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(S)-mandelate + FMN = benzoylformic acid + FMNH2
(S)-mandelate + FMN = benzoylformic acid + FMNH2
(S)-mandelate + FMN = phenylglyoxylate + FMNH2
(S)-mandelate + FMN = phenylglyoxylate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
2-amino-2-deoxyisochorismate + FMN = 3-enolpyruvoylanthranilate + FMNH2
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pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
FMN + NAD(P)H = FMNH2 + NAD(P)+
FMN + NAD(P)H = FMNH2 + NAD(P)+
FMN + NAD(P)H = FMNH2 + NAD(P)+
FMN + NAD(P)H = FMNH2 + NAD(P)+
FMN + NAD(P)H = FMNH2 + NAD(P)+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = reduced FMN + NADP+
FMN + NADPH + H+ = reduced FMN + NADP+
FMN + NADPH + H+ = reduced FMN + NADP+
FMN + NADPH + H+ = reduced FMN + NADP+
FMN + NADPH + H+ = reduced FMN + NADP+
FMN + NADPH = FMNH2 + NADP+ + H+
FMN + NADPH = FMNH2 + NADP+ + H+
FMN + NADPH = FMNH2 + NADP+ + H+
FMN + NADPH = FMNH2 + NADP+ + H+
FMN + NADPH = FMNH2 + NADP+ + H+
FMN + NAD(P)H = FMNH2 + NAD(P)+
FMN + NAD(P)H = FMNH2 + NAD(P)+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NAD(P)H = FMNH2 + NAD(P)+
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FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
trimethylamine + H2O + FMN = dimethylamine + formaldehyde + FMNH2
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FMN + O2 = 8-demethyl-8-formylriboflavin 5'-phosphate + H2O
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L-glutamate + FMN + O2 + H2O + acceptor = 2-oxoglutarate + 8-amino-8-demethylriboflavin 5'-phosphate + CO2 + reduced acceptor
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ATP + FMN = diphosphate + FAD
642995, 642996, 642993, 643001, 642998, 643002, 642999, 643000, 643003, 663367, 737357, 737771, 693166, 737678, 738594, 641239, 641253, 643005, 739570
FMN + H2O = riboflavin + phosphate
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ethylnitronate + O2 + FMNH2 = acetaldehyde + nitrite + FMN + H2O
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ethylnitronate + O2 + FMNH2 = acetaldehyde + nitrite + FMN + H2O
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ethylnitronate + O2 + FMNH2 = acetaldehyde + nitrite + FMN + H2O
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ethylnitronate + O2 + FMNH2 = acetaldehyde + nitrite + FMN + H2O
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propyl-1-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
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propyl-1-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
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propyl-1-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
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propyl-1-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
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propyl-2-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
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propyl-2-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
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propyl-2-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
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propyl-2-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
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nitrilotriacetate + FMNH2 + H+ + O2 = iminodiacetate + glyoxylate + FMN + H2O
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(+)-bornane-2,5-dione + FMNH2 + O2 = (+)-5-oxo-1,2-campholide + FMN + H2O
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(+)-camphor + FMNH2 + O2 = ? + FMN + H2O
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(-)-bornane-2,5-dione + O2 + FMNH2 = (-)-5-oxo-1,2-campholide + FMN + H2O
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2,8-dimethyldibenzothiophene + 2 FMNH2 + 2 O2 = 2,8-dimethyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
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2-ethyldibenzothiophene + 2 FMNH2 + 2 O2 = 2-ethyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
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3,4,6,7-tetramethyldibenzothiophene + 2 FMNH2 + 2 O2 = 3,4,6,7-tetramethyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
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3,4,6-trimethyldibenzothiophene + 2 FMNH2 + 2 O2 = 3,4,6-trimethyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
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3-ethyldibenzothiophene + 2 FMNH2 + 2 O2 = 3-ethyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
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4,6-dimethyldibenzothiophene + 2 FMNH2 + 2 O2 = 4,6-dimethyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
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4-methyldibenzothiophene + 2 FMNH2 + 2 O2 = 4-methyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
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benzothiophene + 2 FMNH2 + 2 O2 = benzothiophene-5,5-dioxide + 2 FMN + 2 H2O
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dibenzothiophene + 2 FMNH2 + 2 O2 = dibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
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dibenzothiophene-5,5-dioxide + 2 FMNH2 + O2 = 2'-hydroxybiphenyl-2-sulfinate + 2 FMN + H2O
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dibenzothiophene + FMNH2 + O2 = dibenzothiophene-5-oxide + FMN + H2O
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dibenzothiophene-5-oxide + FMNH2 + O2 = dibenzothiophene-5,5-dioxide + FMN + H2O
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dibenzothiophene-5,5-dioxide + 2 FMNH2 + O2 = 2'-hydroxybiphenyl-2-sulfinate + 2 FMN + H2O
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a long-chain alkane + FMNH2 + O2 = a long-chain primary alcohol + FMN + H2O
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an aldehyde + FMNH2 + O2 = a carboxylate + FMN + H2O + hnu
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coelenterazine + FMNH2 + O2 = CO2 + coelenteramide + FMN + light + H2O
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decanal + FMNH + O2 = decanoic acid + FMN + H2O + light
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fatty aldehyde + FMNH2 + O2 = fatty acid + FMN + H2O + hn
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n-caprinaldehyde + FMNH2 + O2 = n-caprinoate + FMN + H2O + hv
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RCHO + FMNH2 + O2 = RCOOH + FMN + H2O + hn
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RCHO + FMNH2 + O2 = RCOOH + FMN + H2O + hnu
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RCHO + FMNH2 + O2 = RCOOH + FMN + H2O + hv
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tetradecanal + FMNH2 + O2 = tetradecanoate + FMN + H2O + hn
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2-methylpropanamine + FMNH2 + O2 = N-hydroxy-2-methylpropan-1-amine + FMN + H2O
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ethylenediaminetetraacetate + 2 FMNH2 + 2 O2 = ethylenediamine-N,N'-diacetate + 2 glyoxylate + 2 FMN + 2 H2O
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methanesulfonate + FMNH2 + O2 = formaldehyde + FMN + sulfite + H2O
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pentanesulfonate + FMNH2 + O2 = pentanal + FMN + sulfite + H2O
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dimethyl sulfone + FMNH2 + O2 = methanesulfinate + formaldehyde + FMN + H2O
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an alkanesulfonate + FMNH2 + O2 = an aldehyde + FMN + sulfite + H2O
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an alkansulfonate + FMNH2 + O2 = an aldehyde + FMN + sulfite + H2O
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R-CH2-SO3H + FMNH2 + O2 = R-CHO + FMN + sulfite + H2O
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4-hydroxyphenylacetate + FMNH + O2 = 3,4-dihydroxyphenylacetate + FMN + H2O
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4-hydroxyphenylacetate + FMNH2 + O2 = 3,4-dihydroxyphenylacetate + FMN + H2O
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thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
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thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
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thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
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thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
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thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
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thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
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thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
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thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
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uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
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uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
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uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
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uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
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uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
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uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
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uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
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uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
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FMNH2 + NADP+ = FMN + NADPH + H+
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FMNH2 + NADP+ = FMN + NADPH + H+
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FMNH2 + NADP+ = FMN + NADPH + H+
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FMNH2 + NADP+ = FMN + NADPH + H+
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FMNH2 + NADP+ = FMN + NADPH + H+
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FMNH2 + NADP+ = FMN + NADPH + H+
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FMNH2 + NADP+ = FMN + NADPH + H+
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FMNH2 + NADP+ = FMN + NADPH + H+
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FMNH2 + NADP+ = FMN + NADPH + H+
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FMNH2 + NADP+ = FMN + NADPH + H+
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FMNH2 + NAD(P)+ = FMN + NAD(P)H + H+
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FMNH2 + NAD+ = FMN + NADH + H+
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FMNH2 + NADP+ = FMN + NADPH + H+
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FMNH2 + NAD+ = FMN + NADH + H+
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FMNH2 + NAD+ = FMN + NADH + H+
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7,8-dihydromethanopterin + FMNH2 = 5,6,7,8-tetrahydromethanopterin + FMN
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sulfite + 3 FMNH2 = sulfide + 3 FMN + 3 H2O
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ATP + riboflavin = ADP + FMN
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ATP + riboflavin = ADP + FMN
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ATP + riboflavin = ADP + FMN
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ATP + riboflavin = ADP + FMN
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ATP + riboflavin = ADP + FMN
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alpha-D-glucose 1-phosphate + riboflavin = alpha-D-glucose + FMN
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FAD + H2O = AMP + FMN
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FAD + H2O = FMN + AMP
209916, 209917, 209919, 95064, 209915, 209920, 209921, 209923, 209924, 209922, 209918
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(S)-mandelate + FMN = benzoylformic acid + FMNH2
(S)-mandelate + FMN = benzoylformic acid + FMNH2
(S)-mandelate + FMN = phenylglyoxylate + FMNH2
(S)-mandelate + FMN = phenylglyoxylate + FMNH2
cytochrome c + FAD + FMN + O2 = ?
