EC number:1.1.1.372
Enzyme
Download| EC Tree |
| 1. Oxidoreductases |
| 1.1 Acting on the CH-OH group of donors |
| 1.1.1 With NAD+ or NADP+ as acceptor |
| ID: | 1.1.1.372 |
|---|---|
| Description: | D/L-glyceraldehyde reductase. |
3D structure
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External Links
| UniProtKB Enzyme Link: | UniProtKB 1.1.1.372 |
| BRENDA Enzyme Link: | BRENDA 1.1.1.372 |
| KEGG Enzyme Link: | KEGG1.1.1.372 |
| BioCyc Enzyme Link: | BioCyc 1.1.1.372 |
| ExPASy Enzyme Link: | ExPASy1.1.1.372 |
| EC2PDB Enzyme Link: | EC2PDB 1.1.1.372 |
| ExplorEnz Enzyme Link: | ExplorEnz 1.1.1.372 |
| PRIAM enzyme-specific profiles Link: | PRIAM 1.1.1.372 |
| IntEnz Enzyme Link: | IntEnz 1.1.1.372 |
| MEDLINE Enzyme Link: | MEDLINE 1.1.1.372 |
EC number:1.1.1.372
| MSA: | |
|---|---|
| Phylogenetic Tree: | |
| Uniprot: | |
| M-CSA: |
| RHEA:38111 | glycerol + NADP(+) = H(+) + L-glyceraldehyde + NADPH |
| RULE(radius=1) | [*:1]-[CH2;+0:2]-[OH;+0:3].[*:4]-[n+;H0:5]1:[cH;+0:6]:[cH;+0:7]:[cH;+0:8]:[c;H0;+0:9](-[*:10]):[cH;+0:11]:1>>[*:1]-[CH;+0:2]=[O;H0;+0:3].[*:4]-[N;H0;+0:5]1-[CH;+0:6]=[CH;+0:7]-[CH2;+0:8]-[C;H0;+0:9](-[*:10])=[CH;+0:11]-1 |
| Reaction |  |
| Core-to-Core |
References
| Title | Authors | Date | PubMed ID |
|---|---|---|---|
| Enzymes for the NADPH-dependent reduction of dihydroxyacetone and D-glyceraldehyde and L-glyceraldehyde in the mould Hypocrea jecorina. | Liepins J, Kuorelahti S, Penttilä M, Richard P | 2006 Sep | 16930134 |
| In vivo role of aldehyde reductase. | Takahashi M, Miyata S, Fujii J, Inai Y, Ueyama S, Araki M, Soga T, Fujinawa R, Nishitani C, Ariki S, Shimizu T, Abe T, Ihara Y, Nishikimi M, Kozutsumi Y, Taniguchi N, Kuroki Y | 2012 Nov | 22820017 |
| Human aldose reductase and human small intestine aldose reductase are efficient retinal reductases: consequences for retinoid metabolism. | Crosas B, Hyndman DJ, Gallego O, Martras S, Parés X, Flynn TG, Farrés J | 2003 Aug 1 | 12732097 |
| RHEA:23592 | glycerol + NADP(+) = D-glyceraldehyde + H(+) + NADPH |
| RULE(radius=1) | [*:1]-[CH2;+0:2]-[OH;+0:3].[*:4]-[n+;H0:5]1:[cH;+0:6]:[cH;+0:7]:[cH;+0:8]:[c;H0;+0:9](-[*:10]):[cH;+0:11]:1>>[*:1]-[CH;+0:2]=[O;H0;+0:3].[*:4]-[N;H0;+0:5]1-[CH;+0:6]=[CH;+0:7]-[CH2;+0:8]-[C;H0;+0:9](-[*:10])=[CH;+0:11]-1 |
| Reaction |  |
| Core-to-Core |
References
| Title | Authors | Date | PubMed ID |
|---|---|---|---|
| Enzymes for the NADPH-dependent reduction of dihydroxyacetone and D-glyceraldehyde and L-glyceraldehyde in the mould Hypocrea jecorina. | Liepins J, Kuorelahti S, Penttilä M, Richard P | 2006 Sep | 16930134 |
| In vivo role of aldehyde reductase. | Takahashi M, Miyata S, Fujii J, Inai Y, Ueyama S, Araki M, Soga T, Fujinawa R, Nishitani C, Ariki S, Shimizu T, Abe T, Ihara Y, Nishikimi M, Kozutsumi Y, Taniguchi N, Kuroki Y | 2012 Nov | 22820017 |
| Characterisation of a recombinant NADP-dependent glycerol dehydrogenase from Gluconobacter oxydans and its application in the production of L-glyceraldehyde. | Richter N, Neumann M, Liese A, Wohlgemuth R, Eggert T, Hummel W | 2009 Jul 20 | 19579248 |
| Human aldose reductase and human small intestine aldose reductase are efficient retinal reductases: consequences for retinoid metabolism. | Crosas B, Hyndman DJ, Gallego O, Martras S, Parés X, Flynn TG, Farrés J | 2003 Aug 1 | 12732097 |