r_0993_KmCO2 has mM;
  r_0993_Km0529 = 0.1;
  r_0993_Km0529 has mM;
  r_0995_FLUX_VALUE = 0.00797025227550128;
  r_0995_FLUX_VALUE has dimensionless;
  r_0995_Vmax = 0.239107568264616;
  r_0995_Vmax has mM_per_s;
  r_0995_Keq = 0.2319762921916;
  r_0995_Keq has dimensionless;
  r_0995_KmATP = 2.52512746499271;
  r_0995_KmATP has mM;
  r_0995_Km1039 = 0.1;
  r_0995_Km1039 has mM;
  r_0995_Km1607 = 0.1;
  r_0995_Km1607 has mM;
  r_0995_KmAMP = 0.292884853320091;
  r_0995_KmAMP has mM;
  r_0995_Km0633 = 0.1;
  r_0995_Km0633 has mM;
  r_0995_Km1428 = 0.1;
  r_0995_Km1428 has mM;
  r_0996_FLUX_VALUE = 0.0113621233895091;
  r_0996_FLUX_VALUE has dimensionless;
  r_0996_Vmax = 0.159069727453255;
  r_0996_Vmax has mM_per_s;
  r_0996_Keq = 2;
  r_0996_Keq has dimensionless;
  r_0996_Km0211 = 0.1;
  r_0996_Km0211 has mM;
  r_0996_Km1212 = 0.1;
  r_0996_Km1212 has mM;
  r_0996_Km1207 = 0.1;
  r_0996_Km1207 has mM;
  r_0996_Km1429 = 0.1;
  r_0996_Km1429 has mM;
  r_0997_FLUX_VALUE = 0.0113621233895091;
  r_0997_FLUX_VALUE has dimensionless;
  r_0997_Vmax = 0.159069727453444;
  r_0997_Vmax has mM_per_s;
  r_0997_Keq = 1.01538452966048;
  r_0997_Keq has dimensionless;
  r_0997_KmATP = 2.52512746499271;
  r_0997_KmATP has mM;
  r_0997_Km1429 = 0.1;
  r_0997_Km1429 has mM;
  r_0997_Km0261 = 0.1;
  r_0997_Km0261 has mM;
  r_0997_KmADP = 1.28198768168719;
  r_0997_KmADP has mM;
  r_1010_FLUX_VALUE = 0.000294478038038606;
  r_1010_FLUX_VALUE has dimensionless;
  r_1010_Vmax = 0.00647851683686446;
  r_1010_Vmax has mM_per_s;
  r_1010_Keq = 346.740984446895;
  r_1010_Keq has per_mM;
  r_1010_KmNADH = 0.0867096979846952;
  r_1010_KmNADH has mM;
  r_1010_Km1275 = 0.1;
  r_1010_Km1275 has mM;
  r_1010_Km1447 = 0.1;
  r_1010_Km1447 has mM;
  r_1010_Km0037 = 0.1;
  r_1010_Km0037 has mM;
  r_1010_KmNAD = 1.50329030201531;
  r_1010_KmNAD has mM;
  r_1012_FLUX_VALUE = 0.000294478038038606;
  r_1012_FLUX_VALUE has dimensionless;
  r_1012_Vmax = 0.0135459897497517;
  r_1012_Vmax has mM_per_s;
  r_1012_Keq = 0.2;
  r_1012_Keq has mM;
  r_1012_Km0190 = 0.1;
  r_1012_Km0190 has mM;
  r_1012_Km1212 = 0.1;
  r_1012_Km1212 has mM;
  r_1012_Km0633 = 0.1;
  r_1012_Km0633 has mM;
  r_1012_Km1207 = 0.1;
  r_1012_Km1207 has mM;
  r_1012_Km1447 = 0.1;
  r_1012_Km1447 has mM;
  r_1014_FLUX_VALUE = 3.49074696876419e-05;
  r_1014_FLUX_VALUE has dimensionless;
  r_1014_Vmax = 0.000349074696876838;
  r_1014_Vmax has mM_per_s;
  r_1014_Keq = 20;
  r_1014_Keq has per_mM;
  r_1014_Km0666 = 0.1;
  r_1014_Km0666 has mM;
  r_1014_Km0595 = 0.1;
  r_1014_Km0595 has mM;
  r_1014_Km0672 = 0.1;
  r_1014_Km0672 has mM;
  r_1021_FLUX_VALUE = 0.016407852625713;
  r_1021_FLUX_VALUE has dimensionless;
  r_1021_Vmax = 0.229709936759964;
  r_1021_Vmax has mM_per_s;
  r_1021_Keq = 2;
  r_1021_Keq has dimensionless;
  r_1021_Km1458 = 0.1;
  r_1021_Km1458 has mM;
  r_1021_Km1537 = 0.1;
  r_1021_Km1537 has mM;
  r_1021_Km0725 = 0.1;
  r_1021_Km0725 has mM;
  r_1021_Km1535 = 0.1;
  r_1021_Km1535 has mM;
  r_1026_FLUX_VALUE = 0.00246329804183154;
  r_1026_FLUX_VALUE has dimensionless;
  r_1026_Vmax = 0.0344861725856358;
  r_1026_Vmax has mM_per_s;
  r_1026_Keq = 0.156007739276235;
  r_1026_Keq has dimensionless;
  r_1026_KmADP = 1.28198768168719;
  r_1026_KmADP has mM;
  r_1026_Km1467 = 0.1;
  r_1026_Km1467 has mM;
  r_1026_Km0298 = 0.1;
  r_1026_Km0298 has mM;
  r_1026_KmPHO = 0.1;
  r_1026_KmPHO has mM;
  r_1027_FLUX_VALUE = 0.00246329802176611;
  r_1027_FLUX_VALUE has dimensionless;
  r_1027_Vmax = 0.152724477349998;
  r_1027_Vmax has mM_per_s;
  r_1027_Keq = 2;
  r_1027_Keq has dimensionless;
  r_1027_Km1212 = 0.1;
  r_1027_Km1212 has mM;
  r_1027_Km1469 = 0.1;
  r_1027_Km1469 has mM;
  r_1027_Km0841 = 0.1;
  r_1027_Km0841 has mM;
  r_1027_Km1207 = 0.1;
  r_1027_Km1207 has mM;
  r_1038_FLUX_VALUE = 0.00297917193961127;
  r_1038_FLUX_VALUE has dimensionless;
  r_1038_Vmax = 0.0417084071545156;
  r_1038_Vmax has mM_per_s;
  r_1038_Keq = 2;
  r_1038_Keq has dimensionless;
  r_1038_Km1212 = 0.1;
  r_1038_Km1212 has mM;
  r_1038_Km1620 = 0.1;
  r_1038_Km1620 has mM;
  r_1038_Km1207 = 0.1;
  r_1038_Km1207 has mM;
  r_1038_Km1616 = 0.1;
  r_1038_Km1616 has mM;
  r_1040_FLUX_VALUE = 0.0171955712954056;
  r_1040_FLUX_VALUE has dimensionless;
  r_1040_Vmax = 0.171955712954077;
  r_1040_Vmax has mM_per_s;
  r_1040_Keq = 0.356281159701314;
  r_1040_Keq has mM;
  r_1040_Km1045 = 0.1;
  r_1040_Km1045 has mM;
  r_1040_KmAcAld = 0.178140579850657;
  r_1040_KmAcAld has mM;
  r_1040_Km1003 = 0.1;
  r_1040_Km1003 has mM;
  r_1041_FLUX_VALUE = 0.0294239330059784;
  r_1041_FLUX_VALUE has dimensionless;
  r_1041_Vmax = 0.294239330059568;
  r_1041_Vmax has mM_per_s;
  r_1041_Keq = 0.2;
  r_1041_Keq has mM;
  r_1041_Km1238 = 0.1;
  r_1041_Km1238 has mM;
  r_1041_Km1045 = 0.1;
  r_1041_Km1045 has mM;
  r_1041_KmPHO = 0.1;
  r_1041_KmPHO has mM;
  r_1042_FLUX_VALUE = 0.00822818924234598;
  r_1042_FLUX_VALUE has dimensionless;
  r_1042_Vmax = 0.246845677270283;
  r_1042_Vmax has mM_per_s;
  r_1042_Keq = 0.2319762921916;
  r_1042_Keq has dimensionless;
  r_1042_KmATP = 2.52512746499271;
  r_1042_KmATP has mM;
  r_1042_Km1045 = 0.1;
  r_1042_Km1045 has mM;
  r_1042_Km1608 = 0.1;
  r_1042_Km1608 has mM;
  r_1042_KmAMP = 0.292884853320091;
  r_1042_KmAMP has mM;
  r_1042_Km0633 = 0.1;
  r_1042_Km0633 has mM;
  r_1042_Km1491 = 0.1;
  r_1042_Km1491 has mM;
  r_1045_FLUX_VALUE = 0.000154762180106604;
  r_1045_FLUX_VALUE has dimensionless;
  r_1045_Vmax = 0.00216667052149491;
  r_1045_Vmax has mM_per_s;
  r_1045_Keq = 2;
  r_1045_Keq has dimensionless;
  r_1045_Km0306 = 0.1;
  r_1045_Km0306 has mM;
  r_1045_Km0654 = 0.1;
  r_1045_Km0654 has mM;
  r_1045_Km0625 = 0.1;
  r_1045_Km0625 has mM;
  r_1045_Km0649 = 0.1;
  r_1045_Km0649 has mM;
  r_1048_FLUX_VALUE = 0.027348492079945;
  r_1048_FLUX_VALUE has dimensionless;
  r_1048_Vmax = 0.382878889118084;
  r_1048_Vmax has mM_per_s;
  r_1048_Keq = 27.6655030058691;
  r_1048_Keq has dimensionless;
  r_1048_KmGAP = 0.0451809175780963;
  r_1048_KmGAP has mM;
  r_1048_Km1427 = 0.1;
  r_1048_Km1427 has mM;
  r_1048_Km0551 = 0.1;
  r_1048_Km0551 has mM;
  r_1048_KmF6P = 0.624976405532373;
  r_1048_KmF6P has mM;
  r_1049_FLUX_VALUE = 0.0187448438862699;
  r_1049_FLUX_VALUE has dimensionless;
  r_1049_Vmax = 0.262427814407557;
  r_1049_Vmax has mM_per_s;
  r_1049_Keq = 0.903618351561926;
  r_1049_Keq has dimensionless;
  r_1049_Km0581 = 0.1;
  r_1049_Km0581 has mM;
  r_1049_Km1408 = 0.1;
  r_1049_Km1408 has mM;
  r_1049_KmGAP = 0.0451809175780963;
  r_1049_KmGAP has mM;
  r_1049_Km1427 = 0.1;
  r_1049_Km1427 has mM;
  r_1050_FLUX_VALUE = 0.00738272049676082;
  r_1050_FLUX_VALUE has dimensionless;
  r_1050_Vmax = 0.103358086954292;
  r_1050_Vmax has mM_per_s;
  r_1050_Keq = 5.64740149332261;
  r_1050_Keq has dimensionless;
  r_1050_Km0551 = 0.1;
  r_1050_Km0551 has mM;
  r_1050_Km0581 = 0.1;
  r_1050_Km0581 has mM;
  r_1050_KmF6P = 0.624976405532373;
  r_1050_KmF6P has mM;
  r_1050_KmGAP = 0.0451809175780963;
  r_1050_KmGAP has mM;
  r_1051_FLUX_VALUE = 0.00100595417069432;
  r_1051_FLUX_VALUE has dimensionless;
  r_1051_Vmax = 0.0100595417069864;
  r_1051_Vmax has mM_per_s;
  r_1051_Keq = 0.2;
  r_1051_Keq has mM;
  r_1051_Km0409 = 0.1;
  r_1051_Km0409 has mM;
  r_1051_KmPHO = 0.1;
  r_1051_KmPHO has mM;
  r_1051_Km1520 = 0.1;
  r_1051_Km1520 has mM;
  r_1052_FLUX_VALUE = 0.000577907768859609;
  r_1052_FLUX_VALUE has dimensionless;
  r_1052_Vmax = 0.00577907768859218;
  r_1052_Vmax has mM_per_s;
  r_1052_Keq = 20;
  r_1052_Keq has per_mM;
  r_1052_Km0619 = 0.1;
  r_1052_Km0619 has mM;
  r_1052_Km0595 = 0.1;
  r_1052_Km0595 has mM;
  r_1052_Km1524 = 0.1;
  r_1052_Km1524 has mM;
  TPI_k = 7500;
  TPI_k has per_s;
  TPI_Keq = 0.045;
  TPI_Keq has dimensionless;
  TPI_FLUX_VALUE = 0.99118781666685;
  TPI_FLUX_VALUE has dimensionless;
  r_1055_FLUX_VALUE = 0.0012209016222774;
  r_1055_FLUX_VALUE has dimensionless;
  r_1055_Vmax = 0.0170926227118672;
  r_1055_Vmax has mM_per_s;
  r_1055_Keq = 0.903618351561926;
  r_1055_Keq has dimensionless;
  r_1055_Km0086 = 0.1;
  r_1055_Km0086 has mM;
  r_1055_Km1039 = 0.1;
  r_1055_Km1039 has mM;
  r_1055_KmGAP = 0.0451809175780963;
  r_1055_KmGAP has mM;
  r_1055_Km1048 = 0.1;
  r_1055_Km1048 has mM;
  r_1057_FLUX_VALUE = 0.00122090164306492;
  r_1057_FLUX_VALUE has dimensionless;
  r_1057_Vmax = 0.0366270492919246;
  r_1057_Vmax has mM_per_s;
  r_1057_Keq = 0.2319762921916;
  r_1057_Keq has dimensionless;
  r_1057_KmATP = 2.52512746499271;
  r_1057_KmATP has mM;
  r_1057_Km1048 = 0.1;
  r_1057_Km1048 has mM;
  r_1057_Km1610 = 0.1;
  r_1057_Km1610 has mM;
  r_1057_KmAMP = 0.292884853320091;
  r_1057_KmAMP has mM;
  r_1057_Km0633 = 0.1;
  r_1057_Km0633 has mM;
  r_1057_Km1527 = 0.1;
  r_1057_Km1527 has mM;
  r_1063_FLUX_VALUE = 0.00438492843635935;
  r_1063_FLUX_VALUE has dimensionless;
  r_1063_Vmax = 0.0613889981090618;
  r_1063_Vmax has mM_per_s;
  r_1063_Keq = 2;
  r_1063_Keq has dimensionless;
  r_1063_Km0204 = 0.1;
  r_1063_Km0204 has mM;
  r_1063_Km0991 = 0.1;
  r_1063_Km0991 has mM;
  r_1063_Km0180 = 0.1;
  r_1063_Km0180 has mM;
  r_1063_Km1051 = 0.1;
  r_1063_Km1051 has mM;
  r_1066_FLUX_VALUE = 0.00438492843635993;
  r_1066_FLUX_VALUE has dimensionless;
  r_1066_Vmax = 0.131547853090342;
  r_1066_Vmax has mM_per_s;
  r_1066_Keq = 0.2319762921916;
  r_1066_Keq has dimensionless;
  r_1066_KmATP = 2.52512746499271;
  r_1066_KmATP has mM;
  r_1066_Km1051 = 0.1;
  r_1066_Km1051 has mM;
  r_1066_Km1612 = 0.1;
  r_1066_Km1612 has mM;
  r_1066_KmAMP = 0.292884853320091;
  r_1066_KmAMP has mM;
  r_1066_Km0633 = 0.1;
  r_1066_Km0633 has mM;
  r_1066_Km1533 = 0.1;
  r_1066_Km1533 has mM;
  r_1072_FLUX_VALUE = 0.00217956739387047;
  r_1072_FLUX_VALUE has dimensionless;
  r_1072_Vmax = 0.0305139435143012;
  r_1072_Vmax has mM_per_s;
  r_1072_Keq = 1.01538452966048;
  r_1072_Keq has dimensionless;
  r_1072_KmATP = 2.52512746499271;
  r_1072_KmATP has mM;
  r_1072_Km1545 = 0.1;
  r_1072_Km1545 has mM;
  r_1072_KmADP = 1.28198768168719;
  r_1072_KmADP has mM;
  r_1072_Km1538 = 0.1;
  r_1072_Km1538 has mM;
  r_1084_FLUX_VALUE = 0.120864963642659;
  r_1084_FLUX_VALUE has dimensionless;
  r_1084_Vmax = 1.69210949099445;
  r_1084_Vmax has mM_per_s;
  r_1084_Keq = 2;
  r_1084_Keq has dimensionless;
  r_1084_Km0567 = 0.1;
  r_1084_Km0567 has mM;
  r_1084_Km1559 = 0.1;
  r_1084_Km1559 has mM;
  r_1084_Km0633 = 0.1;
  r_1084_Km0633 has mM;
  r_1084_Km1543 = 0.1;
  r_1084_Km1543 has mM;
  r_1087_FLUX_VALUE = 0.0113750202369144;
  r_1087_FLUX_VALUE has dimensionless;
  r_1087_Vmax = 0.159250283316603;
  r_1087_Vmax has mM_per_s;
  r_1087_Keq = 2;
  r_1087_Keq has dimensionless;
  r_1087_Km0232 = 0.1;
  r_1087_Km0232 has mM;
  r_1087_Km0991 = 0.1;
  r_1087_Km0991 has mM;
  r_1087_Km0180 = 0.1;
  r_1087_Km0180 has mM;
  r_1087_Km1056 = 0.1;
  r_1087_Km1056 has mM;
  r_1089_FLUX_VALUE = 0.0113750202378513;
  r_1089_FLUX_VALUE has dimensionless;
  r_1089_Vmax = 0.34125060713542;
  r_1089_Vmax has mM_per_s;
  r_1089_Keq = 0.2319762921916;
  r_1089_Keq has dimensionless;
  r_1089_KmATP = 2.52512746499271;
  r_1089_KmATP has mM;
  r_1089_Km1056 = 0.1;
  r_1089_Km1056 has mM;
  r_1089_Km1614 = 0.1;
  r_1089_Km1614 has mM;
  r_1089_KmAMP = 0.292884853320091;
  r_1089_KmAMP has mM;
  r_1089_Km0633 = 0.1;
  r_1089_Km0633 has mM;
  r_1089_Km1561 = 0.1;
  r_1089_Km1561 has mM;
  r_1115_FLUX_VALUE = 0.240257282740139;
  r_1115_FLUX_VALUE has dimensionless;
  r_1115_Vmax = 0.800857609133593;
  r_1115_Vmax has mM_per_s;
  r_1115_Km0420 = 1;
  r_1115_Km0420 has mM;
  r_1115_Km0419 = 0.1;
  r_1115_Km0419 has mM;
  HXT_Vmax = 1.62066666666667;
  HXT_Vmax has mM_per_s;
  HXT_Kglc = 1.1918;
  HXT_Kglc has mM;
  HXT_Ki = 0.91;
  HXT_Ki has dimensionless;
  HXT_FLUX_VALUE = 1.48887182462482;
  HXT_FLUX_VALUE has dimensionless;
  r_1172_FLUX_VALUE = 0.0930539823300854;
  r_1172_FLUX_VALUE has dimensionless;
  r_1172_Vmax = 0.186107964660342;
  r_1172_Vmax has mM_per_s;
  r_1172_KmGLY = 0.15;
  r_1172_KmGLY has mM;
  r_1244_FLUX_VALUE = 0.0339899481592154;
  r_1244_FLUX_VALUE has dimensionless;
  r_1244_Vmax = 0.113299827197769;
  r_1244_Vmax has mM_per_s;
  r_1244_Km1324 = 1;
  r_1244_Km1324 has mM;
  r_1244_KmPHO = 0.1;
  r_1244_KmPHO has mM;
  r_1266_FLUX_VALUE = 0.00332308792210365;
  r_1266_FLUX_VALUE has dimensionless;
  r_1266_Vmax = 0.011076959740391;
  r_1266_Vmax has mM_per_s;
  r_1266_Km1468 = 1;
  r_1266_Km1468 has mM;
  r_1266_Km1467 = 0.1;
  r_1266_Km1467 has mM;
  r_1633_FLUX_VALUE = 0.0289005954752697;
  r_1633_FLUX_VALUE has dimensionless;
  r_1633_Vmax = 0.0578011909505788;
  r_1633_Vmax has mM_per_s;
  r_1633_KmAcAld = 0.178140579850657;
  r_1633_KmAcAld has mM;
  r_1664_FLUX_VALUE = 0.159172320370159;
  r_1664_FLUX_VALUE has dimensionless;
  r_1664_Vmax = 0.955033922220908;
  r_1664_Vmax has mM_per_s;
  r_1664_Keq = 0.2;
  r_1664_Keq has dimensionless;
  r_1664_KmCO2 = 1;
  r_1664_KmCO2 has mM;
  r_1664_Km0445 = 0.1;
  r_1664_Km0445 has mM;
  r_1682_FLUX_VALUE = 0.000281022322927489;
  r_1682_FLUX_VALUE has dimensionless;
  r_1682_Vmax = 0.00618249110440952;
  r_1682_Vmax has mM_per_s;
  r_1682_Keq = 20;
  r_1682_Keq has per_mM;
  r_1682_Km1275 = 0.1;
  r_1682_Km1275 has mM;
  r_1682_Km1416 = 0.1;
  r_1682_Km1416 has mM;
  r_1682_Km1569 = 0.1;
  r_1682_Km1569 has mM;
  r_1682_Km0662 = 0.1;
  r_1682_Km0662 has mM;
  r_1682_Km1413 = 0.1;
  r_1682_Km1413 has mM;
  r_1697_FLUX_VALUE = 2.36766036345189;
  r_1697_FLUX_VALUE has dimensionless;
  r_1697_Vmax = 4.73532072690756;
  r_1697_Vmax has mM_per_s;
  r_1697_KmCO2 = 1;
  r_1697_KmCO2 has mM;
  r_1704_FLUX_VALUE = 0.000104616918267866;
  r_1704_FLUX_VALUE has dimensionless;
  r_1704_Vmax = 0.00146463685574951;
  r_1704_Vmax has mM_per_s;
  r_1704_Keq = 3.93939427197843;
  r_1704_Keq has dimensionless;
  r_1704_KmADP = 1.28198768168719;
  r_1704_KmADP has mM;
  r_1704_Km0587 = 0.1;
  r_1704_Km0587 has mM;
  r_1704_KmATP = 2.52512746499271;
  r_1704_KmATP has mM;
  r_1704_Km0589 = 0.1;
  r_1704_Km0589 has mM;
  r_1729_FLUX_VALUE = 0.000154762173571763;
  r_1729_FLUX_VALUE has dimensionless;
  r_1729_Vmax = 0.00216667042999349;
  r_1729_Vmax has mM_per_s;
  r_1729_Keq = 3.93939427197843;
  r_1729_Keq has dimensionless;
  r_1729_KmADP = 1.28198768168719;
  r_1729_KmADP has mM;
  r_1729_Km0582 = 0.1;
  r_1729_Km0582 has mM;
  r_1729_KmATP = 2.52512746499271;
  r_1729_KmATP has mM;
  r_1729_Km0584 = 0.1;
  r_1729_Km0584 has mM;
  r_1762_FLUX_VALUE = 2.17298600141811;
  r_1762_FLUX_VALUE has dimensionless;
  r_1762_Vmax = 4.34597200283244;
  r_1762_Vmax has mM_per_s;
  r_1762_KmEtOH = 50;
  r_1762_KmEtOH has mM;
  r_1936_FLUX_VALUE = 0.215754210950637;
  r_1936_FLUX_VALUE has dimensionless;
  r_1936_Vmax = 2.15754210949741;
  r_1936_Vmax has mM_per_s;
  r_1936_Keq = 0.0199172924671537;
  r_1936_Keq has mM;
  r_1936_KmDHAP = 1.00415254899644;
  r_1936_KmDHAP has mM;
  r_1936_Km1151 = 0.1;
  r_1936_Km1151 has mM;
  r_1936_KmPHO = 0.1;
  r_1936_KmPHO has mM;
  r_1979_FLUX_VALUE = 0.119280009047118;
  r_1979_FLUX_VALUE has dimensionless;
  r_1979_Vmax = 0.39760003015712;
  r_1979_Vmax has mM_per_s;
  r_1979_Km1277 = 1;
  r_1979_Km1277 has mM;
  r_1979_Km1275 = 0.1;
  r_1979_Km1275 has mM;
  r_2030_FLUX_VALUE = 4.25595995293758e-05;
  r_2030_FLUX_VALUE has dimensionless;
  r_2030_Vmax = 0.000425595995293516;
  r_2030_Vmax has mM_per_s;
  r_2030_Keq = 0.2;
  r_2030_Keq has mM;
  r_2030_Km0313 = 0.1;
  r_2030_Km0313 has mM;
  r_2030_Km0314 = 0.1;
  r_2030_Km0314 has mM;
  r_2030_KmPHO = 0.1;
  r_2030_KmPHO has mM;
  r_2057_FLUX_VALUE = 0.0164078524184884;
  r_2057_FLUX_VALUE has dimensionless;
  r_2057_Vmax = 0.0328157048369536;
  r_2057_Vmax has mM_per_s;
  r_2057_Km1458 = 0.1;
  r_2057_Km1458 has mM;
  r_2111_FLUX_VALUE = 0.042989494474117;
  r_2111_FLUX_VALUE has dimensionless;
  r_2111_zero_flux = 0;
  r_2111_zero_flux has mM_per_s;
  r_2111_v0 = 0.042989494474151;
  r_2111_v0 has mM_per_s;
  r_2111_ic0002 = 0.1;
  r_2111_ic0002 has mM;
  r_2111_ep0002 = 1.1348;
  r_2111_ep0002 has dimensionless;
  r_2111_icAMP = 0.292884853320091;
  r_2111_icAMP has mM;
  r_2111_epAMP = 0.046;
  r_2111_epAMP has dimensionless;
  r_2111_icATP = 2.52512746499271;
  r_2111_icATP has mM;
  r_2111_epATP = 59.276;
  r_2111_epATP has dimensionless;
  r_2111_ic0526 = 0.1;
  r_2111_ic0526 has mM;
  r_2111_ep0526 = 0.0447;
  r_2111_ep0526 has dimensionless;
  r_2111_ic0584 = 0.1;
  r_2111_ic0584 has mM;
  r_2111_ep0584 = 0.0036;
  r_2111_ep0584 has dimensionless;
  r_2111_ic0589 = 0.1;
  r_2111_ic0589 has mM;
  r_2111_ep0589 = 0.0024;
  r_2111_ep0589 has dimensionless;
  r_2111_ic0615 = 0.1;
  r_2111_ic0615 has mM;
  r_2111_ep0615 = 0.0024;
  r_2111_ep0615 has dimensionless;
  r_2111_ic0649 = 0.1;
  r_2111_ic0649 has mM;
  r_2111_ep0649 = 0.0036;
  r_2111_ep0649 has dimensionless;
  r_2111_ic0773 = 0.1;
  r_2111_ic0773 has mM;
  r_2111_ep0773 = 0.5185;
  r_2111_ep0773 has dimensionless;
  r_2111_ic0782 = 0.1;
  r_2111_ic0782 has mM;
  r_2111_ep0782 = 0.046;
  r_2111_ep0782 has dimensionless;
  r_2111_ic1107 = 0.1;
  r_2111_ic1107 has mM;
  r_2111_ep1107 = 0.8079;
  r_2111_ep1107 has dimensionless;
  r_2111_ic1405 = 0.1;
  r_2111_ic1405 has mM;
  r_2111_ep1405 = 0.00099;
  r_2111_ep1405 has dimensionless;
  r_2111_ic1467 = 0.1;
  r_2111_ic1467 has mM;
  r_2111_ep1467 = 0.02;
  r_2111_ep1467 has dimensionless;
  r_2111_ic1520 = 0.1;
  r_2111_ic1520 has mM;
  r_2111_ep1520 = 0.0234;
  r_2111_ep1520 has dimensionless;
  r_2111_ic1545 = 0.1;
  r_2111_ic1545 has mM;
  r_2111_ep1545 = 0.0599;
  r_2111_ep1545 has dimensionless;
  r_2111_ic0004 = 0.1;
  r_2111_ic0004 has mM;
  r_2111_ep0004 = 1.1348;
  r_2111_ep0004 has dimensionless;
  r_2111_ic0404 = 0.1;
  r_2111_ic0404 has mM;
  r_2111_ep0404 = 0.4588;
  r_2111_ep0404 has dimensionless;
  r_2111_ic0428 = 0.1;
  r_2111_ic0428 has mM;
  r_2111_ep0428 = 0.1607;
  r_2111_ep0428 has dimensionless;
  r_2111_ic0430 = 0.1;
  r_2111_ic0430 has mM;
  r_2111_ep0430 = 0.1017;
  r_2111_ep0430 has dimensionless;
  r_2111_ic0432 = 0.1;
  r_2111_ic0432 has mM;
  r_2111_ep0432 = 0.2975;
  r_2111_ep0432 has dimensionless;
  r_2111_ic0542 = 0.1;
  r_2111_ic0542 has mM;
  r_2111_ep0542 = 0.0066;
  r_2111_ep0542 has dimensionless;
  r_2111_ic0747 = 0.1;
  r_2111_ic0747 has mM;
  r_2111_ep0747 = 0.1054;
  r_2111_ep0747 has dimensionless;
  r_2111_ic0748 = 0.1;
  r_2111_ic0748 has mM;
  r_2111_ep0748 = 0.3018;
  r_2111_ep0748 has dimensionless;
  r_2111_ic0757 = 0.1;
  r_2111_ic0757 has mM;
  r_2111_ep0757 = 0.2904;
  r_2111_ep0757 has dimensionless;
  r_2111_ic0832 = 0.1;
  r_2111_ic0832 has mM;
  r_2111_ep0832 = 0.0663;
  r_2111_ep0832 has dimensionless;
  r_2111_ic0847 = 0.1;
  r_2111_ic0847 has mM;
  r_2111_ep0847 = 0.1927;
  r_2111_ep0847 has dimensionless;
  r_2111_ic1077 = 0.1;
  r_2111_ic1077 has mM;
  r_2111_ep1077 = 0.2964;
  r_2111_ep1077 has dimensionless;
  r_2111_ic1099 = 0.1;
  r_2111_ic1099 has mM;
  r_2111_ep1099 = 0.2862;
  r_2111_ep1099 has dimensionless;
  r_2111_ic1148 = 0.1;
  r_2111_ic1148 has mM;
  r_2111_ep1148 = 0.0507;
  r_2111_ep1148 has dimensionless;
  r_2111_ic1314 = 0.1;
  r_2111_ic1314 has mM;
  r_2111_ep1314 = 0.1339;
  r_2111_ep1314 has dimensionless;
  r_2111_ic1379 = 0.1;
  r_2111_ic1379 has mM;
  r_2111_ep1379 = 0.1647;
  r_2111_ep1379 has dimensionless;
  r_2111_ic1337 = 0.1;
  r_2111_ic1337 has mM;
  r_2111_ep1337 = 0.00039;
  r_2111_ep1337 has dimensionless;
  r_2111_ic0089 = 0.1;
  r_2111_ic0089 has mM;
  r_2111_ep0089 = 0.001583;
  r_2111_ep0089 has dimensionless;
  r_2111_ic1428 = 0.1;
  r_2111_ic1428 has mM;
  r_2111_ep1428 = 0.1854;
  r_2111_ep1428 has dimensionless;
  r_2111_ic1491 = 0.1;
  r_2111_ic1491 has mM;
  r_2111_ep1491 = 0.1914;
  r_2111_ep1491 has dimensionless;
  r_2111_ic1527 = 0.1;
  r_2111_ic1527 has mM;
  r_2111_ep1527 = 0.0284;
  r_2111_ep1527 has dimensionless;
  r_2111_ic1533 = 0.1;
  r_2111_ic1533 has mM;
  r_2111_ep1533 = 0.102;
  r_2111_ep1533 has dimensionless;
  r_2111_ic1561 = 0.1;
  r_2111_ic1561 has mM;
  r_2111_ep1561 = 0.2646;
  r_2111_ep1561 has dimensionless;
  r_2111_ic0122 = 0.1;
  r_2111_ic0122 has mM;
  r_2111_ep0122 = 5.6e-05;
  r_2111_ep0122 has dimensionless;
  r_2111_ic0897 = 0.1;
  r_2111_ic0897 has mM;
  r_2111_ep0897 = 0.00051708;
  r_2111_ep0897 has dimensionless;
  r_2111_ic0657 = 0.1;
  r_2111_ic0657 has mM;
  r_2111_ep0657 = 9.6e-05;
  r_2111_ep0657 has dimensionless;
  r_2111_ic0662 = 0.1;
  r_2111_ic0662 has mM;
  r_2111_ep0662 = 0.000125;
  r_2111_ep0662 has dimensionless;
  r_2111_ic0666 = 0.1;
  r_2111_ic0666 has mM;
  r_2111_ep0666 = 0.0056;
  r_2111_ep0666 has dimensionless;
  r_2111_ic0672 = 0.1;
  r_2111_ic0672 has mM;
  r_2111_ep0672 = 0.000812;
  r_2111_ep0672 has dimensionless;
  r_2111_ic0595 = 0.1;
  r_2111_ic0595 has mM;
  r_2111_ep0595 = 0.000535599999999999;
  r_2111_ep0595 has dimensionless;
  r_2111_ic0700 = 0.1;
  r_2111_ic0700 has mM;
  r_2111_ep0700 = 0.000114;
  r_2111_ep0700 has dimensionless;
  r_2111_ic1059 = 0.1;
  r_2111_ic1059 has mM;
  r_2111_ep1059 = 3.2e-05;
  r_2111_ep1059 has dimensionless;
  r_2111_ic1346 = 0.1;
  r_2111_ic1346 has mM;
  r_2111_ep1346 = 0.00288;
  r_2111_ep1346 has dimensionless;
  r_2111_ic1351 = 0.1;
  r_2111_ic1351 has mM;
  r_2111_ep1351 = 0.000697;
  r_2111_ep1351 has dimensionless;
  r_2111_ic1524 = 0.1;
  r_2111_ic1524 has mM;
  r_2111_ep1524 = 0.000781;
  r_2111_ep1524 has dimensionless;
  r_2111_ic1569 = 0.1;
  r_2111_ic1569 has mM;
  r_2111_ep1569 = 1.5e-05;
  r_2111_ep1569 has dimensionless;
  r_2126_FLUX_VALUE = 0.00860364821592488;
  r_2126_FLUX_VALUE has dimensionless;
  r_2126_Vmax = 0.0860364821592976;
  r_2126_Vmax has mM_per_s;
  r_2126_Keq = 0.2;
  r_2126_Keq has mM;
  r_2126_Km1426 = 0.1;
  r_2126_Km1426 has mM;
  r_2126_Km1427 = 0.1;
  r_2126_Km1427 has mM;
  r_2126_KmPHO = 0.1;
  r_2126_KmPHO has mM;
  r_2127_FLUX_VALUE = 0.00475463820864726;
  r_2127_FLUX_VALUE has dimensionless;
  r_2127_Vmax = 0.0665649349207449;
  r_2127_Vmax has mM_per_s;
  r_2127_Keq = 0.115359884738766;
  r_2127_Keq has dimensionless;
  r_2127_Km0061 = 0.1;
  r_2127_Km0061 has mM;
  r_2127_KmNAD = 1.50329030201531;
  r_2127_KmNAD has mM;
  r_2127_Km1269 = 0.1;
  r_2127_Km1269 has mM;
  r_2127_KmNADH = 0.0867096979846952;
  r_2127_KmNADH has mM;

  // Other declarations:
  const cell, extracellular;

  // Unit definitions:
  unit substance = 1e-3 mole;
  unit mM = 1e-3 mole / litre;
  unit mM_per_s = 1e-3 mole / (litre * second);
  unit mM_squared = (1e-3 mole)^2 / litre^2;
  unit mM_cubed = (1e-3 mole)^3 / litre^3;
  unit per_mM = litre / 1e-3 mole;
  unit per_mM_squared = litre^2 / (1e-3 mole)^2;
  unit per_mM_cubed = litre^3 / (1e-3 mole)^3;
  unit per_s = 1 / second;
  unit per_mM_per_s = litre / (1e-3 mole * second);

  // Display Names:
  substance is "mmol";
  mM_per_s is "mM per s";
  mM_squared is "mM squared";
  mM_cubed is "mM cubed";
  per_mM is "per mM";
  per_mM_squared is "per mM squared";
  per_mM_cubed is "per mM cubed";
  per_s is "per s";
  s_0002 is "(1->3)-beta-D-glucan";
  s_0004 is "(1->6)-beta-D-glucan";
  s_0008 is "(2R,3R)-2,3-dihydroxy-3-methylpentanoate";
  s_0009 is "(2R,3S)-3-isopropylmalate";
  s_0010 is "(2S)-2-isopropyl-3-oxosuccinate";
  s_0015 is "(N(omega)-L-arginino)succinic acid";
  s_0016 is "(R)-2,3-dihydroxy-3-methylbutanoate";
  s_0018 is "(R)-5-diphosphomevalonic acid";
  s_0019 is "(R)-5-phosphomevalonic acid";
  s_0025 is "(R)-lactate";
  s_0028 is "(R)-mevalonate";
  s_0033 is "(R)-S-lactoylglutathione";
  s_0037 is "(S)-2,3-epoxysqualene";
  s_0039 is "(S)-2-acetyl-2-hydroxybutanoate";
  s_0056 is "(S)-3-methyl-2-oxopentanoate";
  s_0061 is "(S)-dihydroorotate";
  s_0062 is "(S)-lactaldehyde";
  s_0063 is "(S)-lactate";
  s_0066 is "(S)-malate";
  BPG is "1,3-bisphospho-D-glycerate";
  s_0076 is "1-(2-carboxyphenylamino)-1-deoxy-D-ribulose 5-phosphate";
  s_0077 is "1-(5-phospho-D-ribosyl)-5-[(5-phospho-D-ribosylamino)methylideneamino]imidazole-4-carboxamide";
  s_0078 is "1-(5-phosphoribosyl)-5'-AMP";
  s_0082 is "1-acyl-sn-glycerol 3-phosphate";
  s_0086 is "1-C-(indol-3-yl)glycerol 3-phosphate";
  s_0089 is "1-phosphatidyl-1D-myo-inositol";
  s_0118 is "1-pyrroline-5-carboxylate";
  s_0120 is "10-formyl-THF";
  s_0122 is "14-demethyllanosterol";
  s_0126 is "1D-myo-inositol 1-phosphate";
  s_0141 is "2,5-diamino-4-hydroxy-6-(5-phosphoribosylamino)pyrimidine";
  s_0142 is "2,5-diamino-6-(5-phosphono)ribitylamino-4(3H)-pyrimidinone";
  s_0145 is "2-acetamido-5-oxopentanoate";
  s_0146 is "2-acetyllactic acid";
  s_0158 is "2-hydroxy-3-oxobutyl phosphate";
  s_0162 is "2-isopropylmalate";
  s_0165 is "2-isopropylmaleic acid";
  s_0176 is "2-oxoadipic acid";
  s_0178 is "2-oxobutanoate";
  s_0180 is "2-oxoglutarate";
  P2G is "2-phospho-D-glyceric acid";
  s_0190 is "farnesyl diphosphate";
  s_0201 is "3'-phospho-5'-adenylyl sulfate";
  s_0204 is "3-(4-hydroxyphenyl)pyruvate";
  s_0207 is "3-(imidazol-4-yl)-2-oxopropyl dihydrogen phosphate";
  s_0209 is "3-dehydro-4-methylzymosterol";
  s_0210 is "3-dehydroquinate";
  s_0211 is "3-dehydroshikimate";
  s_0218 is "3-hydroxy-3-methylglutaryl-CoA";
  s_0231 is "3-ketosphinganine";
  s_0232 is "3-methyl-2-oxobutanoate";
  P3G is "3-phosphoglycerate";
  s_0261 is "3-phosphoshikimic acid";
  s_0262 is "4,4-dimethyl-5alpha-cholesta-8,14,24-trien-3beta-ol";
  s_0291 is "4-methyl-2-oxopentanoate";
  s_0295 is "4-phospho-L-aspartate";
  s_0296 is "4alpha-methylzymosterol";
  s_0297 is "4beta-methylzymosterol-4alpha-carboxylic acid";
  s_0298 is "5'-adenylyl sulfate";
  s_0299 is "5'-phosphoribosyl-4-(N-succinocarboxamide)-5-aminoimidazole";
  s_0300 is "5'-phosphoribosyl-5-aminoimidazole";
  s_0301 is "5'-phosphoribosyl-N-formylglycineamide";
  s_0302 is "5'-phosphoribosyl-N-formylglycineamidine";
  s_0304 is "5,10-methenyl-THF";
  s_0306 is "5,10-methylenetetrahydrofolate";
  s_0312 is "5-[(5-phospho-1-deoxy-D-ribulos-1-ylamino)methylideneamino]-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide";
  s_0313 is "5-amino-6-(5-phosphoribitylamino)uracil";
  s_0314 is "5-amino-6-(D-ribitylamino)uracil";
  s_0322 is "5-methyltetrahydrofolate";
  s_0324 is "5-O-(1-carboxyvinyl)-3-phosphoshikimic acid";
  s_0325 is "5-phospho-ribosyl-glycineamide";
  s_0326 is "5-phosphoribosyl-ATP";
  s_0327 is "5-phosphoribosylamine";
  s_0328 is "6,7-dimethyl-8-(1-D-ribityl)lumazine";
  s_0335 is "6-O-phosphono-D-glucono-1,5-lactone";
  s_0340 is "6-phospho-D-gluconate";
  s_0349 is "7-phospho-2-dehydro-3-deoxy-D-arabino-heptonic acid";
  AcAld is "acetaldehyde";
  s_0360 is "acetaldehyde";
  s_0362 is "acetate";
  s_0367 is "acetoacetyl-CoA";
  s_0373 is "acetyl-CoA";
  s_0380 is "acyl-CoA";
  s_0386 is "adenosine";
  s_0390 is "adenosine 3',5'-bismonophosphate";
  s_0393 is "adenylo-succinate";
  s_0403 is "AICAR";
  s_0404 is "Ala-tRNA(Ala)";
  s_0409 is "alpha,alpha-trehalose 6-phosphate";
  s_0419 is "ammonium";
  s_0420 is "ammonium";
  s_0427 is "anthranilate";
  s_0428 is "Arg-tRNA(Arg)";
  s_0430 is "Asn-tRNA(Asn)";
  s_0432 is "Asp-tRNA(Asp)";
  s_0445 is "bicarbonate";
  s_0454 is "but-1-ene-1,2,4-tricarboxylic acid";
  s_0455 is "carbamoyl phosphate";
  CO2 is "carbon dioxide";
  s_0458 is "carbon dioxide";
  s_0467 is "CDP";
  s_0471 is "CDP-diacylglycerol";
  s_0478 is "ceramide-1 (C26)";
  s_0505 is "cerotate";
  s_0515 is "chorismate";
  s_0516 is "cis-aconitate";
  s_0522 is "citrate";
  s_0526 is "CMP";
  s_0529 is "coenzyme A";
  s_0539 is "CTP";
  s_0542 is "Cys-tRNA(Cys)";
  s_0550 is "D-erythro-1-(imidazol-4-yl)glycerol 3-phosphate";
  s_0551 is "D-erythrose 4-phosphate";
  F16bP is "D-fructose 1,6-bisphosphate";
  F6P is "D-fructose 6-phosphate";
  GLC is "D-glucose";
  GLCx is "D-glucose";
  s_0567 is "D-glucose 1-phosphate";
  G6P is "D-glucose 6-phosphate";
  s_0573 is "D-mannose 1-phosphate";
  s_0574 is "D-mannose 6-phosphate";
  s_0577 is "D-ribulose 5-phosphate";
  s_0581 is "D-xylulose 5-phosphate";
  s_0582 is "dADP";
  s_0584 is "dAMP";
  s_0586 is "dATP";
  s_0587 is "dCDP";
  s_0589 is "dCMP";
  s_0595 is "decanoate";
  s_0602 is "decanoyl-CoA";
  s_0613 is "dGDP";
  s_0615 is "dGMP";
  s_0619 is "diglyceride";
  s_0625 is "dihydrofolic acid";
  DHAP is "dihydroxyacetone phosphate";
  s_0633 is "diphosphate";
  s_0644 is "dolichyl D-mannosyl phosphate";
  s_0645 is "dolichyl phosphate";
  s_0649 is "dTMP";
  s_0654 is "dUMP";
  s_0656 is "dUTP";
  s_0657 is "episterol";
  s_0662 is "ergosta-5,7,22,24(28)-tetraen-3beta-ol";
  s_0666 is "ergosterol";
  s_0672 is "ergosterol ester";
  EtOH is "ethanol";
  s_0681 is "ethanol";
  s_0700 is "fecosterol";
  s_0709 is "ferricytochrome c";
  s_0710 is "ferrocytochrome c";
  s_0722 is "formate";
  s_0725 is "fumarate";
  s_0739 is "GDP";
  s_0743 is "GDP-alpha-D-mannose";
  s_0745 is "geranyl diphosphate";