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catechol + FMN + H2O = phenol + FMNH2 + O2
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xanthine + FMN + H2O = urate + FMNH2
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formate + FMN = CO2 + FMNH2
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formate + FMN = CO2 + FMNH2
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formate + FMN = CO2 + FMNH2
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FMN + NADPH + H+ = reduced FMN + NADP+
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FMN + NADH = FMNH2 + NAD+
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benzaldehyde + FMN + H2O = benzoate + FMNH2
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phenylglyoxylate + FMN + CoA-SH = benzoyl-S-CoA + CO2 + FMNH
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4-hydroxybenzaldehyde + FMN + H2O = 4-hydroxybenzoate + FMNH2 + ?
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pyruvate + CoA + FMN = acetyl-CoA + CO2 + FMNH + H+
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oxalate + FMN = CO2 + FMNH2
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CO + H2O + FMN = CO2 + FAD
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CO + H2O + FMN = CO2 + FMNH2
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L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
L-dihydroorotate + FMN = orotate + FMNH2
2-amino-2-deoxyisochorismate + FMN = 3-enolpyruvoylanthranilate + FMNH2
-
N-(5'-phosphopyridoxyl)-tryptamine + FMN + H2O = ?
N-(5'-phosphopyridoxyl)-tryptamine + FMN + H2O = ?
N-(5'-phosphopyridoxyl)-tryptamine + FMN + H2O = ?
N-(5'-phosphopyridoxyl)-tryptamine + FMN + H2O = ?
N-(5'-phosphopyridoxyl)-tryptamine + FMN + H2O = ?
N-(5'-phosphopyridoxyl)-tryptamine + FMN + H2O = ?
N-(5'-phosphopyridoxyl)-tryptamine + FMN + H2O = ?
N-(5'-phosphopyridoxyl)-tryptamine + FMN + H2O = ?
N-(5'-phosphopyridoxyl)-tryptamine + FMN + H2O = ?
N-(5'-phosphopyridoxyl)-tryptamine + FMN + H2O = ?
N-(5'-phosphopyridoxyl)-tryptamine + FMN + H2O = ?
N-(5'-phosphopyridoxyl)-tryptamine + FMN + H2O = ?
N-(5'-phosphopyridoxyl)-tryptamine + FMN + H2O = ?
N-(5'-phosphopyridoxyl)-tryptamine + FMN + H2O = ?
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxamine 5'-phosphate + FMN + H2O + 2 H+ = pyridoxal 5'-phosphate + FMNH2 + NH3
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
668875, 391873, 391887, 391898, 391896, 391867, 391883, 391885, 668642, 667050, 391881
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
668875, 391873, 391887, 391898, 391896, 391867, 391883, 391885, 668642, 667050, 391881
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
668875, 391873, 391887, 391898, 391896, 391867, 391883, 391885, 668642, 667050, 391881
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
668875, 391873, 391887, 391898, 391896, 391867, 391883, 391885, 668642, 667050, 391881
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
668875, 391873, 391887, 391898, 391896, 391867, 391883, 391885, 668642, 667050, 391881
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
668875, 391873, 391887, 391898, 391896, 391867, 391883, 391885, 668642, 667050, 391881
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
668875, 391873, 391887, 391898, 391896, 391867, 391883, 391885, 668642, 667050, 391881
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
668875, 391873, 391887, 391898, 391896, 391867, 391883, 391885, 668642, 667050, 391881
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
668875, 391873, 391887, 391898, 391896, 391867, 391883, 391885, 668642, 667050, 391881
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
668875, 391873, 391887, 391898, 391896, 391867, 391883, 391885, 668642, 667050, 391881
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
668875, 391873, 391887, 391898, 391896, 391867, 391883, 391885, 668642, 667050, 391881
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
668875, 391873, 391887, 391898, 391896, 391867, 391883, 391885, 668642, 667050, 391881
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
668875, 391873, 391887, 391898, 391896, 391867, 391883, 391885, 668642, 667050, 391881
pyridoxine 5'-phosphate + FMN = pyridoxal 5'-phosphate + FMNH2
668875, 391873, 391887, 391898, 391896, 391867, 391883, 391885, 668642, 667050, 391881
FMN + NAD(P)H = FMNH2 + NAD(P)+
FMN + NAD(P)H = FMNH2 + NAD(P)+
FMN + NAD(P)H = FMNH2 + NAD(P)+
FMN + NAD(P)H = FMNH2 + NAD(P)+
FMN + NAD(P)H = FMNH2 + NAD(P)+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH = FMNH2 + NAD+
FMN + NADH = FMNH2 + NAD+
FMN + NADH = FMNH2 + NAD+
FMN + NADH = FMNH2 + NAD+
FMN + NADH = FMNH2 + NAD+
FMN + NADH = FMNH2 + NADP+
FMN + NADH = FMNH2 + NADP+
FMN + NADH = FMNH2 + NADP+
FMN + NADH = FMNH2 + NADP+
FMN + NADH = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = reduced FMN + NADP+
FMN + NADPH + H+ = reduced FMN + NADP+
FMN + NADPH + H+ = reduced FMN + NADP+
FMN + NADPH + H+ = reduced FMN + NADP+
FMN + NADPH + H+ = reduced FMN + NADP+
FMN + NADPH = FMNH2 + NADP+
