1.2.1.22: lactaldehyde dehydrogenase
This is an abbreviated version!
For detailed information about lactaldehyde dehydrogenase, go to the full flat file.
Word Map on EC 1.2.1.22
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1.2.1.22
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aldolase
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l-lactate
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l-rhamnose
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glycol
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l-fucose
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dehydrogenases
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1-phosphate
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methylglyoxal
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glycolaldehyde
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nad+-dependent
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l-1,2-propanediol
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propanediol
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non-phosphorylated
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permease
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dissimilate
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dihydroxyacetone
- 1.2.1.22
- aldolase
- l-lactate
- l-rhamnose
- glycol
- l-fucose
- dehydrogenases
- 1-phosphate
- methylglyoxal
- glycolaldehyde
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nad+-dependent
- l-1,2-propanediol
-
propanediol
-
non-phosphorylated
-
permease
-
dissimilate
- dihydroxyacetone
Reaction
Synonyms
ALD, AldA, aldehyde dehyrogenase, ALDH, AN0544, AvLADH, dehydrogenase, lactaldehyde, L-lactaldehyde dehydrogenase, L-lactaldehyde:NAD oxidoreductase, Lactaldehyde dehydrogenase, LADH, MJ1411, More, NAD-dependent lactaldehyde dehydrogenase, nicotinamide adenine dinucleotide (NAD)-linked dehydrogenase, PsLADH, SSO3117
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General Information
General Information on EC 1.2.1.22 - lactaldehyde dehydrogenase
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metabolism
physiological function
additional information
the enzyme catalyzes the last step in the degradation of L-fucose
metabolism
the enzyme is involved in the non-phosphoryating L-rhamnose catabolic pathway
metabolism
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the enzyme catalyzes the last step in the degradation of L-fucose
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metabolism
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the enzyme is involved in the non-phosphoryating L-rhamnose catabolic pathway
-
metabolism
Aspergillus nidulans CBS 112.46
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the enzyme is involved in the non-phosphoryating L-rhamnose catabolic pathway
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metabolism
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the enzyme is involved in the non-phosphoryating L-rhamnose catabolic pathway
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metabolism
Aspergillus nidulans M139
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the enzyme is involved in the non-phosphoryating L-rhamnose catabolic pathway
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metabolism
Aspergillus nidulans NRRL 194
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the enzyme is involved in the non-phosphoryating L-rhamnose catabolic pathway
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the enzyme catalyzes the last step in the degradation of L-fucose. The activity with L-lactaldehyde is fivefold increased in L-fucose adapted cells compared with D-glucose. Only poor conversion of D-lactaldehyde under both conditions is observed
physiological function
a loss-of-function mutation severely impairs L-rhamnose utilization
physiological function
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the enzyme catalyzes the last step in the degradation of L-fucose. The activity with L-lactaldehyde is fivefold increased in L-fucose adapted cells compared with D-glucose. Only poor conversion of D-lactaldehyde under both conditions is observed
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physiological function
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a loss-of-function mutation severely impairs L-rhamnose utilization
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residue Asn286 of L-lactaldehyde dehydrogenase plays an important structure role to substrate identification, molecular structure modeling of wild-type enzyme and N286 mutants
additional information
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residue Asn286 of L-lactaldehyde dehydrogenase plays an important structure role to substrate identification, molecular structure modeling of wild-type enzyme and N286 mutants