  s_0747 is "Gln-tRNA(Gln)";
  s_0748 is "Glu-tRNA(Glu)";
  s_0750 is "glutathione";
  s_0757 is "Gly-tRNA(Gly)";
  GAP is "glyceraldehyde 3-phosphate";
  GLY is "glycerol";
  s_0766 is "glycerol";
  s_0767 is "glycerol 3-phosphate";
  s_0773 is "glycogen";
  s_0779 is "glyoxylate";
  s_0782 is "GMP";
  s_0785 is "GTP";
  s_0816 is "hexacosanoyl-CoA";
  s_0832 is "His-tRNA(His)";
  s_0835 is "homocitrate";
  s_0836 is "homoisocitrate";
  s_0841 is "hydrogen sulfide";
  s_0847 is "Ile-tRNA(Ile)";
  s_0849 is "IMP";
  s_0897 is "inositol-P-ceramide A (C26)";
  s_0940 is "isocitrate";
  s_0943 is "isopentenyl diphosphate";
  s_0951 is "keto-phenylpyruvate";
  s_0953 is "L-2-aminoadipate";
  s_0955 is "L-alanine";
  s_0959 is "L-allysine";
  s_0965 is "L-arginine";
  s_0969 is "L-asparagine";
  s_0973 is "L-aspartate";
  s_0978 is "L-aspartate 4-semialdehyde";
  s_0979 is "L-citrulline";
  s_0980 is "L-cystathionine";
  s_0981 is "L-cysteine";
  s_0991 is "L-glutamate";
  s_0999 is "L-glutamine";
  s_1003 is "L-glycine";
  s_1006 is "L-histidine";
  s_1010 is "L-histidinol";
  s_1011 is "L-histidinol phosphate";
  s_1012 is "L-homocysteine";
  s_1014 is "L-homoserine";
  s_1016 is "L-isoleucine";
  s_1021 is "L-leucine";
  s_1025 is "L-lysine";
  s_1029 is "L-methionine";
  s_1032 is "L-phenylalanine";
  s_1035 is "L-proline";
  s_1038 is "L-saccharopine";
  s_1039 is "L-serine";
  s_1045 is "L-threonine";
  s_1048 is "L-tryptophan";
  s_1051 is "L-tyrosine";
  s_1056 is "L-valine";
  s_1059 is "lanosterol";
  s_1065 is "laurate";
  s_1073 is "lauroyl-CoA";
  s_1077 is "Leu-tRNA(Leu)";
  s_1084 is "lignoceric acid";
  s_1099 is "Lys-tRNA(Lys)";
  s_1101 is "malonyl-CoA";
  s_1107 is "mannan";
  s_1148 is "Met-tRNA(Met)";
  s_1151 is "methylglyoxal";
  s_1153 is "myo-inositol";
  s_1161 is "myristate";
  s_1176 is "myristoyl-CoA";
  s_1182 is "N(2)-acetyl-L-ornithine";
  s_1187 is "N-(5-phospho-beta-D-ribosyl)anthranilate";
  s_1191 is "N-acetyl-L-gamma-glutamyl phosphate";
  s_1192 is "N-acetyl-L-glutamate";
  s_1194 is "N-carbamoyl-L-aspartate";
  s_1207 is "NADP(+)";
  s_1212 is "NADPH";
  s_1233 is "O-acetyl-L-homoserine";
  s_1238 is "O-phospho-L-homoserine";
  s_1255 is "octanoyl-CoA";
  s_1266 is "ornithine";
  s_1269 is "orotate";
  s_1270 is "orotidine 5'-(dihydrogen phosphate)";
  s_1271 is "oxaloacetate";
  s_1275 is "oxygen";
  s_1277 is "oxygen";
  s_1286 is "palmitate";
  s_1302 is "palmitoyl-CoA";
  s_1314 is "Phe-tRNA(Phe)";
  PHO is "phosphate";
  s_1324 is "phosphate";
  s_1331 is "phosphatidate";
  s_1337 is "phosphatidyl-L-serine";
  s_1342 is "phosphatidyl-N,N-dimethylethanolamine";
  s_1343 is "phosphatidyl-N-methylethanolamine";
  s_1346 is "phosphatidylcholine";
  s_1351 is "phosphatidylethanolamine";
  PEP is "phosphoenolpyruvate";
  s_1364 is "phosphoribosyl-carboxy-aminoimidazole";
  s_1365 is "phosphoribosyl-formamido-carboxamide";
  s_1376 is "prenyl diphosphate";
  s_1377 is "prephenate";
  s_1379 is "Pro-tRNA(Pro)";
  s_1386 is "PRPP";
  PYR is "pyruvate";
  s_1405 is "riboflavin";
  s_1408 is "ribose-5-phosphate";
  s_1413 is "S-adenosyl-L-homocysteine";
  s_1416 is "S-adenosyl-L-methionine";
  s_1426 is "sedoheptulose 1,7-bisphosphate";
  s_1427 is "sedoheptulose 7-phosphate";
  s_1428 is "Ser-tRNA(Ser)";
  s_1429 is "shikimate";
  s_1445 is "sphinganine";
  s_1447 is "squalene";
  s_1449 is "stearate";
  s_1454 is "stearoyl-CoA";
  s_1458 is "succinate";
  s_1459 is "succinate";
  s_1467 is "sulphate";
  s_1468 is "sulphate";
  s_1469 is "sulphite";
  s_1487 is "THF";
  s_1491 is "Thr-tRNA(Thr)";
  s_1520 is "trehalose";
  s_1524 is "triglyceride";
  s_1527 is "Trp-tRNA(Trp)";
  s_1533 is "Tyr-tRNA(Tyr)";
  s_1535 is "ubiquinol-6";
  s_1537 is "ubiquinone-6";
  s_1538 is "UDP";
  s_1543 is "UDP-D-glucose";
  s_1545 is "UMP";
  s_1559 is "UTP";
  s_1561 is "Val-tRNA(Val)";
  s_1565 is "xanthosine-5-phosphate";
  s_1569 is "zymosterol";
  s_1576 is "zymosterol intermediate 1a";
  s_1577 is "zymosterol intermediate 1b";
  s_1578 is "zymosterol intermediate 1c";
  s_1579 is "zymosterol intermediate 2";
  s_1582 is "tRNA(Ala)";
  s_1583 is "tRNA(Arg)";
  s_1585 is "tRNA(Asn)";
  s_1587 is "tRNA(Asp)";
  s_1589 is "tRNA(Cys)";
  s_1590 is "tRNA(Gln)";
  s_1591 is "tRNA(Glu)";
  s_1593 is "tRNA(Gly)";
  s_1594 is "tRNA(His)";
  s_1596 is "tRNA(Ile)";
  s_1598 is "tRNA(Leu)";
  s_1600 is "tRNA(Lys)";
  s_1602 is "tRNA(Met)";
  s_1604 is "tRNA(Phe)";
  s_1606 is "tRNA(Pro)";
  s_1607 is "tRNA(Ser)";
  s_1608 is "tRNA(Thr)";
  s_1610 is "tRNA(Trp)";
  s_1612 is "tRNA(Tyr)";
  s_1614 is "tRNA(Val)";
  s_1616 is "TRX1";
  s_1620 is "TRX1 disulphide";
  e_0001 is "COX1";
  e_0002 is "ATP8";
  e_0003 is "ATP6";
  e_0004 is "COB";
  e_0005 is "OLI1";
  e_0006 is "COX2";
  e_0007 is "COX3";
  e_0008 is "CYS3";
  e_0010 is "PMT2";
  e_0011 is "CDC19";
  e_0012 is "GCV3";
  e_0017 is "ADE1";
  e_0020 is "SCT1";
  e_0022 is "ACH1";
  e_0025 is "RIB1";
  e_0026 is "URA7";
  e_0028 is "COR1";
  e_0030 is "PRS4";
  e_0031 is "ILS1";
  e_0033 is "ATP1";
  e_0038 is "IPP1";
  e_0045 is "CDS1";
  e_0051 is "ATP3";
  e_0053 is "FAT1";
  e_0054 is "TSC3";
  e_0057 is "MIS1";
  e_0062 is "LYS2";
  e_0063 is "TKL2";
  e_0064 is "GRS1";
  e_0065 is "TPS1";
  e_0066 is "VMA2";
  e_0069 is "ADH5";
  e_0071 is "RIB7";
  e_0074 is "TYR1";
  e_0079 is "PGI1";
  e_0084 is "PYC2";
  e_0087 is "HIS7";
  e_0088 is "ARO4";
  e_0089 is "DUT1";
  e_0090 is "RIB5";
  e_0091 is "SHM1";
  e_0092 is "TSC10";
  e_0100 is "ILV6";
  e_0101 is "LEU2";
  e_0103 is "HIS4";
  e_0106 is "GLK1";
  e_0107 is "APA1";
  e_0109 is "CHA1";
  e_0111 is "CIT2";
  e_0113 is "PGK1";
  e_0117 is "FEN1";
  e_0122 is "THR4";
  e_0124 is "TRX3";
  e_0127 is "ATP16";
  e_0128 is "TSC13";
  e_0129 is "GPD1";
  e_0133 is "SLC1";
  e_0134 is "PSA1";
  e_0135 is "IDP1";
  e_0136 is "COX9";
  e_0137 is "MDH3";
  e_0141 is "PMT5";
  e_0142 is "PMT1";
  e_0146 is "LYS21";
  e_0151 is "DLD1";
  e_0152 is "DLD2";
  e_0154 is "LYS20";
  e_0155 is "VMA1";
  e_0160 is "GDH2";
  e_0165 is "TRP1";
  e_0167 is "GCV1";
  e_0168 is "SES1";
  e_0169 is "ARO3";
  e_0171 is "KRS1";
  e_0175 is "TPI1";
  e_0176 is "TGL2";
  e_0177 is "LCB2";
  e_0179 is "TPS2";
  e_0182 is "ARO1";
  e_0183 is "YCF1";
  e_0186 is "HOM2";
  e_0188 is "SDH4";
  e_0194 is "ADK1";
  e_0196 is "LYS4";
  e_0202 is "GLO2";
  e_0203 is "DPP1";
  e_0204 is "INM2";
  e_0207 is "ATP5";
  e_0213 is "TIM11";
  e_0214 is "YDR341C";
  e_0218 is "TRR1";
  e_0219 is "TRP4";
  e_0220 is "KEI1";
  e_0223 is "ATP17";
  e_0231 is "ADE8";
  e_0234 is "GUK1";
  e_0237 is "RIB3";
  e_0239 is "SAM2";
  e_0243 is "QCR7";
  e_0249 is "URA3";
  e_0250 is "RIP1";
  e_0251 is "VMA3";
  e_0255 is "CYC7";
  e_0260 is "GLY1";
  e_0263 is "VMA8";
  e_0268 is "DLD3";
  e_0269 is "PMI40";
  e_0271 is "YND1";
  e_0273 is "FAA2";
  e_0276 is "PRO3";
  e_0278 is "CHO1";
  e_0280 is "SAH1";
  e_0281 is "HOM3";
  e_0283 is "HIS1";
  e_0288 is "HOR2";
  e_0289 is "ICL1";
  e_0290 is "ARG5,6";
  e_0291 is "RNR1";
  e_0293 is "ALD5";
  e_0295 is "ILV1";
  e_0296 is "AIM10";
  e_0297 is "TRP2";
  e_0298 is "MET6";
  e_0299 is "PRS2";
  e_0303 is "ADK2";
  e_0311 is "LPD1";
  e_0312 is "FRS2";
  e_0313 is "AGX1";
  e_0314 is "SEC53";
  e_0317 is "GSY1";
  e_0320 is "HIS2";
  e_0321 is "MET10";
  e_0322 is "QCR6";
  e_0325 is "HXK1";
  e_0326 is "ERG26";
  e_0328 is "LEU1";
  e_0329 is "ERG4";
  e_0330 is "TRP5";
  e_0334 is "PYC1";
  e_0340 is "MET13";
  e_0342 is "ARO2";
  e_0343 is "LYS5";
  e_0346 is "COX4";
  e_0347 is "COX13";
  e_0348 is "ARO8";
  e_0352 is "ADE5,7";
  e_0353 is "GUS1";
  e_0355 is "HXK2";
  e_0356 is "ADH4";
  e_0362 is "VMA7";
  e_0364 is "GSC2";
  e_0365 is "ACB1";
  e_0367 is "ERG25";
  e_0368 is "ADE6";
  e_0370 is "PDC6";
  e_0372 is "VAS1";
  e_0376 is "ASN2";
  e_0379 is "SKN1";
  e_0380 is "CYS4";
  e_0381 is "CHO2";
  e_0382 is "PSD2";
  e_0385 is "ERG1";
  e_0387 is "RNR4";
  e_0389 is "QCR9";
  e_0390 is "TYS1";
  e_0392 is "TDH3";
  e_0396 is "ADE3";
  e_0398 is "TRX2";
  e_0401 is "PFK1";
  e_0404 is "SOL4";
  e_0405 is "ENO1";
  e_0407 is "GND2";
  e_0409 is "MES1";
  e_0417 is "LAG1";
  e_0418 is "PRS3";
  e_0422 is "QCR10";
  e_0424 is "ERG11";
  e_0425 is "DIA4";
  e_0426 is "ARG4";
  e_0427 is "DED81";
  e_0428 is "THR1";
  e_0429 is "VMA16";
  e_0431 is "PUT2";
  e_0432 is "VMA10";
  e_0434 is "NCP1";
  e_0435 is "INM1";
  e_0436 is "COX6";
  e_0440 is "ERG7";
  e_0447 is "GRE3";
  e_0448 is "TRR2";
  e_0452 is "DCD1";
  e_0453 is "SOL3";
  e_0454 is "ENO2";
  e_0455 is "GND1";
  e_0456 is "ERG9";
  e_0457 is "BAT1";
  e_0458 is "IMD2";
  e_0462 is "FAA3";
  e_0465 is "HIS6";
  e_0466 is "RHR2";
  e_0467 is "RNR3";
  e_0470 is "THS1";
  e_0472 is "LYS12";
  e_0475 is "COX5B";
  e_0476 is "HIS5";
  e_0489 is "LYS1";
  e_0492 is "RNR2";
  e_0494 is "YJL045W";
  e_0495 is "TDH1";
  e_0496 is "BNA3";
  e_0499 is "ARG3";
  e_0506 is "RPE1";
  e_0508 is "URA2";
  e_0510 is "GLG2";
  e_0512 is "INO1";
  e_0514 is "QCR8";
  e_0515 is "ERG20";
  e_0525 is "TDH2";
  e_0528 is "ILV3";
  e_0531 is "CYC1";
  e_0536 is "OPI3";
  e_0540 is "URA8";
  e_0541 is "ADO1";
  e_0542 is "CPA2";
  e_0544 is "ATP2";
  e_0545 is "STR2";
  e_0547 is "MET5";
  e_0548 is "HOM6";
  e_0549 is "PMT4";
  e_0550 is "BAT2";
  e_0556 is "MET14";
  e_0557 is "AUR1";
  e_0558 is "LAC1";
  e_0559 is "ATP7";
  e_0561 is "URA6";
  e_0565 is "UGP1";
  e_0567 is "FBA1";
  e_0568 is "YNK1";
  e_0569 is "VMA5";
  e_0571 is "MDH1";
  e_0574 is "AAT1";
  e_0576 is "PGM1";
  e_0578 is "TGL1";
  e_0579 is "SDH3";
  e_0581 is "SDH1";
  e_0582 is "GPM1";
  e_0585 is "PRS1";
  e_0586 is "FAS1";
  e_0588 is "PXA2";
  e_0591 is "TRP3";
  e_0594 is "URA1";
  e_0601 is "SHB17";
  e_0603 is "GLG1";
  e_0607 is "GPT2";
  e_0610 is "MTD1";
  e_0611 is "TGL4";
  e_0612 is "PCK1";
  e_0613 is "YEH1";
  e_0615 is "DPS1";
  e_0619 is "SDH2";
  e_0621 is "YBT1";
  e_0629 is "AAT2";
  e_0631 is "ADE16";
  e_0632 is "COX12";
  e_0633 is "TRX1";
  e_0636 is "PDC1";
  e_0638 is "SHM2";
  e_0639 is "FRS1";
  e_0642 is "ALT1";
  e_0644 is "ERG27";
  e_0647 is "PDC5";
  e_0658 is "SAM1";
  e_0667 is "GSY2";
  e_0671 is "ATP14";
  e_0674 is "MET17";
  e_0675 is "ACO1";
  e_0682 is "FKS1";
  e_0684 is "TAL1";
  e_0685 is "ILV5";
  e_0686 is "ADE13";
  e_0687 is "SUR4";
  e_0690 is "COX8";
  e_0692 is "URA4";
  e_0693 is "IMD3";
  e_0695 is "VMA6";
  e_0697 is "HMG2";
  e_0698 is "GLO1";
  e_0699 is "ERG6";
  e_0704 is "CYB2";
  e_0705 is "IMD4";
  e_0708 is "HMG1";
  e_0709 is "ATP18";
  e_0711 is "TSL1";
  e_0712 is "URA5";
  e_0716 is "ERG13";
  e_0727 is "STV1";
  e_0729 is "ARG7";
  e_0730 is "ADH3";
  e_0733 is "PGM2";
  e_0734 is "ILV2";
  e_0736 is "ADE17";
  e_0740 is "ALD2";
  e_0741 is "GCV2";
  e_0742 is "ERG2";
  e_0743 is "PFK2";
  e_0744 is "HFA1";
  e_0745 is "ERG12";
  e_0746 is "GUA1";
  e_0747 is "ERG8";
  e_0750 is "FAA4";
  e_0752 is "COX7";
  e_0753 is "TPS3";
  e_0754 is "PPA2";
  e_0755 is "URA10";
  e_0757 is "PGM3";
  e_0761 is "LCB1";
  e_0762 is "LIP1";
  e_0763 is "ADE4";
  e_0765 is "TGL3";
  e_0769 is "IDP3";
  e_0771 is "IDH1";
  e_0774 is "COX5A";
  e_0778 is "LEU4";
  e_0788 is "PSD1";
  e_0791 is "ADE12";
  e_0792 is "ZWF1";
  e_0793 is "YNL247W";
  e_0799 is "MET2";
  e_0800 is "ERG24";
  e_0802 is "PHA2";
  e_0805 is "CIT1";
  e_0808 is "ACC1";
  e_0812 is "MVD1";
  e_0813 is "LYS9";
  e_0826 is "ARG1";
  e_0827 is "GPD2";
  e_0829 is "PRS5";
  e_0830 is "MET22";
  e_0832 is "RIB2";
  e_0834 is "ADH1";
  e_0836 is "WRS1";
  e_0838 is "MDH2";
  e_0840 is "ARG8";
  e_0841 is "RIB4";
  e_0842 is "GRE2";
  e_0846 is "GLO4";
  e_0848 is "CYT1";
  e_0850 is "CDC21";
  e_0851 is "TGL5";
  e_0852 is "RKI1";
  e_0855 is "LEU9";
  e_0860 is "ADE2";
  e_0862 is "IDH2";
  e_0867 is "GLN4";
  e_0869 is "ALE1";
  e_0875 is "HIS3";
  e_0880 is "DFR1";
  e_0883 is "DGA1";
  e_0884 is "VPH1";
  e_0888 is "CPA1";
  e_0889 is "FAA1";
  e_0890 is "PMT3";
  e_0892 is "VMA4";
  e_0894 is "ALA1";
  e_0895 is "PYK2";
  e_0898 is "ALD4";
  e_0903 is "MET12";
  e_0904 is "ERG10";
  e_0911 is "ALD6";
  e_0913 is "ATP4";
  e_0915 is "GLR1";
  e_0922 is "IDI1";
  e_0924 is "PXA1";
  e_0926 is "CDC60";
  e_0934 is "FAS2";
  e_0935 is "VMA11";
  e_0940 is "FUM1";
  e_0944 is "ATP15";
  e_0947 is "CIT3";
  e_0950 is "ATP20";
  e_0953 is "HTS1";
  e_0955 is "GLN1";
  e_0956 is "VMA13";
  e_0959 is "ARO7";
  e_0962 is "TKL1";
  e_0963 is "GRS2";
  e_0964 is "PIS1";
  e_0970 is "ASN1";
  e_0973 is "KRE6";
  e_0975 is "MET16";
  e_0976 is "DPM1";
  e_0978 is "QCR2";
  e_0980 is "YER152C";
  F26bP is "beta-D-fructose 2,6-bisphosphate";
  r_0001 is "(R)-lactate:ferricytochrome-c 2-oxidoreductase";
  r_0004 is "(S)-lactate:ferricytochrome-c 2-oxidoreductase";
  r_0005 is "1,3-beta-glucan synthase";
  r_0006 is "1,6-beta-glucan synthase";
  r_0007 is "1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino)imidazole-4-carboxamide isomerase";
  r_0008 is "1-acyl-sn-gylcerol-3-phosphate acyltransferase";
  r_0012 is "1-pyrroline-5-carboxylate dehydrogenase";
  r_0014 is "2,5-diamino-6-ribitylamino-4(3H)-pyrimidinone 5'-phosphate deaminase";
  r_0015 is "2,5-diamino-6-ribosylamino-4(3H)-pyrimidinone 5'-phosphate reductase (NADPH)";
  r_0016 is "2-aceto-2-hydroxybutanoate synthase";
  r_0018 is "2-aminoadipate transaminase";
  r_0020 is "2-deoxy-D-arabino-heptulosonate 7-phosphate synthetase";
  r_0023 is "2-isopropylmalate hydratase";
  r_0024 is "2-isopropylmalate synthase";
  r_0027 is "2-methylcitrate dehydratase";
  r_0029 is "2-oxo-4-methyl-3-carboxypentanoate decarboxylation";
  r_0032 is "3',5'-bisphosphate nucleotidase";
  r_0038 is "3,4-dihydroxy-2-butanone-4-phosphate synthase";
  r_0039 is "3-dehydroquinate dehydratase";
  r_0040 is "3-dehydroquinate synthase";
  r_0041 is "3-dehydrosphinganine reductase";
  r_0060 is "3-isopropylmalate dehydratase";
  r_0061 is "3-isopropylmalate dehydrogenase";
  r_0065 is "3-phosphoshikimate 1-carboxyvinyltransferase";
  r_0079 is "5'-phosphoribosylformyl glycinamidine synthetase";
  r_0080 is "5,10-methylenetetrahydrofolate reductase (NADPH)";
  r_0091 is "6-phosphogluconolactonase";
  r_0096 is "acetohydroxy acid isomeroreductase";
  r_0097 is "acetolactate synthase";
  r_0103 is "acetyl-CoA C-acetyltransferase";
  r_0108 is "acetyl-Coa carboxylase";
  r_0110 is "acetyl-CoA hydrolase";
  r_0115 is "acetylglutamate kinase";
  r_0118 is "acteylornithine transaminase";
  r_0142 is "adenosine kinase";
  r_0144 is "adenosylhomocysteinase";
  AK is "adenylate kinase";
  r_0150 is "adenylate kinase (GTP)";
  r_0151 is "adenylosuccinate lyase (AICAR)";
  r_0152 is "adenylosuccinate lyase";
  r_0153 is "adenylosuccinate synthase";
  r_0154 is "adenylyl-sulfate kinase";
  r_0156 is "alanine glyoxylate aminotransferase";
  r_0157 is "alanyl-tRNA synthetase";
  ADH is "mitochondrial alcohol dehydrogenase";
  r_0173 is "aldehyde dehydrogenase (acetaldehyde, NADP)";
  r_0174 is "aldehyde dehydrogenase (acetylaldehyde, NAD)";
  r_0195 is "alpha,alpha-trehalose-phosphate synthase (UDP-forming)";
  r_0202 is "anthranilate phosphoribosyltransferase";
  r_0203 is "anthranilate synthase";
  r_0207 is "argininosuccinate lyase";
  r_0208 is "argininosuccinate synthase";
  r_0209 is "arginyl-tRNA synthetase";
  r_0211 is "asparagine synthase (glutamine-hydrolysing)";
  r_0212 is "Asparaginyl-tRNA synthetase";
  r_0214 is "aspartate carbamoyltransferase";
  r_0215 is "aspartate kinase";
  r_0216 is "aspartate transaminase";
  r_0219 is "aspartate-semialdehyde dehydrogenase";
  r_0220 is "Aspartyl-tRNA synthetase";
  r_0225 is "ATP phosphoribosyltransferase";
  r_0226 is "ATP synthase";
  ATPase is "ATPase, cytosolic";
  r_0231 is "C-14 sterol reductase";
  r_0234 is "C-3 sterol dehydrogenase";
  r_0235 is "C-3 sterol dehydrogenase (4-methylzymosterol)";
  r_0236 is "C-3 sterol keto reductase (4-methylzymosterol)";
  r_0237 is "C-3 sterol keto reductase (zymosterol)";
  r_0238 is "C-4 methyl sterol oxidase";
  r_0239 is "C-4 methyl sterol oxidase";
  r_0240 is "C-4 methyl sterol oxidase";
  r_0241 is "C-4 sterol methyl oxidase (4,4-dimethylzymosterol)";
  r_0243 is "C-8 sterol isomerase";
  r_0244 is "C-s24 sterol reductase";
  r_0250 is "carbamoyl-phosphate synthase (glutamine-hydrolysing)";
  r_0257 is "CDP-diacylglycerol synthase";
  r_0264 is "ceramide-1 synthase (26C)";
  r_0278 is "chorismate mutase";
  r_0279 is "chorismate synthase";
  r_0280 is "cis-aconitate(3-) to isocitrate";
  r_0300 is "citrate synthase";
  r_0302 is "citrate to cis-aconitate(3-)";
  r_0307 is "CTP synthase (NH3)";
  r_0309 is "cystathionine beta-synthase";
  r_0310 is "cystathionine g-lyase";
  r_0311 is "cystathionine gamma-synthase";
  r_0313 is "cysteinyl-tRNA synthetase";
  r_0317 is "cytochrome P450 lanosterol 14-alpha-demethylase (NADP)";
  r_0326 is "dCMP deaminase";
  r_0330 is "deoxyguanylate kinase (dGMP:ATP)";
  r_0336 is "diacylglycerol acyltransferase";
  r_0337 is "diacylglycerol pyrophosphate phosphatase";
  r_0344 is "dihydrofolate reductase";
  r_0349 is "dihydroorotase";
  r_0352 is "dihydroxy-acid dehydratase (2,3-dihydroxy-3-methylbutanoate)";
  r_0353 is "dihydroxy-acid dehydratase (2,3-dihydroxy-3-methylpentanoate)";
  r_0355 is "dimethylallyltranstransferase";
  r_0361 is "dolichyl-phosphate D-mannosyltransferase";
  r_0362 is "dolichyl-phosphate-mannose--protein mannosyltransferase";
  r_0364 is "dUTP diphosphatase";
  ENO is "enolase";
  r_0386 is "fatty acid synthase (n-C12:0)";
  r_0387 is "fatty acid synthase (n-C14:0)";
  r_0389 is "fatty acid synthase (n-C16:0)";
  r_0391 is "fatty acid synthase (n-C18:0)";
  r_0393 is "fatty acid synthase (n-C24:0), lumped reaction";
  r_0394 is "fatty acid synthase (n-C26:0)";
  r_0397 is "fatty acyl-CoA synthase (n-C10:0CoA)";
  r_0398 is "fatty acyl-CoA synthase (n-C8:0CoA), lumped reaction";
  r_0399 is "fatty-acid--CoA ligase (decanoate)";
  r_0400 is "fatty-acid--CoA ligase (dodecanoate)";
  r_0406 is "fatty-acid--CoA ligase (n-C26:0)";
  r_0407 is "fatty-acid--CoA ligase (octadecanoate)";
  r_0432 is "fatty-acyl-CoA synthase (n-C12:0CoA)";
  r_0433 is "fatty-acyl-CoA synthase (n-C14:0CoA)";
  r_0434 is "fatty-acyl-CoA synthase (n-C16:0CoA)";
  r_0435 is "fatty-acyl-CoA synthase (n-C18:0CoA)";
  r_0438 is "ferrocytochrome-c:oxygen oxidoreductase";
  r_0439 is "ferrocytochrome-c:oxygen oxidoreductase";
  r_0446 is "formate-tetrahydrofolate ligase";
  FBA is "fructose-bisphosphate aldolase";
  r_0451 is "fumarase";
  r_0462 is "geranyltranstransferase";
  r_0466 is "glucose 6-phosphate dehydrogenase";
  PGI is "glucose-6-phosphate isomerase";
  r_0470 is "glutamate dehydrogenase (NAD)";
  r_0476 is "glutamine synthetase";
  r_0478 is "glutaminyl-tRNA synthetase";
  r_0479 is "glutamyl-tRNA synthetase";
  TDH is "glyceraldehyde-3-phosphate dehydrogenase";
  r_0489 is "glycerol-3-phosphatase";
  r_0491 is "glycerol-3-phosphate dehydrogenase (NAD)";
  r_0495 is "glycerol-3-phosphate/dihydroxyacetone phosphate acyltransferase";
  r_0499 is "glycinamide ribotide transformylase";
  r_0501 is "glycine cleavage system";
  r_0502 is "glycine hydroxymethyltransferase";
  r_0510 is "glycogen (starch) synthase";
  r_0512 is "glycyl-tRNA synthetase";
  r_0514 is "GMP synthase";
  r_0525 is "GTP cyclohydrolase II";
  r_0528 is "guanylate kinase";
  r_0529 is "guanylate kinase (GMP:dATP)";
  HXK is "hexokinase (D-glucose:ATP)";
  r_0536 is "histidinol dehydrogenase";
  r_0537 is "histidinol-phosphatase";
  r_0538 is "histidinol-phosphate transaminase";
  r_0539 is "histidyl-tRNA synthetase";
  r_0542 is "homoacontinate hydratase";
  r_0543 is "homocitrate synthase";
  r_0545 is "homoisocitrate dehydrogenase";
  r_0547 is "homoserine dehydrogenase (NADP)";
  r_0548 is "homoserine kinase";
  r_0549 is "homoserine O-trans-acetylase";
  r_0553 is "hydroxyacylglutathione hydrolase";
  r_0558 is "hydroxymethylglutaryl CoA reductase";
  r_0559 is "hydroxymethylglutaryl CoA synthase";
  r_0563 is "Imidazole-glycerol-3-phosphate synthase";
  r_0564 is "imidazoleglycerol-phosphate dehydratase";
  r_0565 is "IMP dehydrogenase";
  r_0566 is "indole-3-glycerol-phosphate synthase";
  r_0568 is "inorganic diphosphatase";
  r_0570 is "inosine monophosphate cyclohydrolase";
  r_0591 is "IPC synthase";
  r_0658 is "isocitrate dehydrogenase (NAD+)";
  r_0661 is "isocitrate dehydrogenase (NADP+), peroxisomal";
  r_0662 is "isocitrate lyase";
  r_0663 is "isoleucine transaminase";
  r_0665 is "isoleucyl-tRNA synthetase";
  r_0667 is "isopentenyl-diphosphate D-isomerase";
  r_0669 is "ketol-acid reductoisomerase (2-aceto-2-hydroxybutanoate)";
  r_0674 is "L-alanine transaminase";
  r_0678 is "L-aminoadipate-semialdehyde dehydrogenase (NADPH)";
  r_0688 is "L-lactaldehyde:NADP+ 1-oxidoreductase";
  r_0692 is "L-threonine deaminase";
  r_0696 is "lactaldehyde dehydrogenase";
  r_0697 is "lactoylglutathione lyase";
  r_0698 is "lanosterol synthase";
  r_0699 is "leucine transaminase";
  r_0701 is "leucyl-tRNA synthetase";
  r_0711 is "lysyl-tRNA synthetase";
  r_0713 is "malate dehydrogenase";
  r_0722 is "mannose-1-phosphate guanylyltransferase";
  r_0723 is "mannose-6-phosphate isomerase";
  r_0724 is "methenyltetrahydrifikate cyclohydrolase";
  r_0726 is "methionine adenosyltransferase";
  r_0727 is "methionine synthase";
  r_0729 is "methionyl-tRNA synthetase";
  r_0731 is "methylenetetrahydrofolate dehydrogenase (NAD)";
  r_0732 is "methylenetetrahydrofolate dehydrogenase (NADP)";
  r_0735 is "mevalonate kinase (atp)";
  r_0736 is "mevalonate kinase (ctp)";
  r_0739 is "mevalonate pyrophoshate decarboxylase";
  r_0757 is "myo-inositol 1-phosphatase";
  r_0758 is "myo-inositol-1-phosphate synthase";
  r_0759 is "N-acetyl-g-glutamyl-phosphate reductase";
  r_0792 is "nucleoside diphosphatase";
  r_0800 is "nucleoside diphosphate kinase";
  r_0811 is "nucleoside-diphosphate kinase (ATP:UDP)";
  r_0813 is "O-acetylhomoserine (thiol)-lyase";
  r_0816 is "ornithine carbamoyltransferase";
  r_0818 is "ornithine transacetylase";
  r_0820 is "orotate phosphoribosyltransferase";
  r_0821 is "orotidine-5'-phosphate decarboxylase";
  r_0851 is "phenylalanine transaminase";
  r_0852 is "phenylalanyl-tRNA synthetase";
  r_0855 is "phopshoribosylaminoimidazole synthetase";
  r_0858 is "phosphatidylethanolamine methyltransferase";
  r_0874 is "phosphatidylinositol synthase";
  r_0877 is "phosphatidylserine decarboxylase";
  r_0880 is "phosphatidylserine synthase";
  r_0883 is "phosphoadenylyl-sulfate reductase (thioredoxin)";
  r_0884 is "phosphoenolpyruvate carboxykinase";
  PFK is "phosphofructokinase";
  r_0888 is "phosphoglucomutase";
  r_0889 is "phosphogluconate dehydrogenase";
  PGK is "phosphoglycerate kinase";
  GPM is "phosphoglycerate mutase";
  r_0900 is "phospholipid methyltransferase";
  r_0901 is "phospholipid methyltransferase";
  r_0902 is "phosphomannomutase";
  r_0904 is "phosphomevalonate kinase";
  r_0908 is "phosphoribosyl amino imidazolesuccinocarbozamide synthetase";
  r_0909 is "phosphoribosyl-AMP cyclohydrolase";
  r_0910 is "phosphoribosyl-ATP pyrophosphatase";
  r_0911 is "phosphoribosylaminoimidazole-carboxylase";
  r_0912 is "phosphoribosylaminoimidazolecarboxamide formyltransferase";
  r_0913 is "phosphoribosylanthranilate isomerase";
  r_0914 is "phosphoribosylglycinamidine synthetase";
  r_0915 is "phosphoribosylpyrophosphate amidotransferase";
  r_0916 is "phosphoribosylpyrophosphate synthetase";
  r_0938 is "prephenate dehydratase";
  r_0939 is "prephenate dehydrogenase (NADP)";
  r_0941 is "prolyl-tRNA synthetase";
  r_0957 is "pyrroline-5-carboxylate reductase";
  r_0958 is "pyruvate carboxylase";
  PDC is "pyruvate decarboxylase";
  PYK is "pyruvate kinase";
  r_0967 is "riboflavin synthase";
  r_0968 is "riboflavin synthase";
  r_0970 is "ribonucleoside-triphosphate reductase (ATP)";
  r_0973 is "ribonucleoside-triphosphate reductase (UTP)";
  r_0974 is "ribonucleotide reductase";
  r_0976 is "ribonucleotide reductase";
  r_0978 is "ribonucleotide reductase";
  r_0982 is "ribose-5-phosphate isomerase";
  r_0984 is "ribulose 5-phosphate 3-epimerase";
  r_0986 is "S-adenosyl-methionine delta-24-sterol-c-methyltransferase";
  r_0988 is "saccharopine dehydrogenase (NAD, L-lysine forming)";
  r_0989 is "saccharopine dehydrogenase (NADP, L-glutamate forming)";
  r_0990 is "sedoheptulose 1,7-bisphosphate D-glyceraldehyde-3-phosphate-lyase";
  r_0993 is "serine palmitotransferase";
  r_0995 is "seryl-tRNA synthetase";
  r_0996 is "shikimate dehydrogenase";
  r_0997 is "shikimate kinase";
  r_1010 is "squalene epoxidase (NAD)";
  r_1012 is "squalene synthase";
  r_1014 is "steryl ester hydrolase";
  r_1021 is "succinate dehydrogenase (ubiquinone-6)";
  r_1026 is "sulfate adenylyltransferase (ADP)";
  r_1027 is "sulfite reductase (NADPH2)";
  r_1038 is "thioredoxin reductase (NADPH)";
  r_1040 is "threonine aldolase";
  r_1041 is "threonine synthase";
  r_1042 is "threonyl-tRNA synthetase";
  r_1045 is "thymidylate synthase";
  r_1048 is "transaldolase";
  r_1049 is "transketolase 1";
  r_1050 is "transketolase 2";
  r_1051 is "trehalose-phosphatase";
  r_1052 is "triacylglycerol lipase";
  TPI is "triose-phosphate isomerase";
  r_1055 is "tryptophan synthase (indoleglycerol phosphate)";
  r_1057 is "tryptophanyl-tRNA synthetase";
  r_1063 is "tyrosine transaminase";
  r_1066 is "tyrosyl-tRNA synthetase";
  r_1072 is "UMP kinase";
  r_1084 is "UTP-glucose-1-phosphate uridylyltransferase";
  r_1087 is "valine transaminase";
  r_1089 is "valyl-tRNA synthetase";
  r_1115 is "ammonia transport";
  HXT is "glucose transport";
  r_1172 is "glycerol transport via channel";
  r_1244 is "phosphate transport";
  r_1266 is "sulfate uniport";
  r_1633 is "acetaldehyde transport";
  r_1664 is "bicarbonate formation";
  r_1682 is "cholestenol delta-isomerase, lumped reaction";
  r_1697 is "CO2 transport";
  r_1704 is "cytidylate kinase (dCMP)";
  r_1729 is "deoxyadenylate kinase";
  r_1762 is "ethanol transport";
  r_1936 is "methylglyoxal synthase";
  r_1979 is "O2 transport";
  r_2030 is "pyrimidine phosphatase";
  r_2057 is "succinate transport";
  r_2111 is "growth";
  r_2126 is "sedoheptulose bisphosphatase";
  r_2127 is "dihydroorotate dehydrogenase";

  // SBO terms:
  cell.sboTerm = 290
  extracellular.sboTerm = 290
  s_0002.sboTerm = 247
  s_0004.sboTerm = 247
  s_0008.sboTerm = 247
  s_0009.sboTerm = 247
  s_0010.sboTerm = 247
  s_0015.sboTerm = 247
  s_0016.sboTerm = 247
  s_0018.sboTerm = 247
  s_0019.sboTerm = 247
  s_0025.sboTerm = 247
  s_0028.sboTerm = 247
  s_0033.sboTerm = 247
  s_0037.sboTerm = 247
  s_0039.sboTerm = 247
  s_0056.sboTerm = 247
  s_0061.sboTerm = 247
  s_0062.sboTerm = 247
  s_0063.sboTerm = 247
  s_0066.sboTerm = 247
  BPG.sboTerm = 247
  s_0076.sboTerm = 247
  s_0077.sboTerm = 247
  s_0078.sboTerm = 247
  s_0082.sboTerm = 247
  s_0086.sboTerm = 247
  s_0089.sboTerm = 247
  s_0118.sboTerm = 247
  s_0120.sboTerm = 247
  s_0122.sboTerm = 247
  s_0126.sboTerm = 247
  s_0141.sboTerm = 247
  s_0142.sboTerm = 247
  s_0145.sboTerm = 247
  s_0146.sboTerm = 247
  s_0158.sboTerm = 247
  s_0162.sboTerm = 247
  s_0165.sboTerm = 247
  s_0176.sboTerm = 247
  s_0178.sboTerm = 247
  s_0180.sboTerm = 247
  P2G.sboTerm = 247
  s_0190.sboTerm = 247
  s_0201.sboTerm = 247
  s_0204.sboTerm = 247
  s_0207.sboTerm = 247
  s_0209.sboTerm = 247
  s_0210.sboTerm = 247
  s_0211.sboTerm = 247
  s_0218.sboTerm = 247
  s_0231.sboTerm = 247
  s_0232.sboTerm = 247
  P3G.sboTerm = 247
  s_0261.sboTerm = 247
  s_0262.sboTerm = 247
  s_0291.sboTerm = 247
  s_0295.sboTerm = 247
  s_0296.sboTerm = 247
  s_0297.sboTerm = 247
  s_0298.sboTerm = 247
  s_0299.sboTerm = 247
  s_0300.sboTerm = 247
  s_0301.sboTerm = 247
  s_0302.sboTerm = 247
  s_0304.sboTerm = 247
  s_0306.sboTerm = 247
  s_0312.sboTerm = 247
  s_0313.sboTerm = 247
  s_0314.sboTerm = 247
  s_0322.sboTerm = 247
  s_0324.sboTerm = 247
  s_0325.sboTerm = 247
  s_0326.sboTerm = 247
  s_0327.sboTerm = 247
  s_0328.sboTerm = 247
  s_0335.sboTerm = 247
  s_0340.sboTerm = 247
  s_0349.sboTerm = 247
  AcAld.sboTerm = 247
  s_0360.sboTerm = 247
  s_0362.sboTerm = 247
  s_0367.sboTerm = 247
  s_0373.sboTerm = 247
  s_0380.sboTerm = 247
  s_0386.sboTerm = 247
  s_0390.sboTerm = 247
  s_0393.sboTerm = 247
  ADP.sboTerm = 247
  s_0403.sboTerm = 247
  s_0404.sboTerm = 247
  s_0409.sboTerm = 247
  s_0419.sboTerm = 247
  s_0420.sboTerm = 247
  AMP.sboTerm = 247
  s_0427.sboTerm = 247
  s_0428.sboTerm = 247
  s_0430.sboTerm = 247
  s_0432.sboTerm = 247
  ATP.sboTerm = 247
  s_0445.sboTerm = 247
  s_0454.sboTerm = 247
  s_0455.sboTerm = 247
  CO2.sboTerm = 247
  s_0458.sboTerm = 247
  s_0467.sboTerm = 247
  s_0471.sboTerm = 247