392205, 392302, 657786, 684610, 392296, 392297, 392300, 392303, 660061, 684711, 685230, 689388, 392304, 689909, 392301, 672184, 671610
FMN + NADPH = FMNH2 + NADP+
392205, 392302, 657786, 684610, 392296, 392297, 392300, 392303, 660061, 684711, 685230, 689388, 392304, 689909, 392301, 672184, 671610
FMN + NADPH = FMNH2 + NADP+
392205, 392302, 657786, 684610, 392296, 392297, 392300, 392303, 660061, 684711, 685230, 689388, 392304, 689909, 392301, 672184, 671610
FMN + NADPH = FMNH2 + NADP+
392205, 392302, 657786, 684610, 392296, 392297, 392300, 392303, 660061, 684711, 685230, 689388, 392304, 689909, 392301, 672184, 671610
FMN + NADPH = FMNH2 + NADP+
392205, 392302, 657786, 684610, 392296, 392297, 392300, 392303, 660061, 684711, 685230, 689388, 392304, 689909, 392301, 672184, 671610
FMN + NADPH = FMNH2 + NADP+ + H+
FMN + NADPH = FMNH2 + NADP+ + H+
FMN + NADPH = FMNH2 + NADP+ + H+
FMN + NADPH = FMNH2 + NADP+ + H+
FMN + NADPH = FMNH2 + NADP+ + H+
riboflavin-5-phosphate + NADH + H+ = reduced FMN + NAD+
riboflavin-5-phosphate + NADH + H+ = reduced FMN + NAD+
riboflavin-5-phosphate + NADH + H+ = reduced FMN + NAD+
riboflavin-5-phosphate + NADH + H+ = reduced FMN + NAD+
riboflavin-5-phosphate + NADH + H+ = reduced FMN + NAD+
FMN + NAD(P)H = FMNH2 + NAD(P)+
FMN + NAD(P)H = FMNH2 + NAD(P)+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH = FMNH2 + NAD+
FMN + NADH = FMNH2 + NAD+
FMN + NADPH = FMNH2 + NADP+
FMN + NADPH = FMNH2 + NADP+
FMN + NADH + H+ = FMNH2 + NAD+
-
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NAD(P)H = FMNH2 + NAD(P)+
-
FMN + NADH + H+ = FMNH2 + NAD+
-
FMN + NADH = FMNH2 + NAD+
-
FMN + NADPH + H+ = FMNH2 + NADP+
-
FMN + NADPH = FMNH2 + NADP+
-
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADH + H+ = FMNH2 + NAD+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
FMN + NADPH + H+ = FMNH2 + NADP+
-
FMN + O2 + H2O = 6-hydroxy-FMN + H2O2
-
trimethylamine + H2O + FMN = dimethylamine + formaldehyde + FMNH2
-
ferricyanide + FMN + NADH = ?
ferricyanide + FMN + NADH = ?
ferricyanide + FMN + NADH = ?
ferricyanide + FMN + NADH = ?
ferricyanide + FMN + NADH = ?
ferricyanide + FMN + NADH = ?
ferricyanide + FMN + NADH = ?
ferricyanide + FMN + NADH = ?
ferricyanide + FMN + NADH = ?
menadione + FMN + NADH = ?
menadione + FMN + NADH = ?
menadione + FMN + NADH = ?
menadione + FMN + NADH = ?
menadione + FMN + NADH = ?
menadione + FMN + NADH = ?
menadione + FMN + NADH = ?
menadione + FMN + NADH = ?
menadione + FMN + NADH = ?
1-methyl-1-([1-[(Z)-(methyl[4-[(E)-2-[6'-[(E)-[4-[methyl([4-[(1-methylpyrrolidinium-1-yl)methyl]-1H-1,2,3-triazol-1-yl]methyl)amino]phenyl]diazenyl]-3-oxo-3H-spiro[2-benzofuran-1,9'-xanthen]-3'-yl]ethenyl]phenyl]iminio)methyl]-1H-1,2,3-triazol-4-yl]methyl)pyrrolidinium + FMN + NADH + H+ = ? + NAD+
1-methyl-1-([1-[(Z)-(methyl[4-[(E)-2-[6'-[(E)-[4-[methyl([4-[(1-methylpyrrolidinium-1-yl)methyl]-1H-1,2,3-triazol-1-yl]methyl)amino]phenyl]diazenyl]-3-oxo-3H-spiro[2-benzofuran-1,9'-xanthen]-3'-yl]ethenyl]phenyl]iminio)methyl]-1H-1,2,3-triazol-4-yl]methyl)pyrrolidinium + FMN + NADH + H+ = ? + NAD+
1-methyl-1-([1-[(Z)-(methyl[4-[(E)-2-[6'-[(E)-[4-[methyl([4-[(1-methylpyrrolidinium-1-yl)methyl]-1H-1,2,3-triazol-1-yl]methyl)amino]phenyl]diazenyl]-3-oxo-3H-spiro[2-benzofuran-1,9'-xanthen]-3'-yl]ethenyl]phenyl]iminio)methyl]-1H-1,2,3-triazol-4-yl]methyl)pyrrolidinium + FMN + NADH + H+ = ? + NAD+
1-methyl-1-([1-[(Z)-(methyl[4-[(E)-2-[6'-[(E)-[4-[methyl([4-[(1-methylpyrrolidinium-1-yl)methyl]-1H-1,2,3-triazol-1-yl]methyl)amino]phenyl]diazenyl]-3-oxo-3H-spiro[2-benzofuran-1,9'-xanthen]-3'-yl]ethenyl]phenyl]iminio)methyl]-1H-1,2,3-triazol-4-yl]methyl)pyrrolidinium + FMN + NADH + H+ = ? + NAD+
1-methyl-1-([1-[(Z)-(methyl[4-[(E)-2-[6'-[(E)-[4-[methyl([4-[(1-methylpyrrolidinium-1-yl)methyl]-1H-1,2,3-triazol-1-yl]methyl)amino]phenyl]diazenyl]-3-oxo-3H-spiro[2-benzofuran-1,9'-xanthen]-3'-yl]ethenyl]phenyl]iminio)methyl]-1H-1,2,3-triazol-4-yl]methyl)pyrrolidinium + FMN + NADH + H+ = ? + NAD+
1-methyl-1-([1-[(Z)-(methyl[4-[(E)-2-[6'-[(E)-[4-[methyl([4-[(1-methylpyrrolidinium-1-yl)methyl]-1H-1,2,3-triazol-1-yl]methyl)amino]phenyl]diazenyl]-3-oxo-3H-spiro[2-benzofuran-1,9'-xanthen]-3'-yl]ethenyl]phenyl]iminio)methyl]-1H-1,2,3-triazol-4-yl]methyl)pyrrolidinium + FMN + NADH + H+ = ? + NAD+
1-methyl-1-([1-[(Z)-(methyl[4-[(E)-2-[6'-[(E)-[4-[methyl([4-[(1-methylpyrrolidinium-1-yl)methyl]-1H-1,2,3-triazol-1-yl]methyl)amino]phenyl]diazenyl]-3-oxo-3H-spiro[2-benzofuran-1,9'-xanthen]-3'-yl]ethenyl]phenyl]iminio)methyl]-1H-1,2,3-triazol-4-yl]methyl)pyrrolidinium + FMN + NADH + H+ = ? + NAD+
1-methyl-1-([1-[(Z)-(methyl[4-[(E)-2-[6'-[(E)-[4-[methyl([4-[(1-methylpyrrolidinium-1-yl)methyl]-1H-1,2,3-triazol-1-yl]methyl)amino]phenyl]diazenyl]-3-oxo-3H-spiro[2-benzofuran-1,9'-xanthen]-3'-yl]ethenyl]phenyl]iminio)methyl]-1H-1,2,3-triazol-4-yl]methyl)pyrrolidinium + FMN + NADH + H+ = ? + NAD+
chlorite + H2O + FMN = chlorate + FMNH2
-
FMN + O2 = 8-demethyl-8-formylriboflavin 5'-phosphate + H2O
-
L-glutamate + FMN + O2 + H2O + acceptor = 2-oxoglutarate + 8-amino-8-demethylriboflavin 5'-phosphate + CO2 + reduced acceptor
