EC Number |
Substrates |
Organism |
Products |
Reversibility |
---|
1.1.1.105 | 11-cis-retinol + NAD+ |
- |
Mus musculus |
11-cis-retinal + NADH + H+ |
- |
r |
1.1.1.105 | 11-cis-retinol + NAD+ |
- |
Mus musculus C57BL/6J |
11-cis-retinal + NADH + H+ |
- |
r |
1.1.1.105 | 11-cis-retinol + NAD+ |
- |
Homo sapiens |
? |
- |
? |
1.1.1.105 | 13-cis-retinol + NAD+ |
- |
Homo sapiens |
13-cis-retinal + NADH + H+ |
- |
? |
1.1.1.105 | 13-cis-retinol + NAD+ |
RoDH-4 can potentially contribute to the biosynthesis of two powerful modulators of gene expression: retinoic acid from retinol and dihydrotestosterone from 3alpha-androstane-diol |
Homo sapiens |
13-cis-retinal + NADH + H+ |
- |
? |
1.1.1.105 | 3,4-didehydroretinol + NAD+ |
60% of the efficiency against all-trans-retinol |
Homo sapiens |
3,4-didehydroretinal + NADH |
- |
? |
1.1.1.105 | 5alpha-androstan-3alpha-ol-17-one + NAD+ |
- |
Homo sapiens |
? + NADH |
- |
? |
1.1.1.105 | 9-cis-retinol + NAD+ |
higher activity with all-trans-retinol versus 9-cis-retinol |
Mus musculus |
9-cis-retinal + NADH + H+ |
- |
? |
1.1.1.105 | all-trans retinal + NADH + H+ |
- |
Homo sapiens |
all-trans-retinol + NAD+ |
- |
r |
1.1.1.105 | all-trans retinal + NADH + H+ |
oxidative activity is below the detection limit |
Branchiostoma floridae |
all-trans-retinol + NAD+ |
- |
r |