  s_0478.sboTerm = 247
  s_0505.sboTerm = 247
  s_0515.sboTerm = 247
  s_0516.sboTerm = 247
  s_0522.sboTerm = 247
  s_0526.sboTerm = 247
  s_0529.sboTerm = 247
  s_0539.sboTerm = 247
  s_0542.sboTerm = 247
  s_0550.sboTerm = 247
  s_0551.sboTerm = 247
  F16bP.sboTerm = 247
  F6P.sboTerm = 247
  GLC.sboTerm = 247
  GLCx.sboTerm = 247
  s_0567.sboTerm = 247
  G6P.sboTerm = 247
  s_0573.sboTerm = 247
  s_0574.sboTerm = 247
  s_0577.sboTerm = 247
  s_0581.sboTerm = 247
  s_0582.sboTerm = 247
  s_0584.sboTerm = 247
  s_0586.sboTerm = 247
  s_0587.sboTerm = 247
  s_0589.sboTerm = 247
  s_0595.sboTerm = 247
  s_0602.sboTerm = 247
  s_0613.sboTerm = 247
  s_0615.sboTerm = 247
  s_0619.sboTerm = 247
  s_0625.sboTerm = 247
  DHAP.sboTerm = 247
  s_0633.sboTerm = 247
  s_0644.sboTerm = 247
  s_0645.sboTerm = 247
  s_0649.sboTerm = 247
  s_0654.sboTerm = 247
  s_0656.sboTerm = 247
  s_0657.sboTerm = 247
  s_0662.sboTerm = 247
  s_0666.sboTerm = 247
  s_0672.sboTerm = 247
  EtOH.sboTerm = 247
  s_0681.sboTerm = 247
  s_0700.sboTerm = 247
  s_0709.sboTerm = 247
  s_0710.sboTerm = 247
  s_0722.sboTerm = 247
  s_0725.sboTerm = 247
  s_0739.sboTerm = 247
  s_0743.sboTerm = 247
  s_0745.sboTerm = 247
  s_0747.sboTerm = 247
  s_0748.sboTerm = 247
  s_0750.sboTerm = 247
  s_0757.sboTerm = 247
  GAP.sboTerm = 247
  GLY.sboTerm = 247
  s_0766.sboTerm = 247
  s_0767.sboTerm = 247
  s_0773.sboTerm = 247
  s_0779.sboTerm = 247
  s_0782.sboTerm = 247
  s_0785.sboTerm = 247
  s_0816.sboTerm = 247
  s_0832.sboTerm = 247
  s_0835.sboTerm = 247
  s_0836.sboTerm = 247
  s_0841.sboTerm = 247
  s_0847.sboTerm = 247
  s_0849.sboTerm = 247
  s_0897.sboTerm = 247
  s_0940.sboTerm = 247
  s_0943.sboTerm = 247
  s_0951.sboTerm = 247
  s_0953.sboTerm = 247
  s_0955.sboTerm = 247
  s_0959.sboTerm = 247
  s_0965.sboTerm = 247
  s_0969.sboTerm = 247
  s_0973.sboTerm = 247
  s_0978.sboTerm = 247
  s_0979.sboTerm = 247
  s_0980.sboTerm = 247
  s_0981.sboTerm = 247
  s_0991.sboTerm = 247
  s_0999.sboTerm = 247
  s_1003.sboTerm = 247
  s_1006.sboTerm = 247
  s_1010.sboTerm = 247
  s_1011.sboTerm = 247
  s_1012.sboTerm = 247
  s_1014.sboTerm = 247
  s_1016.sboTerm = 247
  s_1021.sboTerm = 247
  s_1025.sboTerm = 247
  s_1029.sboTerm = 247
  s_1032.sboTerm = 247
  s_1035.sboTerm = 247
  s_1038.sboTerm = 247
  s_1039.sboTerm = 247
  s_1045.sboTerm = 247
  s_1048.sboTerm = 247
  s_1051.sboTerm = 247
  s_1056.sboTerm = 247
  s_1059.sboTerm = 247
  s_1065.sboTerm = 247
  s_1073.sboTerm = 247
  s_1077.sboTerm = 247
  s_1084.sboTerm = 247
  s_1099.sboTerm = 247
  s_1101.sboTerm = 247
  s_1107.sboTerm = 247
  s_1148.sboTerm = 247
  s_1151.sboTerm = 247
  s_1153.sboTerm = 247
  s_1161.sboTerm = 247
  s_1176.sboTerm = 247
  s_1182.sboTerm = 247
  s_1187.sboTerm = 247
  s_1191.sboTerm = 247
  s_1192.sboTerm = 247
  s_1194.sboTerm = 247
  NAD.sboTerm = 247
  NADH.sboTerm = 247
  s_1207.sboTerm = 247
  s_1212.sboTerm = 247
  s_1233.sboTerm = 247
  s_1238.sboTerm = 247
  s_1255.sboTerm = 247
  s_1266.sboTerm = 247
  s_1269.sboTerm = 247
  s_1270.sboTerm = 247
  s_1271.sboTerm = 247
  s_1275.sboTerm = 247
  s_1277.sboTerm = 247
  s_1286.sboTerm = 247
  s_1302.sboTerm = 247
  s_1314.sboTerm = 247
  PHO.sboTerm = 247
  s_1324.sboTerm = 247
  s_1331.sboTerm = 247
  s_1337.sboTerm = 247
  s_1342.sboTerm = 247
  s_1343.sboTerm = 247
  s_1346.sboTerm = 247
  s_1351.sboTerm = 247
  PEP.sboTerm = 247
  s_1364.sboTerm = 247
  s_1365.sboTerm = 247
  s_1376.sboTerm = 247
  s_1377.sboTerm = 247
  s_1379.sboTerm = 247
  s_1386.sboTerm = 247
  PYR.sboTerm = 247
  s_1405.sboTerm = 247
  s_1408.sboTerm = 247
  s_1413.sboTerm = 247
  s_1416.sboTerm = 247
  s_1426.sboTerm = 247
  s_1427.sboTerm = 247
  s_1428.sboTerm = 247
  s_1429.sboTerm = 247
  s_1445.sboTerm = 247
  s_1447.sboTerm = 247
  s_1449.sboTerm = 247
  s_1454.sboTerm = 247
  s_1458.sboTerm = 247
  s_1459.sboTerm = 247
  s_1467.sboTerm = 247
  s_1468.sboTerm = 247
  s_1469.sboTerm = 247
  s_1487.sboTerm = 247
  s_1491.sboTerm = 247
  s_1520.sboTerm = 247
  s_1524.sboTerm = 247
  s_1527.sboTerm = 247
  s_1533.sboTerm = 247
  s_1535.sboTerm = 247
  s_1537.sboTerm = 247
  s_1538.sboTerm = 247
  s_1543.sboTerm = 247
  s_1545.sboTerm = 247
  s_1559.sboTerm = 247
  s_1561.sboTerm = 247
  s_1565.sboTerm = 247
  s_1569.sboTerm = 247
  s_1576.sboTerm = 247
  s_1577.sboTerm = 247
  s_1578.sboTerm = 247
  s_1579.sboTerm = 247
  s_1582.sboTerm = 247
  s_1583.sboTerm = 247
  s_1585.sboTerm = 247
  s_1587.sboTerm = 247
  s_1589.sboTerm = 247
  s_1590.sboTerm = 247
  s_1591.sboTerm = 247
  s_1593.sboTerm = 247
  s_1594.sboTerm = 247
  s_1596.sboTerm = 247
  s_1598.sboTerm = 247
  s_1600.sboTerm = 247
  s_1602.sboTerm = 247
  s_1604.sboTerm = 247
  s_1606.sboTerm = 247
  s_1607.sboTerm = 247
  s_1608.sboTerm = 247
  s_1610.sboTerm = 247
  s_1612.sboTerm = 247
  s_1614.sboTerm = 247
  s_1616.sboTerm = 247
  s_1620.sboTerm = 247
  e_0001.sboTerm = 252
  e_0002.sboTerm = 252
  e_0003.sboTerm = 252
  e_0004.sboTerm = 252
  e_0005.sboTerm = 252
  e_0006.sboTerm = 252
  e_0007.sboTerm = 252
  e_0008.sboTerm = 252
  e_0010.sboTerm = 252
  e_0011.sboTerm = 252
  e_0012.sboTerm = 252
  e_0017.sboTerm = 252
  e_0020.sboTerm = 252
  e_0022.sboTerm = 252
  e_0025.sboTerm = 252
  e_0026.sboTerm = 252
  e_0028.sboTerm = 252
  e_0030.sboTerm = 252
  e_0031.sboTerm = 252
  e_0033.sboTerm = 252
  e_0038.sboTerm = 252
  e_0045.sboTerm = 252
  e_0051.sboTerm = 252
  e_0053.sboTerm = 252
  e_0054.sboTerm = 252
  e_0057.sboTerm = 252
  e_0062.sboTerm = 252
  e_0063.sboTerm = 252
  e_0064.sboTerm = 252
  e_0065.sboTerm = 252
  e_0066.sboTerm = 252
  e_0069.sboTerm = 252
  e_0071.sboTerm = 252
  e_0074.sboTerm = 252
  e_0079.sboTerm = 252
  e_0084.sboTerm = 252
  e_0087.sboTerm = 252
  e_0088.sboTerm = 252
  e_0089.sboTerm = 252
  e_0090.sboTerm = 252
  e_0091.sboTerm = 252
  e_0092.sboTerm = 252
  e_0100.sboTerm = 252
  e_0101.sboTerm = 252
  e_0103.sboTerm = 252
  e_0106.sboTerm = 252
  e_0107.sboTerm = 252
  e_0109.sboTerm = 252
  e_0111.sboTerm = 252
  e_0113.sboTerm = 252
  e_0117.sboTerm = 252
  e_0122.sboTerm = 252
  e_0124.sboTerm = 252
  e_0127.sboTerm = 252
  e_0128.sboTerm = 252
  e_0129.sboTerm = 252
  e_0133.sboTerm = 252
  e_0134.sboTerm = 252
  e_0135.sboTerm = 252
  e_0136.sboTerm = 252
  e_0137.sboTerm = 252
  e_0141.sboTerm = 252
  e_0142.sboTerm = 252
  e_0146.sboTerm = 252
  e_0151.sboTerm = 252
  e_0152.sboTerm = 252
  e_0154.sboTerm = 252
  e_0155.sboTerm = 252
  e_0160.sboTerm = 252
  e_0165.sboTerm = 252
  e_0167.sboTerm = 252
  e_0168.sboTerm = 252
  e_0169.sboTerm = 252
  e_0171.sboTerm = 252
  e_0175.sboTerm = 252
  e_0176.sboTerm = 252
  e_0177.sboTerm = 252
  e_0179.sboTerm = 252
  e_0182.sboTerm = 252
  e_0183.sboTerm = 252
  e_0186.sboTerm = 252
  e_0188.sboTerm = 252
  e_0194.sboTerm = 252
  e_0196.sboTerm = 252
  e_0202.sboTerm = 252
  e_0203.sboTerm = 252
  e_0204.sboTerm = 252
  e_0207.sboTerm = 252
  e_0213.sboTerm = 252
  e_0214.sboTerm = 252
  e_0218.sboTerm = 252
  e_0219.sboTerm = 252
  e_0220.sboTerm = 252
  e_0223.sboTerm = 252
  e_0231.sboTerm = 252
  e_0234.sboTerm = 252
  e_0237.sboTerm = 252
  e_0239.sboTerm = 252
  e_0243.sboTerm = 252
  e_0249.sboTerm = 252
  e_0250.sboTerm = 252
  e_0251.sboTerm = 252
  e_0255.sboTerm = 252
  e_0260.sboTerm = 252
  e_0263.sboTerm = 252
  e_0268.sboTerm = 252
  e_0269.sboTerm = 252
  e_0271.sboTerm = 252
  e_0273.sboTerm = 252
  e_0276.sboTerm = 252
  e_0278.sboTerm = 252
  e_0280.sboTerm = 252
  e_0281.sboTerm = 252
  e_0283.sboTerm = 252
  e_0288.sboTerm = 252
  e_0289.sboTerm = 252
  e_0290.sboTerm = 252
  e_0291.sboTerm = 252
  e_0293.sboTerm = 252
  e_0295.sboTerm = 252
  e_0296.sboTerm = 252
  e_0297.sboTerm = 252
  e_0298.sboTerm = 252
  e_0299.sboTerm = 252
  e_0303.sboTerm = 252
  e_0311.sboTerm = 252
  e_0312.sboTerm = 252
  e_0313.sboTerm = 252
  e_0314.sboTerm = 252
  e_0317.sboTerm = 252
  e_0320.sboTerm = 252
  e_0321.sboTerm = 252
  e_0322.sboTerm = 252
  e_0325.sboTerm = 252
  e_0326.sboTerm = 252
  e_0328.sboTerm = 252
  e_0329.sboTerm = 252
  e_0330.sboTerm = 252
  e_0334.sboTerm = 252
  e_0340.sboTerm = 252
  e_0342.sboTerm = 252
  e_0343.sboTerm = 252
  e_0346.sboTerm = 252
  e_0347.sboTerm = 252
  e_0348.sboTerm = 252
  e_0352.sboTerm = 252
  e_0353.sboTerm = 252
  e_0355.sboTerm = 252
  e_0356.sboTerm = 252
  e_0362.sboTerm = 252
  e_0364.sboTerm = 252
  e_0365.sboTerm = 252
  e_0367.sboTerm = 252
  e_0368.sboTerm = 252
  e_0370.sboTerm = 252
  e_0372.sboTerm = 252
  e_0376.sboTerm = 252
  e_0379.sboTerm = 252
  e_0380.sboTerm = 252
  e_0381.sboTerm = 252
  e_0382.sboTerm = 252
  e_0385.sboTerm = 252
  e_0387.sboTerm = 252
  e_0389.sboTerm = 252
  e_0390.sboTerm = 252
  e_0392.sboTerm = 252
  e_0396.sboTerm = 252
  e_0398.sboTerm = 252
  e_0401.sboTerm = 252
  e_0404.sboTerm = 252
  e_0405.sboTerm = 252
  e_0407.sboTerm = 252
  e_0409.sboTerm = 252
  e_0417.sboTerm = 252
  e_0418.sboTerm = 252
  e_0422.sboTerm = 252
  e_0424.sboTerm = 252
  e_0425.sboTerm = 252
  e_0426.sboTerm = 252
  e_0427.sboTerm = 252
  e_0428.sboTerm = 252
  e_0429.sboTerm = 252
  e_0431.sboTerm = 252
  e_0432.sboTerm = 252
  e_0434.sboTerm = 252
  e_0435.sboTerm = 252
  e_0436.sboTerm = 252
  e_0440.sboTerm = 252
  e_0447.sboTerm = 252
  e_0448.sboTerm = 252
  e_0452.sboTerm = 252
  e_0453.sboTerm = 252
  e_0454.sboTerm = 252
  e_0455.sboTerm = 252
  e_0456.sboTerm = 252
  e_0457.sboTerm = 252
  e_0458.sboTerm = 252
  e_0462.sboTerm = 252
  e_0465.sboTerm = 252
  e_0466.sboTerm = 252
  e_0467.sboTerm = 252
  e_0470.sboTerm = 252
  e_0472.sboTerm = 252
  e_0475.sboTerm = 252
  e_0476.sboTerm = 252
  e_0489.sboTerm = 252
  e_0492.sboTerm = 252
  e_0494.sboTerm = 252
  e_0495.sboTerm = 252
  e_0496.sboTerm = 252
  e_0499.sboTerm = 252
  e_0506.sboTerm = 252
  e_0508.sboTerm = 252
  e_0510.sboTerm = 252
  e_0512.sboTerm = 252
  e_0514.sboTerm = 252
  e_0515.sboTerm = 252
  e_0525.sboTerm = 252
  e_0528.sboTerm = 252
  e_0531.sboTerm = 252
  e_0536.sboTerm = 252
  e_0540.sboTerm = 252
  e_0541.sboTerm = 252
  e_0542.sboTerm = 252
  e_0544.sboTerm = 252
  e_0545.sboTerm = 252
  e_0547.sboTerm = 252
  e_0548.sboTerm = 252
  e_0549.sboTerm = 252
  e_0550.sboTerm = 252
  e_0556.sboTerm = 252
  e_0557.sboTerm = 252
  e_0558.sboTerm = 252
  e_0559.sboTerm = 252
  e_0561.sboTerm = 252
  e_0565.sboTerm = 252
  e_0567.sboTerm = 252
  e_0568.sboTerm = 252
  e_0569.sboTerm = 252
  e_0571.sboTerm = 252
  e_0574.sboTerm = 252
  e_0576.sboTerm = 252
  e_0578.sboTerm = 252
  e_0579.sboTerm = 252
  e_0581.sboTerm = 252
  e_0582.sboTerm = 252
  e_0585.sboTerm = 252
  e_0586.sboTerm = 252
  e_0588.sboTerm = 252
  e_0591.sboTerm = 252
  e_0594.sboTerm = 252
  e_0601.sboTerm = 252
  e_0603.sboTerm = 252
  e_0607.sboTerm = 252
  e_0610.sboTerm = 252
  e_0611.sboTerm = 252
  e_0612.sboTerm = 252
  e_0613.sboTerm = 252
  e_0615.sboTerm = 252
  e_0619.sboTerm = 252
  e_0621.sboTerm = 252
  e_0629.sboTerm = 252
  e_0631.sboTerm = 252
  e_0632.sboTerm = 252
  e_0633.sboTerm = 252
  e_0636.sboTerm = 252
  e_0638.sboTerm = 252
  e_0639.sboTerm = 252
  e_0642.sboTerm = 252
  e_0644.sboTerm = 252
  e_0647.sboTerm = 252
  e_0658.sboTerm = 252
  e_0667.sboTerm = 252
  e_0671.sboTerm = 252
  e_0674.sboTerm = 252
  e_0675.sboTerm = 252
  e_0682.sboTerm = 252
  e_0684.sboTerm = 252
  e_0685.sboTerm = 252
  e_0686.sboTerm = 252
  e_0687.sboTerm = 252
  e_0690.sboTerm = 252
  e_0692.sboTerm = 252
  e_0693.sboTerm = 252
  e_0695.sboTerm = 252
  e_0697.sboTerm = 252
  e_0698.sboTerm = 252
  e_0699.sboTerm = 252
  e_0704.sboTerm = 252
  e_0705.sboTerm = 252
  e_0708.sboTerm = 252
  e_0709.sboTerm = 252
  e_0711.sboTerm = 252
  e_0712.sboTerm = 252
  e_0716.sboTerm = 252
  e_0727.sboTerm = 252
  e_0729.sboTerm = 252
  e_0730.sboTerm = 252
  e_0733.sboTerm = 252
  e_0734.sboTerm = 252
  e_0736.sboTerm = 252
  e_0740.sboTerm = 252
  e_0741.sboTerm = 252
  e_0742.sboTerm = 252
  e_0743.sboTerm = 252
  e_0744.sboTerm = 252
  e_0745.sboTerm = 252
  e_0746.sboTerm = 252
  e_0747.sboTerm = 252
  e_0750.sboTerm = 252
  e_0752.sboTerm = 252
  e_0753.sboTerm = 252
  e_0754.sboTerm = 252
  e_0755.sboTerm = 252
  e_0757.sboTerm = 252
  e_0761.sboTerm = 252
  e_0762.sboTerm = 252
  e_0763.sboTerm = 252
  e_0765.sboTerm = 252
  e_0769.sboTerm = 252
  e_0771.sboTerm = 252
  e_0774.sboTerm = 252
  e_0778.sboTerm = 252
  e_0788.sboTerm = 252
  e_0791.sboTerm = 252
  e_0792.sboTerm = 252
  e_0793.sboTerm = 252
  e_0799.sboTerm = 252
  e_0800.sboTerm = 252
  e_0802.sboTerm = 252
  e_0805.sboTerm = 252
  e_0808.sboTerm = 252
  e_0812.sboTerm = 252
  e_0813.sboTerm = 252
  e_0826.sboTerm = 252
  e_0827.sboTerm = 252
  e_0829.sboTerm = 252
  e_0830.sboTerm = 252
  e_0832.sboTerm = 252
  e_0834.sboTerm = 252
  e_0836.sboTerm = 252
  e_0838.sboTerm = 252
  e_0840.sboTerm = 252
  e_0841.sboTerm = 252
  e_0842.sboTerm = 252
  e_0846.sboTerm = 252
  e_0848.sboTerm = 252
  e_0850.sboTerm = 252
  e_0851.sboTerm = 252
  e_0852.sboTerm = 252
  e_0855.sboTerm = 252
  e_0860.sboTerm = 252
  e_0862.sboTerm = 252
  e_0867.sboTerm = 252
  e_0869.sboTerm = 252
  e_0875.sboTerm = 252
  e_0880.sboTerm = 252
  e_0883.sboTerm = 252
  e_0884.sboTerm = 252
  e_0888.sboTerm = 252
  e_0889.sboTerm = 252
  e_0890.sboTerm = 252
  e_0892.sboTerm = 252
  e_0894.sboTerm = 252
  e_0895.sboTerm = 252
  e_0898.sboTerm = 252
  e_0903.sboTerm = 252
  e_0904.sboTerm = 252
  e_0911.sboTerm = 252
  e_0913.sboTerm = 252
  e_0915.sboTerm = 252
  e_0922.sboTerm = 252
  e_0924.sboTerm = 252
  e_0926.sboTerm = 252
  e_0934.sboTerm = 252
  e_0935.sboTerm = 252
  e_0940.sboTerm = 252
  e_0944.sboTerm = 252
  e_0947.sboTerm = 252
  e_0950.sboTerm = 252
  e_0953.sboTerm = 252
  e_0955.sboTerm = 252
  e_0956.sboTerm = 252
  e_0959.sboTerm = 252
  e_0962.sboTerm = 252
  e_0963.sboTerm = 252
  e_0964.sboTerm = 252
  e_0970.sboTerm = 252
  e_0973.sboTerm = 252
  e_0975.sboTerm = 252
  e_0976.sboTerm = 252
  e_0978.sboTerm = 252
  e_0980.sboTerm = 252
  F26bP.sboTerm = 247
  r_0001.sboTerm = 176
  r_0001_Vmax.sboTerm = 324
  r_0001_Keq.sboTerm = 281
  r_0001_Km0025.sboTerm = 322
  r_0001_Km0709.sboTerm = 322
  r_0001_Km0710.sboTerm = 323
  r_0001_KmPYR.sboTerm = 323
  r_0004.sboTerm = 176
  r_0004_Vmax.sboTerm = 324
  r_0004_Keq.sboTerm = 281
  r_0004_Km0063.sboTerm = 322
  r_0004_Km0709.sboTerm = 322
  r_0004_Km0710.sboTerm = 323
  r_0004_KmPYR.sboTerm = 323
  r_0005.sboTerm = 176
  r_0005_Vmax.sboTerm = 324
  r_0005_Keq.sboTerm = 281
  r_0005_Km1543.sboTerm = 322
  r_0005_Km0002.sboTerm = 323
  r_0005_Km1538.sboTerm = 323
  r_0006.sboTerm = 176
  r_0006_Vmax.sboTerm = 324
  r_0006_Keq.sboTerm = 281
  r_0006_Km1543.sboTerm = 322
  r_0006_Km0004.sboTerm = 323
  r_0006_Km1538.sboTerm = 323
  r_0007.sboTerm = 176
  r_0007_Vmax.sboTerm = 324
  r_0007_Keq.sboTerm = 281
  r_0007_Km0077.sboTerm = 322
  r_0007_Km0312.sboTerm = 323
  r_0008.sboTerm = 176
  r_0008_Vmax.sboTerm = 324
  r_0008_Keq.sboTerm = 281
  r_0008_Km0082.sboTerm = 322
  r_0008_Km0380.sboTerm = 322
  r_0008_Km0529.sboTerm = 323
  r_0008_Km1331.sboTerm = 323
  r_0012.sboTerm = 176
  r_0012_Vmax.sboTerm = 324
  r_0012_Keq.sboTerm = 281
  r_0012_Km0991.sboTerm = 322
  r_0012_KmNADH.sboTerm = 322
  r_0012_Km0118.sboTerm = 323
  r_0012_KmNAD.sboTerm = 323
  r_0014.sboTerm = 176
  r_0014_Vmax.sboTerm = 324
  r_0014_Keq.sboTerm = 281
  r_0014_Km0142.sboTerm = 322
  r_0014_Km0313.sboTerm = 323
  r_0014_Km0419.sboTerm = 323
  r_0015.sboTerm = 176
  r_0015_Vmax.sboTerm = 324
  r_0015_Keq.sboTerm = 281
  r_0015_Km0141.sboTerm = 322
  r_0015_Km1212.sboTerm = 322
  r_0015_Km0142.sboTerm = 323
  r_0015_Km1207.sboTerm = 323
  r_0016.sboTerm = 176
  r_0016_Vmax.sboTerm = 324
  r_0016_Keq.sboTerm = 281
  r_0016_Km0178.sboTerm = 322
  r_0016_KmPYR.sboTerm = 322
  r_0016_Km0039.sboTerm = 323
  r_0016_KmCO2.sboTerm = 323
  r_0018.sboTerm = 176
  r_0018_Vmax.sboTerm = 324
  r_0018_Keq.sboTerm = 281
  r_0018_Km0176.sboTerm = 322
  r_0018_Km0991.sboTerm = 322
  r_0018_Km0180.sboTerm = 323
  r_0018_Km0953.sboTerm = 323
  r_0020.sboTerm = 176
  r_0020_Vmax.sboTerm = 324
  r_0020_Keq.sboTerm = 281
  r_0020_Km0551.sboTerm = 322
  r_0020_KmPEP.sboTerm = 322
  r_0020_Km0349.sboTerm = 323
  r_0020_KmPHO.sboTerm = 323
  r_0023.sboTerm = 176
  r_0023_Vmax.sboTerm = 324
  r_0023_Keq.sboTerm = 281
  r_0023_Km0162.sboTerm = 322
  r_0023_Km0165.sboTerm = 323
  r_0024.sboTerm = 176
  r_0024_Vmax.sboTerm = 324
  r_0024_Keq.sboTerm = 281
  r_0024_Km0232.sboTerm = 322
  r_0024_Km0373.sboTerm = 322
  r_0024_Km0162.sboTerm = 323
  r_0024_Km0529.sboTerm = 323
  r_0027.sboTerm = 176
  r_0027_Vmax.sboTerm = 324
  r_0027_Keq.sboTerm = 281
  r_0027_Km0835.sboTerm = 322
  r_0027_Km0454.sboTerm = 323
  r_0029.sboTerm = 176
  r_0029_Vmax.sboTerm = 324
  r_0029_Keq.sboTerm = 281
  r_0029_Km0010.sboTerm = 322
  r_0029_Km0291.sboTerm = 323
  r_0029_KmCO2.sboTerm = 323
  r_0032.sboTerm = 176
  r_0032_Vmax.sboTerm = 324
  r_0032_Keq.sboTerm = 281
  r_0032_Km0390.sboTerm = 322
  r_0032_KmAMP.sboTerm = 323
  r_0032_KmPHO.sboTerm = 323
  r_0038.sboTerm = 176
  r_0038_Vmax.sboTerm = 324
  r_0038_Keq.sboTerm = 281
  r_0038_Km0577.sboTerm = 322
  r_0038_Km0158.sboTerm = 323
  r_0038_Km0722.sboTerm = 323
  r_0039.sboTerm = 176
  r_0039_Vmax.sboTerm = 324
  r_0039_Keq.sboTerm = 281
  r_0039_Km0210.sboTerm = 322
  r_0039_Km0211.sboTerm = 323
  r_0040.sboTerm = 176
  r_0040_Vmax.sboTerm = 324
  r_0040_Keq.sboTerm = 281
  r_0040_Km0349.sboTerm = 322
  r_0040_Km0210.sboTerm = 323
  r_0040_KmPHO.sboTerm = 323
  r_0041.sboTerm = 176
  r_0041_Vmax.sboTerm = 324
  r_0041_Keq.sboTerm = 281
  r_0041_Km0231.sboTerm = 322
  r_0041_Km1212.sboTerm = 322
  r_0041_Km1207.sboTerm = 323
  r_0041_Km1445.sboTerm = 323
  r_0060.sboTerm = 176
  r_0060_Vmax.sboTerm = 324
  r_0060_Keq.sboTerm = 281
  r_0060_Km0165.sboTerm = 322
  r_0060_Km0009.sboTerm = 323
  r_0061.sboTerm = 176
  r_0061_Vmax.sboTerm = 324
  r_0061_Keq.sboTerm = 281
  r_0061_Km0009.sboTerm = 322
  r_0061_KmNAD.sboTerm = 322
  r_0061_Km0010.sboTerm = 323
  r_0061_KmNADH.sboTerm = 323
  r_0065.sboTerm = 176
  r_0065_Vmax.sboTerm = 324
  r_0065_Keq.sboTerm = 281
  r_0065_Km0261.sboTerm = 322
  r_0065_KmPEP.sboTerm = 322
  r_0065_Km0324.sboTerm = 323
  r_0065_KmPHO.sboTerm = 323
  r_0079.sboTerm = 176
  r_0079_Vmax.sboTerm = 324
  r_0079_Keq.sboTerm = 281
  r_0079_Km0301.sboTerm = 322
  r_0079_KmATP.sboTerm = 322
  r_0079_Km0999.sboTerm = 322
  r_0079_Km0302.sboTerm = 323
  r_0079_KmADP.sboTerm = 323
  r_0079_Km0991.sboTerm = 323
  r_0079_KmPHO.sboTerm = 323
  r_0080.sboTerm = 176
  r_0080_Vmax.sboTerm = 324
  r_0080_Keq.sboTerm = 281
  r_0080_Km0306.sboTerm = 322
  r_0080_Km1212.sboTerm = 322
  r_0080_Km0322.sboTerm = 323
  r_0080_Km1207.sboTerm = 323
  r_0091.sboTerm = 176
  r_0091_Vmax.sboTerm = 324
  r_0091_Keq.sboTerm = 281
  r_0091_Km0335.sboTerm = 322
  r_0091_Km0340.sboTerm = 323
  r_0096.sboTerm = 176
  r_0096_Vmax.sboTerm = 324
  r_0096_Keq.sboTerm = 281
  r_0096_Km0146.sboTerm = 322
  r_0096_Km1212.sboTerm = 322
  r_0096_Km0016.sboTerm = 323
  r_0096_Km1207.sboTerm = 323
  r_0097.sboTerm = 176
  r_0097_Vmax.sboTerm = 324
  r_0097_Keq.sboTerm = 281
  r_0097_KmPYR.sboTerm = 322
  r_0097_Km0146.sboTerm = 323
  r_0097_KmCO2.sboTerm = 323
  r_0103.sboTerm = 176
  r_0103_Vmax.sboTerm = 324
  r_0103_Keq.sboTerm = 281
  r_0103_Km0373.sboTerm = 322
  r_0103_Km0367.sboTerm = 323
  r_0103_Km0529.sboTerm = 323
  r_0108.sboTerm = 176
  r_0108_Vmax.sboTerm = 324
  r_0108_Keq.sboTerm = 281
  r_0108_Km0373.sboTerm = 322
  r_0108_KmATP.sboTerm = 322
  r_0108_Km0445.sboTerm = 322
  r_0108_KmADP.sboTerm = 323
  r_0108_Km1101.sboTerm = 323
  r_0108_KmPHO.sboTerm = 323
  r_0110.sboTerm = 176
  r_0110_Vmax.sboTerm = 324
  r_0110_Keq.sboTerm = 281
  r_0110_Km0362.sboTerm = 322
  r_0110_Km0529.sboTerm = 322
  r_0110_Km0373.sboTerm = 323
  r_0115.sboTerm = 176
  r_0115_Vmax.sboTerm = 324
  r_0115_Keq.sboTerm = 281
  r_0115_KmATP.sboTerm = 322
  r_0115_Km1192.sboTerm = 322
  r_0115_KmADP.sboTerm = 323
  r_0115_Km1191.sboTerm = 323
  r_0118.sboTerm = 176
  r_0118_Vmax.sboTerm = 324
  r_0118_Keq.sboTerm = 281
  r_0118_Km0145.sboTerm = 322
  r_0118_Km0991.sboTerm = 322
  r_0118_Km0180.sboTerm = 323
  r_0118_Km1182.sboTerm = 323
  r_0142.sboTerm = 176
  r_0142_Vmax.sboTerm = 324
  r_0142_Keq.sboTerm = 281
  r_0142_Km0386.sboTerm = 322
  r_0142_KmATP.sboTerm = 322
  r_0142_KmADP.sboTerm = 323
  r_0142_KmAMP.sboTerm = 323
  r_0144.sboTerm = 176
  r_0144_Vmax.sboTerm = 324
  r_0144_Keq.sboTerm = 281
  r_0144_Km1413.sboTerm = 322
  r_0144_Km0386.sboTerm = 323
  r_0144_Km1012.sboTerm = 323
  AK.sboTerm = 176
  r_0150.sboTerm = 176
  r_0150_Vmax.sboTerm = 324
  r_0150_Keq.sboTerm = 281
  r_0150_KmAMP.sboTerm = 322
  r_0150_Km0785.sboTerm = 322
  r_0150_KmADP.sboTerm = 323
  r_0150_Km0739.sboTerm = 323
  r_0151.sboTerm = 176
  r_0151_Vmax.sboTerm = 324
  r_0151_Keq.sboTerm = 281
  r_0151_Km0299.sboTerm = 322
  r_0151_Km0403.sboTerm = 323
  r_0151_Km0725.sboTerm = 323
  r_0152.sboTerm = 176
  r_0152_Vmax.sboTerm = 324
  r_0152_Keq.sboTerm = 281
  r_0152_Km0393.sboTerm = 322
  r_0152_KmAMP.sboTerm = 323
  r_0152_Km0725.sboTerm = 323
  r_0153.sboTerm = 176
  r_0153_Vmax.sboTerm = 324
  r_0153_Keq.sboTerm = 281
  r_0153_Km0785.sboTerm = 322
  r_0153_Km0849.sboTerm = 322
  r_0153_Km0973.sboTerm = 322
  r_0153_Km0393.sboTerm = 323
  r_0153_Km0739.sboTerm = 323
  r_0153_KmPHO.sboTerm = 323
  r_0154.sboTerm = 176
  r_0154_Vmax.sboTerm = 324
  r_0154_Keq.sboTerm = 281
  r_0154_Km0298.sboTerm = 322
  r_0154_KmATP.sboTerm = 322
  r_0154_Km0201.sboTerm = 323
  r_0154_KmADP.sboTerm = 323
  r_0156.sboTerm = 176
  r_0156_Vmax.sboTerm = 324
  r_0156_Keq.sboTerm = 281
  r_0156_Km0779.sboTerm = 322
  r_0156_Km0955.sboTerm = 322
  r_0156_Km1003.sboTerm = 323
  r_0156_KmPYR.sboTerm = 323
  r_0157.sboTerm = 176
  r_0157_Vmax.sboTerm = 324
  r_0157_Keq.sboTerm = 281
  r_0157_KmATP.sboTerm = 322
  r_0157_Km0955.sboTerm = 322
  r_0157_Km1582.sboTerm = 322
  r_0157_Km0404.sboTerm = 323
  r_0157_KmAMP.sboTerm = 323
  r_0157_Km0633.sboTerm = 323
  ADH.sboTerm = 176
  r_0173.sboTerm = 176
  r_0173_Vmax.sboTerm = 324
  r_0173_Keq.sboTerm = 281
  r_0173_KmAcAld.sboTerm = 322
  r_0173_Km1207.sboTerm = 322
  r_0173_Km0362.sboTerm = 323
  r_0173_Km1212.sboTerm = 323
  r_0174.sboTerm = 176
  r_0174_Vmax.sboTerm = 324
  r_0174_Keq.sboTerm = 281
  r_0174_KmAcAld.sboTerm = 322
  r_0174_KmNAD.sboTerm = 322
  r_0174_Km0362.sboTerm = 323
  r_0174_KmNADH.sboTerm = 323
  r_0195.sboTerm = 176
  r_0195_Vmax.sboTerm = 324
  r_0195_Keq.sboTerm = 281
  r_0195_KmG6P.sboTerm = 322
  r_0195_Km1543.sboTerm = 322
  r_0195_Km0409.sboTerm = 323
  r_0195_Km1538.sboTerm = 323
  r_0202.sboTerm = 176
  r_0202_Vmax.sboTerm = 324
  r_0202_Keq.sboTerm = 281
  r_0202_Km0427.sboTerm = 322
  r_0202_Km1386.sboTerm = 322
  r_0202_Km0633.sboTerm = 323
  r_0202_Km1187.sboTerm = 323
  r_0203.sboTerm = 176
  r_0203_Vmax.sboTerm = 324
  r_0203_Keq.sboTerm = 281
  r_0203_Km0515.sboTerm = 322
  r_0203_Km0999.sboTerm = 322
  r_0203_Km0427.sboTerm = 323
  r_0203_Km0991.sboTerm = 323
  r_0203_KmPYR.sboTerm = 323
  r_0207.sboTerm = 176
  r_0207_Vmax.sboTerm = 324
  r_0207_Keq.sboTerm = 281
  r_0207_Km0015.sboTerm = 322
  r_0207_Km0725.sboTerm = 323
  r_0207_Km0965.sboTerm = 323
  r_0208.sboTerm = 176
  r_0208_Vmax.sboTerm = 324
  r_0208_Keq.sboTerm = 281
  r_0208_KmATP.sboTerm = 322
  r_0208_Km0973.sboTerm = 322
  r_0208_Km0979.sboTerm = 322
  r_0208_Km0015.sboTerm = 323
  r_0208_KmAMP.sboTerm = 323
  r_0208_Km0633.sboTerm = 323
  r_0209.sboTerm = 176
  r_0209_Vmax.sboTerm = 324
  r_0209_Keq.sboTerm = 281
  r_0209_KmATP.sboTerm = 322
  r_0209_Km0965.sboTerm = 322
  r_0209_Km1583.sboTerm = 322
  r_0209_KmAMP.sboTerm = 323
  r_0209_Km0428.sboTerm = 323
  r_0209_Km0633.sboTerm = 323
  r_0211.sboTerm = 176
  r_0211_Vmax.sboTerm = 324
  r_0211_Keq.sboTerm = 281
  r_0211_KmATP.sboTerm = 322
  r_0211_Km0973.sboTerm = 322
  r_0211_Km0999.sboTerm = 322
  r_0211_KmAMP.sboTerm = 323
  r_0211_Km0633.sboTerm = 323
  r_0211_Km0969.sboTerm = 323
  r_0211_Km0991.sboTerm = 323
  r_0212.sboTerm = 176
  r_0212_Vmax.sboTerm = 324
  r_0212_Keq.sboTerm = 281
  r_0212_KmATP.sboTerm = 322
  r_0212_Km0969.sboTerm = 322
  r_0212_Km1585.sboTerm = 322
  r_0212_KmAMP.sboTerm = 323
  r_0212_Km0430.sboTerm = 323
  r_0212_Km0633.sboTerm = 323
  r_0214.sboTerm = 176
  r_0214_Vmax.sboTerm = 324
  r_0214_Keq.sboTerm = 281
  r_0214_Km0455.sboTerm = 322
  r_0214_Km0973.sboTerm = 322
  r_0214_Km1194.sboTerm = 323
  r_0214_KmPHO.sboTerm = 323
  r_0215.sboTerm = 176
  r_0215_Vmax.sboTerm = 324
  r_0215_Keq.sboTerm = 281
  r_0215_KmATP.sboTerm = 322
  r_0215_Km0973.sboTerm = 322
  r_0215_Km0295.sboTerm = 323
  r_0215_KmADP.sboTerm = 323
  r_0216.sboTerm = 176
  r_0216_Vmax.sboTerm = 324
  r_0216_Keq.sboTerm = 281
  r_0216_Km0991.sboTerm = 322
  r_0216_Km1271.sboTerm = 322
  r_0216_Km0180.sboTerm = 323
  r_0216_Km0973.sboTerm = 323
  r_0219.sboTerm = 176
  r_0219_Vmax.sboTerm = 324
  r_0219_Keq.sboTerm = 281
  r_0219_Km0295.sboTerm = 322
  r_0219_Km1212.sboTerm = 322
  r_0219_Km0978.sboTerm = 323
  r_0219_Km1207.sboTerm = 323
  r_0219_KmPHO.sboTerm = 323
  r_0220.sboTerm = 176
  r_0220_Vmax.sboTerm = 324
  r_0220_Keq.sboTerm = 281
  r_0220_KmATP.sboTerm = 322
  r_0220_Km0973.sboTerm = 322
  r_0220_Km1587.sboTerm = 322
  r_0220_KmAMP.sboTerm = 323
  r_0220_Km0432.sboTerm = 323
  r_0220_Km0633.sboTerm = 323
  r_0225.sboTerm = 176
  r_0225_Vmax.sboTerm = 324
  r_0225_Keq.sboTerm = 281
  r_0225_KmATP.sboTerm = 322
  r_0225_Km1386.sboTerm = 322
  r_0225_Km0326.sboTerm = 323
  r_0225_Km0633.sboTerm = 323
  r_0226.sboTerm = 176
  r_0226_Vmax.sboTerm = 324
  r_0226_Keq.sboTerm = 281
  r_0226_KmADP.sboTerm = 322
  r_0226_KmPHO.sboTerm = 322
  r_0226_KmATP.sboTerm = 323
  ATPase.sboTerm = 176
  r_0231.sboTerm = 176
  r_0231_Vmax.sboTerm = 324
  r_0231_Keq.sboTerm = 281
  r_0231_Km0262.sboTerm = 322
  r_0231_Km1212.sboTerm = 322
  r_0231_Km0122.sboTerm = 323
  r_0231_Km1207.sboTerm = 323
  r_0234.sboTerm = 176
  r_0234_Vmax.sboTerm = 324
  r_0234_Keq.sboTerm = 281
  r_0234_Km1207.sboTerm = 322
  r_0234_Km1578.sboTerm = 322
  r_0234_KmCO2.sboTerm = 323
  r_0234_Km1212.sboTerm = 323
  r_0234_Km1579.sboTerm = 323
  r_0235.sboTerm = 176
  r_0235_Vmax.sboTerm = 324
  r_0235_Keq.sboTerm = 281
  r_0235_Km0297.sboTerm = 322
  r_0235_KmNAD.sboTerm = 322
  r_0235_Km0209.sboTerm = 323
  r_0235_KmCO2.sboTerm = 323
  r_0235_KmNADH.sboTerm = 323
  r_0236.sboTerm = 176
  r_0236_Vmax.sboTerm = 324
  r_0236_Keq.sboTerm = 281
  r_0236_Km0209.sboTerm = 322
  r_0236_Km1212.sboTerm = 322
  r_0236_Km0296.sboTerm = 323
  r_0236_Km1207.sboTerm = 323
  r_0237.sboTerm = 176
  r_0237_Vmax.sboTerm = 324
  r_0237_Keq.sboTerm = 281
  r_0237_Km1212.sboTerm = 322
  r_0237_Km1579.sboTerm = 322
  r_0237_Km1207.sboTerm = 323
  r_0237_Km1569.sboTerm = 323
  r_0238.sboTerm = 176
  r_0238_Vmax.sboTerm = 324
  r_0238_Keq.sboTerm = 281
  r_0238_Km0296.sboTerm = 322
  r_0238_Km1212.sboTerm = 322
  r_0238_Km1275.sboTerm = 322
  r_0238_Km1207.sboTerm = 323
  r_0238_Km1576.sboTerm = 323
  r_0239.sboTerm = 176
  r_0239_Vmax.sboTerm = 324
  r_0239_Keq.sboTerm = 281
  r_0239_Km1212.sboTerm = 322
  r_0239_Km1275.sboTerm = 322
  r_0239_Km1576.sboTerm = 322
  r_0239_Km1207.sboTerm = 323
  r_0239_Km1577.sboTerm = 323
  r_0240.sboTerm = 176
  r_0240_Vmax.sboTerm = 324
  r_0240_Keq.sboTerm = 281
  r_0240_Km1212.sboTerm = 322
  r_0240_Km1275.sboTerm = 322
  r_0240_Km1577.sboTerm = 322
  r_0240_Km1207.sboTerm = 323
  r_0240_Km1578.sboTerm = 323
  r_0241.sboTerm = 176
  r_0241_Vmax.sboTerm = 324
  r_0241_Keq.sboTerm = 281
  r_0241_Km0122.sboTerm = 322
  r_0241_Km1212.sboTerm = 322
  r_0241_Km1275.sboTerm = 322
  r_0241_Km0297.sboTerm = 323
  r_0241_Km1207.sboTerm = 323
  r_0243.sboTerm = 176
  r_0243_Vmax.sboTerm = 324
  r_0243_Keq.sboTerm = 281
  r_0243_Km0700.sboTerm = 322
  r_0243_Km0657.sboTerm = 323
  r_0244.sboTerm = 176
  r_0244_Vmax.sboTerm = 324
  r_0244_Keq.sboTerm = 281
  r_0244_Km0662.sboTerm = 322
  r_0244_Km1212.sboTerm = 322
  r_0244_Km0666.sboTerm = 323
  r_0244_Km1207.sboTerm = 323
  r_0250.sboTerm = 176
  r_0250_Vmax.sboTerm = 324
  r_0250_Keq.sboTerm = 281
  r_0250_KmATP.sboTerm = 322
  r_0250_Km0445.sboTerm = 322
  r_0250_Km0999.sboTerm = 322
  r_0250_KmADP.sboTerm = 323
  r_0250_Km0455.sboTerm = 323
  r_0250_Km0991.sboTerm = 323
  r_0250_KmPHO.sboTerm = 323
  r_0257.sboTerm = 176
  r_0257_Vmax.sboTerm = 324
  r_0257_Keq.sboTerm = 281
  r_0257_Km0539.sboTerm = 322
  r_0257_Km1331.sboTerm = 322
  r_0257_Km0471.sboTerm = 323
  r_0257_Km0633.sboTerm = 323
  r_0264.sboTerm = 176
  r_0264_Vmax.sboTerm = 324
  r_0264_Keq.sboTerm = 281
  r_0264_Km0816.sboTerm = 322
  r_0264_Km1445.sboTerm = 322
  r_0264_Km0478.sboTerm = 323
  r_0264_Km0529.sboTerm = 323
  r_0278.sboTerm = 176
  r_0278_Vmax.sboTerm = 324
