1.1.1.77: lactaldehyde reductase
This is an abbreviated version!
For detailed information about lactaldehyde reductase, go to the full flat file.
Word Map on EC 1.1.1.77
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1.1.1.77
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l-fucose
-
l-1,2-propanediol
-
l-rhamnose
-
dissimilation
-
nad-linked
-
aldolase
-
subtilisin
-
typhimurium
-
1-phosphate
-
l-lactate
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pneumoniae
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metal-catalyzed
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dihydroxyacetone
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klebsiella
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dinucleotide-linked
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permease
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six-carbon
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laczya
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metal-binding
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rhamnose-induced
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bacteriol
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anaerobiosis
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irretrievably
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mobilis
-
rha
-
iron-containing
-
fuculose
-
zymomonas
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noninducible
-
synthesis
- 1.1.1.77
- l-fucose
- l-1,2-propanediol
- l-rhamnose
-
dissimilation
-
nad-linked
- aldolase
- subtilisin
- typhimurium
-
1-phosphate
- l-lactate
- pneumoniae
-
metal-catalyzed
- dihydroxyacetone
-
klebsiella
-
dinucleotide-linked
-
permease
-
six-carbon
-
laczya
-
metal-binding
-
rhamnose-induced
-
bacteriol
- anaerobiosis
-
irretrievably
- mobilis
-
rha
-
iron-containing
-
fuculose
- zymomonas
-
noninducible
- synthesis
Reaction
Synonyms
L-lactaldehyde:propanediol oxidoreductase, Propanediol oxidoreductase, propanediol:nicotinamide adenine dinucleotide (NAD) oxidoreductase
ECTree
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Inhibitors
Inhibitors on EC 1.1.1.77 - lactaldehyde reductase
for references in articles please use BRENDA:EC1.1.1.77
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ascorbate
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0.025 mM FeCl3 and 0.035 mM ascorbate causes a 90% enzyme inactivation after 120 min = inactivation of metal-catalyzed oxidation; several amino-acids prevent the inactivation; under aerobic conditions 0.025 mM FeCl3 causes a 50% enzyme inactivation after 120 min
Fe2+
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under anaerobic conditions 0.01 mM Fe2+ and 0.1 mM H2O2 had the effect of 85% enzyme inactivation after 2 min, with addition of 0.0001 mM catalase the inactivation is only 25% after 2 min and with addition of 0.01 mM superoxide dismutase instead of catalse the inactivation is again 82% after 2 min
Fe3+
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0.025 mM FeCl3 and 0.035 mM ascorbate causes a 90% enzyme inactivation after 120 min = inactivation of metal-catalyzed oxidation; several amino-acids prevent the inactivation; under aerobic conditions 0.025 mM FeCl3 causes a 50% enzyme inactivation after 120 min
H2O2
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under anaerobic conditions 0.01 mM Fe2+ and 0.1 mM H2O2 had the effect of 85% enzyme inactivation after 2 min, with addition of 0.0001 mM catalase the inactivation is only 25% after 2 min and with addition of 0.01 mM superoxide dismutase instead of catalse the inactivation is again 82% after 2 min