Q Rev Biophys. 1998 Feb;31(1):41-106. 13C-NMR, MS and metabolic flux balancing in biotechnology research. Szyperski T.
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ATP production rate Maximum | N/A | -R01786-R04779+2.5*R01061+R01512+R00200+2.5*R00209 +2.5*R00267+2.5*R08549-R00405+1.5*R00402+2.5*R00342 +2.5*R00214 |
ATP production rate Minium | 398.09 | -R01786-R04779+2.5*R01061+R01512+R00200+2.5*R00209 +2.5*R08549-R00405+1.5*R00402+2.5*R00342 |
NADPH production rate Maximum | N/A | R02736+R01528+R00267+R00214 |
NADPH production rate Minium | 132.32 | R02736+R01528 |
ATP production rate Maximum | N/A | -R01786-R04779+2.5*R01061+R01512+R00200+2.5*R00209 +2.5*R00267+2.5*R08549-R00405+1.5*R00402+2.5*R00342 +2.5*R00214 |
ATP production rate Minium | 703.5 | -R01786-R04779+2.5*R01061+R01512+R00200+2.5*R00209 +2.5*R08549-R00405+1.5*R00402+2.5*R00342 |
NADPH production rate Maximum | N/A | R02736+R01528+R00267+R00214 |
NADPH production rate Minium | N/A | R02736+R01528 |
ATP production rate Maximum | N/A | -R01786-R04779+2.5*R01061+R01512+R00200+2.5*R00209 +2.5*R00267+2.5*R08549-R00405+1.5*R00402+2.5*R00342 +2.5*R00214 |
ATP production rate Minium | 437.5 | -R01786-R04779+2.5*R01061+R01512+R00200+2.5*R00209 +2.5*R08549-R00405+1.5*R00402+2.5*R00342 |
NADPH production rate Maximum | N/A | R02736+R01528+R00267+R00214 |
NADPH production rate Minium | N/A | R02736+R01528 |
ATP production rate Maximum | N/A | -R01786-R04779+2.5*R01061+R01512+R00200+2.5*R00209 +2.5*R00267+2.5*R08549-R00405+1.5*R00402+2.5*R00342 +2.5*R00214 |
ATP production rate Minium | 418 | -R01786-R04779+2.5*R01061+R01512+R00200+2.5*R00209 +2.5*R08549-R00405+1.5*R00402+2.5*R00342 |
NADPH production rate Maximum | N/A | R02736+R01528+R00267+R00214 |
NADPH production rate Minium | N/A | R02736+R01528 |
Growth Condition | |
Strains | Corynebacterium glutamicum |
Genotype | |
Culture medium | The strain was grown in a nutrient-limited chemostat with a minimal medium that contained D-glucose and L-leucine as the sole carbon sources. |
Carbon source | Glucose and leucine. |
Growth rate | |
Case-specific description | In vivo flux distribution in central carbon metabolism of C.glutamicum cells that were grown in a continuous culture under lysine-producing conditions. |
Growth Condition | |
Strains | B.subtilis strain PRF |
Genotype | |
Culture medium | |
Carbon source | Glucose |
Growth rate | |
Case-specific description | In vivo flux distribution in central carbon metabolism of the riboflavin-producing B.subtilis strain PRF grown in a glucose-limited chemostat at dilution rate of 0.11/h. |
Growth Condition | |
Strains | B.subtilis strain PRF |
Genotype | |
Culture medium | |
Carbon source | Glucose |
Growth rate | |
Case-specific description | In vivo flux distribution in central carbon metabolism of the riboflavin-producing B.subtilis strain PRF grown in a glucose-limited chemostat at dilution rate of 0.41/h. |
Growth Condition | |
Strains | B.subtilis strain PRF |
Genotype | |
Culture medium | |
Carbon source | Glucose |
Growth rate | |
Case-specific description | In vivo flux distribution in central carbon metabolism of the riboflavin-producing B.subtilis strain PRF grown in a glucose-limited chemostat at dilution rate of 0.62/h. |
Specific Rate | (mmol g-1 h-1) |
Specific Rate | (mmol g-1 h-1) |
Specific Rate | (mmol g-1 h-1) |
Specific Rate | (mmol g-1 h-1) |