  r_0278_Keq.sboTerm = 281
  r_0278_Km0515.sboTerm = 322
  r_0278_Km1377.sboTerm = 323
  r_0279.sboTerm = 176
  r_0279_Vmax.sboTerm = 324
  r_0279_Keq.sboTerm = 281
  r_0279_Km0324.sboTerm = 322
  r_0279_Km0515.sboTerm = 323
  r_0279_KmPHO.sboTerm = 323
  r_0280.sboTerm = 176
  r_0280_Vmax.sboTerm = 324
  r_0280_Keq.sboTerm = 281
  r_0280_Km0516.sboTerm = 322
  r_0280_Km0940.sboTerm = 323
  r_0300.sboTerm = 176
  r_0300_Vmax.sboTerm = 324
  r_0300_Keq.sboTerm = 281
  r_0300_Km0373.sboTerm = 322
  r_0300_Km1271.sboTerm = 322
  r_0300_Km0522.sboTerm = 323
  r_0300_Km0529.sboTerm = 323
  r_0302.sboTerm = 176
  r_0302_Vmax.sboTerm = 324
  r_0302_Keq.sboTerm = 281
  r_0302_Km0522.sboTerm = 322
  r_0302_Km0516.sboTerm = 323
  r_0307.sboTerm = 176
  r_0307_Vmax.sboTerm = 324
  r_0307_Keq.sboTerm = 281
  r_0307_Km0419.sboTerm = 322
  r_0307_KmATP.sboTerm = 322
  r_0307_Km1559.sboTerm = 322
  r_0307_KmADP.sboTerm = 323
  r_0307_Km0539.sboTerm = 323
  r_0307_KmPHO.sboTerm = 323
  r_0309.sboTerm = 176
  r_0309_Vmax.sboTerm = 324
  r_0309_Keq.sboTerm = 281
  r_0309_Km1012.sboTerm = 322
  r_0309_Km1039.sboTerm = 322
  r_0309_Km0980.sboTerm = 323
  r_0310.sboTerm = 176
  r_0310_Vmax.sboTerm = 324
  r_0310_Keq.sboTerm = 281
  r_0310_Km0980.sboTerm = 322
  r_0310_Km0178.sboTerm = 323
  r_0310_Km0419.sboTerm = 323
  r_0310_Km0981.sboTerm = 323
  r_0311.sboTerm = 176
  r_0311_Vmax.sboTerm = 324
  r_0311_Keq.sboTerm = 281
  r_0311_Km0981.sboTerm = 322
  r_0311_Km1233.sboTerm = 322
  r_0311_Km0362.sboTerm = 323
  r_0311_Km0980.sboTerm = 323
  r_0313.sboTerm = 176
  r_0313_Vmax.sboTerm = 324
  r_0313_Keq.sboTerm = 281
  r_0313_KmATP.sboTerm = 322
  r_0313_Km0981.sboTerm = 322
  r_0313_Km1589.sboTerm = 322
  r_0313_KmAMP.sboTerm = 323
  r_0313_Km0542.sboTerm = 323
  r_0313_Km0633.sboTerm = 323
  r_0317.sboTerm = 176
  r_0317_Vmax.sboTerm = 324
  r_0317_Keq.sboTerm = 281
  r_0317_Km1059.sboTerm = 322
  r_0317_Km1212.sboTerm = 322
  r_0317_Km1275.sboTerm = 322
  r_0317_Km0262.sboTerm = 323
  r_0317_Km0722.sboTerm = 323
  r_0317_Km1207.sboTerm = 323
  r_0326.sboTerm = 176
  r_0326_Vmax.sboTerm = 324
  r_0326_Keq.sboTerm = 281
  r_0326_Km0589.sboTerm = 322
  r_0326_Km0419.sboTerm = 323
  r_0326_Km0654.sboTerm = 323
  r_0330.sboTerm = 176
  r_0330_Vmax.sboTerm = 324
  r_0330_Keq.sboTerm = 281
  r_0330_KmADP.sboTerm = 322
  r_0330_Km0613.sboTerm = 322
  r_0330_KmATP.sboTerm = 323
  r_0330_Km0615.sboTerm = 323
  r_0336.sboTerm = 176
  r_0336_Vmax.sboTerm = 324
  r_0336_Keq.sboTerm = 281
  r_0336_Km0529.sboTerm = 322
  r_0336_Km1524.sboTerm = 322
  r_0336_Km0380.sboTerm = 323
  r_0336_Km0619.sboTerm = 323
  r_0337.sboTerm = 176
  r_0337_Vmax.sboTerm = 324
  r_0337_Keq.sboTerm = 281
  r_0337_Km1331.sboTerm = 322
  r_0337_Km0619.sboTerm = 323
  r_0337_KmPHO.sboTerm = 323
  r_0344.sboTerm = 176
  r_0344_Vmax.sboTerm = 324
  r_0344_Keq.sboTerm = 281
  r_0344_Km0625.sboTerm = 322
  r_0344_Km1212.sboTerm = 322
  r_0344_Km1207.sboTerm = 323
  r_0344_Km1487.sboTerm = 323
  r_0349.sboTerm = 176
  r_0349_Vmax.sboTerm = 324
  r_0349_Keq.sboTerm = 281
  r_0349_Km1194.sboTerm = 322
  r_0349_Km0061.sboTerm = 323
  r_0352.sboTerm = 176
  r_0352_Vmax.sboTerm = 324
  r_0352_Keq.sboTerm = 281
  r_0352_Km0016.sboTerm = 322
  r_0352_Km0232.sboTerm = 323
  r_0353.sboTerm = 176
  r_0353_Vmax.sboTerm = 324
  r_0353_Keq.sboTerm = 281
  r_0353_Km0008.sboTerm = 322
  r_0353_Km0056.sboTerm = 323
  r_0355.sboTerm = 176
  r_0355_Vmax.sboTerm = 324
  r_0355_Keq.sboTerm = 281
  r_0355_Km0943.sboTerm = 322
  r_0355_Km1376.sboTerm = 322
  r_0355_Km0633.sboTerm = 323
  r_0355_Km0745.sboTerm = 323
  r_0361.sboTerm = 176
  r_0361_Vmax.sboTerm = 324
  r_0361_Keq.sboTerm = 281
  r_0361_Km0645.sboTerm = 322
  r_0361_Km0743.sboTerm = 322
  r_0361_Km0644.sboTerm = 323
  r_0361_Km0739.sboTerm = 323
  r_0362.sboTerm = 176
  r_0362_Vmax.sboTerm = 324
  r_0362_Keq.sboTerm = 281
  r_0362_Km0644.sboTerm = 322
  r_0362_Km0645.sboTerm = 323
  r_0362_Km1107.sboTerm = 323
  r_0364.sboTerm = 176
  r_0364_Vmax.sboTerm = 324
  r_0364_Keq.sboTerm = 281
  r_0364_Km0656.sboTerm = 322
  r_0364_Km0633.sboTerm = 323
  r_0364_Km0654.sboTerm = 323
  ENO.sboTerm = 176
  r_0386.sboTerm = 176
  r_0386_Vmax.sboTerm = 324
  r_0386_Keq.sboTerm = 281
  r_0386_Km0595.sboTerm = 322
  r_0386_Km1101.sboTerm = 322
  r_0386_Km1212.sboTerm = 322
  r_0386_KmCO2.sboTerm = 323
  r_0386_Km0529.sboTerm = 323
  r_0386_Km1065.sboTerm = 323
  r_0386_Km1207.sboTerm = 323
  r_0387.sboTerm = 176
  r_0387_Vmax.sboTerm = 324
  r_0387_Keq.sboTerm = 281
  r_0387_Km1065.sboTerm = 322
  r_0387_Km1101.sboTerm = 322
  r_0387_Km1212.sboTerm = 322
  r_0387_KmCO2.sboTerm = 323
  r_0387_Km0529.sboTerm = 323
  r_0387_Km1161.sboTerm = 323
  r_0387_Km1207.sboTerm = 323
  r_0389.sboTerm = 176
  r_0389_Vmax.sboTerm = 324
  r_0389_Keq.sboTerm = 281
  r_0389_Km1101.sboTerm = 322
  r_0389_Km1161.sboTerm = 322
  r_0389_Km1212.sboTerm = 322
  r_0389_KmCO2.sboTerm = 323
  r_0389_Km0529.sboTerm = 323
  r_0389_Km1207.sboTerm = 323
  r_0389_Km1286.sboTerm = 323
  r_0391.sboTerm = 176
  r_0391_Vmax.sboTerm = 324
  r_0391_Keq.sboTerm = 281
  r_0391_Km1101.sboTerm = 322
  r_0391_Km1212.sboTerm = 322
  r_0391_Km1286.sboTerm = 322
  r_0391_KmCO2.sboTerm = 323
  r_0391_Km0529.sboTerm = 323
  r_0391_Km1207.sboTerm = 323
  r_0391_Km1449.sboTerm = 323
  r_0393.sboTerm = 176
  r_0393_Vmax.sboTerm = 324
  r_0393_Keq.sboTerm = 281
  r_0393_Km1101.sboTerm = 322
  r_0393_Km1212.sboTerm = 322
  r_0393_Km1449.sboTerm = 322
  r_0393_KmCO2.sboTerm = 323
  r_0393_Km0529.sboTerm = 323
  r_0393_Km1084.sboTerm = 323
  r_0393_Km1207.sboTerm = 323
  r_0394.sboTerm = 176
  r_0394_Vmax.sboTerm = 324
  r_0394_Keq.sboTerm = 281
  r_0394_Km1084.sboTerm = 322
  r_0394_Km1101.sboTerm = 322
  r_0394_Km1212.sboTerm = 322
  r_0394_KmCO2.sboTerm = 323
  r_0394_Km0505.sboTerm = 323
  r_0394_Km0529.sboTerm = 323
  r_0394_Km1207.sboTerm = 323
  r_0397.sboTerm = 176
  r_0397_Vmax.sboTerm = 324
  r_0397_Keq.sboTerm = 281
  r_0397_Km1101.sboTerm = 322
  r_0397_Km1212.sboTerm = 322
  r_0397_Km1255.sboTerm = 322
  r_0397_KmCO2.sboTerm = 323
  r_0397_Km0529.sboTerm = 323
  r_0397_Km0602.sboTerm = 323
  r_0397_Km1207.sboTerm = 323
  r_0398.sboTerm = 176
  r_0398_Vmax.sboTerm = 324
  r_0398_Keq.sboTerm = 281
  r_0398_Km0373.sboTerm = 322
  r_0398_Km1101.sboTerm = 322
  r_0398_Km1212.sboTerm = 322
  r_0398_KmCO2.sboTerm = 323
  r_0398_Km0529.sboTerm = 323
  r_0398_Km1207.sboTerm = 323
  r_0398_Km1255.sboTerm = 323
  r_0399.sboTerm = 176
  r_0399_Vmax.sboTerm = 324
  r_0399_Keq.sboTerm = 281
  r_0399_KmAMP.sboTerm = 322
  r_0399_Km0602.sboTerm = 322
  r_0399_Km0633.sboTerm = 322
  r_0399_KmATP.sboTerm = 323
  r_0399_Km0529.sboTerm = 323
  r_0399_Km0595.sboTerm = 323
  r_0400.sboTerm = 176
  r_0400_Vmax.sboTerm = 324
  r_0400_Keq.sboTerm = 281
  r_0400_KmATP.sboTerm = 322
  r_0400_Km0529.sboTerm = 322
  r_0400_Km1065.sboTerm = 322
  r_0400_KmAMP.sboTerm = 323
  r_0400_Km0633.sboTerm = 323
  r_0400_Km1073.sboTerm = 323
  r_0406.sboTerm = 176
  r_0406_Vmax.sboTerm = 324
  r_0406_Keq.sboTerm = 281
  r_0406_KmATP.sboTerm = 322
  r_0406_Km0505.sboTerm = 322
  r_0406_Km0529.sboTerm = 322
  r_0406_KmAMP.sboTerm = 323
  r_0406_Km0633.sboTerm = 323
  r_0406_Km0816.sboTerm = 323
  r_0407.sboTerm = 176
  r_0407_Vmax.sboTerm = 324
  r_0407_Keq.sboTerm = 281
  r_0407_KmAMP.sboTerm = 322
  r_0407_Km0633.sboTerm = 322
  r_0407_Km1454.sboTerm = 322
  r_0407_KmATP.sboTerm = 323
  r_0407_Km0529.sboTerm = 323
  r_0407_Km1449.sboTerm = 323
  r_0432.sboTerm = 176
  r_0432_Vmax.sboTerm = 324
  r_0432_Keq.sboTerm = 281
  r_0432_Km0602.sboTerm = 322
  r_0432_Km1101.sboTerm = 322
  r_0432_Km1212.sboTerm = 322
  r_0432_KmCO2.sboTerm = 323
  r_0432_Km0529.sboTerm = 323
  r_0432_Km1073.sboTerm = 323
  r_0432_Km1207.sboTerm = 323
  r_0433.sboTerm = 176
  r_0433_Vmax.sboTerm = 324
  r_0433_Keq.sboTerm = 281
  r_0433_Km1073.sboTerm = 322
  r_0433_Km1101.sboTerm = 322
  r_0433_Km1212.sboTerm = 322
  r_0433_KmCO2.sboTerm = 323
  r_0433_Km0529.sboTerm = 323
  r_0433_Km1176.sboTerm = 323
  r_0433_Km1207.sboTerm = 323
  r_0434.sboTerm = 176
  r_0434_Vmax.sboTerm = 324
  r_0434_Keq.sboTerm = 281
  r_0434_Km1101.sboTerm = 322
  r_0434_Km1176.sboTerm = 322
  r_0434_Km1212.sboTerm = 322
  r_0434_KmCO2.sboTerm = 323
  r_0434_Km0529.sboTerm = 323
  r_0434_Km1207.sboTerm = 323
  r_0434_Km1302.sboTerm = 323
  r_0435.sboTerm = 176
  r_0435_Vmax.sboTerm = 324
  r_0435_Keq.sboTerm = 281
  r_0435_Km1101.sboTerm = 322
  r_0435_Km1212.sboTerm = 322
  r_0435_Km1302.sboTerm = 322
  r_0435_KmCO2.sboTerm = 323
  r_0435_Km0529.sboTerm = 323
  r_0435_Km1207.sboTerm = 323
  r_0435_Km1454.sboTerm = 323
  r_0438.sboTerm = 176
  r_0438_Vmax.sboTerm = 324
  r_0438_Keq.sboTerm = 281
  r_0438_Km0710.sboTerm = 322
  r_0438_Km1275.sboTerm = 322
  r_0438_Km0709.sboTerm = 323
  r_0439.sboTerm = 176
  r_0439_Vmax.sboTerm = 324
  r_0439_Keq.sboTerm = 281
  r_0439_Km0709.sboTerm = 322
  r_0439_Km1535.sboTerm = 322
  r_0439_Km0710.sboTerm = 323
  r_0439_Km1537.sboTerm = 323
  r_0446.sboTerm = 176
  r_0446_Vmax.sboTerm = 324
  r_0446_Keq.sboTerm = 281
  r_0446_KmATP.sboTerm = 322
  r_0446_Km0722.sboTerm = 322
  r_0446_Km1487.sboTerm = 322
  r_0446_Km0120.sboTerm = 323
  r_0446_KmADP.sboTerm = 323
  r_0446_KmPHO.sboTerm = 323
  FBA.sboTerm = 176
  r_0451.sboTerm = 176
  r_0451_Vmax.sboTerm = 324
  r_0451_Keq.sboTerm = 281
  r_0451_Km0725.sboTerm = 322
  r_0451_Km0066.sboTerm = 323
  r_0462.sboTerm = 176
  r_0462_Vmax.sboTerm = 324
  r_0462_Keq.sboTerm = 281
  r_0462_Km0745.sboTerm = 322
  r_0462_Km0943.sboTerm = 322
  r_0462_Km0190.sboTerm = 323
  r_0462_Km0633.sboTerm = 323
  r_0466.sboTerm = 176
  r_0466_Vmax.sboTerm = 324
  r_0466_Keq.sboTerm = 281
  r_0466_KmG6P.sboTerm = 322
  r_0466_Km1207.sboTerm = 322
  r_0466_Km0335.sboTerm = 323
  r_0466_Km1212.sboTerm = 323
  PGI.sboTerm = 176
  r_0470.sboTerm = 176
  r_0470_Vmax.sboTerm = 324
  r_0470_Keq.sboTerm = 281
  r_0470_Km0180.sboTerm = 322
  r_0470_Km0419.sboTerm = 322
  r_0470_KmNADH.sboTerm = 322
  r_0470_Km0991.sboTerm = 323
  r_0470_KmNAD.sboTerm = 323
  r_0476.sboTerm = 176
  r_0476_Vmax.sboTerm = 324
  r_0476_Keq.sboTerm = 281
  r_0476_Km0419.sboTerm = 322
  r_0476_KmATP.sboTerm = 322
  r_0476_Km0991.sboTerm = 322
  r_0476_KmADP.sboTerm = 323
  r_0476_Km0999.sboTerm = 323
  r_0476_KmPHO.sboTerm = 323
  r_0478.sboTerm = 176
  r_0478_Vmax.sboTerm = 324
  r_0478_Keq.sboTerm = 281
  r_0478_KmATP.sboTerm = 322
  r_0478_Km0999.sboTerm = 322
  r_0478_Km1590.sboTerm = 322
  r_0478_KmAMP.sboTerm = 323
  r_0478_Km0633.sboTerm = 323
  r_0478_Km0747.sboTerm = 323
  r_0479.sboTerm = 176
  r_0479_Vmax.sboTerm = 324
  r_0479_Keq.sboTerm = 281
  r_0479_KmATP.sboTerm = 322
  r_0479_Km0991.sboTerm = 322
  r_0479_Km1591.sboTerm = 322
  r_0479_KmAMP.sboTerm = 323
  r_0479_Km0633.sboTerm = 323
  r_0479_Km0748.sboTerm = 323
  TDH.sboTerm = 176
  r_0489.sboTerm = 176
  r_0489_Vmax.sboTerm = 324
  r_0489_Keq.sboTerm = 281
  r_0489_Km0767.sboTerm = 322
  r_0489_KmGLY.sboTerm = 323
  r_0489_KmPHO.sboTerm = 323
  r_0491.sboTerm = 176
  r_0491_Vmax.sboTerm = 324
  r_0491_Keq.sboTerm = 281
  r_0491_KmDHAP.sboTerm = 322
  r_0491_KmNADH.sboTerm = 322
  r_0491_Km0767.sboTerm = 323
  r_0491_KmNAD.sboTerm = 323
  r_0495.sboTerm = 176
  r_0495_Vmax.sboTerm = 324
  r_0495_Keq.sboTerm = 281
  r_0495_Km0380.sboTerm = 322
  r_0495_Km0767.sboTerm = 322
  r_0495_Km0082.sboTerm = 323
  r_0495_Km0529.sboTerm = 323
  r_0499.sboTerm = 176
  r_0499_Vmax.sboTerm = 324
  r_0499_Keq.sboTerm = 281
  r_0499_Km0120.sboTerm = 322
  r_0499_Km0325.sboTerm = 322
  r_0499_Km0301.sboTerm = 323
  r_0499_Km1487.sboTerm = 323
  r_0501.sboTerm = 176
  r_0501_Vmax.sboTerm = 324
  r_0501_Keq.sboTerm = 281
  r_0501_Km1003.sboTerm = 322
  r_0501_KmNAD.sboTerm = 322
  r_0501_Km1487.sboTerm = 322
  r_0501_Km0306.sboTerm = 323
  r_0501_Km0419.sboTerm = 323
  r_0501_KmCO2.sboTerm = 323
  r_0501_KmNADH.sboTerm = 323
  r_0502.sboTerm = 176
  r_0502_Vmax.sboTerm = 324
  r_0502_Keq.sboTerm = 281
  r_0502_Km0306.sboTerm = 322
  r_0502_Km1003.sboTerm = 322
  r_0502_Km1039.sboTerm = 323
  r_0502_Km1487.sboTerm = 323
  r_0510.sboTerm = 176
  r_0510_Vmax.sboTerm = 324
  r_0510_Keq.sboTerm = 281
  r_0510_Km1543.sboTerm = 322
  r_0510_Km0773.sboTerm = 323
  r_0510_Km1538.sboTerm = 323
  r_0512.sboTerm = 176
  r_0512_Vmax.sboTerm = 324
  r_0512_Keq.sboTerm = 281
  r_0512_KmATP.sboTerm = 322
  r_0512_Km1003.sboTerm = 322
  r_0512_Km1593.sboTerm = 322
  r_0512_KmAMP.sboTerm = 323
  r_0512_Km0633.sboTerm = 323
  r_0512_Km0757.sboTerm = 323
  r_0514.sboTerm = 176
  r_0514_Vmax.sboTerm = 324
  r_0514_Keq.sboTerm = 281
  r_0514_KmATP.sboTerm = 322
  r_0514_Km0999.sboTerm = 322
  r_0514_Km1565.sboTerm = 322
  r_0514_KmAMP.sboTerm = 323
  r_0514_Km0633.sboTerm = 323
  r_0514_Km0782.sboTerm = 323
  r_0514_Km0991.sboTerm = 323
  r_0525.sboTerm = 176
  r_0525_Vmax.sboTerm = 324
  r_0525_Keq.sboTerm = 281
  r_0525_Km0785.sboTerm = 322
  r_0525_Km0141.sboTerm = 323
  r_0525_Km0633.sboTerm = 323
  r_0525_Km0722.sboTerm = 323
  r_0528.sboTerm = 176
  r_0528_Vmax.sboTerm = 324
  r_0528_Keq.sboTerm = 281
  r_0528_KmATP.sboTerm = 322
  r_0528_Km0782.sboTerm = 322
  r_0528_KmADP.sboTerm = 323
  r_0528_Km0739.sboTerm = 323
  r_0529.sboTerm = 176
  r_0529_Vmax.sboTerm = 324
  r_0529_Keq.sboTerm = 281
  r_0529_Km0586.sboTerm = 322
  r_0529_Km0782.sboTerm = 322
  r_0529_Km0582.sboTerm = 323
  r_0529_Km0739.sboTerm = 323
  HXK.sboTerm = 176
  r_0536.sboTerm = 176
  r_0536_Vmax.sboTerm = 324
  r_0536_Keq.sboTerm = 281
  r_0536_Km1010.sboTerm = 322
  r_0536_KmNAD.sboTerm = 322
  r_0536_Km1006.sboTerm = 323
  r_0536_KmNADH.sboTerm = 323
  r_0537.sboTerm = 176
  r_0537_Vmax.sboTerm = 324
  r_0537_Keq.sboTerm = 281
  r_0537_Km1011.sboTerm = 322
  r_0537_Km1010.sboTerm = 323
  r_0537_KmPHO.sboTerm = 323
  r_0538.sboTerm = 176
  r_0538_Vmax.sboTerm = 324
  r_0538_Keq.sboTerm = 281
  r_0538_Km0207.sboTerm = 322
  r_0538_Km0991.sboTerm = 322
  r_0538_Km0180.sboTerm = 323
  r_0538_Km1011.sboTerm = 323
  r_0539.sboTerm = 176
  r_0539_Vmax.sboTerm = 324
  r_0539_Keq.sboTerm = 281
  r_0539_KmATP.sboTerm = 322
  r_0539_Km1006.sboTerm = 322
  r_0539_Km1594.sboTerm = 322
  r_0539_KmAMP.sboTerm = 323
  r_0539_Km0633.sboTerm = 323
  r_0539_Km0832.sboTerm = 323
  r_0542.sboTerm = 176
  r_0542_Vmax.sboTerm = 324
  r_0542_Keq.sboTerm = 281
  r_0542_Km0454.sboTerm = 322
  r_0542_Km0836.sboTerm = 323
  r_0543.sboTerm = 176
  r_0543_Vmax.sboTerm = 324
  r_0543_Keq.sboTerm = 281
  r_0543_Km0180.sboTerm = 322
  r_0543_Km0373.sboTerm = 322
  r_0543_Km0529.sboTerm = 323
  r_0543_Km0835.sboTerm = 323
  r_0545.sboTerm = 176
  r_0545_Vmax.sboTerm = 324
  r_0545_Keq.sboTerm = 281
  r_0545_Km0836.sboTerm = 322
  r_0545_KmNAD.sboTerm = 322
  r_0545_Km0176.sboTerm = 323
  r_0545_KmNADH.sboTerm = 323
  r_0545_KmCO2.sboTerm = 323
  r_0547.sboTerm = 176
  r_0547_Vmax.sboTerm = 324
  r_0547_Keq.sboTerm = 281
  r_0547_Km0978.sboTerm = 322
  r_0547_Km1212.sboTerm = 322
  r_0547_Km1014.sboTerm = 323
  r_0547_Km1207.sboTerm = 323
  r_0548.sboTerm = 176
  r_0548_Vmax.sboTerm = 324
  r_0548_Keq.sboTerm = 281
  r_0548_KmATP.sboTerm = 322
  r_0548_Km1014.sboTerm = 322
  r_0548_KmADP.sboTerm = 323
  r_0548_Km1238.sboTerm = 323
  r_0549.sboTerm = 176
  r_0549_Vmax.sboTerm = 324
  r_0549_Keq.sboTerm = 281
  r_0549_Km0373.sboTerm = 322
  r_0549_Km1014.sboTerm = 322
  r_0549_Km0529.sboTerm = 323
  r_0549_Km1233.sboTerm = 323
  r_0553.sboTerm = 176
  r_0553_Vmax.sboTerm = 324
  r_0553_Keq.sboTerm = 281
  r_0553_Km0033.sboTerm = 322
  r_0553_Km0025.sboTerm = 323
  r_0553_Km0750.sboTerm = 323
  r_0558.sboTerm = 176
  r_0558_Vmax.sboTerm = 324
  r_0558_Keq.sboTerm = 281
  r_0558_Km0218.sboTerm = 322
  r_0558_Km1212.sboTerm = 322
  r_0558_Km0028.sboTerm = 323
  r_0558_Km0529.sboTerm = 323
  r_0558_Km1207.sboTerm = 323
  r_0559.sboTerm = 176
  r_0559_Vmax.sboTerm = 324
  r_0559_Keq.sboTerm = 281
  r_0559_Km0367.sboTerm = 322
  r_0559_Km0373.sboTerm = 322
  r_0559_Km0218.sboTerm = 323
  r_0559_Km0529.sboTerm = 323
  r_0563.sboTerm = 176
  r_0563_Vmax.sboTerm = 324
  r_0563_Keq.sboTerm = 281
  r_0563_Km0312.sboTerm = 322
  r_0563_Km0999.sboTerm = 322
  r_0563_Km0403.sboTerm = 323
  r_0563_Km0550.sboTerm = 323
  r_0563_Km0991.sboTerm = 323
  r_0564.sboTerm = 176
  r_0564_Vmax.sboTerm = 324
  r_0564_Keq.sboTerm = 281
  r_0564_Km0550.sboTerm = 322
  r_0564_Km0207.sboTerm = 323
  r_0565.sboTerm = 176
  r_0565_Vmax.sboTerm = 324
  r_0565_Keq.sboTerm = 281
  r_0565_Km0849.sboTerm = 322
  r_0565_KmNAD.sboTerm = 322
  r_0565_KmNADH.sboTerm = 323
  r_0565_Km1565.sboTerm = 323
  r_0566.sboTerm = 176
  r_0566_Vmax.sboTerm = 324
  r_0566_Keq.sboTerm = 281
  r_0566_Km0076.sboTerm = 322
  r_0566_Km0086.sboTerm = 323
  r_0566_KmCO2.sboTerm = 323
  r_0568.sboTerm = 176
  r_0568_Vmax.sboTerm = 324
  r_0568_Keq.sboTerm = 281
  r_0568_Km0633.sboTerm = 322
  r_0568_KmPHO.sboTerm = 323
  r_0570.sboTerm = 176
  r_0570_Vmax.sboTerm = 324
  r_0570_Keq.sboTerm = 281
  r_0570_Km1365.sboTerm = 322
  r_0570_Km0849.sboTerm = 323
  r_0591.sboTerm = 176
  r_0591_Vmax.sboTerm = 324
  r_0591_Keq.sboTerm = 281
  r_0591_Km0089.sboTerm = 322
  r_0591_Km0478.sboTerm = 322
  r_0591_Km0619.sboTerm = 323
  r_0591_Km0897.sboTerm = 323
  r_0658.sboTerm = 176
  r_0658_Vmax.sboTerm = 324
  r_0658_Keq.sboTerm = 281
  r_0658_Km0940.sboTerm = 322
  r_0658_KmNAD.sboTerm = 322
  r_0658_Km0180.sboTerm = 323
  r_0658_KmCO2.sboTerm = 323
  r_0658_KmNADH.sboTerm = 323
  r_0661.sboTerm = 176
  r_0661_Vmax.sboTerm = 324
  r_0661_Keq.sboTerm = 281
  r_0661_Km0940.sboTerm = 322
  r_0661_Km1207.sboTerm = 322
  r_0661_Km0180.sboTerm = 323
  r_0661_KmCO2.sboTerm = 323
  r_0661_Km1212.sboTerm = 323
  r_0662.sboTerm = 176
  r_0662_Vmax.sboTerm = 324
  r_0662_Keq.sboTerm = 281
  r_0662_Km0940.sboTerm = 322
  r_0662_Km0779.sboTerm = 323
  r_0662_Km1458.sboTerm = 323
  r_0663.sboTerm = 176
  r_0663_Vmax.sboTerm = 324
  r_0663_Keq.sboTerm = 281
  r_0663_Km0056.sboTerm = 322
  r_0663_Km0991.sboTerm = 322
  r_0663_Km0180.sboTerm = 323
  r_0663_Km1016.sboTerm = 323
  r_0665.sboTerm = 176
  r_0665_Vmax.sboTerm = 324
  r_0665_Keq.sboTerm = 281
  r_0665_KmATP.sboTerm = 322
  r_0665_Km1016.sboTerm = 322
  r_0665_Km1596.sboTerm = 322
  r_0665_KmAMP.sboTerm = 323
  r_0665_Km0633.sboTerm = 323
  r_0665_Km0847.sboTerm = 323
  r_0667.sboTerm = 176
  r_0667_Vmax.sboTerm = 324
  r_0667_Keq.sboTerm = 281
  r_0667_Km0943.sboTerm = 322
  r_0667_Km1376.sboTerm = 323
  r_0669.sboTerm = 176
  r_0669_Vmax.sboTerm = 324
  r_0669_Keq.sboTerm = 281
  r_0669_Km0039.sboTerm = 322
  r_0669_Km1212.sboTerm = 322
  r_0669_Km0008.sboTerm = 323
  r_0669_Km1207.sboTerm = 323
  r_0674.sboTerm = 176
  r_0674_Vmax.sboTerm = 324
  r_0674_Keq.sboTerm = 281
  r_0674_Km0991.sboTerm = 322
  r_0674_KmPYR.sboTerm = 322
  r_0674_Km0180.sboTerm = 323
  r_0674_Km0955.sboTerm = 323
  r_0678.sboTerm = 176
  r_0678_Vmax.sboTerm = 324
  r_0678_Keq.sboTerm = 281
  r_0678_Km0953.sboTerm = 322
  r_0678_Km1212.sboTerm = 322
  r_0678_Km0959.sboTerm = 323
  r_0678_Km1207.sboTerm = 323
  r_0688.sboTerm = 176
  r_0688_Vmax.sboTerm = 324
  r_0688_Keq.sboTerm = 281
  r_0688_Km1151.sboTerm = 322
  r_0688_Km1212.sboTerm = 322
  r_0688_Km0062.sboTerm = 323
  r_0688_Km1207.sboTerm = 323
  r_0692.sboTerm = 176
  r_0692_Vmax.sboTerm = 324
  r_0692_Keq.sboTerm = 281
  r_0692_Km1045.sboTerm = 322
  r_0692_Km0178.sboTerm = 323
  r_0692_Km0419.sboTerm = 323
  r_0696.sboTerm = 176
  r_0696_Vmax.sboTerm = 324
  r_0696_Keq.sboTerm = 281
  r_0696_Km0062.sboTerm = 322
  r_0696_KmNAD.sboTerm = 322
  r_0696_Km0063.sboTerm = 323
  r_0696_KmNADH.sboTerm = 323
  r_0697.sboTerm = 176
  r_0697_Vmax.sboTerm = 324
  r_0697_Keq.sboTerm = 281
  r_0697_Km0750.sboTerm = 322
  r_0697_Km1151.sboTerm = 322
  r_0697_Km0033.sboTerm = 323
  r_0698.sboTerm = 176
  r_0698_Vmax.sboTerm = 324
  r_0698_Keq.sboTerm = 281
  r_0698_Km0037.sboTerm = 322
  r_0698_Km1059.sboTerm = 323
  r_0699.sboTerm = 176
  r_0699_Vmax.sboTerm = 324
  r_0699_Keq.sboTerm = 281
  r_0699_Km0291.sboTerm = 322
  r_0699_Km0991.sboTerm = 322
  r_0699_Km0180.sboTerm = 323
  r_0699_Km1021.sboTerm = 323
  r_0701.sboTerm = 176
  r_0701_Vmax.sboTerm = 324
  r_0701_Keq.sboTerm = 281
  r_0701_KmATP.sboTerm = 322
  r_0701_Km1021.sboTerm = 322
  r_0701_Km1598.sboTerm = 322
  r_0701_KmAMP.sboTerm = 323
  r_0701_Km0633.sboTerm = 323
  r_0701_Km1077.sboTerm = 323
  r_0711.sboTerm = 176
  r_0711_Vmax.sboTerm = 324
  r_0711_Keq.sboTerm = 281
  r_0711_KmATP.sboTerm = 322
  r_0711_Km1025.sboTerm = 322
  r_0711_Km1600.sboTerm = 322
  r_0711_KmAMP.sboTerm = 323
  r_0711_Km0633.sboTerm = 323
  r_0711_Km1099.sboTerm = 323
  r_0713.sboTerm = 176
  r_0713_Vmax.sboTerm = 324
  r_0713_Keq.sboTerm = 281
  r_0713_Km0066.sboTerm = 322
  r_0713_KmNAD.sboTerm = 322
  r_0713_KmNADH.sboTerm = 323
  r_0713_Km1271.sboTerm = 323
  r_0722.sboTerm = 176
  r_0722_Vmax.sboTerm = 324
  r_0722_Keq.sboTerm = 281
  r_0722_Km0573.sboTerm = 322
  r_0722_Km0785.sboTerm = 322
  r_0722_Km0633.sboTerm = 323
  r_0722_Km0743.sboTerm = 323
  r_0723.sboTerm = 176
  r_0723_Vmax.sboTerm = 324
  r_0723_Keq.sboTerm = 281
  r_0723_KmF6P.sboTerm = 322
  r_0723_Km0574.sboTerm = 323
  r_0724.sboTerm = 176
  r_0724_Vmax.sboTerm = 324
  r_0724_Keq.sboTerm = 281
  r_0724_Km0304.sboTerm = 322
  r_0724_Km0120.sboTerm = 323
  r_0726.sboTerm = 176
  r_0726_Vmax.sboTerm = 324
  r_0726_Keq.sboTerm = 281
  r_0726_KmATP.sboTerm = 322
  r_0726_Km1029.sboTerm = 322
  r_0726_Km0633.sboTerm = 323
  r_0726_KmPHO.sboTerm = 323
  r_0726_Km1416.sboTerm = 323
  r_0727.sboTerm = 176
  r_0727_Vmax.sboTerm = 324
  r_0727_Keq.sboTerm = 281
  r_0727_Km0322.sboTerm = 322
  r_0727_Km1012.sboTerm = 322
  r_0727_Km1029.sboTerm = 323
  r_0727_Km1487.sboTerm = 323
  r_0729.sboTerm = 176
  r_0729_Vmax.sboTerm = 324
  r_0729_Keq.sboTerm = 281
  r_0729_KmATP.sboTerm = 322
  r_0729_Km1029.sboTerm = 322
  r_0729_Km1602.sboTerm = 322
  r_0729_KmAMP.sboTerm = 323
  r_0729_Km0633.sboTerm = 323
  r_0729_Km1148.sboTerm = 323
  r_0731.sboTerm = 176
  r_0731_Vmax.sboTerm = 324
  r_0731_Keq.sboTerm = 281
  r_0731_Km0304.sboTerm = 322
  r_0731_KmNADH.sboTerm = 322
  r_0731_Km0306.sboTerm = 323
  r_0731_KmNAD.sboTerm = 323
  r_0732.sboTerm = 176
  r_0732_Vmax.sboTerm = 324
  r_0732_Keq.sboTerm = 281
  r_0732_Km0306.sboTerm = 322
  r_0732_Km1207.sboTerm = 322
  r_0732_Km0304.sboTerm = 323
  r_0732_Km1212.sboTerm = 323
  r_0735.sboTerm = 176
  r_0735_Vmax.sboTerm = 324
  r_0735_Keq.sboTerm = 281
  r_0735_Km0028.sboTerm = 322
  r_0735_KmATP.sboTerm = 322
  r_0735_Km0019.sboTerm = 323
  r_0735_KmADP.sboTerm = 323
  r_0736.sboTerm = 176
  r_0736_Vmax.sboTerm = 324
  r_0736_Keq.sboTerm = 281
  r_0736_Km0028.sboTerm = 322
  r_0736_Km0539.sboTerm = 322
  r_0736_Km0019.sboTerm = 323
  r_0736_Km0467.sboTerm = 323
  r_0739.sboTerm = 176
  r_0739_Vmax.sboTerm = 324
  r_0739_Keq.sboTerm = 281
  r_0739_Km0018.sboTerm = 322
  r_0739_KmATP.sboTerm = 322
  r_0739_KmADP.sboTerm = 323
  r_0739_KmCO2.sboTerm = 323
  r_0739_Km0943.sboTerm = 323
  r_0739_KmPHO.sboTerm = 323
  r_0757.sboTerm = 176
  r_0757_Vmax.sboTerm = 324
  r_0757_Keq.sboTerm = 281
  r_0757_Km0126.sboTerm = 322
  r_0757_Km1153.sboTerm = 323
  r_0757_KmPHO.sboTerm = 323
  r_0758.sboTerm = 176
  r_0758_Vmax.sboTerm = 324
  r_0758_Keq.sboTerm = 281
  r_0758_KmG6P.sboTerm = 322
  r_0758_Km0126.sboTerm = 323
  r_0759.sboTerm = 176
  r_0759_Vmax.sboTerm = 324
  r_0759_Keq.sboTerm = 281
  r_0759_Km1191.sboTerm = 322
  r_0759_Km1212.sboTerm = 322
  r_0759_Km0145.sboTerm = 323
  r_0759_Km1207.sboTerm = 323
  r_0759_KmPHO.sboTerm = 323
  r_0792.sboTerm = 176
  r_0792_Vmax.sboTerm = 324
  r_0792_Keq.sboTerm = 281
  r_0792_Km0467.sboTerm = 322
  r_0792_Km0526.sboTerm = 323
  r_0792_KmPHO.sboTerm = 323
  r_0800.sboTerm = 176
  r_0800_Vmax.sboTerm = 324
  r_0800_Keq.sboTerm = 281
  r_0800_KmATP.sboTerm = 322
  r_0800_Km0739.sboTerm = 322
  r_0800_KmADP.sboTerm = 323
  r_0800_Km0785.sboTerm = 323
  r_0811.sboTerm = 176
  r_0811_Vmax.sboTerm = 324
  r_0811_Keq.sboTerm = 281
  r_0811_KmATP.sboTerm = 322
  r_0811_Km1538.sboTerm = 322
  r_0811_KmADP.sboTerm = 323
  r_0811_Km1559.sboTerm = 323
  r_0813.sboTerm = 176
  r_0813_Vmax.sboTerm = 324
  r_0813_Keq.sboTerm = 281
  r_0813_Km0841.sboTerm = 322
  r_0813_Km1233.sboTerm = 322
  r_0813_Km0362.sboTerm = 323
  r_0813_Km1012.sboTerm = 323
  r_0816.sboTerm = 176
  r_0816_Vmax.sboTerm = 324
  r_0816_Keq.sboTerm = 281
  r_0816_Km0455.sboTerm = 322
  r_0816_Km1266.sboTerm = 322
  r_0816_Km0979.sboTerm = 323
  r_0816_KmPHO.sboTerm = 323
  r_0818.sboTerm = 176
  r_0818_Vmax.sboTerm = 324
  r_0818_Keq.sboTerm = 281
  r_0818_Km0991.sboTerm = 322
  r_0818_Km1182.sboTerm = 322
  r_0818_Km1192.sboTerm = 323
  r_0818_Km1266.sboTerm = 323
  r_0820.sboTerm = 176
  r_0820_Vmax.sboTerm = 324
  r_0820_Keq.sboTerm = 281
  r_0820_Km1269.sboTerm = 322
  r_0820_Km1386.sboTerm = 322
  r_0820_Km0633.sboTerm = 323
  r_0820_Km1270.sboTerm = 323
  r_0821.sboTerm = 176
  r_0821_Vmax.sboTerm = 324
  r_0821_Keq.sboTerm = 281
  r_0821_Km1270.sboTerm = 322
  r_0821_KmCO2.sboTerm = 323
  r_0821_Km1545.sboTerm = 323
  r_0851.sboTerm = 176
  r_0851_Vmax.sboTerm = 324
  r_0851_Keq.sboTerm = 281
  r_0851_Km0951.sboTerm = 322
  r_0851_Km0991.sboTerm = 322
  r_0851_Km0180.sboTerm = 323
  r_0851_Km1032.sboTerm = 323
  r_0852.sboTerm = 176
  r_0852_Vmax.sboTerm = 324
  r_0852_Keq.sboTerm = 281
  r_0852_KmATP.sboTerm = 322
  r_0852_Km1032.sboTerm = 322
  r_0852_Km1604.sboTerm = 322
  r_0852_KmAMP.sboTerm = 323
  r_0852_Km0633.sboTerm = 323
  r_0852_Km1314.sboTerm = 323
  r_0855.sboTerm = 176
  r_0855_Vmax.sboTerm = 324
  r_0855_Keq.sboTerm = 281
  r_0855_Km0302.sboTerm = 322
  r_0855_KmATP.sboTerm = 322
  r_0855_Km0300.sboTerm = 323
  r_0855_KmADP.sboTerm = 323
  r_0855_KmPHO.sboTerm = 323
  r_0858.sboTerm = 176
  r_0858_Vmax.sboTerm = 324
  r_0858_Keq.sboTerm = 281
  r_0858_Km1351.sboTerm = 322
  r_0858_Km1416.sboTerm = 322
  r_0858_Km1343.sboTerm = 323
  r_0858_Km1413.sboTerm = 323
  r_0874.sboTerm = 176
  r_0874_Vmax.sboTerm = 324
  r_0874_Keq.sboTerm = 281
  r_0874_Km0471.sboTerm = 322
  r_0874_Km1153.sboTerm = 322
  r_0874_Km0089.sboTerm = 323
  r_0874_Km0526.sboTerm = 323
  r_0877.sboTerm = 176
  r_0877_Vmax.sboTerm = 324
  r_0877_Keq.sboTerm = 281
  r_0877_Km1337.sboTerm = 322
  r_0877_KmCO2.sboTerm = 323
  r_0877_Km1351.sboTerm = 323
  r_0880.sboTerm = 176
  r_0880_Vmax.sboTerm = 324
  r_0880_Keq.sboTerm = 281
  r_0880_Km0471.sboTerm = 322
  r_0880_Km1039.sboTerm = 322
  r_0880_Km0526.sboTerm = 323
  r_0880_Km1337.sboTerm = 323
  r_0883.sboTerm = 176
  r_0883_Vmax.sboTerm = 324
  r_0883_Keq.sboTerm = 281
  r_0883_Km0201.sboTerm = 322
  r_0883_Km1616.sboTerm = 322
  r_0883_Km0390.sboTerm = 323
  r_0883_Km1469.sboTerm = 323
  r_0883_Km1620.sboTerm = 323
  r_0884.sboTerm = 176
  r_0884_Vmax.sboTerm = 324
  r_0884_Keq.sboTerm = 281
  r_0884_KmATP.sboTerm = 322
  r_0884_Km1271.sboTerm = 322
  r_0884_KmADP.sboTerm = 323
  r_0884_KmCO2.sboTerm = 323
  r_0884_KmPEP.sboTerm = 323
  PFK.sboTerm = 176
  r_0888.sboTerm = 176
  r_0888_Vmax.sboTerm = 324
  r_0888_Keq.sboTerm = 281
  r_0888_KmG6P.sboTerm = 322
  r_0888_Km0567.sboTerm = 323
  r_0889.sboTerm = 176
  r_0889_Vmax.sboTerm = 324
  r_0889_Keq.sboTerm = 281
  r_0889_Km0340.sboTerm = 322
  r_0889_Km1207.sboTerm = 322
  r_0889_KmCO2.sboTerm = 323
  r_0889_Km0577.sboTerm = 323
  r_0889_Km1212.sboTerm = 323
  PGK.sboTerm = 176
  GPM.sboTerm = 176
  r_0900.sboTerm = 176
  r_0900_Vmax.sboTerm = 324
  r_0900_Keq.sboTerm = 281
  r_0900_Km1342.sboTerm = 322
  r_0900_Km1416.sboTerm = 322
  r_0900_Km1346.sboTerm = 323
  r_0900_Km1413.sboTerm = 323
  r_0901.sboTerm = 176
  r_0901_Vmax.sboTerm = 324
  r_0901_Keq.sboTerm = 281
  r_0901_Km1343.sboTerm = 322
  r_0901_Km1416.sboTerm = 322
  r_0901_Km1342.sboTerm = 323
  r_0901_Km1413.sboTerm = 323
  r_0902.sboTerm = 176
  r_0902_Vmax.sboTerm = 324
  r_0902_Keq.sboTerm = 281
  r_0902_Km0574.sboTerm = 322
  r_0902_Km0573.sboTerm = 323
  r_0904.sboTerm = 176
  r_0904_Vmax.sboTerm = 324
  r_0904_Keq.sboTerm = 281
  r_0904_Km0019.sboTerm = 322
  r_0904_KmATP.sboTerm = 322
  r_0904_Km0018.sboTerm = 323
  r_0904_KmADP.sboTerm = 323
  r_0908.sboTerm = 176
  r_0908_Vmax.sboTerm = 324
  r_0908_Keq.sboTerm = 281
  r_0908_KmATP.sboTerm = 322
  r_0908_Km0973.sboTerm = 322
  r_0908_Km1364.sboTerm = 322
  r_0908_Km0299.sboTerm = 323
  r_0908_KmADP.sboTerm = 323
  r_0908_KmPHO.sboTerm = 323
  r_0909.sboTerm = 176
  r_0909_Vmax.sboTerm = 324
  r_0909_Keq.sboTerm = 281
  r_0909_Km0078.sboTerm = 322
  r_0909_Km0077.sboTerm = 323
  r_0910.sboTerm = 176
  r_0910_Vmax.sboTerm = 324
  r_0910_Keq.sboTerm = 281
  r_0910_Km0326.sboTerm = 322
  r_0910_Km0078.sboTerm = 323
  r_0910_Km0633.sboTerm = 323
  r_0911.sboTerm = 176
  r_0911_Vmax.sboTerm = 324
  r_0911_Keq.sboTerm = 281
  r_0911_Km0300.sboTerm = 322
