Table 4.
Inferred reaction activity differences between MC58 and α522 in human blood based on gene cross-strain expression differences
| Reaction | Chemical Equation | Enzyme(s) | Ratio(a) |
|---|---|---|---|
| R030 | AKG + NADPH + NH3 = GLU + NADP | Glutamate dehydrogenase | −14.85 |
| R031 | ATP + GLU + NH3 = ADP + GLN | Glutamine synthetase | −3.03 |
| R047 | AcCoA + H2S + SER = ACE + CYS + CoA | Serine acetyltransferase + cysteine synthase | −2.32 |
| R001 | AcCoA + OXA = CIT + CoA | Citrate-synthase | 13.86 |
| R002 | NADP + CIT = CO2 + NADPH + AKG | Aconitase | 13.86 |
| R015 | CO2 + PEP = OXA | Phosphoenolpyruvate carboxylase | 11.90 |
| R052 | 3PG + GLU + NAD = AKG + NADH + SER | Serine synthesis: 3PG dehydrogenase + pserine aminotransferase + pserine phosphatase (SerA+ SerB + SerC) | 7.63 |
| R053 | SER = GLY | Serine hydroxymethyltransferase | 7.45 |
| R056 | AcCoA + GLU + IVA + NAD = AKG + CO2 + CoA + LEU + NADH | Leucine synthesis: isopropylmatate synthase + isopropylmalate dehydratase + isopropylmalate dehydrogenase + aminotransferase (LeuA + LeuB + LeuC + LeuD) | 6.78 |
| R061 | CHOR = PRE | Chorismate mutase | 12.58 |
| R062 | GLU + PRE = AKG + CO2 + PHE | Aminotransferase + phenyalanine synthesis | 12.58 |
| R063 | GLU + NAD + PRE = AKG + CO2 + NADH + TYR | Aminotransferase + tyrosine synthesis | 12.58 |
| R117 | ACA + NADH = ETH + NAD | Alcohol dehydrogenase | 14.74 |
| R118 | ACE + NADH = ACA + NAD | Aldehyde dehydrogenase | 14.74 |
| R155 | ACE = ACE_ext + H_ext | Acetate transporter | 11.50 |
| R049 | O2 + THS = 2 SO3 | Thiosulfate reductase | 0.61 |
| R050 | 3 NADPH + SO3 = H2S + 3 NADP | Sulfite reductase | 0.71 |
| R132 | H2S = HS−_ext + H_ext | Sulfur transporter | 0.45 |
(a) Ratio of the reaction activity in MC58 divided by the reaction activity in α522. A ratio larger than one indicates that the reaction has a higher activity in MC58, and a negative ratio that the reaction occurs in opposite directions both strains