-
ATP + FMN = diphosphate + FAD
721552, 641239, 642995, 642996, 643002, 642993, 643001, 642998, 721983, 642999, 643000, 643003, 643005, 722969, 663367, 721747, 737357, 737771, 722961, 671757, 676979, 722239, 693166, 737678, 641253, 738594, 721625, 739570
CTP + FMN = diphosphate + flavin cytidine dinucleotide
FMN + ATP = FAD + diphosphate
GTP + FMN = diphosphate + flavin guanidine dinucleotide
riboflavin 5'-phosphate + H2O = riboflavin + phosphate
-
FMN + H2O = riboflavin + phosphate
-
FMN + H2O = riboflavin + phosphate
-
flavin mononucleotide + H2O = riboflavin + phosphate
-
FMN + H2O = ? + phosphate
-
FMN + H2O = flavin nucleoside + phosphate
-
riboflavin 5'-phosphate + H2O = riboflavin + phosphate
-
FMN + H2O = ? + phosphate
-
riboflavin 5'-phosphate + H2O = riboflavin + phosphate
-
riboflavin 5'-phosphate + H2O = ribitol phosphate + lumichrome
-
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
ethylnitronate + O2 + FMNH2 = acetaldehyde + nitrite + FMN + H2O
-
ethylnitronate + O2 + FMNH2 = acetaldehyde + nitrite + FMN + H2O
-
ethylnitronate + O2 + FMNH2 = acetaldehyde + nitrite + FMN + H2O
-
ethylnitronate + O2 + FMNH2 = acetaldehyde + nitrite + FMN + H2O
-
propyl-1-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
-
propyl-1-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
-
propyl-1-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
-
propyl-1-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
-
propyl-2-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
-
propyl-2-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
-
propyl-2-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
-
propyl-2-nitronate + O2 + FMNH2 = ? + nitrite + FMN + H2O
-
long-chain aldehyde + FMNH2 + O2 = long-chain fatty acid + FMN + H2O + hv
-
-
EDTA + O2 + FMNH2 + H+ = ethylenediaminetriacetate + glyoxylate + H2O + FMN
-
-
nitrilotriacetate + FMNH2 + H+ + O2 = iminodiacetate + glyoxylate + FMN + H2O
-
-
nitrilotriacetate + O2 + FMNH2 + H+ = iminodiacetate + glyoxylate + H2O + FMN
-
-
(+)-bornane-2,5-dione + FMNH2 + O2 = (+)-5-oxo-1,2-campholide + FMN + H2O
-
-
(+)-bornane-2,5-dione + FMNH2 + O2 = 3,4,4-trimethyl-5-carboxy-methyl-DELTA2-cyclopentenone + FMN + H2O
-
(+)-bornanone + FMNH2 + O2 = 1,2-campholide + FMN + H2O
-
6-oxocineole + FMNH2 + O2 = 3-(1-hydroxy-1-methylethyl)-6-oxoheptanoic acid + FMN + H2O
-
3,17-dihydroxy-9,10-seconandrost-1,3,5(10)-triene-9-one + FMNH2 + O2 = 3,4,17-trihydroxy-9,10-seconandrost-1,3,5(10)-triene-9-one + FMN + H2O
-
-
3-hydroxy-9,10-seconandrost-1,3,5(10)-triene-9,17-dione + FMNH2 + O2 = 3,4-dihydroxy-9,10-seconandrost-1,3,5(10)-triene-9,17-dione + FMN + H2O
-
-
3-hydroxybiphenyl + FMNH2 + O2 = 2,3-dihydroxybiphenyl + FMN + H2O
-
-
4-(L-gamma-glutamylamino)butanoyl-[BtrI acyl-carrier protein] + FMNH2 + O2 = 4-(L-gamma-glutamylamino)-(2S)-2-hydroxybutanoyl-[BtrI acyl-carrier protein] + FMN + H2O
-
-
butanoyl-[BtrI acyl-carrier protein] + FMNH2 + O2 = (2S)-2-hydroxybutanoyl-[BtrI acyl-carrier protein] + FMN + H2O
-
-
octanoyl-[BtrI acyl-carrier protein] + FMNH2 + O2 = (2S)-2-hydroxyoctanoyl-[BtrI acyl-carrier protein] + FMN + H2O
-
-
(+)-camphor + FMNH2 + O2 = ? + FMN + H2O
-
-
(-)-bornane-2,5-dione + FMNH2 + O2 = 1,8,8-trimethyl-2-oxabicyclo[3.2.1]octane-3,6-dione + FMN + H2O
-
(-)-bornane-2,5-dione + O2 + FMNH2 = (-)-5-oxo-1,2-campholide + FMN + H2O
-
-
(-)-camphor + FMNH2 + O2 = ? + FMN + H2O
-
-
phenol + FMNH2 + O2 = catechol + FMN + H2O
-
-
1-methyldibenzothiophene + 2 FMNH2 + 2 O2 = 1-methyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
2,8-dimethyldibenzothiophene + 2 FMNH2 + 2 O2 = 2,8-dimethyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
2-ethyldibenzothiophene + 2 FMNH2 + 2 O2 = 2-ethyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
2-methyldibenzothiophene + 2 FMNH2 + 2 O2 = 2-methyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
3,4,6,7-tetramethyldibenzothiophene + 2 FMNH2 + 2 O2 = 3,4,6,7-tetramethyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
3,4,6-trimethyldibenzothiophene + 2 FMNH2 + 2 O2 = 3,4,6-trimethyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
3,4-benzo-dibenzothiophene + 2 FMNH2 + 2 O2 = 3,4-benzo-dibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
3-ethyldibenzothiophene + 2 FMNH2 + 2 O2 = 3-ethyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
3-methylbenzothiophene + 2 FMNH2 + 2 O2 = 3-methylbenzothiophene-1,1-dioxide + 2 FMN + 2 H2O
-
-
3-methyldibenzothiophene + 2 FMNH2 + 2 O2 = 3-methyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
4,6-diethyldibenzothiophene + 2 FMNH2 + 2 O2 = 4,6-diethyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
4,6-dimethyldibenzothiophene + 2 FMNH2 + 2 O2 = 4,6-dimethyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
4-methyldibenzothiophene + 2 FMNH2 + 2 O2 = 4-methyldibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
5-methylbenzothiophene + 2 FMNH2 + 2 O2 = 5-methylbenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
benzothiophene + 2 FMNH2 + 2 O2 = benzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