  r_0911_KmCO2.sboTerm = 322
  r_0911_KmATP.sboTerm = 322
  r_0911_Km1364.sboTerm = 323
  r_0911_KmADP.sboTerm = 323
  r_0911_KmPHO.sboTerm = 323
  r_0912.sboTerm = 176
  r_0912_Vmax.sboTerm = 324
  r_0912_Keq.sboTerm = 281
  r_0912_Km0120.sboTerm = 322
  r_0912_Km0403.sboTerm = 322
  r_0912_Km1365.sboTerm = 323
  r_0912_Km1487.sboTerm = 323
  r_0913.sboTerm = 176
  r_0913_Vmax.sboTerm = 324
  r_0913_Keq.sboTerm = 281
  r_0913_Km1187.sboTerm = 322
  r_0913_Km0076.sboTerm = 323
  r_0914.sboTerm = 176
  r_0914_Vmax.sboTerm = 324
  r_0914_Keq.sboTerm = 281
  r_0914_Km0327.sboTerm = 322
  r_0914_KmATP.sboTerm = 322
  r_0914_Km1003.sboTerm = 322
  r_0914_Km0325.sboTerm = 323
  r_0914_KmADP.sboTerm = 323
  r_0914_KmPHO.sboTerm = 323
  r_0915.sboTerm = 176
  r_0915_Vmax.sboTerm = 324
  r_0915_Keq.sboTerm = 281
  r_0915_Km0999.sboTerm = 322
  r_0915_Km1386.sboTerm = 322
  r_0915_Km0327.sboTerm = 323
  r_0915_Km0633.sboTerm = 323
  r_0915_Km0991.sboTerm = 323
  r_0916.sboTerm = 176
  r_0916_Vmax.sboTerm = 324
  r_0916_Keq.sboTerm = 281
  r_0916_KmATP.sboTerm = 322
  r_0916_Km1408.sboTerm = 322
  r_0916_KmAMP.sboTerm = 323
  r_0916_Km1386.sboTerm = 323
  r_0938.sboTerm = 176
  r_0938_Vmax.sboTerm = 324
  r_0938_Keq.sboTerm = 281
  r_0938_Km1377.sboTerm = 322
  r_0938_KmCO2.sboTerm = 323
  r_0938_Km0951.sboTerm = 323
  r_0939.sboTerm = 176
  r_0939_Vmax.sboTerm = 324
  r_0939_Keq.sboTerm = 281
  r_0939_Km1207.sboTerm = 322
  r_0939_Km1377.sboTerm = 322
  r_0939_Km0204.sboTerm = 323
  r_0939_KmCO2.sboTerm = 323
  r_0939_Km1212.sboTerm = 323
  r_0941.sboTerm = 176
  r_0941_Vmax.sboTerm = 324
  r_0941_Keq.sboTerm = 281
  r_0941_KmATP.sboTerm = 322
  r_0941_Km1035.sboTerm = 322
  r_0941_Km1606.sboTerm = 322
  r_0941_KmAMP.sboTerm = 323
  r_0941_Km0633.sboTerm = 323
  r_0941_Km1379.sboTerm = 323
  r_0957.sboTerm = 176
  r_0957_Vmax.sboTerm = 324
  r_0957_Keq.sboTerm = 281
  r_0957_Km0118.sboTerm = 322
  r_0957_Km1212.sboTerm = 322
  r_0957_Km1035.sboTerm = 323
  r_0957_Km1207.sboTerm = 323
  r_0958.sboTerm = 176
  r_0958_Vmax.sboTerm = 324
  r_0958_Keq.sboTerm = 281
  r_0958_KmATP.sboTerm = 322
  r_0958_Km0445.sboTerm = 322
  r_0958_KmPYR.sboTerm = 322
  r_0958_KmADP.sboTerm = 323
  r_0958_Km1271.sboTerm = 323
  r_0958_KmPHO.sboTerm = 323
  PDC.sboTerm = 176
  PYK.sboTerm = 176
  r_0967.sboTerm = 176
  r_0967_Vmax.sboTerm = 324
  r_0967_Keq.sboTerm = 281
  r_0967_Km0158.sboTerm = 322
  r_0967_Km0314.sboTerm = 322
  r_0967_Km0328.sboTerm = 323
  r_0967_KmPHO.sboTerm = 323
  r_0968.sboTerm = 176
  r_0968_Vmax.sboTerm = 324
  r_0968_Keq.sboTerm = 281
  r_0968_Km0328.sboTerm = 322
  r_0968_Km0314.sboTerm = 323
  r_0968_Km1405.sboTerm = 323
  r_0970.sboTerm = 176
  r_0970_Vmax.sboTerm = 324
  r_0970_Keq.sboTerm = 281
  r_0970_KmATP.sboTerm = 322
  r_0970_Km1616.sboTerm = 322
  r_0970_Km0586.sboTerm = 323
  r_0970_Km1620.sboTerm = 323
  r_0973.sboTerm = 176
  r_0973_Vmax.sboTerm = 324
  r_0973_Keq.sboTerm = 281
  r_0973_Km1559.sboTerm = 322
  r_0973_Km1616.sboTerm = 322
  r_0973_Km0656.sboTerm = 323
  r_0973_Km1620.sboTerm = 323
  r_0974.sboTerm = 176
  r_0974_Vmax.sboTerm = 324
  r_0974_Keq.sboTerm = 281
  r_0974_KmADP.sboTerm = 322
  r_0974_Km1616.sboTerm = 322
  r_0974_Km0582.sboTerm = 323
  r_0974_Km1620.sboTerm = 323
  r_0976.sboTerm = 176
  r_0976_Vmax.sboTerm = 324
  r_0976_Keq.sboTerm = 281
  r_0976_Km0467.sboTerm = 322
  r_0976_Km1616.sboTerm = 322
  r_0976_Km0587.sboTerm = 323
  r_0976_Km1620.sboTerm = 323
  r_0978.sboTerm = 176
  r_0978_Vmax.sboTerm = 324
  r_0978_Keq.sboTerm = 281
  r_0978_Km0739.sboTerm = 322
  r_0978_Km1616.sboTerm = 322
  r_0978_Km0613.sboTerm = 323
  r_0978_Km1620.sboTerm = 323
  r_0982.sboTerm = 176
  r_0982_Vmax.sboTerm = 324
  r_0982_Keq.sboTerm = 281
  r_0982_Km0577.sboTerm = 322
  r_0982_Km1408.sboTerm = 323
  r_0984.sboTerm = 176
  r_0984_Vmax.sboTerm = 324
  r_0984_Keq.sboTerm = 281
  r_0984_Km0577.sboTerm = 322
  r_0984_Km0581.sboTerm = 323
  r_0986.sboTerm = 176
  r_0986_Vmax.sboTerm = 324
  r_0986_Keq.sboTerm = 281
  r_0986_Km1416.sboTerm = 322
  r_0986_Km1569.sboTerm = 322
  r_0986_Km0700.sboTerm = 323
  r_0986_Km1413.sboTerm = 323
  r_0988.sboTerm = 176
  r_0988_Vmax.sboTerm = 324
  r_0988_Keq.sboTerm = 281
  r_0988_Km1038.sboTerm = 322
  r_0988_KmNAD.sboTerm = 322
  r_0988_Km0180.sboTerm = 323
  r_0988_Km1025.sboTerm = 323
  r_0988_KmNADH.sboTerm = 323
  r_0989.sboTerm = 176
  r_0989_Vmax.sboTerm = 324
  r_0989_Keq.sboTerm = 281
  r_0989_Km0959.sboTerm = 322
  r_0989_Km0991.sboTerm = 322
  r_0989_Km1212.sboTerm = 322
  r_0989_Km1038.sboTerm = 323
  r_0989_Km1207.sboTerm = 323
  r_0990.sboTerm = 176
  r_0990_Vmax.sboTerm = 324
  r_0990_Keq.sboTerm = 281
  r_0990_Km0551.sboTerm = 322
  r_0990_KmDHAP.sboTerm = 322
  r_0990_Km1426.sboTerm = 323
  r_0993.sboTerm = 176
  r_0993_Vmax.sboTerm = 324
  r_0993_Keq.sboTerm = 281
  r_0993_Km1039.sboTerm = 322
  r_0993_Km1302.sboTerm = 322
  r_0993_Km0231.sboTerm = 323
  r_0993_KmCO2.sboTerm = 323
  r_0993_Km0529.sboTerm = 323
  r_0995.sboTerm = 176
  r_0995_Vmax.sboTerm = 324
  r_0995_Keq.sboTerm = 281
  r_0995_KmATP.sboTerm = 322
  r_0995_Km1039.sboTerm = 322
  r_0995_Km1607.sboTerm = 322
  r_0995_KmAMP.sboTerm = 323
  r_0995_Km0633.sboTerm = 323
  r_0995_Km1428.sboTerm = 323
  r_0996.sboTerm = 176
  r_0996_Vmax.sboTerm = 324
  r_0996_Keq.sboTerm = 281
  r_0996_Km0211.sboTerm = 322
  r_0996_Km1212.sboTerm = 322
  r_0996_Km1207.sboTerm = 323
  r_0996_Km1429.sboTerm = 323
  r_0997.sboTerm = 176
  r_0997_Vmax.sboTerm = 324
  r_0997_Keq.sboTerm = 281
  r_0997_KmATP.sboTerm = 322
  r_0997_Km1429.sboTerm = 322
  r_0997_Km0261.sboTerm = 323
  r_0997_KmADP.sboTerm = 323
  r_1010.sboTerm = 176
  r_1010_Vmax.sboTerm = 324
  r_1010_Keq.sboTerm = 281
  r_1010_KmNADH.sboTerm = 322
  r_1010_Km1275.sboTerm = 322
  r_1010_Km1447.sboTerm = 322
  r_1010_Km0037.sboTerm = 323
  r_1010_KmNAD.sboTerm = 323
  r_1012.sboTerm = 176
  r_1012_Vmax.sboTerm = 324
  r_1012_Keq.sboTerm = 281
  r_1012_Km0190.sboTerm = 322
  r_1012_Km1212.sboTerm = 322
  r_1012_Km0633.sboTerm = 323
  r_1012_Km1207.sboTerm = 323
  r_1012_Km1447.sboTerm = 323
  r_1014.sboTerm = 176
  r_1014_Vmax.sboTerm = 324
  r_1014_Keq.sboTerm = 281
  r_1014_Km0666.sboTerm = 322
  r_1014_Km0595.sboTerm = 322
  r_1014_Km0672.sboTerm = 323
  r_1021.sboTerm = 176
  r_1021_Vmax.sboTerm = 324
  r_1021_Keq.sboTerm = 281
  r_1021_Km1458.sboTerm = 322
  r_1021_Km1537.sboTerm = 322
  r_1021_Km0725.sboTerm = 323
  r_1021_Km1535.sboTerm = 323
  r_1026.sboTerm = 176
  r_1026_Vmax.sboTerm = 324
  r_1026_Keq.sboTerm = 281
  r_1026_KmADP.sboTerm = 322
  r_1026_Km1467.sboTerm = 322
  r_1026_Km0298.sboTerm = 323
  r_1026_KmPHO.sboTerm = 323
  r_1027.sboTerm = 176
  r_1027_Vmax.sboTerm = 324
  r_1027_Keq.sboTerm = 281
  r_1027_Km1212.sboTerm = 322
  r_1027_Km1469.sboTerm = 322
  r_1027_Km0841.sboTerm = 323
  r_1027_Km1207.sboTerm = 323
  r_1038.sboTerm = 176
  r_1038_Vmax.sboTerm = 324
  r_1038_Keq.sboTerm = 281
  r_1038_Km1212.sboTerm = 322
  r_1038_Km1620.sboTerm = 322
  r_1038_Km1207.sboTerm = 323
  r_1038_Km1616.sboTerm = 323
  r_1040.sboTerm = 176
  r_1040_Vmax.sboTerm = 324
  r_1040_Keq.sboTerm = 281
  r_1040_Km1045.sboTerm = 322
  r_1040_KmAcAld.sboTerm = 323
  r_1040_Km1003.sboTerm = 323
  r_1041.sboTerm = 176
  r_1041_Vmax.sboTerm = 324
  r_1041_Keq.sboTerm = 281
  r_1041_Km1238.sboTerm = 322
  r_1041_Km1045.sboTerm = 323
  r_1041_KmPHO.sboTerm = 323
  r_1042.sboTerm = 176
  r_1042_Vmax.sboTerm = 324
  r_1042_Keq.sboTerm = 281
  r_1042_KmATP.sboTerm = 322
  r_1042_Km1045.sboTerm = 322
  r_1042_Km1608.sboTerm = 322
  r_1042_KmAMP.sboTerm = 323
  r_1042_Km0633.sboTerm = 323
  r_1042_Km1491.sboTerm = 323
  r_1045.sboTerm = 176
  r_1045_Vmax.sboTerm = 324
  r_1045_Keq.sboTerm = 281
  r_1045_Km0306.sboTerm = 322
  r_1045_Km0654.sboTerm = 322
  r_1045_Km0625.sboTerm = 323
  r_1045_Km0649.sboTerm = 323
  r_1048.sboTerm = 176
  r_1048_Vmax.sboTerm = 324
  r_1048_Keq.sboTerm = 281
  r_1048_KmGAP.sboTerm = 322
  r_1048_Km1427.sboTerm = 322
  r_1048_Km0551.sboTerm = 323
  r_1048_KmF6P.sboTerm = 323
  r_1049.sboTerm = 176
  r_1049_Vmax.sboTerm = 324
  r_1049_Keq.sboTerm = 281
  r_1049_Km0581.sboTerm = 322
  r_1049_Km1408.sboTerm = 322
  r_1049_KmGAP.sboTerm = 323
  r_1049_Km1427.sboTerm = 323
  r_1050.sboTerm = 176
  r_1050_Vmax.sboTerm = 324
  r_1050_Keq.sboTerm = 281
  r_1050_Km0551.sboTerm = 322
  r_1050_Km0581.sboTerm = 322
  r_1050_KmF6P.sboTerm = 323
  r_1050_KmGAP.sboTerm = 323
  r_1051.sboTerm = 176
  r_1051_Vmax.sboTerm = 324
  r_1051_Keq.sboTerm = 281
  r_1051_Km0409.sboTerm = 322
  r_1051_KmPHO.sboTerm = 323
  r_1051_Km1520.sboTerm = 323
  r_1052.sboTerm = 176
  r_1052_Vmax.sboTerm = 324
  r_1052_Keq.sboTerm = 281
  r_1052_Km0619.sboTerm = 322
  r_1052_Km0595.sboTerm = 322
  r_1052_Km1524.sboTerm = 323
  TPI.sboTerm = 176
  r_1055.sboTerm = 176
  r_1055_Vmax.sboTerm = 324
  r_1055_Keq.sboTerm = 281
  r_1055_Km0086.sboTerm = 322
  r_1055_Km1039.sboTerm = 322
  r_1055_KmGAP.sboTerm = 323
  r_1055_Km1048.sboTerm = 323
  r_1057.sboTerm = 176
  r_1057_Vmax.sboTerm = 324
  r_1057_Keq.sboTerm = 281
  r_1057_KmATP.sboTerm = 322
  r_1057_Km1048.sboTerm = 322
  r_1057_Km1610.sboTerm = 322
  r_1057_KmAMP.sboTerm = 323
  r_1057_Km0633.sboTerm = 323
  r_1057_Km1527.sboTerm = 323
  r_1063.sboTerm = 176
  r_1063_Vmax.sboTerm = 324
  r_1063_Keq.sboTerm = 281
  r_1063_Km0204.sboTerm = 322
  r_1063_Km0991.sboTerm = 322
  r_1063_Km0180.sboTerm = 323
  r_1063_Km1051.sboTerm = 323
  r_1066.sboTerm = 176
  r_1066_Vmax.sboTerm = 324
  r_1066_Keq.sboTerm = 281
  r_1066_KmATP.sboTerm = 322
  r_1066_Km1051.sboTerm = 322
  r_1066_Km1612.sboTerm = 322
  r_1066_KmAMP.sboTerm = 323
  r_1066_Km0633.sboTerm = 323
  r_1066_Km1533.sboTerm = 323
  r_1072.sboTerm = 176
  r_1072_Vmax.sboTerm = 324
  r_1072_Keq.sboTerm = 281
  r_1072_KmATP.sboTerm = 322
  r_1072_Km1545.sboTerm = 322
  r_1072_KmADP.sboTerm = 323
  r_1072_Km1538.sboTerm = 323
  r_1084.sboTerm = 176
  r_1084_Vmax.sboTerm = 324
  r_1084_Keq.sboTerm = 281
  r_1084_Km0567.sboTerm = 322
  r_1084_Km1559.sboTerm = 322
  r_1084_Km0633.sboTerm = 323
  r_1084_Km1543.sboTerm = 323
  r_1087.sboTerm = 176
  r_1087_Vmax.sboTerm = 324
  r_1087_Keq.sboTerm = 281
  r_1087_Km0232.sboTerm = 322
  r_1087_Km0991.sboTerm = 322
  r_1087_Km0180.sboTerm = 323
  r_1087_Km1056.sboTerm = 323
  r_1089.sboTerm = 176
  r_1089_Vmax.sboTerm = 324
  r_1089_Keq.sboTerm = 281
  r_1089_KmATP.sboTerm = 322
  r_1089_Km1056.sboTerm = 322
  r_1089_Km1614.sboTerm = 322
  r_1089_KmAMP.sboTerm = 323
  r_1089_Km0633.sboTerm = 323
  r_1089_Km1561.sboTerm = 323
  r_1115.sboTerm = 185
  r_1115_Vmax.sboTerm = 324
  r_1115_Km0420.sboTerm = 322
  r_1115_Km0419.sboTerm = 323
  HXT.sboTerm = 185
  r_1172.sboTerm = 185
  r_1172_Vmax.sboTerm = 324
  r_1172_KmGLY.sboTerm = 322
  r_1244.sboTerm = 185
  r_1244_Vmax.sboTerm = 324
  r_1244_Km1324.sboTerm = 322
  r_1244_KmPHO.sboTerm = 323
  r_1266.sboTerm = 185
  r_1266_Vmax.sboTerm = 324
  r_1266_Km1468.sboTerm = 322
  r_1266_Km1467.sboTerm = 323
  r_1633.sboTerm = 185
  r_1633_Vmax.sboTerm = 324
  r_1633_KmAcAld.sboTerm = 322
  r_1664.sboTerm = 176
  r_1664_Vmax.sboTerm = 324
  r_1664_Keq.sboTerm = 281
  r_1664_KmCO2.sboTerm = 322
  r_1664_Km0445.sboTerm = 323
  r_1682.sboTerm = 176
  r_1682_Vmax.sboTerm = 324
  r_1682_Keq.sboTerm = 281
  r_1682_Km1275.sboTerm = 322
  r_1682_Km1416.sboTerm = 322
  r_1682_Km1569.sboTerm = 322
  r_1682_Km0662.sboTerm = 323
  r_1682_Km1413.sboTerm = 323
  r_1697.sboTerm = 185
  r_1697_Vmax.sboTerm = 324
  r_1697_KmCO2.sboTerm = 322
  r_1704.sboTerm = 176
  r_1704_Vmax.sboTerm = 324
  r_1704_Keq.sboTerm = 281
  r_1704_KmADP.sboTerm = 322
  r_1704_Km0587.sboTerm = 322
  r_1704_KmATP.sboTerm = 323
  r_1704_Km0589.sboTerm = 323
  r_1729.sboTerm = 176
  r_1729_Vmax.sboTerm = 324
  r_1729_Keq.sboTerm = 281
  r_1729_KmADP.sboTerm = 322
  r_1729_Km0582.sboTerm = 322
  r_1729_KmATP.sboTerm = 323
  r_1729_Km0584.sboTerm = 323
  r_1762.sboTerm = 185
  r_1762_Vmax.sboTerm = 324
  r_1762_KmEtOH.sboTerm = 322
  r_1936.sboTerm = 176
  r_1936_Vmax.sboTerm = 324
  r_1936_Keq.sboTerm = 281
  r_1936_KmDHAP.sboTerm = 322
  r_1936_Km1151.sboTerm = 323
  r_1936_KmPHO.sboTerm = 323
  r_1979.sboTerm = 185
  r_1979_Vmax.sboTerm = 324
  r_1979_Km1277.sboTerm = 322
  r_1979_Km1275.sboTerm = 323
  r_2030.sboTerm = 176
  r_2030_Vmax.sboTerm = 324
  r_2030_Keq.sboTerm = 281
  r_2030_Km0313.sboTerm = 322
  r_2030_Km0314.sboTerm = 323
  r_2030_KmPHO.sboTerm = 323
  r_2057.sboTerm = 185
  r_2057_Vmax.sboTerm = 324
  r_2057_Km1458.sboTerm = 322
  r_2111.sboTerm = 176
  r_2126.sboTerm = 176
  r_2126_Vmax.sboTerm = 324
  r_2126_Keq.sboTerm = 281
  r_2126_Km1426.sboTerm = 322
  r_2126_Km1427.sboTerm = 323
  r_2126_KmPHO.sboTerm = 323
  r_2127.sboTerm = 176
  r_2127_Vmax.sboTerm = 324
  r_2127_Keq.sboTerm = 281
  r_2127_Km0061.sboTerm = 322
  r_2127_KmNAD.sboTerm = 322
  r_2127_Km1269.sboTerm = 323
  r_2127_KmNADH.sboTerm = 323

  // CV terms:
  cell identity "http://identifiers.org/go/GO:0005737"
  extracellular identity "http://identifiers.org/go/GO:0005576"
  s_0002 identity "http://identifiers.org/chebi/CHEBI:37671",
                  "http://identifiers.org/kegg.compound/C00965"
  s_0004 identity "http://identifiers.org/chebi/CHEBI:27380",
                  "http://identifiers.org/kegg.compound/C02493"
  s_0008 identity "http://identifiers.org/chebi/CHEBI:49258",
                  "http://identifiers.org/kegg.compound/C06007"
  s_0009 identity "http://identifiers.org/chebi/CHEBI:35121",
                  "http://identifiers.org/kegg.compound/C04411"
  s_0010 identity "http://identifiers.org/chebi/CHEBI:17214",
                  "http://identifiers.org/kegg.compound/C04236"
  s_0015 identity "http://identifiers.org/chebi/CHEBI:57472",
                  "http://identifiers.org/kegg.compound/C03406"
  s_0016 identity "http://identifiers.org/chebi/CHEBI:49072",
                  "http://identifiers.org/kegg.compound/C04272"
  s_0018 identity "http://identifiers.org/chebi/CHEBI:57557",
                  "http://identifiers.org/kegg.compound/C01143"
  s_0019 identity "http://identifiers.org/chebi/CHEBI:58146",
                  "http://identifiers.org/kegg.compound/C01107"
  s_0025 identity "http://identifiers.org/chebi/CHEBI:16004",
                  "http://identifiers.org/kegg.compound/C00256"
  s_0028 identity "http://identifiers.org/chebi/CHEBI:36464",
                  "http://identifiers.org/kegg.compound/C00418"
  s_0033 identity "http://identifiers.org/chebi/CHEBI:57474",
                  "http://identifiers.org/kegg.compound/C03451"
  s_0037 identity "http://identifiers.org/chebi/CHEBI:15441",
                  "http://identifiers.org/kegg.compound/C01054"
  s_0039 identity "http://identifiers.org/chebi/CHEBI:49256",
                  "http://identifiers.org/kegg.compound/C06006"
  s_0056 identity "http://identifiers.org/chebi/CHEBI:35146",
                  "http://identifiers.org/kegg.compound/C00671"
  s_0061 identity "http://identifiers.org/chebi/CHEBI:30864",
                  "http://identifiers.org/kegg.compound/C00337"
  s_0062 identity "http://identifiers.org/chebi/CHEBI:18041",
                  "http://identifiers.org/kegg.compound/C00424"
  s_0063 identity "http://identifiers.org/chebi/CHEBI:16651",
                  "http://identifiers.org/kegg.compound/C00186"
  s_0066 identity "http://identifiers.org/chebi/CHEBI:15589",
                  "http://identifiers.org/kegg.compound/C00149"
  BPG identity "http://identifiers.org/chebi/CHEBI:57604",
               "http://identifiers.org/kegg.compound/C00236"
  s_0076 identity "http://identifiers.org/chebi/CHEBI:58613",
                  "http://identifiers.org/kegg.compound/C01302"
  s_0077 identity "http://identifiers.org/chebi/CHEBI:58435",
                  "http://identifiers.org/kegg.compound/C04896"
  s_0078 identity "http://identifiers.org/chebi/CHEBI:59457",
                  "http://identifiers.org/kegg.compound/C02741"
  s_0082 identity "http://identifiers.org/chebi/CHEBI:57970",
                  "http://identifiers.org/kegg.compound/C00681"
  s_0086 identity "http://identifiers.org/chebi/CHEBI:60820",
                  "http://identifiers.org/kegg.compound/C03506"
  s_0089 identity "http://identifiers.org/chebi/CHEBI:57880",
                  "http://identifiers.org/kegg.compound/C01194"
  s_0118 identity "http://identifiers.org/chebi/CHEBI:15893",
                  "http://identifiers.org/kegg.compound/C04322"
  s_0120 identity "http://identifiers.org/chebi/CHEBI:57454",
                  "http://identifiers.org/kegg.compound/C00234"
  s_0122 identity "http://identifiers.org/chebi/CHEBI:18364",
                  "http://identifiers.org/kegg.compound/C05108"
  s_0126 identity "http://identifiers.org/chebi/CHEBI:58433",
                  "http://identifiers.org/kegg.compound/C01177"
  s_0141 identity "http://identifiers.org/chebi/CHEBI:58614",
                  "http://identifiers.org/kegg.compound/C01304"
  s_0142 identity "http://identifiers.org/chebi/CHEBI:52957"
  s_0145 identity "http://identifiers.org/chebi/CHEBI:29123",
                  "http://identifiers.org/kegg.compound/C01250"
  s_0146 identity "http://identifiers.org/chebi/CHEBI:57774",
                  "http://identifiers.org/kegg.compound/C00900"
  s_0158 identity "http://identifiers.org/chebi/CHEBI:50606",
                  "http://identifiers.org/kegg.compound/C15556"
  s_0162 identity "http://identifiers.org/chebi/CHEBI:35129",
                  "http://identifiers.org/kegg.compound/C02504"
  s_0165 identity "http://identifiers.org/chebi/CHEBI:58085",
                  "http://identifiers.org/kegg.compound/C02631"
  s_0176 identity "http://identifiers.org/chebi/CHEBI:57499",
                  "http://identifiers.org/kegg.compound/C00322"
  s_0178 identity "http://identifiers.org/chebi/CHEBI:16763",
                  "http://identifiers.org/kegg.compound/C00109"
  s_0180 identity "http://identifiers.org/chebi/CHEBI:16810",
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                  "http://identifiers.org/kegg.compound/C00464"
  s_1148 identity "http://identifiers.org/chebi/CHEBI:16635",
                  "http://identifiers.org/kegg.compound/C02430"
  s_1151 identity "http://identifiers.org/chebi/CHEBI:17158",
                  "http://identifiers.org/kegg.compound/C00546"
  s_1153 identity "http://identifiers.org/chebi/CHEBI:17268",
                  "http://identifiers.org/kegg.compound/C00137"
  s_1161 identity "http://identifiers.org/chebi/CHEBI:30807",
                  "http://identifiers.org/kegg.compound/C06424"
  s_1176 identity "http://identifiers.org/chebi/CHEBI:57385",
                  "http://identifiers.org/kegg.compound/C02593"
  s_1182 identity "http://identifiers.org/chebi/CHEBI:16543",
                  "http://identifiers.org/kegg.compound/C00437"
  s_1187 identity "http://identifiers.org/chebi/CHEBI:18277",
                  "http://identifiers.org/kegg.compound/C04302"
  s_1191 identity "http://identifiers.org/chebi/CHEBI:57936",
                  "http://identifiers.org/kegg.compound/C04133"
  s_1192 identity "http://identifiers.org/chebi/CHEBI:44337",
                  "http://identifiers.org/kegg.compound/C00624"
  s_1194 identity "http://identifiers.org/chebi/CHEBI:32814",
                  "http://identifiers.org/kegg.compound/C00438"
  NAD identity "http://identifiers.org/chebi/CHEBI:57540",
               "http://identifiers.org/kegg.compound/C00003"
  NADH identity "http://identifiers.org/chebi/CHEBI:57945",
                "http://identifiers.org/kegg.compound/C00004"
  s_1207 identity "http://identifiers.org/chebi/CHEBI:58349",
                  "http://identifiers.org/kegg.compound/C00006"
  s_1212 identity "http://identifiers.org/chebi/CHEBI:57783",
                  "http://identifiers.org/kegg.compound/C00005"
  s_1233 identity "http://identifiers.org/chebi/CHEBI:16288",
                  "http://identifiers.org/kegg.compound/C01077"
  s_1238 identity "http://identifiers.org/chebi/CHEBI:57590",
                  "http://identifiers.org/kegg.compound/C01102"
  s_1255 identity "http://identifiers.org/chebi/CHEBI:57386",
                  "http://identifiers.org/kegg.compound/C01944"
  s_1266 identity "http://identifiers.org/chebi/CHEBI:46912",
                  "http://identifiers.org/kegg.compound/C01602"
  s_1269 identity "http://identifiers.org/chebi/CHEBI:30839",
                  "http://identifiers.org/kegg.compound/C00295"
  s_1270 identity "http://identifiers.org/chebi/CHEBI:57538",
                  "http://identifiers.org/kegg.compound/C01103"
  s_1271 identity "http://identifiers.org/chebi/CHEBI:16452",
                  "http://identifiers.org/kegg.compound/C00036"
  s_1275 identity "http://identifiers.org/chebi/CHEBI:15379",
                  "http://identifiers.org/kegg.compound/C00007"
  s_1277 identity "http://identifiers.org/chebi/CHEBI:15379",
                  "http://identifiers.org/kegg.compound/C00007"
  s_1286 identity "http://identifiers.org/chebi/CHEBI:7896",
                  "http://identifiers.org/kegg.compound/C00249"
  s_1302 identity "http://identifiers.org/chebi/CHEBI:57379",
                  "http://identifiers.org/kegg.compound/C00154"
  s_1314 identity "http://identifiers.org/chebi/CHEBI:29153",
                  "http://identifiers.org/kegg.compound/C03511"
  PHO identity "http://identifiers.org/chebi/CHEBI:43474",
               "http://identifiers.org/kegg.compound/C00009"
  s_1324 identity "http://identifiers.org/chebi/CHEBI:43474",
                  "http://identifiers.org/kegg.compound/C00009"
  s_1331 identity "http://identifiers.org/chebi/CHEBI:57739",
                  "http://identifiers.org/kegg.compound/C00416"
  s_1337 identity "http://identifiers.org/chebi/CHEBI:18303",
                  "http://identifiers.org/kegg.compound/C02737"
  s_1342 identity "http://identifiers.org/chebi/CHEBI:52332",
                  "http://identifiers.org/kegg.compound/C04308"
  s_1343 identity "http://identifiers.org/chebi/CHEBI:15958",
                  "http://identifiers.org/kegg.compound/C01241"
  s_1346 identity "http://identifiers.org/chebi/CHEBI:49183",
                  "http://identifiers.org/kegg.compound/C00157"
  s_1351 identity "http://identifiers.org/chebi/CHEBI:16038",
                  "http://identifiers.org/kegg.compound/C00350"
  PEP identity "http://identifiers.org/chebi/CHEBI:58702",
               "http://identifiers.org/kegg.compound/C00074"
  s_1364 identity "http://identifiers.org/chebi/CHEBI:58564",
                  "http://identifiers.org/kegg.compound/C04751"
  s_1365 identity "http://identifiers.org/chebi/CHEBI:58467",
                  "http://identifiers.org/kegg.compound/C04734"
  s_1376 identity "http://identifiers.org/chebi/CHEBI:57623",
                  "http://identifiers.org/kegg.compound/C00235"
  s_1377 identity "http://identifiers.org/chebi/CHEBI:29934",
                  "http://identifiers.org/kegg.compound/C00254"
  s_1379 identity "http://identifiers.org/chebi/CHEBI:29154",
                  "http://identifiers.org/kegg.compound/C02702"
  s_1386 identity "http://identifiers.org/chebi/CHEBI:58017",
                  "http://identifiers.org/kegg.compound/C00119"
  PYR identity "http://identifiers.org/chebi/CHEBI:15361",
               "http://identifiers.org/kegg.compound/C00022"
  s_1405 identity "http://identifiers.org/chebi/CHEBI:57986",
                  "http://identifiers.org/kegg.compound/C00255"
  s_1408 identity "http://identifiers.org/chebi/CHEBI:18189",
                  "http://identifiers.org/kegg.compound/C03736"
  s_1413 identity "http://identifiers.org/chebi/CHEBI:16680",
                  "http://identifiers.org/kegg.compound/C00021"
  s_1416 identity "http://identifiers.org/chebi/CHEBI:15414",
                  "http://identifiers.org/kegg.compound/C00019"
  s_1426 identity "http://identifiers.org/chebi/CHEBI:58335",
                  "http://identifiers.org/kegg.compound/C00447"
  s_1427 identity "http://identifiers.org/chebi/CHEBI:57483",
                  "http://identifiers.org/kegg.compound/C05382"
  s_1428 identity "http://identifiers.org/chebi/CHEBI:29162",
                  "http://identifiers.org/kegg.compound/C02553"
  s_1429 identity "http://identifiers.org/chebi/CHEBI:36208",
                  "http://identifiers.org/kegg.compound/C00493"
  s_1445 identity "http://identifiers.org/chebi/CHEBI:57817",
                  "http://identifiers.org/kegg.compound/C00836"
  s_1447 identity "http://identifiers.org/chebi/CHEBI:15440",
                  "http://identifiers.org/kegg.compound/C00751"
  s_1449 identity "http://identifiers.org/chebi/CHEBI:25629",
                  "http://identifiers.org/kegg.compound/C01530"
  s_1454 identity "http://identifiers.org/chebi/CHEBI:57394",
                  "http://identifiers.org/kegg.compound/C00412"
  s_1458 identity "http://identifiers.org/chebi/CHEBI:30031",
                  "http://identifiers.org/kegg.compound/C00042"
  s_1459 identity "http://identifiers.org/chebi/CHEBI:30031",
                  "http://identifiers.org/kegg.compound/C00042"
  s_1467 identity "http://identifiers.org/chebi/CHEBI:16189",
                  "http://identifiers.org/kegg.compound/C00059"
  s_1468 identity "http://identifiers.org/chebi/CHEBI:16189",
                  "http://identifiers.org/kegg.compound/C00059"
  s_1469 identity "http://identifiers.org/chebi/CHEBI:17137",
                  "http://identifiers.org/kegg.compound/C11481"
  s_1487 identity "http://identifiers.org/chebi/CHEBI:20506",
                  "http://identifiers.org/kegg.compound/C00101"
  s_1491 identity "http://identifiers.org/chebi/CHEBI:29163",
                  "http://identifiers.org/kegg.compound/C02992"
  s_1520 identity "http://identifiers.org/chebi/CHEBI:16551",
                  "http://identifiers.org/kegg.compound/C01083"
  s_1524 identity "http://identifiers.org/chebi/CHEBI:17855",
                  "http://identifiers.org/kegg.compound/C00422"
  s_1527 identity "http://identifiers.org/chebi/CHEBI:29159",
                  "http://identifiers.org/kegg.compound/C03512"
  s_1533 identity "http://identifiers.org/chebi/CHEBI:29161",
                  "http://identifiers.org/kegg.compound/C02839"
  s_1535 identity "http://identifiers.org/chebi/CHEBI:52970",
                  "http://identifiers.org/kegg.compound/C00390"
  s_1537 identity "http://identifiers.org/chebi/CHEBI:52971",
                  "http://identifiers.org/kegg.compound/C17568"
  s_1538 identity "http://identifiers.org/chebi/CHEBI:58223",
                  "http://identifiers.org/kegg.compound/C00015"
  s_1543 identity "http://identifiers.org/chebi/CHEBI:58367",
                  "http://identifiers.org/kegg.compound/C00029"
  s_1545 identity "http://identifiers.org/chebi/CHEBI:57865",
                  "http://identifiers.org/kegg.compound/C00105"
  s_1559 identity "http://identifiers.org/chebi/CHEBI:46398",
                  "http://identifiers.org/kegg.compound/C00075"
  s_1561 identity "http://identifiers.org/chebi/CHEBI:29164",
                  "http://identifiers.org/kegg.compound/C02554"
  s_1565 identity "http://identifiers.org/chebi/CHEBI:57464",
                  "http://identifiers.org/kegg.compound/C00655"
  s_1569 identity "http://identifiers.org/chebi/CHEBI:18252",
                  "http://identifiers.org/kegg.compound/C05437"
  s_1576 identity "http://identifiers.org/chebi/CHEBI:52388"
  s_1577 identity "http://identifiers.org/chebi/CHEBI:52615"
  s_1578 identity "http://identifiers.org/chebi/CHEBI:52389"
  s_1579 identity "http://identifiers.org/chebi/CHEBI:52386"
  s_1582 identity "http://identifiers.org/chebi/CHEBI:29170",
                  "http://identifiers.org/kegg.compound/C01635"
  s_1583 hypernym "http://identifiers.org/chebi/CHEBI:29171"
  s_1585 hypernym "http://identifiers.org/chebi/CHEBI:29172"
  s_1587 hypernym "http://identifiers.org/chebi/CHEBI:29186"
  s_1589 identity "http://identifiers.org/chebi/CHEBI:29167",
                  "http://identifiers.org/kegg.compound/C01639"
  s_1590 identity "http://identifiers.org/chebi/CHEBI:29168",
                  "http://identifiers.org/kegg.compound/C01640"
  s_1591 hypernym "http://identifiers.org/chebi/CHEBI:29175"
  s_1593 identity "http://identifiers.org/chebi/CHEBI:29176",
                  "http://identifiers.org/kegg.compound/C01642"
  s_1594 hypernym "http://identifiers.org/chebi/CHEBI:29178"
  s_1596 hypernym "http://identifiers.org/chebi/CHEBI:29174"
  s_1598 hypernym "http://identifiers.org/chebi/CHEBI:29169"
  s_1600 hypernym "http://identifiers.org/chebi/CHEBI:29185"
  s_1602 hypernym "http://identifiers.org/chebi/CHEBI:29173"
  s_1604 hypernym "http://identifiers.org/chebi/CHEBI:29184"
