Retinoid metabolism and transport
REACTOME PATHWAYThe Retinoid metabolism and transport pathway (Reactome ID: R-HSA-975634) involves 7 genes and is affected by 41 compounds in the BiohacksAI evidence corpus. Compound-pathway associations are derived from target overlap: a compound is linked to this pathway if it targets ≥2 genes within the pathway.
Genes in this Pathway
Compounds Affecting Retinoid metabolism and transport
| # | Compound | Targets Hit | Studies |
|---|---|---|---|
| 1 | Apigenin 5,7,4'-trihydroxy-flavone, | — | 300 |
| 2 | Luteolin 5,7,3',4'-tetrahydroxy-flavone, | — | 150 |
| 3 | egcg | — | 300 |
| 4 | Kaempferols | — | 300 |
| 5 | Vitamin | — | 295 |
| 6 | Quercetin | — | 300 |
| 7 | Medroxyprogesterone Acetate | — | 299 |
| 8 | Niflumic Acid | — | 300 |
| 9 | Thyroxine | — | 994 |
| 10 | pterostilbene | — | 299 |
| 11 | piceatannol | — | 300 |
| 12 | Thyroxine | — | 300 |
| 13 | Masoprocol | — | 300 |
| 14 | Genistein | — | 300 |
| 15 | Resveratrol | — | 298 |
| 16 | Rosmarinic Acid | — | 300 |
| 17 | Dextrothyroxine | — | 134 |
| 18 | Gemfibrozil | — | 297 |
| 19 | Triiodothyronine | — | 300 |
| 20 | Oleanolic Acid | — | 300 |
| 21 | Ursolic Acid | — | 300 |
| 22 | Chlorogenic Acid | — | 300 |
| 23 | caffeic acid | — | 300 |
| 24 | Pueraria | — | 300 |
| 25 | Rutin | — | 300 |
| 26 | Hesperidin | — | 300 |
| 27 | phlorhizin | — | 224 |
| 28 | Sulindac | — | 297 |
| 29 | alphitonin [Supplementary Concept] from | — | 300 |
| 30 | Pennisetum | — | 291 |
| 31 | Indomethacin | — | 297 |
| 32 | Naproxen | — | 1,000 |
| 33 | Berberine | — | 300 |
| 34 | Linoleic Acid | — | 300 |
| 35 | Bimatoprost | — | 297 |
| 36 | chrysin | — | 300 |
| 37 | Progesterone | — | 299 |
| 38 | Testosterone | — | 299 |
| 39 | Equilin | — | 216 |
| 40 | myricetin-3-O-galactopyranoside [Supplementary Concept] | — | 300 |
| 41 | rafoxanide | — | 172 |
About the Retinoid metabolism and transport Pathway
The Retinoid metabolism and transport pathway is catalogued in Reactome (ID: R-HSA-975634) and involves 7 genes. In the BiohacksAI corpus, 41 compounds have documented interactions with at least 2 genes in this pathway, establishing mechanistic relevance. Key pathway genes include AKR1B10, AKR1C1, AKR1C3, AKR1C4, PNLIP.