dibenzothiophene + 2 FMNH2 + 2 O2 = dibenzothiophene-5,5-dioxide + 2 FMN + 2 H2O
-
-
dibenzothiophene-5,5-dioxide + 2 FMNH2 + O2 = 2'-hydroxybiphenyl-2-sulfinate + 2 FMN + H2O
-
-
dibenzothiophene + FMNH2 + O2 = dibenzothiophene-5-oxide + FMN + H2O
-
-
dibenzothiophene-5-oxide + FMNH2 + O2 = dibenzothiophene-5,5-dioxide + FMN + H2O
-
-
3-methyldibenzothiophene-5,5-dioxide + 2 FMNH2 + O2 = ? + 2 FMN + H2O
-
dibenzothiophene-5,5-dioxide + 2 FMNH2 + O2 = 2'-hydroxybiphenyl-2-sulfinate + 2 FMN + H2O
-
dibenz[c,e][1,2] oxathiin 6-oxide + 2 FMNH2 + O2 = 2,2'-dihydroxybiphenyl + 2 FMN + H2O
-
dibenz[c,e][1,2]oxathiin 6,6-dioxide + 2 FMNH2 + O2 = 2,2'-dihydroxybiphenyl + 2 FMN + H2O
-
a long-chain alkane + FMNH2 + O2 = a long-chain primary alcohol + FMN + H2O
-
-
docosan + FMNH2 + O2 = 1-docosanol + FMN + H2O
-
-
dotriacontan + FMNH2 + O2 = 1-dotriacontanol + FMN + H2O
-
-
hexacosan + FMNH2 + O2 = 1-hexacosanol + FMN + H2O
-
-
hexadecane + FMNH2 + O2 = 1-hexadecanol + FMN + H2O
-
-
hexatriacontan + FMNH2 + O2 = 1-hexatriacontanol + FMN + H2O
-
-
octacosan + FMNH2 + O2 = 1-octacosanol + FMN + H2O
-
-
octadecane + FMNH2 + O2 = 1-octadecanol + FMN + H2O
-
-
pentadecane + FMNH2 + O2 = 1-pentadecanol + FMN + H2O
-
-
tetracosan + FMNH2 + O2 = 1-tetracosanol + FMN + H2O
-
-
(E)-dec-2-enal + FMNH2 + O2 = (E)-dec-2-enoate + FMN + H2O + hn
-
(E)-dodec-2-enal + FMNH2 + O2 = (E)-dodec-2-enoate + FMN + H2O + hn
-
(E)-oct-2-enal + FMNH2 + O2 = (2E)-oct-2-enoate + FMN + H2O + hn
-
(E)-tetradec-2-enal + FMNH2 + O2 = (E)-tetradec-2-enoate + FMN + H2O + hn
-
4-N,N-(dimethyl)aminonaphthalene-9-N-(11-aldehydedodecyl)-1,8-dicarboximide + FMNH2 + O2 = ? + FMN + H2O + hnu
-
4-N,N-(dimethyl)aminonaphthalene-9-N-(9-aldehyde-decyl)-1,8-dicarboximide + FMNH2 + O2 = ? + FMN + H2O + hnu
-
4-N-(11-aldehyde-dodecyl)-7-N,N-dimethylsulfonic-2,1,3-benzoxadiazole + FMNH2 + O2 = ? + FMN + H2O + hnu
-
4-N-(9-aldehyde-decyl)-7-N,N-dimethylsulfonic-2,1,3-benzoxadiazole + FMNH2 + O2 = ? + FMN + H2O + hnu
-
an aldehyde + FMNH2 + O2 = a carboxylate + FMN + H2O + hnu
-
coelenterazine + FMNH2 + O2 = CO2 + coelenteramide + FMN + light + H2O
-
decanal + FMNH + O2 = decanoic acid + FMN + H2O + light
-
decanal + FMNH- + O2 = decanoic acid + FMN + H2O + hv
-
decanal + FMNH2 + O2 = decanoate + FMN + H2O + hn
-
decanal + FMNH2 + O2 = decanoate + FMN + H2O + hnu
-
decanal + FMNH2 + O2 = decanoate + FMN + H2O + hv
-
decanal + FMNH2 + O2 = decanoic acid + FMN + H2O + hnu
-
decanal + FMNH2 + O2 = decanoic acid + FMN + H2O + hv
-
dodecanal + FMNH + O2 = dodecanoic acid + FMN + H2O + light
-
dodecanal + FMNH2 + O2 = dodecanoate + FMN + H2O + hn
-
dodecanal + FMNH2 + O2 = dodecanoic acid + FMN + H2O + hv
-
fatty aldehyde + FMNH2 + O2 = fatty acid + FMN + H2O + hn
-
myristic aldehyde + FMNH + O2 = myristic acid + FMN + H2O + light
-
n-caprinaldehyde + FMNH2 + O2 = n-caprinoate + FMN + H2O + hv
-
n-decanal + FMNH2 + O2 = n-decanoate + FMN + H2O + hn
-
nonanal + FMNH2 + O2 = nonanoate + FMN + H2O + hn
-
octanal + FMNH + O2 = octanoic acid + FMN + H2O + light
-
octanal + FMNH2 + O2 = octanoate + FMN + H2O + hn
-
RCHO + FMNH2 + O2 = RCOOH + FMN + H2O + hn
-
RCHO + FMNH2 + O2 = RCOOH + FMN + H2O + hnu
-
RCHO + FMNH2 + O2 = RCOOH + FMN + H2O + hv
-
tetradecanal + FMNH2 + O2 = tetradecanoate + FMN + H2O + hn
-
undecanal + FMNH2 + O2 = undecanoate + FMN + H2O + hn
-
2-methylpropanamine + FMNH2 + O2 = N-hydroxy-2-methylpropan-1-amine + FMN + H2O
-
-
ethylenediaminetetraacetate + 2 FMNH2 + 2 O2 = ethylenediamine-N,N'-diacetate + 2 glyoxylate + 2 FMN + 2 H2O
-
-
diethylenetriaminepentaacetate + FMNH2 + O2 = diethylenetriaminetetraacetate + glyoxylate + FMN + H2O
-
-
ethylenediaminetetraacetate + FMNH2 + O2 = ethylenediaminetriacetate + glyoxylate + FMN + H2O
-
-
ethylenediaminetriacetate + FMNH2 + O2 = ethylenediamine-N,N'-diacetate + glyoxylate + FMN + H2O
-
-
nitrilotriacetate + FMNH2 + O2 = nitrilodiacetate + glyoxylate + FMN + H2O
-
-
piperazine-N,N'-bis(2-ethanesulfonic acid) + 2 FMNH2 + 2 O2 = 2,2'-piperazine-1,4-diyldiacetaldehyde + 2 FMN + 2 sulfite + 2 H2O
-
-
ethanesulfonate + FMNH2 + O2 = acetaldehyde + FMN + sulfite + H2O
-
-
isethionate + FMNH2 + O2 = hydroxyacetaldehyde + FMN + sulfite + H2O
-
-
methanesulfonate + FMNH2 + O2 = formaldehyde + FMN + sulfite + H2O
-
-
morpholinepropanesulfonic acid + FMNH2 + O2 = 3-(morpholin-4-yl)propanal + FMN + sulfite + H2O
-
-
pentanesulfonate + FMNH2 + O2 = pentanal + FMN + sulfite + H2O
-
-
dimethyl sulfone + FMNH2 + O2 = methanesulfinate + formaldehyde + FMN + H2O
-
-
1,3-dioxo-2-isoindolineethanesulfonic acid + FMNH2 + O2 = (1,3-dioxo-1,3-dihydro-2H-isoindol-2-yl)acetaldehyd + FMN + sulfite + H2O
-
-
4-phenyl-1-butanesulfonic acid + FMNH2 + O2 = 4-phenylbutanol + FMN + sulfite + H2O
-
-
an alkanesulfonate + FMNH2 + O2 = an aldehyde + FMN + sulfite + H2O
-
-
an alkansulfonate + FMNH2 + O2 = an aldehyde + FMN + sulfite + H2O
-
-
butanesulfonic acid + FMNH2 + O2 = butanal + FMN + sulfite + H2O
-
-
decanesulfonic acid + FMNH2 + O2 = decanal + FMN + sulfite + H2O