  s_1606 identity "http://identifiers.org/chebi/CHEBI:29177",
                  "http://identifiers.org/kegg.compound/C01649"
  s_1607 identity "http://identifiers.org/chebi/CHEBI:29179",
                  "http://identifiers.org/kegg.compound/C01650"
  s_1608 hypernym "http://identifiers.org/chebi/CHEBI:29180"
  s_1610 hypernym "http://identifiers.org/chebi/CHEBI:29181"
  s_1612 hypernym "http://identifiers.org/chebi/CHEBI:29182"
  s_1614 hypernym "http://identifiers.org/chebi/CHEBI:29183"
  s_1616 identity "http://identifiers.org/chebi/CHEBI:15967",
                  "http://identifiers.org/kegg.compound/C00342"
  s_1620 identity "http://identifiers.org/chebi/CHEBI:18191",
                  "http://identifiers.org/kegg.compound/C00343"
  e_0001 encoder "http://identifiers.org/sgd/S000007260",
                 "http://identifiers.org/kegg.genes/sce:Q0045"
  e_0001 identity "http://identifiers.org/uniprot/P00401"
  e_0002 encoder "http://identifiers.org/sgd/S000007267",
                 "http://identifiers.org/kegg.genes/sce:Q0080"
  e_0002 identity "http://identifiers.org/uniprot/P00856"
  e_0003 encoder "http://identifiers.org/sgd/S000007268",
                 "http://identifiers.org/kegg.genes/sce:Q0085"
  e_0003 identity "http://identifiers.org/uniprot/P00854"
  e_0004 encoder "http://identifiers.org/sgd/S000007270",
                 "http://identifiers.org/kegg.genes/sce:Q0105"
  e_0004 identity "http://identifiers.org/uniprot/P00163"
  e_0005 encoder "http://identifiers.org/sgd/S000007274",
                 "http://identifiers.org/kegg.genes/sce:Q0130"
  e_0005 identity "http://identifiers.org/uniprot/P61829"
  e_0006 encoder "http://identifiers.org/sgd/S000007281",
                 "http://identifiers.org/kegg.genes/sce:Q0250"
  e_0006 identity "http://identifiers.org/uniprot/P00410"
  e_0007 encoder "http://identifiers.org/sgd/S000007283",
                 "http://identifiers.org/kegg.genes/sce:Q0275"
  e_0007 identity "http://identifiers.org/uniprot/P00420"
  e_0008 encoder "http://identifiers.org/sgd/S000000010",
                 "http://identifiers.org/kegg.genes/sce:YAL012W"
  e_0008 identity "http://identifiers.org/uniprot/P31373"
  e_0010 encoder "http://identifiers.org/sgd/S000000021",
                 "http://identifiers.org/kegg.genes/sce:YAL023C"
  e_0010 identity "http://identifiers.org/uniprot/P31382"
  e_0011 encoder "http://identifiers.org/sgd/S000000036",
                 "http://identifiers.org/kegg.genes/sce:YAL038W"
  e_0011 identity "http://identifiers.org/uniprot/P00549"
  e_0012 encoder "http://identifiers.org/sgd/S000000042",
                 "http://identifiers.org/kegg.genes/sce:YAL044C"
  e_0012 identity "http://identifiers.org/uniprot/P39726"
  e_0017 encoder "http://identifiers.org/sgd/S000000070",
                 "http://identifiers.org/kegg.genes/sce:YAR015W"
  e_0017 identity "http://identifiers.org/uniprot/P27616"
  e_0020 encoder "http://identifiers.org/sgd/S000000107",
                 "http://identifiers.org/kegg.genes/sce:YBL011W"
  e_0020 identity "http://identifiers.org/uniprot/P32784"
  e_0022 encoder "http://identifiers.org/sgd/S000000111",
                 "http://identifiers.org/kegg.genes/sce:YBL015W"
  e_0022 identity "http://identifiers.org/uniprot/P32316"
  e_0025 encoder "http://identifiers.org/sgd/S000000129",
                 "http://identifiers.org/kegg.genes/sce:YBL033C"
  e_0025 identity "http://identifiers.org/uniprot/P38066"
  e_0026 encoder "http://identifiers.org/sgd/S000000135",
                 "http://identifiers.org/kegg.genes/sce:YBL039C"
  e_0026 identity "http://identifiers.org/uniprot/P28274"
  e_0028 encoder "http://identifiers.org/sgd/S000000141",
                 "http://identifiers.org/kegg.genes/sce:YBL045C"
  e_0028 identity "http://identifiers.org/uniprot/P07256"
  e_0030 encoder "http://identifiers.org/sgd/S000000164",
                 "http://identifiers.org/kegg.genes/sce:YBL068W"
  e_0030 identity "http://identifiers.org/uniprot/P38063"
  e_0031 encoder "http://identifiers.org/sgd/S000000172",
                 "http://identifiers.org/kegg.genes/sce:YBL076C"
  e_0031 identity "http://identifiers.org/uniprot/P09436"
  e_0033 encoder "http://identifiers.org/sgd/S000000195",
                 "http://identifiers.org/kegg.genes/sce:YBL099W"
  e_0033 identity "http://identifiers.org/uniprot/P07251"
  e_0038 encoder "http://identifiers.org/sgd/S000000215",
                 "http://identifiers.org/kegg.genes/sce:YBR011C"
  e_0038 identity "http://identifiers.org/uniprot/P00817"
  e_0045 encoder "http://identifiers.org/sgd/S000000233",
                 "http://identifiers.org/kegg.genes/sce:YBR029C"
  e_0045 identity "http://identifiers.org/uniprot/P38221"
  e_0051 encoder "http://identifiers.org/sgd/S000000243",
                 "http://identifiers.org/kegg.genes/sce:YBR039W"
  e_0051 identity "http://identifiers.org/uniprot/P38077"
  e_0053 encoder "http://identifiers.org/sgd/S000000245",
                 "http://identifiers.org/kegg.genes/sce:YBR041W"
  e_0053 identity "http://identifiers.org/uniprot/P38225"
  e_0054 encoder "http://identifiers.org/sgd/S000007521",
                 "http://identifiers.org/kegg.genes/sce:YBR058C-A"
  e_0054 identity "http://identifiers.org/uniprot/Q3E790"
  e_0057 encoder "http://identifiers.org/sgd/S000000288",
                 "http://identifiers.org/kegg.genes/sce:YBR084W"
  e_0057 identity "http://identifiers.org/uniprot/P09440"
  e_0062 encoder "http://identifiers.org/sgd/S000000319",
                 "http://identifiers.org/kegg.genes/sce:YBR115C"
  e_0062 identity "http://identifiers.org/uniprot/P07702"
  e_0063 encoder "http://identifiers.org/sgd/S000000321",
                 "http://identifiers.org/kegg.genes/sce:YBR117C"
  e_0063 identity "http://identifiers.org/uniprot/P33315"
  e_0064 encoder "http://identifiers.org/sgd/S000000325",
                 "http://identifiers.org/kegg.genes/sce:YBR121C"
  e_0064 identity "http://identifiers.org/uniprot/P38088"
  e_0065 encoder "http://identifiers.org/sgd/S000000330",
                 "http://identifiers.org/kegg.genes/sce:YBR126C"
  e_0065 identity "http://identifiers.org/uniprot/Q00764"
  e_0066 encoder "http://identifiers.org/sgd/S000000331",
                 "http://identifiers.org/kegg.genes/sce:YBR127C"
  e_0066 identity "http://identifiers.org/uniprot/P16140"
  e_0069 encoder "http://identifiers.org/sgd/S000000349",
                 "http://identifiers.org/kegg.genes/sce:YBR145W"
  e_0069 identity "http://identifiers.org/uniprot/P38113"
  e_0071 encoder "http://identifiers.org/sgd/S000000357",
                 "http://identifiers.org/kegg.genes/sce:YBR153W"
  e_0071 identity "http://identifiers.org/uniprot/P33312"
  e_0074 encoder "http://identifiers.org/sgd/S000000370",
                 "http://identifiers.org/kegg.genes/sce:YBR166C"
  e_0074 identity "http://identifiers.org/uniprot/P20049"
  e_0079 encoder "http://identifiers.org/sgd/S000000400",
                 "http://identifiers.org/kegg.genes/sce:YBR196C"
  e_0079 identity "http://identifiers.org/uniprot/P12709"
  e_0084 encoder "http://identifiers.org/sgd/S000000422",
                 "http://identifiers.org/kegg.genes/sce:YBR218C"
  e_0084 identity "http://identifiers.org/uniprot/P32327"
  e_0087 encoder "http://identifiers.org/sgd/S000000452",
                 "http://identifiers.org/kegg.genes/sce:YBR248C"
  e_0087 identity "http://identifiers.org/uniprot/P33734"
  e_0088 encoder "http://identifiers.org/sgd/S000000453",
                 "http://identifiers.org/kegg.genes/sce:YBR249C"
  e_0088 identity "http://identifiers.org/uniprot/P32449"
  e_0089 encoder "http://identifiers.org/sgd/S000000456",
                 "http://identifiers.org/kegg.genes/sce:YBR252W"
  e_0089 identity "http://identifiers.org/uniprot/P33317"
  e_0090 encoder "http://identifiers.org/sgd/S000000460",
                 "http://identifiers.org/kegg.genes/sce:YBR256C"
  e_0090 identity "http://identifiers.org/uniprot/P38145"
  e_0091 encoder "http://identifiers.org/sgd/S000000467",
                 "http://identifiers.org/kegg.genes/sce:YBR263W"
  e_0091 identity "http://identifiers.org/uniprot/P37292"
  e_0092 encoder "http://identifiers.org/sgd/S000000469",
                 "http://identifiers.org/kegg.genes/sce:YBR265W"
  e_0092 identity "http://identifiers.org/uniprot/P38342"
  e_0100 encoder "http://identifiers.org/sgd/S000000515",
                 "http://identifiers.org/kegg.genes/sce:YCL009C"
  e_0100 identity "http://identifiers.org/uniprot/P25605"
  e_0101 encoder "http://identifiers.org/sgd/S000000523",
                 "http://identifiers.org/kegg.genes/sce:YCL018W"
  e_0101 identity "http://identifiers.org/uniprot/P04173"
  e_0103 encoder "http://identifiers.org/sgd/S000000535",
                 "http://identifiers.org/kegg.genes/sce:YCL030C"
  e_0103 identity "http://identifiers.org/uniprot/P00815"
  e_0106 encoder "http://identifiers.org/sgd/S000000545",
                 "http://identifiers.org/kegg.genes/sce:YCL040W"
  e_0106 identity "http://identifiers.org/uniprot/P17709"
  e_0107 encoder "http://identifiers.org/sgd/S000000555",
                 "http://identifiers.org/kegg.genes/sce:YCL050C"
  e_0107 identity "http://identifiers.org/uniprot/P16550"
  e_0109 encoder "http://identifiers.org/sgd/S000000569",
                 "http://identifiers.org/kegg.genes/sce:YCL064C"
  e_0109 identity "http://identifiers.org/uniprot/P25379"
  e_0111 encoder "http://identifiers.org/sgd/S000000598",
                 "http://identifiers.org/kegg.genes/sce:YCR005C"
  e_0111 identity "http://identifiers.org/uniprot/P08679"
  e_0113 encoder "http://identifiers.org/sgd/S000000605",
                 "http://identifiers.org/kegg.genes/sce:YCR012W"
  e_0113 identity "http://identifiers.org/uniprot/P00560"
  e_0117 encoder "http://identifiers.org/sgd/S000000630",
                 "http://identifiers.org/kegg.genes/sce:YCR034W"
  e_0117 identity "http://identifiers.org/uniprot/P25358"
  e_0122 encoder "http://identifiers.org/sgd/S000000649",
                 "http://identifiers.org/kegg.genes/sce:YCR053W"
  e_0122 identity "http://identifiers.org/uniprot/P16120"
  e_0124 encoder "http://identifiers.org/sgd/S000000679",
                 "http://identifiers.org/kegg.genes/sce:YCR083W"
  e_0124 identity "http://identifiers.org/uniprot/P25372"
  e_0127 encoder "http://identifiers.org/sgd/S000002162",
                 "http://identifiers.org/kegg.genes/sce:YDL004W"
  e_0127 identity "http://identifiers.org/uniprot/Q12165"
  e_0128 encoder "http://identifiers.org/sgd/S000002173",
                 "http://identifiers.org/kegg.genes/sce:YDL015C"
  e_0128 identity "http://identifiers.org/uniprot/Q99190"
  e_0129 encoder "http://identifiers.org/sgd/S000002180",
                 "http://identifiers.org/kegg.genes/sce:YDL022W"
  e_0129 identity "http://identifiers.org/uniprot/Q00055"
  e_0133 encoder "http://identifiers.org/sgd/S000002210",
                 "http://identifiers.org/kegg.genes/sce:YDL052C"
  e_0133 identity "http://identifiers.org/uniprot/P33333"
  e_0134 encoder "http://identifiers.org/sgd/S000002213",
                 "http://identifiers.org/kegg.genes/sce:YDL055C"
  e_0134 identity "http://identifiers.org/uniprot/P41940"
  e_0135 encoder "http://identifiers.org/sgd/S000002224",
                 "http://identifiers.org/kegg.genes/sce:YDL066W"
  e_0135 identity "http://identifiers.org/uniprot/P21954"
  e_0136 encoder "http://identifiers.org/sgd/S000002225",
                 "http://identifiers.org/kegg.genes/sce:YDL067C"
  e_0136 identity "http://identifiers.org/uniprot/P07255"
  e_0137 encoder "http://identifiers.org/sgd/S000002236",
                 "http://identifiers.org/kegg.genes/sce:YDL078C"
  e_0137 identity "http://identifiers.org/uniprot/P32419"
  e_0141 encoder "http://identifiers.org/sgd/S000002251",
                 "http://identifiers.org/kegg.genes/sce:YDL093W"
  e_0141 identity "http://identifiers.org/uniprot/P52867"
  e_0142 encoder "http://identifiers.org/sgd/S000002253",
                 "http://identifiers.org/kegg.genes/sce:YDL095W"
  e_0142 identity "http://identifiers.org/uniprot/P33775"
  e_0146 encoder "http://identifiers.org/sgd/S000002289",
                 "http://identifiers.org/kegg.genes/sce:YDL131W"
  e_0146 identity "http://identifiers.org/uniprot/Q12122"
  e_0151 encoder "http://identifiers.org/sgd/S000002333",
                 "http://identifiers.org/kegg.genes/sce:YDL174C"
  e_0151 identity "http://identifiers.org/uniprot/P32891"
  e_0152 encoder "http://identifiers.org/sgd/S000002337",
                 "http://identifiers.org/kegg.genes/sce:YDL178W"
  e_0152 identity "http://identifiers.org/uniprot/P46681"
  e_0154 encoder "http://identifiers.org/sgd/S000002341",
                 "http://identifiers.org/kegg.genes/sce:YDL182W"
  e_0154 identity "http://identifiers.org/uniprot/P48570"
  e_0155 encoder "http://identifiers.org/sgd/S000002344",
                 "http://identifiers.org/kegg.genes/sce:YDL185W"
  e_0155 identity "http://identifiers.org/uniprot/P17255"
  e_0160 encoder "http://identifiers.org/sgd/S000002374",
                 "http://identifiers.org/kegg.genes/sce:YDL215C"
  e_0160 identity "http://identifiers.org/uniprot/P33327"
  e_0165 encoder "http://identifiers.org/sgd/S000002414",
                 "http://identifiers.org/kegg.genes/sce:YDR007W"
  e_0165 identity "http://identifiers.org/uniprot/P00912"
  e_0167 encoder "http://identifiers.org/sgd/S000002426",
                 "http://identifiers.org/kegg.genes/sce:YDR019C"
  e_0167 identity "http://identifiers.org/uniprot/P48015"
  e_0168 encoder "http://identifiers.org/sgd/S000002430",
                 "http://identifiers.org/kegg.genes/sce:YDR023W"
  e_0168 identity "http://identifiers.org/uniprot/P07284"
  e_0169 encoder "http://identifiers.org/sgd/S000002442",
                 "http://identifiers.org/kegg.genes/sce:YDR035W"
  e_0169 identity "http://identifiers.org/uniprot/P14843"
  e_0171 encoder "http://identifiers.org/sgd/S000002444",
                 "http://identifiers.org/kegg.genes/sce:YDR037W"
  e_0171 identity "http://identifiers.org/uniprot/P15180"
  e_0175 encoder "http://identifiers.org/sgd/S000002457",
                 "http://identifiers.org/kegg.genes/sce:YDR050C"
  e_0175 identity "http://identifiers.org/uniprot/P00942"
  e_0176 encoder "http://identifiers.org/sgd/S000002465",
                 "http://identifiers.org/kegg.genes/sce:YDR058C"
  e_0176 identity "http://identifiers.org/uniprot/P54857"
  e_0177 encoder "http://identifiers.org/sgd/S000002469",
                 "http://identifiers.org/kegg.genes/sce:YDR062W"
  e_0177 identity "http://identifiers.org/uniprot/P40970"
  e_0179 encoder "http://identifiers.org/sgd/S000002481",
                 "http://identifiers.org/kegg.genes/sce:YDR074W"
  e_0179 identity "http://identifiers.org/uniprot/P31688"
  e_0182 encoder "http://identifiers.org/sgd/S000002534",
                 "http://identifiers.org/kegg.genes/sce:YDR127W"
  e_0182 identity "http://identifiers.org/uniprot/P08566"
  e_0183 encoder "http://identifiers.org/sgd/S000002542",
                 "http://identifiers.org/kegg.genes/sce:YDR135C"
  e_0183 identity "http://identifiers.org/uniprot/P39109"
  e_0186 encoder "http://identifiers.org/sgd/S000002565",
                 "http://identifiers.org/kegg.genes/sce:YDR158W"
  e_0186 identity "http://identifiers.org/uniprot/P13663"
  e_0188 encoder "http://identifiers.org/sgd/S000002585",
                 "http://identifiers.org/kegg.genes/sce:YDR178W"
  e_0188 identity "http://identifiers.org/uniprot/P37298"
  e_0194 encoder "http://identifiers.org/sgd/S000002634",
                 "http://identifiers.org/kegg.genes/sce:YDR226W"
  e_0194 identity "http://identifiers.org/uniprot/P07170"
  e_0196 encoder "http://identifiers.org/sgd/S000002642",
                 "http://identifiers.org/kegg.genes/sce:YDR234W"
  e_0196 identity "http://identifiers.org/uniprot/P49367"
  e_0202 encoder "http://identifiers.org/sgd/S000002680",
                 "http://identifiers.org/kegg.genes/sce:YDR272W"
  e_0202 identity "http://identifiers.org/uniprot/Q05584"
  e_0203 encoder "http://identifiers.org/sgd/S000002692",
                 "http://identifiers.org/kegg.genes/sce:YDR284C"
  e_0203 identity "http://identifiers.org/uniprot/Q05521"
  e_0204 encoder "http://identifiers.org/sgd/S000002695",
                 "http://identifiers.org/kegg.genes/sce:YDR287W"
  e_0204 identity "http://identifiers.org/uniprot/Q05533"
  e_0207 encoder "http://identifiers.org/sgd/S000002706",
                 "http://identifiers.org/kegg.genes/sce:YDR298C"
  e_0207 identity "http://identifiers.org/uniprot/P09457"
  e_0213 encoder "http://identifiers.org/sgd/S000007255",
                 "http://identifiers.org/kegg.genes/sce:YDR322C-A"
  e_0213 identity "http://identifiers.org/uniprot/P81449"
  e_0214 encoder "http://identifiers.org/sgd/S000002749",
                 "http://identifiers.org/kegg.genes/sce:YDR341C"
  e_0214 identity "http://identifiers.org/uniprot/Q05506"
  e_0218 encoder "http://identifiers.org/sgd/S000002761",
                 "http://identifiers.org/kegg.genes/sce:YDR353W"
  e_0218 identity "http://identifiers.org/uniprot/P29509"
  e_0219 encoder "http://identifiers.org/sgd/S000002762",
                 "http://identifiers.org/kegg.genes/sce:YDR354W"
  e_0219 identity "http://identifiers.org/uniprot/P07285"
  e_0220 encoder "http://identifiers.org/sgd/S000002775",
                 "http://identifiers.org/kegg.genes/sce:YDR367W"
  e_0220 identity "http://identifiers.org/uniprot/Q06346"
  e_0223 encoder "http://identifiers.org/sgd/S000002785",
                 "http://identifiers.org/kegg.genes/sce:YDR377W"
  e_0223 identity "http://identifiers.org/uniprot/Q06405"
  e_0231 encoder "http://identifiers.org/sgd/S000002816",
                 "http://identifiers.org/kegg.genes/sce:YDR408C"
  e_0231 identity "http://identifiers.org/uniprot/P04161"
  e_0234 encoder "http://identifiers.org/sgd/S000002862",
                 "http://identifiers.org/kegg.genes/sce:YDR454C"
  e_0234 identity "http://identifiers.org/uniprot/P15454"
  e_0237 encoder "http://identifiers.org/sgd/S000002895",
                 "http://identifiers.org/kegg.genes/sce:YDR487C"
  e_0237 identity "http://identifiers.org/uniprot/Q99258"
  e_0239 encoder "http://identifiers.org/sgd/S000002910",
                 "http://identifiers.org/kegg.genes/sce:YDR502C"
  e_0239 identity "http://identifiers.org/uniprot/P19358"
  e_0243 encoder "http://identifiers.org/sgd/S000002937",
                 "http://identifiers.org/kegg.genes/sce:YDR529C"
  e_0243 identity "http://identifiers.org/uniprot/P00128"
  e_0249 encoder "http://identifiers.org/sgd/S000000747",
                 "http://identifiers.org/kegg.genes/sce:YEL021W"
  e_0249 identity "http://identifiers.org/uniprot/P03962"
  e_0250 encoder "http://identifiers.org/sgd/S000000750",
                 "http://identifiers.org/kegg.genes/sce:YEL024W"
  e_0250 identity "http://identifiers.org/uniprot/P08067"
  e_0251 encoder "http://identifiers.org/sgd/S000000753",
                 "http://identifiers.org/kegg.genes/sce:YEL027W"
  e_0251 identity "http://identifiers.org/uniprot/P25515"
  e_0255 encoder "http://identifiers.org/sgd/S000000765",
                 "http://identifiers.org/kegg.genes/sce:YEL039C"
  e_0255 identity "http://identifiers.org/uniprot/P00045"
  e_0260 encoder "http://identifiers.org/sgd/S000000772",
                 "http://identifiers.org/kegg.genes/sce:YEL046C"
  e_0260 identity "http://identifiers.org/uniprot/P37303"
  e_0263 encoder "http://identifiers.org/sgd/S000000777",
                 "http://identifiers.org/kegg.genes/sce:YEL051W"
  e_0263 identity "http://identifiers.org/uniprot/P32610"
  e_0268 encoder "http://identifiers.org/sgd/S000000797",
                 "http://identifiers.org/kegg.genes/sce:YEL071W"
  e_0268 identity "http://identifiers.org/uniprot/P39976"
  e_0269 encoder "http://identifiers.org/sgd/S000000805",
                 "http://identifiers.org/kegg.genes/sce:YER003C"
  e_0269 identity "http://identifiers.org/uniprot/P29952"
  e_0271 encoder "http://identifiers.org/sgd/S000000807",
                 "http://identifiers.org/kegg.genes/sce:YER005W"
  e_0271 identity "http://identifiers.org/uniprot/P40009"
  e_0273 encoder "http://identifiers.org/sgd/S000000817",
                 "http://identifiers.org/kegg.genes/sce:YER015W"
  e_0273 identity "http://identifiers.org/uniprot/P39518"
  e_0276 encoder "http://identifiers.org/sgd/S000000825",
                 "http://identifiers.org/kegg.genes/sce:YER023W"
  e_0276 identity "http://identifiers.org/uniprot/P32263"
  e_0278 encoder "http://identifiers.org/sgd/S000000828",
                 "http://identifiers.org/kegg.genes/sce:YER026C"
  e_0278 identity "http://identifiers.org/uniprot/P08456"
  e_0280 encoder "http://identifiers.org/sgd/S000000845",
                 "http://identifiers.org/kegg.genes/sce:YER043C"
  e_0280 identity "http://identifiers.org/uniprot/P39954"
  e_0281 encoder "http://identifiers.org/sgd/S000000854",
                 "http://identifiers.org/kegg.genes/sce:YER052C"
  e_0281 identity "http://identifiers.org/uniprot/P10869"
  e_0283 encoder "http://identifiers.org/sgd/S000000857",
                 "http://identifiers.org/kegg.genes/sce:YER055C"
  e_0283 identity "http://identifiers.org/uniprot/P00498"
  e_0288 encoder "http://identifiers.org/sgd/S000000864",
                 "http://identifiers.org/kegg.genes/sce:YER062C"
  e_0288 identity "http://identifiers.org/uniprot/P40106"
  e_0289 encoder "http://identifiers.org/sgd/S000000867",
                 "http://identifiers.org/kegg.genes/sce:YER065C"
  e_0289 identity "http://identifiers.org/uniprot/P28240"
  e_0290 encoder "http://identifiers.org/sgd/S000000871",
                 "http://identifiers.org/kegg.genes/sce:YER069W"
  e_0290 identity "http://identifiers.org/uniprot/Q01217"
  e_0291 encoder "http://identifiers.org/sgd/S000000872",
                 "http://identifiers.org/kegg.genes/sce:YER070W"
  e_0291 identity "http://identifiers.org/uniprot/P21524"
  e_0293 encoder "http://identifiers.org/sgd/S000000875",
                 "http://identifiers.org/kegg.genes/sce:YER073W"
  e_0293 identity "http://identifiers.org/uniprot/P40047"
  e_0295 encoder "http://identifiers.org/sgd/S000000888",
                 "http://identifiers.org/kegg.genes/sce:YER086W"
  e_0295 identity "http://identifiers.org/uniprot/P00927"
  e_0296 encoder "http://identifiers.org/sgd/S000000889",
                 "http://identifiers.org/kegg.genes/sce:YER087W"
  e_0296 identity "http://identifiers.org/uniprot/P39965"
  e_0297 encoder "http://identifiers.org/sgd/S000000892",
                 "http://identifiers.org/kegg.genes/sce:YER090W"
  e_0297 identity "http://identifiers.org/uniprot/P00899"
  e_0298 encoder "http://identifiers.org/sgd/S000000893",
                 "http://identifiers.org/kegg.genes/sce:YER091C"
  e_0298 identity "http://identifiers.org/uniprot/P05694"
  e_0299 encoder "http://identifiers.org/sgd/S000000901",
                 "http://identifiers.org/kegg.genes/sce:YER099C"
  e_0299 identity "http://identifiers.org/uniprot/P38620"
  e_0303 encoder "http://identifiers.org/sgd/S000000972",
                 "http://identifiers.org/kegg.genes/sce:YER170W"
  e_0303 identity "http://identifiers.org/uniprot/P26364"
  e_0311 encoder "http://identifiers.org/sgd/S000001876",
                 "http://identifiers.org/kegg.genes/sce:YFL018C"
  e_0311 identity "http://identifiers.org/uniprot/P09624"
  e_0312 encoder "http://identifiers.org/sgd/S000001872",
                 "http://identifiers.org/kegg.genes/sce:YFL022C"
  e_0312 identity "http://identifiers.org/uniprot/P15625"
  e_0313 encoder "http://identifiers.org/sgd/S000001864",
                 "http://identifiers.org/kegg.genes/sce:YFL030W"
  e_0313 identity "http://identifiers.org/uniprot/P43567"
  e_0314 encoder "http://identifiers.org/sgd/S000001849",
                 "http://identifiers.org/kegg.genes/sce:YFL045C"
  e_0314 identity "http://identifiers.org/uniprot/P07283"
  e_0317 encoder "http://identifiers.org/sgd/S000001911",
                 "http://identifiers.org/kegg.genes/sce:YFR015C"
  e_0317 identity "http://identifiers.org/uniprot/P23337"
  e_0320 encoder "http://identifiers.org/sgd/S000001921",
                 "http://identifiers.org/kegg.genes/sce:YFR025C"
  e_0320 identity "http://identifiers.org/uniprot/P38635"
  e_0321 encoder "http://identifiers.org/sgd/S000001926",
                 "http://identifiers.org/kegg.genes/sce:YFR030W"
  e_0321 identity "http://identifiers.org/uniprot/P39692"
  e_0322 encoder "http://identifiers.org/sgd/S000001929",
                 "http://identifiers.org/kegg.genes/sce:YFR033C"
  e_0322 identity "http://identifiers.org/uniprot/P00127"
  e_0325 encoder "http://identifiers.org/sgd/S000001949",
                 "http://identifiers.org/kegg.genes/sce:YFR053C"
  e_0325 identity "http://identifiers.org/uniprot/P04806"
  e_0326 encoder "http://identifiers.org/sgd/S000002969",
                 "http://identifiers.org/kegg.genes/sce:YGL001C"
  e_0326 identity "http://identifiers.org/uniprot/P53199"
  e_0328 encoder "http://identifiers.org/sgd/S000002977",
                 "http://identifiers.org/kegg.genes/sce:YGL009C"
  e_0328 identity "http://identifiers.org/uniprot/P07264"
  e_0329 encoder "http://identifiers.org/sgd/S000002980",
                 "http://identifiers.org/kegg.genes/sce:YGL012W"
  e_0329 identity "http://identifiers.org/uniprot/P25340"
  e_0330 encoder "http://identifiers.org/sgd/S000002994",
                 "http://identifiers.org/kegg.genes/sce:YGL026C"
  e_0330 identity "http://identifiers.org/uniprot/P00931"
  e_0334 encoder "http://identifiers.org/sgd/S000003030",
                 "http://identifiers.org/kegg.genes/sce:YGL062W"
  e_0334 identity "http://identifiers.org/uniprot/P11154"
  e_0340 encoder "http://identifiers.org/sgd/S000003093",
                 "http://identifiers.org/kegg.genes/sce:YGL125W"
  e_0340 identity "http://identifiers.org/uniprot/P53128"
  e_0342 encoder "http://identifiers.org/sgd/S000003116",
                 "http://identifiers.org/kegg.genes/sce:YGL148W"
  e_0342 identity "http://identifiers.org/uniprot/P28777"
  e_0343 encoder "http://identifiers.org/sgd/S000003122",
                 "http://identifiers.org/kegg.genes/sce:YGL154C"
  e_0343 identity "http://identifiers.org/uniprot/P50113"
  e_0346 encoder "http://identifiers.org/sgd/S000003155",
                 "http://identifiers.org/kegg.genes/sce:YGL187C"
  e_0346 identity "http://identifiers.org/uniprot/P04037"
  e_0347 encoder "http://identifiers.org/sgd/S000003159",
                 "http://identifiers.org/kegg.genes/sce:YGL191W"
  e_0347 identity "http://identifiers.org/uniprot/P32799"
  e_0348 encoder "http://identifiers.org/sgd/S000003170",
                 "http://identifiers.org/kegg.genes/sce:YGL202W"
  e_0348 identity "http://identifiers.org/uniprot/P53090"
  e_0352 encoder "http://identifiers.org/sgd/S000003203",
                 "http://identifiers.org/kegg.genes/sce:YGL234W"
  e_0352 identity "http://identifiers.org/uniprot/P07244"
  e_0353 encoder "http://identifiers.org/sgd/S000003214",
                 "http://identifiers.org/kegg.genes/sce:YGL245W"
  e_0353 identity "http://identifiers.org/uniprot/P46655"
  e_0355 encoder "http://identifiers.org/sgd/S000003222",
                 "http://identifiers.org/kegg.genes/sce:YGL253W"
  e_0355 identity "http://identifiers.org/uniprot/P04807"
  e_0356 encoder "http://identifiers.org/sgd/S000003225",
                 "http://identifiers.org/kegg.genes/sce:YGL256W"
  e_0356 identity "http://identifiers.org/uniprot/P10127"
  e_0362 encoder "http://identifiers.org/sgd/S000003252",
                 "http://identifiers.org/kegg.genes/sce:YGR020C"
  e_0362 identity "http://identifiers.org/uniprot/P39111"
  e_0364 encoder "http://identifiers.org/sgd/S000003264",
                 "http://identifiers.org/kegg.genes/sce:YGR032W"
  e_0364 identity "http://identifiers.org/uniprot/P40989"
  e_0365 encoder "http://identifiers.org/sgd/S000003269",
                 "http://identifiers.org/kegg.genes/sce:YGR037C"
  e_0365 identity "http://identifiers.org/uniprot/P31787"
  e_0367 encoder "http://identifiers.org/sgd/S000003292",
                 "http://identifiers.org/kegg.genes/sce:YGR060W"
  e_0367 identity "http://identifiers.org/uniprot/P53045"
  e_0368 encoder "http://identifiers.org/sgd/S000003293",
                 "http://identifiers.org/kegg.genes/sce:YGR061C"
  e_0368 identity "http://identifiers.org/uniprot/P38972"
  e_0370 encoder "http://identifiers.org/sgd/S000003319",
                 "http://identifiers.org/kegg.genes/sce:YGR087C"
  e_0370 identity "http://identifiers.org/uniprot/P26263"
  e_0372 encoder "http://identifiers.org/sgd/S000003326",
                 "http://identifiers.org/kegg.genes/sce:YGR094W"
  e_0372 identity "http://identifiers.org/uniprot/P07806"
  e_0376 encoder "http://identifiers.org/sgd/S000003356",
                 "http://identifiers.org/kegg.genes/sce:YGR124W"
  e_0376 identity "http://identifiers.org/uniprot/P49090"
  e_0379 encoder "http://identifiers.org/sgd/S000003375",
                 "http://identifiers.org/kegg.genes/sce:YGR143W"
  e_0379 identity "http://identifiers.org/uniprot/P33336"
  e_0380 encoder "http://identifiers.org/sgd/S000003387",
                 "http://identifiers.org/kegg.genes/sce:YGR155W"
  e_0380 identity "http://identifiers.org/uniprot/P32582"
  e_0381 encoder "http://identifiers.org/sgd/S000003389",
                 "http://identifiers.org/kegg.genes/sce:YGR157W"
  e_0381 identity "http://identifiers.org/uniprot/P05374"
  e_0382 encoder "http://identifiers.org/sgd/S000003402",
                 "http://identifiers.org/kegg.genes/sce:YGR170W"
  e_0382 identity "http://identifiers.org/uniprot/P53037"
  e_0385 encoder "http://identifiers.org/sgd/S000003407",
                 "http://identifiers.org/kegg.genes/sce:YGR175C"
  e_0385 identity "http://identifiers.org/uniprot/P32476"
  e_0387 encoder "http://identifiers.org/sgd/S000003412",
                 "http://identifiers.org/kegg.genes/sce:YGR180C"
  e_0387 identity "http://identifiers.org/uniprot/P49723"
  e_0389 encoder "http://identifiers.org/sgd/S000003415",
                 "http://identifiers.org/kegg.genes/sce:YGR183C"
  e_0389 identity "http://identifiers.org/uniprot/P22289"
  e_0390 encoder "http://identifiers.org/sgd/S000003417",
                 "http://identifiers.org/kegg.genes/sce:YGR185C"
  e_0390 identity "http://identifiers.org/uniprot/P36421"
  e_0392 encoder "http://identifiers.org/sgd/S000003424",
                 "http://identifiers.org/kegg.genes/sce:YGR192C"
  e_0392 identity "http://identifiers.org/uniprot/P00359"
  e_0396 encoder "http://identifiers.org/sgd/S000003436",
                 "http://identifiers.org/kegg.genes/sce:YGR204W"
  e_0396 identity "http://identifiers.org/uniprot/P07245"
  e_0398 encoder "http://identifiers.org/sgd/S000003441",
                 "http://identifiers.org/kegg.genes/sce:YGR209C"
  e_0398 identity "http://identifiers.org/uniprot/P22803"
  e_0401 encoder "http://identifiers.org/sgd/S000003472",
                 "http://identifiers.org/kegg.genes/sce:YGR240C"
  e_0401 identity "http://identifiers.org/uniprot/P16861"
  e_0404 encoder "http://identifiers.org/sgd/S000003480",
                 "http://identifiers.org/kegg.genes/sce:YGR248W"
  e_0404 identity "http://identifiers.org/uniprot/P53315"
  e_0405 encoder "http://identifiers.org/sgd/S000003486",
                 "http://identifiers.org/kegg.genes/sce:YGR254W"
  e_0405 identity "http://identifiers.org/uniprot/P00924"
  e_0407 encoder "http://identifiers.org/sgd/S000003488",
                 "http://identifiers.org/kegg.genes/sce:YGR256W"
  e_0407 identity "http://identifiers.org/uniprot/P53319"
  e_0409 encoder "http://identifiers.org/sgd/S000003496",
                 "http://identifiers.org/kegg.genes/sce:YGR264C"
  e_0409 identity "http://identifiers.org/uniprot/P00958"
  e_0417 encoder "http://identifiers.org/sgd/S000000995",
                 "http://identifiers.org/kegg.genes/sce:YHL003C"
  e_0417 identity "http://identifiers.org/uniprot/P38703"
  e_0418 encoder "http://identifiers.org/sgd/S000001003",
                 "http://identifiers.org/kegg.genes/sce:YHL011C"
  e_0418 identity "http://identifiers.org/uniprot/P38689"
  e_0422 encoder "http://identifiers.org/sgd/S000003529",
                 "http://identifiers.org/kegg.genes/sce:YHR001W-A"
  e_0422 identity "http://identifiers.org/uniprot/P37299"
  e_0424 encoder "http://identifiers.org/sgd/S000001049",
                 "http://identifiers.org/kegg.genes/sce:YHR007C"
  e_0424 identity "http://identifiers.org/uniprot/P10614"
  e_0425 encoder "http://identifiers.org/sgd/S000001053",
                 "http://identifiers.org/kegg.genes/sce:YHR011W"
  e_0425 identity "http://identifiers.org/uniprot/P38705"
  e_0426 encoder "http://identifiers.org/sgd/S000001060",
                 "http://identifiers.org/kegg.genes/sce:YHR018C"
  e_0426 identity "http://identifiers.org/uniprot/P04076"
  e_0427 encoder "http://identifiers.org/sgd/S000001061",
                 "http://identifiers.org/kegg.genes/sce:YHR019C"
  e_0427 identity "http://identifiers.org/uniprot/P38707"
  e_0428 encoder "http://identifiers.org/sgd/S000001067",
                 "http://identifiers.org/kegg.genes/sce:YHR025W"
  e_0428 identity "http://identifiers.org/uniprot/P17423"
  e_0429 encoder "http://identifiers.org/sgd/S000001068",
                 "http://identifiers.org/kegg.genes/sce:YHR026W"
  e_0429 identity "http://identifiers.org/uniprot/P23968"
  e_0431 encoder "http://identifiers.org/sgd/S000001079",
                 "http://identifiers.org/kegg.genes/sce:YHR037W"
  e_0431 identity "http://identifiers.org/uniprot/P07275"
  e_0432 encoder "http://identifiers.org/sgd/S000002100",
                 "http://identifiers.org/kegg.genes/sce:YHR039C-A"
  e_0432 identity "http://identifiers.org/uniprot/P48836"
  e_0434 encoder "http://identifiers.org/sgd/S000001084",
                 "http://identifiers.org/kegg.genes/sce:YHR042W"
  e_0434 identity "http://identifiers.org/uniprot/P16603"
  e_0435 encoder "http://identifiers.org/sgd/S000001088",
                 "http://identifiers.org/kegg.genes/sce:YHR046C"
  e_0435 identity "http://identifiers.org/uniprot/P38710"
  e_0436 encoder "http://identifiers.org/sgd/S000001093",
                 "http://identifiers.org/kegg.genes/sce:YHR051W"
  e_0436 identity "http://identifiers.org/uniprot/P00427"
  e_0440 encoder "http://identifiers.org/sgd/S000001114",
                 "http://identifiers.org/kegg.genes/sce:YHR072W"
  e_0440 identity "http://identifiers.org/uniprot/P38604"
  e_0447 encoder "http://identifiers.org/sgd/S000001146",
                 "http://identifiers.org/kegg.genes/sce:YHR104W"
  e_0447 identity "http://identifiers.org/uniprot/P38715"
  e_0448 encoder "http://identifiers.org/sgd/S000001148",
                 "http://identifiers.org/kegg.genes/sce:YHR106W"
  e_0448 identity "http://identifiers.org/uniprot/P38816"
  e_0452 encoder "http://identifiers.org/sgd/S000001187",
                 "http://identifiers.org/kegg.genes/sce:YHR144C"
  e_0452 identity "http://identifiers.org/uniprot/P06773"
  e_0453 encoder "http://identifiers.org/sgd/S000001206",
                 "http://identifiers.org/kegg.genes/sce:YHR163W"
  e_0453 identity "http://identifiers.org/uniprot/P38858"
  e_0454 encoder "http://identifiers.org/sgd/S000001217",
                 "http://identifiers.org/kegg.genes/sce:YHR174W"
  e_0454 identity "http://identifiers.org/uniprot/P00925"
  e_0455 encoder "http://identifiers.org/sgd/S000001226",
                 "http://identifiers.org/kegg.genes/sce:YHR183W"
  e_0455 identity "http://identifiers.org/uniprot/P38720"
  e_0456 encoder "http://identifiers.org/sgd/S000001233",
                 "http://identifiers.org/kegg.genes/sce:YHR190W"
  e_0456 identity "http://identifiers.org/uniprot/P29704"
  e_0457 encoder "http://identifiers.org/sgd/S000001251",
                 "http://identifiers.org/kegg.genes/sce:YHR208W"
  e_0457 identity "http://identifiers.org/uniprot/P38891"
  e_0458 encoder "http://identifiers.org/sgd/S000001259",
                 "http://identifiers.org/kegg.genes/sce:YHR216W"
  e_0458 identity "http://identifiers.org/uniprot/P38697"
  e_0462 encoder "http://identifiers.org/sgd/S000001271",
                 "http://identifiers.org/kegg.genes/sce:YIL009W"
  e_0462 identity "http://identifiers.org/uniprot/P39002"
  e_0465 encoder "http://identifiers.org/sgd/S000001282",
                 "http://identifiers.org/kegg.genes/sce:YIL020C"
  e_0465 identity "http://identifiers.org/uniprot/P40545"
  e_0466 encoder "http://identifiers.org/sgd/S000001315",
                 "http://identifiers.org/kegg.genes/sce:YIL053W"
  e_0466 identity "http://identifiers.org/uniprot/P41277"
  e_0467 encoder "http://identifiers.org/sgd/S000001328",
                 "http://identifiers.org/kegg.genes/sce:YIL066C"
  e_0467 identity "http://identifiers.org/uniprot/P21672"
  e_0470 encoder "http://identifiers.org/sgd/S000001340",
                 "http://identifiers.org/kegg.genes/sce:YIL078W"
  e_0470 identity "http://identifiers.org/uniprot/P04801"
  e_0472 encoder "http://identifiers.org/sgd/S000001356",
                 "http://identifiers.org/kegg.genes/sce:YIL094C"
  e_0472 identity "http://identifiers.org/uniprot/P40495"
  e_0475 encoder "http://identifiers.org/sgd/S000001373",
                 "http://identifiers.org/kegg.genes/sce:YIL111W"
  e_0475 identity "http://identifiers.org/uniprot/P00425"
  e_0476 encoder "http://identifiers.org/sgd/S000001378",
                 "http://identifiers.org/kegg.genes/sce:YIL116W"
  e_0476 identity "http://identifiers.org/uniprot/P07172"
  e_0489 encoder "http://identifiers.org/sgd/S000001473",
                 "http://identifiers.org/kegg.genes/sce:YIR034C"
  e_0489 identity "http://identifiers.org/uniprot/P38998"
  e_0492 encoder "http://identifiers.org/sgd/S000003563",
                 "http://identifiers.org/kegg.genes/sce:YJL026W"
  e_0492 identity "http://identifiers.org/uniprot/P09938"
  e_0494 encoder "http://identifiers.org/sgd/S000003581",
                 "http://identifiers.org/kegg.genes/sce:YJL045W"
  e_0494 identity "http://identifiers.org/uniprot/P47052"
  e_0495 encoder "http://identifiers.org/sgd/S000003588",
                 "http://identifiers.org/kegg.genes/sce:YJL052W"
  e_0495 identity "http://identifiers.org/uniprot/P00360"
  e_0496 encoder "http://identifiers.org/sgd/S000003596",
                 "http://identifiers.org/kegg.genes/sce:YJL060W"
  e_0496 identity "http://identifiers.org/uniprot/P47039"
  e_0499 encoder "http://identifiers.org/sgd/S000003624",
                 "http://identifiers.org/kegg.genes/sce:YJL088W"
  e_0499 identity "http://identifiers.org/uniprot/P05150"
  e_0506 encoder "http://identifiers.org/sgd/S000003657",
                 "http://identifiers.org/kegg.genes/sce:YJL121C"
  e_0506 identity "http://identifiers.org/uniprot/P46969"
  e_0508 encoder "http://identifiers.org/sgd/S000003666",
                 "http://identifiers.org/kegg.genes/sce:YJL130C"
  e_0508 identity "http://identifiers.org/uniprot/P07259"
  e_0510 encoder "http://identifiers.org/sgd/S000003673",
                 "http://identifiers.org/kegg.genes/sce:YJL137C"
  e_0510 identity "http://identifiers.org/uniprot/P47011"
  e_0512 encoder "http://identifiers.org/sgd/S000003689",
                 "http://identifiers.org/kegg.genes/sce:YJL153C"
  e_0512 identity "http://identifiers.org/uniprot/P11986"
  e_0514 encoder "http://identifiers.org/sgd/S000003702",
                 "http://identifiers.org/kegg.genes/sce:YJL166W"
  e_0514 identity "http://identifiers.org/uniprot/P08525"
  e_0515 encoder "http://identifiers.org/sgd/S000003703",
                 "http://identifiers.org/kegg.genes/sce:YJL167W"
  e_0515 identity "http://identifiers.org/uniprot/P08524"
  e_0525 encoder "http://identifiers.org/sgd/S000003769",
                 "http://identifiers.org/kegg.genes/sce:YJR009C"
  e_0525 identity "http://identifiers.org/uniprot/P00358"
  e_0528 encoder "http://identifiers.org/sgd/S000003777",
                 "http://identifiers.org/kegg.genes/sce:YJR016C"
  e_0528 identity "http://identifiers.org/uniprot/P39522"
  e_0531 encoder "http://identifiers.org/sgd/S000003809",
                 "http://identifiers.org/kegg.genes/sce:YJR048W"
  e_0531 identity "http://identifiers.org/uniprot/P00044"
  e_0536 encoder "http://identifiers.org/sgd/S000003834",
                 "http://identifiers.org/kegg.genes/sce:YJR073C"
  e_0536 identity "http://identifiers.org/uniprot/P05375"
  e_0540 encoder "http://identifiers.org/sgd/S000003864",
                 "http://identifiers.org/kegg.genes/sce:YJR103W"
  e_0540 identity "http://identifiers.org/uniprot/P38627"
  e_0541 encoder "http://identifiers.org/sgd/S000003866",
                 "http://identifiers.org/kegg.genes/sce:YJR105W"
  e_0541 identity "http://identifiers.org/uniprot/P47143"
  e_0542 encoder "http://identifiers.org/sgd/S000003870",
                 "http://identifiers.org/kegg.genes/sce:YJR109C"
  e_0542 identity "http://identifiers.org/uniprot/P03965"
  e_0544 encoder "http://identifiers.org/sgd/S000003882",
                 "http://identifiers.org/kegg.genes/sce:YJR121W"
  e_0544 identity "http://identifiers.org/uniprot/P00830"
  e_0545 encoder "http://identifiers.org/sgd/S000003891",
                 "http://identifiers.org/kegg.genes/sce:YJR130C"
  e_0545 identity "http://identifiers.org/uniprot/P47164"
  e_0547 encoder "http://identifiers.org/sgd/S000003898",
                 "http://identifiers.org/kegg.genes/sce:YJR137C"
  e_0547 identity "http://identifiers.org/uniprot/P47169"
  e_0548 encoder "http://identifiers.org/sgd/S000003900",
                 "http://identifiers.org/kegg.genes/sce:YJR139C"
  e_0548 identity "http://identifiers.org/uniprot/P31116"
  e_0549 encoder "http://identifiers.org/sgd/S000003904",
                 "http://identifiers.org/kegg.genes/sce:YJR143C"
  e_0549 identity "http://identifiers.org/uniprot/P46971"
  e_0550 encoder "http://identifiers.org/sgd/S000003909",
                 "http://identifiers.org/kegg.genes/sce:YJR148W"
  e_0550 identity "http://identifiers.org/uniprot/P47176"
  e_0556 encoder "http://identifiers.org/sgd/S000001484",
                 "http://identifiers.org/kegg.genes/sce:YKL001C"
  e_0556 identity "http://identifiers.org/uniprot/Q02196"
  e_0557 encoder "http://identifiers.org/sgd/S000001487",
                 "http://identifiers.org/kegg.genes/sce:YKL004W"
  e_0557 identity "http://identifiers.org/uniprot/P36107"
  e_0558 encoder "http://identifiers.org/sgd/S000001491",
                 "http://identifiers.org/kegg.genes/sce:YKL008C"
  e_0558 identity "http://identifiers.org/uniprot/P28496"
  e_0559 encoder "http://identifiers.org/sgd/S000001499",
                 "http://identifiers.org/kegg.genes/sce:YKL016C"
  e_0559 identity "http://identifiers.org/uniprot/P30902"
  e_0561 encoder "http://identifiers.org/sgd/S000001507",
                 "http://identifiers.org/kegg.genes/sce:YKL024C"
  e_0561 identity "http://identifiers.org/uniprot/P15700"
  e_0565 encoder "http://identifiers.org/sgd/S000001518",
                 "http://identifiers.org/kegg.genes/sce:YKL035W"
  e_0565 identity "http://identifiers.org/uniprot/P32861"
  e_0567 encoder "http://identifiers.org/sgd/S000001543",
                 "http://identifiers.org/kegg.genes/sce:YKL060C"
  e_0567 identity "http://identifiers.org/uniprot/P14540"
  e_0568 encoder "http://identifiers.org/sgd/S000001550",
                 "http://identifiers.org/kegg.genes/sce:YKL067W"
  e_0568 identity "http://identifiers.org/uniprot/P36010"
  e_0569 encoder "http://identifiers.org/sgd/S000001563",
                 "http://identifiers.org/kegg.genes/sce:YKL080W"
  e_0569 identity "http://identifiers.org/uniprot/P31412"
  e_0571 encoder "http://identifiers.org/sgd/S000001568",
                 "http://identifiers.org/kegg.genes/sce:YKL085W"
  e_0571 identity "http://identifiers.org/uniprot/P17505"
  e_0574 encoder "http://identifiers.org/sgd/S000001589",
                 "http://identifiers.org/kegg.genes/sce:YKL106W"
  e_0574 identity "http://identifiers.org/uniprot/Q01802"
  e_0576 encoder "http://identifiers.org/sgd/S000001610",
                 "http://identifiers.org/kegg.genes/sce:YKL127W"
  e_0576 identity "http://identifiers.org/uniprot/P33401"
  e_0578 encoder "http://identifiers.org/sgd/S000001623",
                 "http://identifiers.org/kegg.genes/sce:YKL140W"
  e_0578 identity "http://identifiers.org/uniprot/P34163"
  e_0579 encoder "http://identifiers.org/sgd/S000001624",
                 "http://identifiers.org/kegg.genes/sce:YKL141W"
  e_0579 identity "http://identifiers.org/uniprot/P33421"
  e_0581 encoder "http://identifiers.org/sgd/S000001631",
                 "http://identifiers.org/kegg.genes/sce:YKL148C"
  e_0581 identity "http://identifiers.org/uniprot/Q00711"
  e_0582 encoder "http://identifiers.org/sgd/S000001635",
                 "http://identifiers.org/kegg.genes/sce:YKL152C"
  e_0582 identity "http://identifiers.org/uniprot/P00950"
  e_0585 encoder "http://identifiers.org/sgd/S000001664",
                 "http://identifiers.org/kegg.genes/sce:YKL181W"
  e_0585 identity "http://identifiers.org/uniprot/P32895"
  e_0586 encoder "http://identifiers.org/sgd/S000001665",
                 "http://identifiers.org/kegg.genes/sce:YKL182W"
  e_0586 identity "http://identifiers.org/uniprot/P07149"
  e_0588 encoder "http://identifiers.org/sgd/S000001671",
                 "http://identifiers.org/kegg.genes/sce:YKL188C"
  e_0588 identity "http://identifiers.org/uniprot/P34230"
  e_0591 encoder "http://identifiers.org/sgd/S000001694",
                 "http://identifiers.org/kegg.genes/sce:YKL211C"
  e_0591 identity "http://identifiers.org/uniprot/P00937"
  e_0594 encoder "http://identifiers.org/sgd/S000001699",
                 "http://identifiers.org/kegg.genes/sce:YKL216W"
  e_0594 identity "http://identifiers.org/uniprot/P28272"
  e_0601 encoder "http://identifiers.org/sgd/S000001751",
                 "http://identifiers.org/kegg.genes/sce:YKR043C"
  e_0601 identity "http://identifiers.org/uniprot/P36136"
  e_0603 encoder "http://identifiers.org/sgd/S000001766",
                 "http://identifiers.org/kegg.genes/sce:YKR058W"
  e_0603 identity "http://identifiers.org/uniprot/P36143"
  e_0607 encoder "http://identifiers.org/sgd/S000001775",
                 "http://identifiers.org/kegg.genes/sce:YKR067W"
  e_0607 identity "http://identifiers.org/uniprot/P36148"
  e_0610 encoder "http://identifiers.org/sgd/S000001788",
                 "http://identifiers.org/kegg.genes/sce:YKR080W"
  e_0610 identity "http://identifiers.org/uniprot/Q02046"
  e_0611 encoder "http://identifiers.org/sgd/S000001797",
                 "http://identifiers.org/kegg.genes/sce:YKR089C"
  e_0611 identity "http://identifiers.org/uniprot/P36165"
  e_0612 encoder "http://identifiers.org/sgd/S000001805",
                 "http://identifiers.org/kegg.genes/sce:YKR097W"
  e_0612 identity "http://identifiers.org/uniprot/P10963"
  e_0613 encoder "http://identifiers.org/sgd/S000003935",
                 "http://identifiers.org/kegg.genes/sce:YLL012W"
  e_0613 identity "http://identifiers.org/uniprot/Q07804"
  e_0615 encoder "http://identifiers.org/sgd/S000003941",
                 "http://identifiers.org/kegg.genes/sce:YLL018C"
  e_0615 identity "http://identifiers.org/uniprot/P04802"
  e_0619 encoder "http://identifiers.org/sgd/S000003964",
                 "http://identifiers.org/kegg.genes/sce:YLL041C"
  e_0619 identity "http://identifiers.org/uniprot/P21801"
  e_0621 encoder "http://identifiers.org/sgd/S000003971",
                 "http://identifiers.org/kegg.genes/sce:YLL048C"
  e_0621 identity "http://identifiers.org/uniprot/P32386"
  e_0629 encoder "http://identifiers.org/sgd/S000004017",
                 "http://identifiers.org/kegg.genes/sce:YLR027C"
  e_0629 identity "http://identifiers.org/uniprot/P23542"
  e_0631 encoder "http://identifiers.org/sgd/S000004018",
                 "http://identifiers.org/kegg.genes/sce:YLR028C"
  e_0631 identity "http://identifiers.org/uniprot/P54113"
  e_0632 encoder "http://identifiers.org/sgd/S000004028",
                 "http://identifiers.org/kegg.genes/sce:YLR038C"
  e_0632 identity "http://identifiers.org/uniprot/Q01519"
  e_0633 encoder "http://identifiers.org/sgd/S000004033",
                 "http://identifiers.org/kegg.genes/sce:YLR043C"
  e_0633 identity "http://identifiers.org/uniprot/P22217"
  e_0636 encoder "http://identifiers.org/sgd/S000004034",
                 "http://identifiers.org/kegg.genes/sce:YLR044C"
  e_0636 identity "http://identifiers.org/uniprot/P06169"
  e_0638 encoder "http://identifiers.org/sgd/S000004048",
                 "http://identifiers.org/kegg.genes/sce:YLR058C"
  e_0638 identity "http://identifiers.org/uniprot/P37291"
  e_0639 encoder "http://identifiers.org/sgd/S000004050",
                 "http://identifiers.org/kegg.genes/sce:YLR060W"
  e_0639 identity "http://identifiers.org/uniprot/P15624"
  e_0642 encoder "http://identifiers.org/sgd/S000004079",
                 "http://identifiers.org/kegg.genes/sce:YLR089C"
  e_0642 identity "http://identifiers.org/uniprot/P52893"
  e_0644 encoder "http://identifiers.org/sgd/S000004090",
                 "http://identifiers.org/kegg.genes/sce:YLR100W"
  e_0644 identity "http://identifiers.org/uniprot/Q12452"
  e_0647 encoder "http://identifiers.org/sgd/S000004124",
                 "http://identifiers.org/kegg.genes/sce:YLR134W"
  e_0647 identity "http://identifiers.org/uniprot/P16467"
  e_0658 encoder "http://identifiers.org/sgd/S000004170",
                 "http://identifiers.org/kegg.genes/sce:YLR180W"
  e_0658 identity "http://identifiers.org/uniprot/P10659"
  e_0667 encoder "http://identifiers.org/sgd/S000004248",
                 "http://identifiers.org/kegg.genes/sce:YLR258W"
  e_0667 identity "http://identifiers.org/uniprot/P27472"
  e_0671 encoder "http://identifiers.org/sgd/S000004286",
                 "http://identifiers.org/kegg.genes/sce:YLR295C"
  e_0671 identity "http://identifiers.org/uniprot/Q12349"
  e_0674 encoder "http://identifiers.org/sgd/S000004294",
                 "http://identifiers.org/kegg.genes/sce:YLR303W"
  e_0674 identity "http://identifiers.org/uniprot/P06106"
  e_0675 encoder "http://identifiers.org/sgd/S000004295",
                 "http://identifiers.org/kegg.genes/sce:YLR304C"
  e_0675 identity "http://identifiers.org/uniprot/P19414"
  e_0682 encoder "http://identifiers.org/sgd/S000004334",
                 "http://identifiers.org/kegg.genes/sce:YLR342W"
  e_0682 identity "http://identifiers.org/uniprot/P38631"
  e_0684 encoder "http://identifiers.org/sgd/S000004346",
                 "http://identifiers.org/kegg.genes/sce:YLR354C"
  e_0684 identity "http://identifiers.org/uniprot/P15019"
  e_0685 encoder "http://identifiers.org/sgd/S000004347",
                 "http://identifiers.org/kegg.genes/sce:YLR355C"
  e_0685 identity "http://identifiers.org/uniprot/P06168"
  e_0686 encoder "http://identifiers.org/sgd/S000004351",
                 "http://identifiers.org/kegg.genes/sce:YLR359W"
  e_0686 identity "http://identifiers.org/uniprot/Q05911"
  e_0687 encoder "http://identifiers.org/sgd/S000004364",
                 "http://identifiers.org/kegg.genes/sce:YLR372W"
  e_0687 identity "http://identifiers.org/uniprot/P40319"
  e_0690 encoder "http://identifiers.org/sgd/S000004387",
                 "http://identifiers.org/kegg.genes/sce:YLR395C"
  e_0690 identity "http://identifiers.org/uniprot/P04039"
  e_0692 encoder "http://identifiers.org/sgd/S000004412",
                 "http://identifiers.org/kegg.genes/sce:YLR420W"
  e_0692 identity "http://identifiers.org/uniprot/P20051"
  e_0693 encoder "http://identifiers.org/sgd/S000004424",
                 "http://identifiers.org/kegg.genes/sce:YLR432W"
  e_0693 identity "http://identifiers.org/uniprot/P50095"
  e_0695 encoder "http://identifiers.org/sgd/S000004439",
                 "http://identifiers.org/kegg.genes/sce:YLR447C"
  e_0695 identity "http://identifiers.org/uniprot/P32366"
  e_0697 encoder "http://identifiers.org/sgd/S000004442",
                 "http://identifiers.org/kegg.genes/sce:YLR450W"
  e_0697 identity "http://identifiers.org/uniprot/P12684"
  e_0698 encoder "http://identifiers.org/sgd/S000004463",
                 "http://identifiers.org/kegg.genes/sce:YML004C"
  e_0698 identity "http://identifiers.org/uniprot/P50107"
  e_0699 encoder "http://identifiers.org/sgd/S000004467",
                 "http://identifiers.org/kegg.genes/sce:YML008C"
  e_0699 identity "http://identifiers.org/uniprot/P25087"
  e_0704 encoder "http://identifiers.org/sgd/S000004518",
                 "http://identifiers.org/kegg.genes/sce:YML054C"
  e_0704 identity "http://identifiers.org/uniprot/P00175"
  e_0705 encoder "http://identifiers.org/sgd/S000004520",
                 "http://identifiers.org/kegg.genes/sce:YML056C"
  e_0705 identity "http://identifiers.org/uniprot/P50094"
  e_0708 encoder "http://identifiers.org/sgd/S000004540",
                 "http://identifiers.org/kegg.genes/sce:YML075C"
  e_0708 identity "http://identifiers.org/uniprot/P12683"
  e_0709 encoder "http://identifiers.org/sgd/S000007247",
                 "http://identifiers.org/kegg.genes/sce:YML081C-A"
  e_0709 identity "http://identifiers.org/uniprot/P81450"
  e_0711 encoder "http://identifiers.org/sgd/S000004566",
                 "http://identifiers.org/kegg.genes/sce:YML100W"
  e_0711 identity "http://identifiers.org/uniprot/P38427"
  e_0712 encoder "http://identifiers.org/sgd/S000004574",
                 "http://identifiers.org/kegg.genes/sce:YML106W"
  e_0712 identity "http://identifiers.org/uniprot/P13298"
  e_0716 encoder "http://identifiers.org/sgd/S000004595",
                 "http://identifiers.org/kegg.genes/sce:YML126C"
  e_0716 identity "http://identifiers.org/uniprot/P54839"
  e_0727 encoder "http://identifiers.org/sgd/S000004658",
                 "http://identifiers.org/kegg.genes/sce:YMR054W"
  e_0727 identity "http://identifiers.org/uniprot/P37296"
  e_0729 encoder "http://identifiers.org/sgd/S000004666",
                 "http://identifiers.org/kegg.genes/sce:YMR062C"
  e_0729 identity "http://identifiers.org/uniprot/Q04728"
  e_0730 encoder "http://identifiers.org/sgd/S000004688",
                 "http://identifiers.org/kegg.genes/sce:YMR083W"
  e_0730 identity "http://identifiers.org/uniprot/P07246"
  e_0733 encoder "http://identifiers.org/sgd/S000004711",
                 "http://identifiers.org/kegg.genes/sce:YMR105C"
  e_0733 identity "http://identifiers.org/uniprot/P37012"
  e_0734 encoder "http://identifiers.org/sgd/S000004714",
                 "http://identifiers.org/kegg.genes/sce:YMR108W"
  e_0734 identity "http://identifiers.org/uniprot/P07342"
  e_0736 encoder "http://identifiers.org/sgd/S000004727",
                 "http://identifiers.org/kegg.genes/sce:YMR120C"
  e_0736 identity "http://identifiers.org/uniprot/P38009"
  e_0740 encoder "http://identifiers.org/sgd/S000004780",
                 "http://identifiers.org/kegg.genes/sce:YMR170C"
  e_0740 identity "http://identifiers.org/uniprot/P47771"
  e_0741 encoder "http://identifiers.org/sgd/S000004801",
                 "http://identifiers.org/kegg.genes/sce:YMR189W"
  e_0741 identity "http://identifiers.org/uniprot/P49095"
  e_0742 encoder "http://identifiers.org/sgd/S000004815",
                 "http://identifiers.org/kegg.genes/sce:YMR202W"
  e_0742 identity "http://identifiers.org/uniprot/P32352"
  e_0743 encoder "http://identifiers.org/sgd/S000004818",
                 "http://identifiers.org/kegg.genes/sce:YMR205C"
  e_0743 identity "http://identifiers.org/uniprot/P16862"
  e_0744 encoder "http://identifiers.org/sgd/S000004820",
                 "http://identifiers.org/kegg.genes/sce:YMR207C"
  e_0744 identity "http://identifiers.org/uniprot/P32874"
  e_0745 encoder "http://identifiers.org/sgd/S000004821",
                 "http://identifiers.org/kegg.genes/sce:YMR208W"
  e_0745 identity "http://identifiers.org/uniprot/P07277"
  e_0746 encoder "http://identifiers.org/sgd/S000004830",
                 "http://identifiers.org/kegg.genes/sce:YMR217W"
  e_0746 identity "http://identifiers.org/uniprot/P38625"
  e_0747 encoder "http://identifiers.org/sgd/S000004833",
                 "http://identifiers.org/kegg.genes/sce:YMR220W"
  e_0747 identity "http://identifiers.org/uniprot/P24521"
  e_0750 encoder "http://identifiers.org/sgd/S000004860",
                 "http://identifiers.org/kegg.genes/sce:YMR246W"
  e_0750 identity "http://identifiers.org/uniprot/P47912"
  e_0752 encoder "http://identifiers.org/sgd/S000004869",
                 "http://identifiers.org/kegg.genes/sce:YMR256C"
  e_0752 identity "http://identifiers.org/uniprot/P10174"
  e_0753 encoder "http://identifiers.org/sgd/S000004874",
                 "http://identifiers.org/kegg.genes/sce:YMR261C"
  e_0753 identity "http://identifiers.org/uniprot/P38426"
  e_0754 encoder "http://identifiers.org/sgd/S000004880",
                 "http://identifiers.org/kegg.genes/sce:YMR267W"
  e_0754 identity "http://identifiers.org/uniprot/P28239"
  e_0755 encoder "http://identifiers.org/sgd/S000004884",