-
-
hexanesulfonic acid + FMNH2 + O2 = hexanal + FMN + sulfite + H2O
-
-
N-phenyltaurine + FMNH2 + O2 = anilinoacetaldehyde + FMN + sulfite + H2O
-
-
octanesulfonate + FMNH2 + O2 = octanal + FMN + sulfite + H2O
-
-
octanesulfonic acid + FMNH2 + O2 = octanal + FMN + sulfite + H2O
-
-
pentanesulfonic acid + FMNH2 + O2 = pentaldehyde + FMN + sulfite + H2O
-
R-CH2-SO3H + FMNH2 + O2 = R-CHO + FMN + sulfite + H2O
-
3-hydroxyphenylacetate + FMNH2 + O2 = 3,4-hydroxyphenylacetate + FMN + H2O
-
-
4-aminophenylacetate + FMNH2 + O2 = 4-amino-3,5-dihydroxyphenylacetate + FMN + H2O
-
-
4-hydroxyphenylacetate + FMNH + O2 = 3,4-dihydroxyphenylacetate + FMN + H2O
-
-
4-hydroxyphenylacetate + FMNH2 + O2 = 3,4-dihydroxyphenylacetate + FMN + H2O
-
-
octopamine + FMNH + O2 = norepinephrine + FMN + H2O
-
-
tyramine + FMNH + O2 = dopamine + FMN + H2O
-
-
thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
-
thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
-
thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
-
thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
-
thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
-
thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
-
thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
-
thymine + FMNH2 + O2 = (Z)-2-methylureidoacrylate peracid + FMN
-
uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
-
uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
-
uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
-
uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
-
uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
-
uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
-
uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
-
uracil + FMNH2 + O2 = (Z)-3-ureidoacrylate peracid + FMN
-
FMNH2 + NADP+ = FMN + NADPH + H+
-
-
FMNH2 + NADP+ = FMN + NADPH + H+
-
-
fumarate + FMNH2 = succinate + FMN
-
FMNH2 + NADP+ = FMN + NADPH + H+
-
FMNH2 + NADP+ = FMN + NADPH + H+
-
FMNH2 + NADP+ = FMN + NADPH + H+
-
FMNH2 + NADP+ = FMN + NADPH + H+
-
FMNH2 + NADP+ = FMN + NADPH + H+
-
FMNH2 + NADP+ = FMN + NADPH + H+
-
FMNH2 + NADP+ = FMN + NADPH + H+
-
FMNH2 + NADP+ = FMN + NADPH + H+
-
FMNH2 + NAD(P)+ = FMN + NAD(P)H + H+
-
-
FMNH2 + NAD+ = FMN + NADH + H+
-
-
FMNH2 + NADP+ = FMN + NADPH + H+
-
-
FMNH2 + NAD+ = FMN + NADH + H+
-
FMNH2 + NAD+ = FMN + NADH + H+
-
7,8-dihydromethanopterin + FMNH2 = 5,6,7,8-tetrahydromethanopterin + FMN
-
-
FMNH2 + nitrate = FMN + nitrite
-
-
nitrite + FMNH2 = NH4+ + FMN
-
sulfite + 3 FMNH2 = sulfide + 3 FMN + 3 H2O
-
-
SO32- + FMNH2 = S2- + FMN + H2O
-
-
5,10-methylenetetrahydrofolate + dUMP + FMNH2 = dTMP + tetrahydrofolate + FMN
-
ATP + riboflavin = ADP + FMN
-
CTP + riboflavin = CDP + FMN
-
GTP + riboflavin = GDP + FMN
-
UTP + riboflavin = UDP + FMN
-
ATP + riboflavin = ADP + riboflavin 5'-phosphate
-
CTP + riboflavin = CDP + riboflavin 5'-phosphate
-
GTP + riboflavin = GDP + riboflavin 5'-phosphate
-
ADP + riboflavin = AMP + FMN
-
ADP + riboflavin = AMP + FMN
-
ADP + riboflavin = AMP + FMN
-
ADP + riboflavin = AMP + FMN
-
ADP + riboflavin = AMP + FMN
-
ATP + riboflavin = ADP + FMN
-
ATP + riboflavin = ADP + FMN
-
ATP + riboflavin = ADP + FMN
-
ATP + riboflavin = ADP + FMN
-
ATP + riboflavin = ADP + FMN
-
dATP + riboflavin = dADP + FMN
-
dATP + riboflavin = dADP + FMN
-
dATP + riboflavin = dADP + FMN
-
dATP + riboflavin = dADP + FMN
-
dATP + riboflavin = dADP + FMN
-
riboflavin + ATP = FMN + ADP
-
riboflavin + ATP = FMN + ADP
-
riboflavin + ATP = FMN + ADP
-
riboflavin + ATP = FMN + ADP
-
riboflavin + ATP = FMN + ADP
-
UTP + riboflavin = UDP + FMN
-
UTP + riboflavin = UDP + FMN
-
UTP + riboflavin = UDP + FMN
-
UTP + riboflavin = UDP + FMN
-
UTP + riboflavin = UDP + FMN
-
2'-dATP + riboflavin = 2'-dADP + riboflavin 5'-phosphate
-
2'-dATP + riboflavin = 2'-dADP + riboflavin 5'-phosphate
-
2'-dATP + riboflavin = 2'-dADP + riboflavin 5'-phosphate
-
2'-dATP + riboflavin = 2'-dADP + riboflavin 5'-phosphate
-
2'-dATP + riboflavin = 2'-dADP + riboflavin 5'-phosphate
-
CTP + riboflavin = CTP + riboflavin 5'-phosphate
-
CTP + riboflavin = CTP + riboflavin 5'-phosphate
-
CTP + riboflavin = CTP + riboflavin 5'-phosphate
-
CTP + riboflavin = CTP + riboflavin 5'-phosphate
-
CTP + riboflavin = CTP + riboflavin 5'-phosphate
-
GTP + riboflavin = GTP + riboflavin 5'-phosphate
-
GTP + riboflavin = GTP + riboflavin 5'-phosphate
-
GTP + riboflavin = GTP + riboflavin 5'-phosphate
-
GTP + riboflavin = GTP + riboflavin 5'-phosphate
-
GTP + riboflavin = GTP + riboflavin 5'-phosphate
-
alpha-D-glucose 1-phosphate + riboflavin = alpha-D-glucose + FMN
-
-
beta-D-glucose 1-phosphate + riboflavin = beta-D-glucose + FMN
-
-
diphosphate + FAD = ATP + FMN
FAD + H2O = AMP + FMN
-
-
FAD + H2O = FMN + AMP
209916, 209917, 209919, 95064, 209915, 209920, 209921, 209923, 209924, , 209922, 209918
-
FAD + H2O = FMN + AMP
246822, 246826, 246814, 246819, 246834, , 246833, 209921, 246829, 246809, 246801
-
Please wait a moment until the data is sorted. This message will disappear when the data is sorted.