                 "http://identifiers.org/kegg.genes/sce:YMR271C"
  e_0755 identity "http://identifiers.org/uniprot/P30402"
  e_0757 encoder "http://identifiers.org/sgd/S000004891",
                 "http://identifiers.org/kegg.genes/sce:YMR278W"
  e_0757 identity "http://identifiers.org/uniprot/Q03262"
  e_0761 encoder "http://identifiers.org/sgd/S000004911",
                 "http://identifiers.org/kegg.genes/sce:YMR296C"
  e_0761 identity "http://identifiers.org/uniprot/P25045"
  e_0762 encoder "http://identifiers.org/sgd/S000004913",
                 "http://identifiers.org/kegg.genes/sce:YMR298W"
  e_0762 identity "http://identifiers.org/uniprot/Q03579"
  e_0763 encoder "http://identifiers.org/sgd/S000004915",
                 "http://identifiers.org/kegg.genes/sce:YMR300C"
  e_0763 identity "http://identifiers.org/uniprot/P04046"
  e_0765 encoder "http://identifiers.org/sgd/S000004930",
                 "http://identifiers.org/kegg.genes/sce:YMR313C"
  e_0765 identity "http://identifiers.org/uniprot/P40308"
  e_0769 encoder "http://identifiers.org/sgd/S000004954",
                 "http://identifiers.org/kegg.genes/sce:YNL009W"
  e_0769 identity "http://identifiers.org/uniprot/P53982"
  e_0771 encoder "http://identifiers.org/sgd/S000004982",
                 "http://identifiers.org/kegg.genes/sce:YNL037C"
  e_0771 identity "http://identifiers.org/uniprot/P28834"
  e_0774 encoder "http://identifiers.org/sgd/S000004997",
                 "http://identifiers.org/kegg.genes/sce:YNL052W"
  e_0774 identity "http://identifiers.org/uniprot/P00424"
  e_0778 encoder "http://identifiers.org/sgd/S000005048",
                 "http://identifiers.org/kegg.genes/sce:YNL104C"
  e_0778 identity "http://identifiers.org/uniprot/P06208"
  e_0788 encoder "http://identifiers.org/sgd/S000005113",
                 "http://identifiers.org/kegg.genes/sce:YNL169C"
  e_0788 identity "http://identifiers.org/uniprot/P39006"
  e_0791 encoder "http://identifiers.org/sgd/S000005164",
                 "http://identifiers.org/kegg.genes/sce:YNL220W"
  e_0791 identity "http://identifiers.org/uniprot/P80210"
  e_0792 encoder "http://identifiers.org/sgd/S000005185",
                 "http://identifiers.org/kegg.genes/sce:YNL241C"
  e_0792 identity "http://identifiers.org/uniprot/P11412"
  e_0793 encoder "http://identifiers.org/sgd/S000005191",
                 "http://identifiers.org/kegg.genes/sce:YNL247W"
  e_0793 identity "http://identifiers.org/uniprot/P53852"
  e_0799 encoder "http://identifiers.org/sgd/S000005221",
                 "http://identifiers.org/kegg.genes/sce:YNL277W"
  e_0799 identity "http://identifiers.org/uniprot/P08465"
  e_0800 encoder "http://identifiers.org/sgd/S000005224",
                 "http://identifiers.org/kegg.genes/sce:YNL280C"
  e_0800 identity "http://identifiers.org/uniprot/P32462"
  e_0802 encoder "http://identifiers.org/sgd/S000005260",
                 "http://identifiers.org/kegg.genes/sce:YNL316C"
  e_0802 identity "http://identifiers.org/uniprot/P32452"
  e_0805 encoder "http://identifiers.org/sgd/S000005284",
                 "http://identifiers.org/kegg.genes/sce:YNR001C"
  e_0805 identity "http://identifiers.org/uniprot/P00890"
  e_0808 encoder "http://identifiers.org/sgd/S000005299",
                 "http://identifiers.org/kegg.genes/sce:YNR016C"
  e_0808 identity "http://identifiers.org/uniprot/Q00955"
  e_0812 encoder "http://identifiers.org/sgd/S000005326",
                 "http://identifiers.org/kegg.genes/sce:YNR043W"
  e_0812 identity "http://identifiers.org/uniprot/P32377"
  e_0813 encoder "http://identifiers.org/sgd/S000005333",
                 "http://identifiers.org/kegg.genes/sce:YNR050C"
  e_0813 identity "http://identifiers.org/uniprot/P38999"
  e_0826 encoder "http://identifiers.org/sgd/S000005419",
                 "http://identifiers.org/kegg.genes/sce:YOL058W"
  e_0826 identity "http://identifiers.org/uniprot/P22768"
  e_0827 encoder "http://identifiers.org/sgd/S000005420",
                 "http://identifiers.org/kegg.genes/sce:YOL059W"
  e_0827 identity "http://identifiers.org/uniprot/P41911"
  e_0829 encoder "http://identifiers.org/sgd/S000005422",
                 "http://identifiers.org/kegg.genes/sce:YOL061W"
  e_0829 identity "http://identifiers.org/uniprot/Q12265"
  e_0830 encoder "http://identifiers.org/sgd/S000005425",
                 "http://identifiers.org/kegg.genes/sce:YOL064C"
  e_0830 identity "http://identifiers.org/uniprot/P32179"
  e_0832 encoder "http://identifiers.org/sgd/S000005427",
                 "http://identifiers.org/kegg.genes/sce:YOL066C"
  e_0832 identity "http://identifiers.org/uniprot/Q12362"
  e_0834 encoder "http://identifiers.org/sgd/S000005446",
                 "http://identifiers.org/kegg.genes/sce:YOL086C"
  e_0834 identity "http://identifiers.org/uniprot/P00330"
  e_0836 encoder "http://identifiers.org/sgd/S000005457",
                 "http://identifiers.org/kegg.genes/sce:YOL097C"
  e_0836 identity "http://identifiers.org/uniprot/Q12109"
  e_0838 encoder "http://identifiers.org/sgd/S000005486",
                 "http://identifiers.org/kegg.genes/sce:YOL126C"
  e_0838 identity "http://identifiers.org/uniprot/P22133"
  e_0840 encoder "http://identifiers.org/sgd/S000005500",
                 "http://identifiers.org/kegg.genes/sce:YOL140W"
  e_0840 identity "http://identifiers.org/uniprot/P18544"
  e_0841 encoder "http://identifiers.org/sgd/S000005503",
                 "http://identifiers.org/kegg.genes/sce:YOL143C"
  e_0841 identity "http://identifiers.org/uniprot/P50861"
  e_0842 encoder "http://identifiers.org/sgd/S000005511",
                 "http://identifiers.org/kegg.genes/sce:YOL151W"
  e_0842 identity "http://identifiers.org/uniprot/Q12068"
  e_0846 encoder "http://identifiers.org/sgd/S000005566",
                 "http://identifiers.org/kegg.genes/sce:YOR040W"
  e_0846 identity "http://identifiers.org/uniprot/Q12320"
  e_0848 encoder "http://identifiers.org/sgd/S000005591",
                 "http://identifiers.org/kegg.genes/sce:YOR065W"
  e_0848 identity "http://identifiers.org/uniprot/P07143"
  e_0850 encoder "http://identifiers.org/sgd/S000005600",
                 "http://identifiers.org/kegg.genes/sce:YOR074C"
  e_0850 identity "http://identifiers.org/uniprot/P06785"
  e_0851 encoder "http://identifiers.org/sgd/S000005607",
                 "http://identifiers.org/kegg.genes/sce:YOR081C"
  e_0851 identity "http://identifiers.org/uniprot/Q12043"
  e_0852 encoder "http://identifiers.org/sgd/S000005621",
                 "http://identifiers.org/kegg.genes/sce:YOR095C"
  e_0852 identity "http://identifiers.org/uniprot/Q12189"
  e_0855 encoder "http://identifiers.org/sgd/S000005634",
                 "http://identifiers.org/kegg.genes/sce:YOR108W"
  e_0855 identity "http://identifiers.org/uniprot/Q12166"
  e_0860 encoder "http://identifiers.org/sgd/S000005654",
                 "http://identifiers.org/kegg.genes/sce:YOR128C"
  e_0860 identity "http://identifiers.org/uniprot/P21264"
  e_0862 encoder "http://identifiers.org/sgd/S000005662",
                 "http://identifiers.org/kegg.genes/sce:YOR136W"
  e_0862 identity "http://identifiers.org/uniprot/P28241"
  e_0867 encoder "http://identifiers.org/sgd/S000005694",
                 "http://identifiers.org/kegg.genes/sce:YOR168W"
  e_0867 identity "http://identifiers.org/uniprot/P13188"
  e_0869 encoder "http://identifiers.org/sgd/S000005701",
                 "http://identifiers.org/kegg.genes/sce:YOR175C"
  e_0869 identity "http://identifiers.org/uniprot/Q08548"
  e_0875 encoder "http://identifiers.org/sgd/S000005728",
                 "http://identifiers.org/kegg.genes/sce:YOR202W"
  e_0875 identity "http://identifiers.org/uniprot/P06633"
  e_0880 encoder "http://identifiers.org/sgd/S000005762",
                 "http://identifiers.org/kegg.genes/sce:YOR236W"
  e_0880 identity "http://identifiers.org/uniprot/P07807"
  e_0883 encoder "http://identifiers.org/sgd/S000005771",
                 "http://identifiers.org/kegg.genes/sce:YOR245C"
  e_0883 identity "http://identifiers.org/uniprot/Q08650"
  e_0884 encoder "http://identifiers.org/sgd/S000005796",
                 "http://identifiers.org/kegg.genes/sce:YOR270C"
  e_0884 identity "http://identifiers.org/uniprot/P32563"
  e_0888 encoder "http://identifiers.org/sgd/S000005829",
                 "http://identifiers.org/kegg.genes/sce:YOR303W"
  e_0888 identity "http://identifiers.org/uniprot/P07258"
  e_0889 encoder "http://identifiers.org/sgd/S000005844",
                 "http://identifiers.org/kegg.genes/sce:YOR317W"
  e_0889 identity "http://identifiers.org/uniprot/P30624"
  e_0890 encoder "http://identifiers.org/sgd/S000005848",
                 "http://identifiers.org/kegg.genes/sce:YOR321W"
  e_0890 identity "http://identifiers.org/uniprot/P47190"
  e_0892 encoder "http://identifiers.org/sgd/S000005859",
                 "http://identifiers.org/kegg.genes/sce:YOR332W"
  e_0892 identity "http://identifiers.org/uniprot/P22203"
  e_0894 encoder "http://identifiers.org/sgd/S000005862",
                 "http://identifiers.org/kegg.genes/sce:YOR335C"
  e_0894 identity "http://identifiers.org/uniprot/P40825"
  e_0895 encoder "http://identifiers.org/sgd/S000005874",
                 "http://identifiers.org/kegg.genes/sce:YOR347C"
  e_0895 identity "http://identifiers.org/uniprot/P52489"
  e_0898 encoder "http://identifiers.org/sgd/S000005901",
                 "http://identifiers.org/kegg.genes/sce:YOR374W"
  e_0898 identity "http://identifiers.org/uniprot/P46367"
  e_0903 encoder "http://identifiers.org/sgd/S000005944",
                 "http://identifiers.org/kegg.genes/sce:YPL023C"
  e_0903 identity "http://identifiers.org/uniprot/P46151"
  e_0904 encoder "http://identifiers.org/sgd/S000005949",
                 "http://identifiers.org/kegg.genes/sce:YPL028W"
  e_0904 identity "http://identifiers.org/uniprot/P41338"
  e_0911 encoder "http://identifiers.org/sgd/S000005982",
                 "http://identifiers.org/kegg.genes/sce:YPL061W"
  e_0911 identity "http://identifiers.org/uniprot/P54115"
  e_0913 encoder "http://identifiers.org/sgd/S000005999",
                 "http://identifiers.org/kegg.genes/sce:YPL078C"
  e_0913 identity "http://identifiers.org/uniprot/P05626"
  e_0915 encoder "http://identifiers.org/sgd/S000006012",
                 "http://identifiers.org/kegg.genes/sce:YPL091W"
  e_0915 identity "http://identifiers.org/uniprot/P41921"
  e_0922 encoder "http://identifiers.org/sgd/S000006038",
                 "http://identifiers.org/kegg.genes/sce:YPL117C"
  e_0922 identity "http://identifiers.org/uniprot/P15496"
  e_0924 encoder "http://identifiers.org/sgd/S000006068",
                 "http://identifiers.org/kegg.genes/sce:YPL147W"
  e_0924 identity "http://identifiers.org/uniprot/P41909"
  e_0926 encoder "http://identifiers.org/sgd/S000006081",
                 "http://identifiers.org/kegg.genes/sce:YPL160W"
  e_0926 identity "http://identifiers.org/uniprot/P26637"
  e_0934 encoder "http://identifiers.org/sgd/S000006152",
                 "http://identifiers.org/kegg.genes/sce:YPL231W"
  e_0934 identity "http://identifiers.org/uniprot/P19097"
  e_0935 encoder "http://identifiers.org/sgd/S000006155",
                 "http://identifiers.org/kegg.genes/sce:YPL234C"
  e_0935 identity "http://identifiers.org/uniprot/P32842"
  e_0940 encoder "http://identifiers.org/sgd/S000006183",
                 "http://identifiers.org/kegg.genes/sce:YPL262W"
  e_0940 identity "http://identifiers.org/uniprot/P08417"
  e_0944 encoder "http://identifiers.org/sgd/S000006192",
                 "http://identifiers.org/kegg.genes/sce:YPL271W"
  e_0944 identity "http://identifiers.org/uniprot/P21306"
  e_0947 encoder "http://identifiers.org/sgd/S000006205",
                 "http://identifiers.org/kegg.genes/sce:YPR001W"
  e_0947 identity "http://identifiers.org/uniprot/P43635"
  e_0950 encoder "http://identifiers.org/sgd/S000006224",
                 "http://identifiers.org/kegg.genes/sce:YPR020W"
  e_0950 identity "http://identifiers.org/uniprot/Q12233"
  e_0953 encoder "http://identifiers.org/sgd/S000006237",
                 "http://identifiers.org/kegg.genes/sce:YPR033C"
  e_0953 identity "http://identifiers.org/uniprot/P07263"
  e_0955 encoder "http://identifiers.org/sgd/S000006239",
                 "http://identifiers.org/kegg.genes/sce:YPR035W"
  e_0955 identity "http://identifiers.org/uniprot/P32288"
  e_0956 encoder "http://identifiers.org/sgd/S000006240",
                 "http://identifiers.org/kegg.genes/sce:YPR036W"
  e_0956 identity "http://identifiers.org/uniprot/P41807"
  e_0959 encoder "http://identifiers.org/sgd/S000006264",
                 "http://identifiers.org/kegg.genes/sce:YPR060C"
  e_0959 identity "http://identifiers.org/uniprot/P32178"
  e_0962 encoder "http://identifiers.org/sgd/S000006278",
                 "http://identifiers.org/kegg.genes/sce:YPR074C"
  e_0962 identity "http://identifiers.org/uniprot/P23254"
  e_0963 encoder "http://identifiers.org/sgd/S000006285",
                 "http://identifiers.org/kegg.genes/sce:YPR081C"
  e_0963 identity "http://identifiers.org/uniprot/Q06817"
  e_0964 encoder "http://identifiers.org/sgd/S000006317",
                 "http://identifiers.org/kegg.genes/sce:YPR113W"
  e_0964 identity "http://identifiers.org/uniprot/P06197"
  e_0970 encoder "http://identifiers.org/sgd/S000006349",
                 "http://identifiers.org/kegg.genes/sce:YPR145W"
  e_0970 identity "http://identifiers.org/uniprot/P49089"
  e_0973 encoder "http://identifiers.org/sgd/S000006363",
                 "http://identifiers.org/kegg.genes/sce:YPR159W"
  e_0973 identity "http://identifiers.org/uniprot/P32486"
  e_0975 encoder "http://identifiers.org/sgd/S000006371",
                 "http://identifiers.org/kegg.genes/sce:YPR167C"
  e_0975 identity "http://identifiers.org/uniprot/P18408"
  e_0976 encoder "http://identifiers.org/sgd/S000006387",
                 "http://identifiers.org/kegg.genes/sce:YPR183W"
  e_0976 identity "http://identifiers.org/uniprot/P14020"
  e_0978 encoder "http://identifiers.org/sgd/S000006395",
                 "http://identifiers.org/kegg.genes/sce:YPR191W"
  e_0978 identity "http://identifiers.org/uniprot/P07257"
  e_0980 encoder "http://identifiers.org/sgd/S000000954",
                 "http://identifiers.org/kegg.genes/sce:YER152C"
  e_0980 identity "http://identifiers.org/uniprot/P10356"
  F26bP identity "http://identifiers.org/chebi/CHEBI:58579",
                 "http://identifiers.org/kegg.compound/C00665"
  r_0001 identity "http://identifiers.org/kegg.reaction/R00197"
  r_0004 identity "http://identifiers.org/kegg.reaction/R00196"
  r_0005 identity "http://identifiers.org/kegg.reaction/R03118"
  r_0007 identity "http://identifiers.org/kegg.reaction/R04640"
  r_0008 identity "http://identifiers.org/kegg.reaction/R02241"
  r_0015 identity "http://identifiers.org/kegg.reaction/R09376"
  r_0016 identity "http://identifiers.org/kegg.reaction/R08648"
  r_0018 identity "http://identifiers.org/kegg.reaction/R01939"
  r_0020 identity "http://identifiers.org/kegg.reaction/R01826"
  r_0023 identity "http://identifiers.org/kegg.reaction/R03968"
  r_0024 identity "http://identifiers.org/kegg.reaction/R01213"
  r_0027 identity "http://identifiers.org/kegg.reaction/R03444"
  r_0029 identity "http://identifiers.org/kegg.reaction/R01652"
  r_0032 identity "http://identifiers.org/kegg.reaction/R00188"
  r_0038 identity "http://identifiers.org/kegg.reaction/R07281"
  r_0039 identity "http://identifiers.org/kegg.reaction/R03084"
  r_0040 identity "http://identifiers.org/kegg.reaction/R03083"
  r_0041 identity "http://identifiers.org/kegg.reaction/R02978"
  r_0060 identity "http://identifiers.org/kegg.reaction/R04001"
  r_0061 identity "http://identifiers.org/kegg.reaction/R04426"
  r_0065 identity "http://identifiers.org/kegg.reaction/R03460"
  r_0079 identity "http://identifiers.org/kegg.reaction/R04463"
  r_0080 identity "http://identifiers.org/kegg.reaction/R01224"
  r_0091 identity "http://identifiers.org/kegg.reaction/R02035"
  r_0097 identity "http://identifiers.org/kegg.reaction/R00006"
  r_0108 identity "http://identifiers.org/kegg.reaction/R00742"
  r_0115 identity "http://identifiers.org/kegg.reaction/R02649"
  r_0118 identity "http://identifiers.org/kegg.reaction/R02283"
  r_0142 identity "http://identifiers.org/kegg.reaction/R00185"
  r_0144 identity "http://identifiers.org/kegg.reaction/R00192"
  AK identity "http://identifiers.org/kegg.reaction/R00127"
  r_0151 identity "http://identifiers.org/kegg.reaction/R04559"
  r_0152 identity "http://identifiers.org/kegg.reaction/R01083"
  r_0153 identity "http://identifiers.org/kegg.reaction/R01135"
  r_0154 identity "http://identifiers.org/kegg.reaction/R00509"
  r_0156 identity "http://identifiers.org/kegg.reaction/R00369"
  r_0157 identity "http://identifiers.org/kegg.reaction/R03038"
  ADH identity "http://identifiers.org/kegg.reaction/R00754"
  r_0173 identity "http://identifiers.org/kegg.reaction/R00711"
  r_0174 identity "http://identifiers.org/kegg.reaction/R00710"
  r_0195 identity "http://identifiers.org/kegg.reaction/R00836"
  r_0202 identity "http://identifiers.org/kegg.reaction/R01073"
  r_0203 identity "http://identifiers.org/kegg.reaction/R00986"
  r_0207 identity "http://identifiers.org/kegg.reaction/R01086"
  r_0208 identity "http://identifiers.org/kegg.reaction/R01954"
  r_0209 identity "http://identifiers.org/kegg.reaction/R03646"
  r_0211 identity "http://identifiers.org/kegg.reaction/R00578"
  r_0212 identity "http://identifiers.org/kegg.reaction/R03648"
  r_0214 identity "http://identifiers.org/kegg.reaction/R01397"
  r_0215 identity "http://identifiers.org/kegg.reaction/R00480"
  r_0216 identity "http://identifiers.org/kegg.reaction/R00355"
  r_0219 identity "http://identifiers.org/kegg.reaction/R02291"
  r_0220 identity "http://identifiers.org/kegg.reaction/R05577"
  r_0225 identity "http://identifiers.org/kegg.reaction/R01071"
  r_0231 identity "http://identifiers.org/kegg.reaction/R05639"
  r_0236 identity "http://identifiers.org/kegg.reaction/R07495"
  r_0241 identity "http://identifiers.org/kegg.reaction/R07509"
  r_0243 identity "http://identifiers.org/kegg.reaction/R07497"
  r_0244 identity "http://identifiers.org/kegg.reaction/R05641"
  r_0250 identity "http://identifiers.org/kegg.reaction/R00575"
  r_0257 identity "http://identifiers.org/kegg.reaction/R01799"
  r_0264 identity "http://identifiers.org/kegg.reaction/R06517"
  r_0278 identity "http://identifiers.org/kegg.reaction/R01715"
  r_0279 identity "http://identifiers.org/kegg.reaction/R01714"
  r_0280 identity "http://identifiers.org/kegg.reaction/R01900"
  r_0302 identity "http://identifiers.org/kegg.reaction/R01325"
  r_0309 identity "http://identifiers.org/kegg.reaction/R01290"
  r_0311 identity "http://identifiers.org/kegg.reaction/R03217"
  r_0313 identity "http://identifiers.org/kegg.reaction/R03650"
  r_0317 identity "http://identifiers.org/kegg.reaction/R05640"
  r_0330 identity "http://identifiers.org/kegg.reaction/R02090"
  r_0344 identity "http://identifiers.org/kegg.reaction/R00939"
  r_0349 identity "http://identifiers.org/kegg.reaction/R01993"
  r_0352 identity "http://identifiers.org/kegg.reaction/R04441"
  r_0353 identity "http://identifiers.org/kegg.reaction/R05070"
  r_0355 identity "http://identifiers.org/kegg.reaction/R01658"
  r_0361 identity "http://identifiers.org/kegg.reaction/R01009"
  r_0364 identity "http://identifiers.org/kegg.reaction/R02100"
  ENO identity "http://identifiers.org/kegg.reaction/R00658"
  r_0438 identity "http://identifiers.org/kegg.reaction/R00081"
  r_0446 identity "http://identifiers.org/kegg.reaction/R00943"
  r_0451 identity "http://identifiers.org/kegg.reaction/R01082"
  r_0462 identity "http://identifiers.org/kegg.reaction/R02003"
  r_0466 identity "http://identifiers.org/kegg.reaction/R00835"
  PGI identity "http://identifiers.org/kegg.reaction/R00771"
  r_0478 identity "http://identifiers.org/kegg.reaction/R03652"
  r_0479 identity "http://identifiers.org/kegg.reaction/R05578"
  r_0489 identity "http://identifiers.org/kegg.reaction/R00841"
  r_0491 identity "http://identifiers.org/kegg.reaction/R00842"
  r_0495 identity "http://identifiers.org/kegg.reaction/R00851"
  r_0499 identity "http://identifiers.org/kegg.reaction/R04325"
  r_0502 identity "http://identifiers.org/kegg.reaction/R00945"
  r_0512 identity "http://identifiers.org/kegg.reaction/R03654"
  r_0514 identity "http://identifiers.org/kegg.reaction/R01231"
  r_0525 identity "http://identifiers.org/kegg.reaction/R00425"
  r_0528 identity "http://identifiers.org/kegg.reaction/R00332"
  HXK identity "http://identifiers.org/kegg.reaction/R00299"
  r_0536 identity "http://identifiers.org/kegg.reaction/R01158"
  r_0537 identity "http://identifiers.org/kegg.reaction/R03013"
  r_0538 identity "http://identifiers.org/kegg.reaction/R03243"
  r_0539 identity "http://identifiers.org/kegg.reaction/R03655"
  r_0542 identity "http://identifiers.org/kegg.reaction/R04371"
  r_0543 identity "http://identifiers.org/kegg.reaction/R00271"
  r_0547 identity "http://identifiers.org/kegg.reaction/R01775"
  r_0548 identity "http://identifiers.org/kegg.reaction/R01771"
  r_0549 identity "http://identifiers.org/kegg.reaction/R01776"
  r_0553 identity "http://identifiers.org/kegg.reaction/R01736"
  r_0558 identity "http://identifiers.org/kegg.reaction/R02082"
  r_0559 identity "http://identifiers.org/kegg.reaction/R01978"
  r_0563 identity "http://identifiers.org/kegg.reaction/R04558"
  r_0564 identity "http://identifiers.org/kegg.reaction/R03457"
  r_0565 identity "http://identifiers.org/kegg.reaction/R01130"
  r_0566 identity "http://identifiers.org/kegg.reaction/R03508"
  r_0570 identity "http://identifiers.org/kegg.reaction/R01127"
  r_0591 identity "http://identifiers.org/kegg.reaction/R03364"
  r_0658 identity "http://identifiers.org/kegg.reaction/R00709"
  r_0661 identity "http://identifiers.org/kegg.reaction/R00267"
  r_0662 identity "http://identifiers.org/kegg.reaction/R00479"
  r_0663 identity "http://identifiers.org/kegg.reaction/R02199"
  r_0665 identity "http://identifiers.org/kegg.reaction/R03656"
  r_0667 identity "http://identifiers.org/kegg.reaction/R01123"
  r_0674 identity "http://identifiers.org/kegg.reaction/R00258"
  r_0688 identity "http://identifiers.org/kegg.reaction/R02260"
  r_0696 identity "http://identifiers.org/kegg.reaction/R01446"
  r_0697 identity "http://identifiers.org/kegg.reaction/R02530"
  r_0698 identity "http://identifiers.org/kegg.reaction/R03199"
  r_0699 identity "http://identifiers.org/kegg.reaction/R01090"
  r_0701 identity "http://identifiers.org/kegg.reaction/R03657"
  r_0711 identity "http://identifiers.org/kegg.reaction/R03658"
  r_0713 identity "http://identifiers.org/kegg.reaction/R00342"
  r_0722 identity "http://identifiers.org/kegg.reaction/R00885"
  r_0723 identity "http://identifiers.org/kegg.reaction/R00772"
  r_0724 identity "http://identifiers.org/kegg.reaction/R01655"
  r_0726 identity "http://identifiers.org/kegg.reaction/R00177"
  r_0727 identity "http://identifiers.org/kegg.reaction/R00946"
  r_0729 identity "http://identifiers.org/kegg.reaction/R03659"
  r_0731 identity "http://identifiers.org/kegg.reaction/R01218"
  r_0732 identity "http://identifiers.org/kegg.reaction/R01220"
  r_0735 identity "http://identifiers.org/kegg.reaction/R02245"
  r_0739 identity "http://identifiers.org/kegg.reaction/R01121"
  r_0757 identity "http://identifiers.org/kegg.reaction/R01185"
  r_0759 identity "http://identifiers.org/kegg.reaction/R03443"
  r_0792 identity "http://identifiers.org/kegg.reaction/R00514"
  r_0800 identity "http://identifiers.org/kegg.reaction/R00330"
  r_0811 identity "http://identifiers.org/kegg.reaction/R00156"
  r_0813 identity "http://identifiers.org/kegg.reaction/R01287"
  r_0820 identity "http://identifiers.org/kegg.reaction/R01870"
  r_0821 identity "http://identifiers.org/kegg.reaction/R00965"
  r_0851 identity "http://identifiers.org/kegg.reaction/R00694"
  r_0852 identity "http://identifiers.org/kegg.reaction/R03660"
  r_0855 identity "http://identifiers.org/kegg.reaction/R04208"
  r_0858 identity "http://identifiers.org/kegg.reaction/R02056"
  r_0874 identity "http://identifiers.org/kegg.reaction/R01802"
  r_0877 identity "http://identifiers.org/kegg.reaction/R02055"
  r_0880 identity "http://identifiers.org/kegg.reaction/R01800"
  r_0884 identity "http://identifiers.org/kegg.reaction/R00341"
  PFK identity "http://identifiers.org/kegg.reaction/R00756"
  r_0888 identity "http://identifiers.org/kegg.reaction/R08639"
  r_0889 identity "http://identifiers.org/kegg.reaction/R01528"
  PGK identity "http://identifiers.org/kegg.reaction/R01512"
  GPM identity "http://identifiers.org/kegg.reaction/R01518"
  r_0900 identity "http://identifiers.org/kegg.reaction/R01320"
  r_0901 identity "http://identifiers.org/kegg.reaction/R03424"
  r_0902 identity "http://identifiers.org/kegg.reaction/R01818"
  r_0904 identity "http://identifiers.org/kegg.reaction/R03245"
  r_0908 identity "http://identifiers.org/kegg.reaction/R04591"
  r_0909 identity "http://identifiers.org/kegg.reaction/R04037"
  r_0910 identity "http://identifiers.org/kegg.reaction/R04035"
  r_0911 identity "http://identifiers.org/kegg.reaction/R04209"
  r_0912 identity "http://identifiers.org/kegg.reaction/R04560"
  r_0913 identity "http://identifiers.org/kegg.reaction/R03509"
  r_0914 identity "http://identifiers.org/kegg.reaction/R04144"
  r_0915 identity "http://identifiers.org/kegg.reaction/R01072"
  r_0938 identity "http://identifiers.org/kegg.reaction/R01373"
  r_0939 identity "http://identifiers.org/kegg.reaction/R01730"
  r_0941 identity "http://identifiers.org/kegg.reaction/R03661"
  r_0958 identity "http://identifiers.org/kegg.reaction/R00344"
  PDC identity "http://identifiers.org/kegg.reaction/R00224"
  PYK identity "http://identifiers.org/kegg.reaction/R00200"
  r_0967 identity "http://identifiers.org/kegg.reaction/R04457"
  r_0968 identity "http://identifiers.org/kegg.reaction/R00066"
  r_0970 identity "http://identifiers.org/kegg.reaction/R02014"
  r_0973 identity "http://identifiers.org/kegg.reaction/R02023"
  r_0974 identity "http://identifiers.org/kegg.reaction/R02017"
  r_0976 identity "http://identifiers.org/kegg.reaction/R02024"
  r_0978 identity "http://identifiers.org/kegg.reaction/R02019"
  r_0984 identity "http://identifiers.org/kegg.reaction/R01529"
  r_0986 identity "http://identifiers.org/kegg.reaction/R04427"
  r_0988 identity "http://identifiers.org/kegg.reaction/R00715"
  r_0989 identity "http://identifiers.org/kegg.reaction/R02315"
  r_0990 identity "http://identifiers.org/kegg.reaction/R01829"
  r_0993 identity "http://identifiers.org/kegg.reaction/R01281"
  r_0995 identity "http://identifiers.org/kegg.reaction/R03662"
  r_0996 identity "http://identifiers.org/kegg.reaction/R02413"
  r_0997 identity "http://identifiers.org/kegg.reaction/R02412"
  r_1012 identity "http://identifiers.org/kegg.reaction/R06223"
  r_1026 identity "http://identifiers.org/kegg.reaction/R00530"
  r_1038 identity "http://identifiers.org/kegg.reaction/R02016"
  r_1040 identity "http://identifiers.org/kegg.reaction/R00751"
  r_1041 identity "http://identifiers.org/kegg.reaction/R01466"
  r_1042 identity "http://identifiers.org/kegg.reaction/R03663"
  r_1045 identity "http://identifiers.org/kegg.reaction/R02101"
  r_1051 identity "http://identifiers.org/kegg.reaction/R02778"
  r_1057 identity "http://identifiers.org/kegg.reaction/R03664"
  r_1063 identity "http://identifiers.org/kegg.reaction/R00734"
  r_1066 identity "http://identifiers.org/kegg.reaction/R02918"
  r_1072 identity "http://identifiers.org/kegg.reaction/R00158"
  r_1084 identity "http://identifiers.org/kegg.reaction/R00289"
  r_1087 identity "http://identifiers.org/kegg.reaction/R01214"
  r_1089 identity "http://identifiers.org/kegg.reaction/R03665"
  r_2126 identity "http://identifiers.org/kegg.reaction/R01845"
  r_2127 identity "http://identifiers.org/kegg.reaction/R01869"
end

MODEL1302140005 is "Smallbone2013 - Yeast metabolic model with modular rate law, merged with Pritchard 2002"

MODEL1302140005 model_entity_is "http://identifiers.org/biomodels.db/MODEL1302140005"
MODEL1302140005 model_entity_is "http://identifiers.org/biomodels.db/BIOMD0000000473"
MODEL1302140005 description "http://identifiers.org/doi/10.1089/ind.2013.0003"
MODEL1302140005 origin "http://identifiers.org/biomodels.db/BIOMD0000000172"
MODEL1302140005 taxon "http://identifiers.org/taxonomy/559292"
MODEL1302140005 part "http://identifiers.org/go/GO:0006096"
MODEL1302140005 hypernym "http://identifiers.org/go/GO:0008152"