contains non-covalently bound FMN as prosthetic group
-
0.2 FMN molecules per FrxA polypeptide chain
-
the enzyme is a homotrimer containing a flavin and an Fe2S2 cluster in each subunit
-
the putative binding pocket is adjacent to the cofactor flavin mononucleotide and the 2Fe-2S cluster
-
each of the four subunits contains a flavin mononucleotide prosthetic group
each of the four subunits contains a flavin mononucleotide prosthetic group
each of the four subunits contains a flavin mononucleotide prosthetic group
each of the four subunits contains a flavin mononucleotide prosthetic group
each of the four subunits contains a flavin mononucleotide prosthetic group
each of the four subunits contains a flavin mononucleotide prosthetic group
each of the four subunits contains a flavin mononucleotide prosthetic group
each of the four subunits contains a flavin mononucleotide prosthetic group
each of the four subunits contains a flavin mononucleotide prosthetic group
each subunit of the tetramer is composed of two domains, one binding a heme and the other an FMN prosthetic group. The flavin binding domain contains a parallel beta8alpha8 barrel structure and is composed of residues 100 to 486. The FMN moiety, which is located at the C-terminal end of the central beta-barrel, is mostly sequestered from solvent. It forms hydrogen bond interactions with main- and side-chain atoms from six of the eight beta-strands. The interaction of Lys349 with atoms N-1 and O-2 of the flavin ring is probably responsible for stabilization of the anionic form of the flavin semiquinone and hydroquinone and enhancing the reactivity of atom N-5 toward sulfite. The binding of pyruvate at the active site in subunit 2 is stabilized by interaction of its carboxylate group with the side-chain atoms of Arg376 and Tyr143. Residues His373 and Tyr254 interact with the keto-oxygen atom and are involved in catalysis. In contrast, four water molecules occupy the substrate-binding site in subunit 1 and Tyr143 forms a hydrogen bond to the ordered heme propionate group. Otherwise the two flavin-binding domains are identical within experimental error
each subunit of the tetramer is composed of two domains, one binding a heme and the other an FMN prosthetic group. The flavin binding domain contains a parallel beta8alpha8 barrel structure and is composed of residues 100 to 486. The FMN moiety, which is located at the C-terminal end of the central beta-barrel, is mostly sequestered from solvent. It forms hydrogen bond interactions with main- and side-chain atoms from six of the eight beta-strands. The interaction of Lys349 with atoms N-1 and O-2 of the flavin ring is probably responsible for stabilization of the anionic form of the flavin semiquinone and hydroquinone and enhancing the reactivity of atom N-5 toward sulfite. The binding of pyruvate at the active site in subunit 2 is stabilized by interaction of its carboxylate group with the side-chain atoms of Arg376 and Tyr143. Residues His373 and Tyr254 interact with the keto-oxygen atom and are involved in catalysis. In contrast, four water molecules occupy the substrate-binding site in subunit 1 and Tyr143 forms a hydrogen bond to the ordered heme propionate group. Otherwise the two flavin-binding domains are identical within experimental error
each subunit of the tetramer is composed of two domains, one binding a heme and the other an FMN prosthetic group. The flavin binding domain contains a parallel beta8alpha8 barrel structure and is composed of residues 100 to 486. The FMN moiety, which is located at the C-terminal end of the central beta-barrel, is mostly sequestered from solvent. It forms hydrogen bond interactions with main- and side-chain atoms from six of the eight beta-strands. The interaction of Lys349 with atoms N-1 and O-2 of the flavin ring is probably responsible for stabilization of the anionic form of the flavin semiquinone and hydroquinone and enhancing the reactivity of atom N-5 toward sulfite. The binding of pyruvate at the active site in subunit 2 is stabilized by interaction of its carboxylate group with the side-chain atoms of Arg376 and Tyr143. Residues His373 and Tyr254 interact with the keto-oxygen atom and are involved in catalysis. In contrast, four water molecules occupy the substrate-binding site in subunit 1 and Tyr143 forms a hydrogen bond to the ordered heme propionate group. Otherwise the two flavin-binding domains are identical within experimental error
each subunit of the tetramer is composed of two domains, one binding a heme and the other an FMN prosthetic group. The flavin binding domain contains a parallel beta8alpha8 barrel structure and is composed of residues 100 to 486. The FMN moiety, which is located at the C-terminal end of the central beta-barrel, is mostly sequestered from solvent. It forms hydrogen bond interactions with main- and side-chain atoms from six of the eight beta-strands. The interaction of Lys349 with atoms N-1 and O-2 of the flavin ring is probably responsible for stabilization of the anionic form of the flavin semiquinone and hydroquinone and enhancing the reactivity of atom N-5 toward sulfite. The binding of pyruvate at the active site in subunit 2 is stabilized by interaction of its carboxylate group with the side-chain atoms of Arg376 and Tyr143. Residues His373 and Tyr254 interact with the keto-oxygen atom and are involved in catalysis. In contrast, four water molecules occupy the substrate-binding site in subunit 1 and Tyr143 forms a hydrogen bond to the ordered heme propionate group. Otherwise the two flavin-binding domains are identical within experimental error
each subunit of the tetramer is composed of two domains, one binding a heme and the other an FMN prosthetic group. The flavin binding domain contains a parallel beta8alpha8 barrel structure and is composed of residues 100 to 486. The FMN moiety, which is located at the C-terminal end of the central beta-barrel, is mostly sequestered from solvent. It forms hydrogen bond interactions with main- and side-chain atoms from six of the eight beta-strands. The interaction of Lys349 with atoms N-1 and O-2 of the flavin ring is probably responsible for stabilization of the anionic form of the flavin semiquinone and hydroquinone and enhancing the reactivity of atom N-5 toward sulfite. The binding of pyruvate at the active site in subunit 2 is stabilized by interaction of its carboxylate group with the side-chain atoms of Arg376 and Tyr143. Residues His373 and Tyr254 interact with the keto-oxygen atom and are involved in catalysis. In contrast, four water molecules occupy the substrate-binding site in subunit 1 and Tyr143 forms a hydrogen bond to the ordered heme propionate group. Otherwise the two flavin-binding domains are identical within experimental error
each subunit of the tetramer is composed of two domains, one binding a heme and the other an FMN prosthetic group. The flavin binding domain contains a parallel beta8alpha8 barrel structure and is composed of residues 100 to 486. The FMN moiety, which is located at the C-terminal end of the central beta-barrel, is mostly sequestered from solvent. It forms hydrogen bond interactions with main- and side-chain atoms from six of the eight beta-strands. The interaction of Lys349 with atoms N-1 and O-2 of the flavin ring is probably responsible for stabilization of the anionic form of the flavin semiquinone and hydroquinone and enhancing the reactivity of atom N-5 toward sulfite. The binding of pyruvate at the active site in subunit 2 is stabilized by interaction of its carboxylate group with the side-chain atoms of Arg376 and Tyr143. Residues His373 and Tyr254 interact with the keto-oxygen atom and are involved in catalysis. In contrast, four water molecules occupy the substrate-binding site in subunit 1 and Tyr143 forms a hydrogen bond to the ordered heme propionate group. Otherwise the two flavin-binding domains are identical within experimental error
each subunit of the tetramer is composed of two domains, one binding a heme and the other an FMN prosthetic group. The flavin binding domain contains a parallel beta8alpha8 barrel structure and is composed of residues 100 to 486. The FMN moiety, which is located at the C-terminal end of the central beta-barrel, is mostly sequestered from solvent. It forms hydrogen bond interactions with main- and side-chain atoms from six of the eight beta-strands. The interaction of Lys349 with atoms N-1 and O-2 of the flavin ring is probably responsible for stabilization of the anionic form of the flavin semiquinone and hydroquinone and enhancing the reactivity of atom N-5 toward sulfite. The binding of pyruvate at the active site in subunit 2 is stabilized by interaction of its carboxylate group with the side-chain atoms of Arg376 and Tyr143. Residues His373 and Tyr254 interact with the keto-oxygen atom and are involved in catalysis. In contrast, four water molecules occupy the substrate-binding site in subunit 1 and Tyr143 forms a hydrogen bond to the ordered heme propionate group. Otherwise the two flavin-binding domains are identical within experimental error
each subunit of the tetramer is composed of two domains, one binding a heme and the other an FMN prosthetic group. The flavin binding domain contains a parallel beta8alpha8 barrel structure and is composed of residues 100 to 486. The FMN moiety, which is located at the C-terminal end of the central beta-barrel, is mostly sequestered from solvent. It forms hydrogen bond interactions with main- and side-chain atoms from six of the eight beta-strands. The interaction of Lys349 with atoms N-1 and O-2 of the flavin ring is probably responsible for stabilization of the anionic form of the flavin semiquinone and hydroquinone and enhancing the reactivity of atom N-5 toward sulfite. The binding of pyruvate at the active site in subunit 2 is stabilized by interaction of its carboxylate group with the side-chain atoms of Arg376 and Tyr143. Residues His373 and Tyr254 interact with the keto-oxygen atom and are involved in catalysis. In contrast, four water molecules occupy the substrate-binding site in subunit 1 and Tyr143 forms a hydrogen bond to the ordered heme propionate group. Otherwise the two flavin-binding domains are identical within experimental error
each subunit of the tetramer is composed of two domains, one binding a heme and the other an FMN prosthetic group. The flavin binding domain contains a parallel beta8alpha8 barrel structure and is composed of residues 100 to 486. The FMN moiety, which is located at the C-terminal end of the central beta-barrel, is mostly sequestered from solvent. It forms hydrogen bond interactions with main- and side-chain atoms from six of the eight beta-strands. The interaction of Lys349 with atoms N-1 and O-2 of the flavin ring is probably responsible for stabilization of the anionic form of the flavin semiquinone and hydroquinone and enhancing the reactivity of atom N-5 toward sulfite. The binding of pyruvate at the active site in subunit 2 is stabilized by interaction of its carboxylate group with the side-chain atoms of Arg376 and Tyr143. Residues His373 and Tyr254 interact with the keto-oxygen atom and are involved in catalysis. In contrast, four water molecules occupy the substrate-binding site in subunit 1 and Tyr143 forms a hydrogen bond to the ordered heme propionate group. Otherwise the two flavin-binding domains are identical within experimental error
flavohemoprotein, in the crystal structure, FMN and heme are face to face, and appear to be in a suitable orientation and at a suitable distance for exchanging electrons
flavohemoprotein, in the crystal structure, FMN and heme are face to face, and appear to be in a suitable orientation and at a suitable distance for exchanging electrons
flavohemoprotein, in the crystal structure, FMN and heme are face to face, and appear to be in a suitable orientation and at a suitable distance for exchanging electrons
flavohemoprotein, in the crystal structure, FMN and heme are face to face, and appear to be in a suitable orientation and at a suitable distance for exchanging electrons
flavohemoprotein, in the crystal structure, FMN and heme are face to face, and appear to be in a suitable orientation and at a suitable distance for exchanging electrons
flavohemoprotein, in the crystal structure, FMN and heme are face to face, and appear to be in a suitable orientation and at a suitable distance for exchanging electrons
flavohemoprotein, in the crystal structure, FMN and heme are face to face, and appear to be in a suitable orientation and at a suitable distance for exchanging electrons
flavohemoprotein, in the crystal structure, FMN and heme are face to face, and appear to be in a suitable orientation and at a suitable distance for exchanging electrons
flavohemoprotein, in the crystal structure, FMN and heme are face to face, and appear to be in a suitable orientation and at a suitable distance for exchanging electrons
the C-terminal domain of the enzyme contains FMN
the C-terminal domain of the enzyme contains FMN
the C-terminal domain of the enzyme contains FMN
the C-terminal domain of the enzyme contains FMN
the C-terminal domain of the enzyme contains FMN
the C-terminal domain of the enzyme contains FMN
the C-terminal domain of the enzyme contains FMN
the C-terminal domain of the enzyme contains FMN
the C-terminal domain of the enzyme contains FMN
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
-
389677, 389684, 389687, 389690, 287560, 684684, 723811, 389695, 389696, 389701, 389678, 389681, 389682, 389683, 389702, 677279, 440390, 440391, 440392, 440393, 440423, 671143, 684847, 677109, 389689, 389692, 389693, 389694, 685214, 741109
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
0.125 mol 5'-FMN per monomer, not covalently bound
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 29% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 36.4% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 45.5% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 46.8% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 47.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 51.7% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 53.6% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 67% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
both FMN and FAD, with FAD 71.1% of the activity with FMN
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
most effective electron acceptor
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Show all BRENDA pathways known for FMN
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