GENE - CHEMICAL INTERACTIONS REPORT
Note: Use of the qualifier "multiple interactions" designates that the annotated interaction
is comprised of a complex set of reactions and/or regulatory events, possibly involving
additional chemicals and/or gene products.
Object Symbol | Qualifier | Evidence | With | Reference | Source | Notes | Original Reference(s) | Slc22a12 | affects transport | EXP | | 6480464 | CTD | SLC22A12 protein affects the transport of Uric Acid | PMID:21074513 | Slc22a12 | multiple interactions | EXP | | 6480464 | CTD | Benzbromarone inhibits the reaction [SLC22A12 protein affects the transport of Uric Acid]; Chlorides affects the reaction [SLC22A12 protein affects the transport of Uric Acid]; Lactic Acid promotes the reaction [SLC22A12 protein affects the transport of Uric Acid]; pyrazinoic acid promotes the reaction [SLC22A12 protein affects the transport of Uric Acid] | PMID:21074513 | Slc22a12 | affects transport | ISO | Slc22a12 (Mus musculus) | 6480464 | CTD | SLC22A12 protein affects the transport of Uric Acid | PMID:14747372 | Slc22a12 | increases export | ISO | Slc22a12 (Mus musculus) | 6480464 | CTD | SLC22A12 protein results in increased export of Uric Acid | PMID:15284287 | Slc22a12 | increases import | ISO | SLC22A12 (Homo sapiens) | 6480464 | CTD | SLC22A12 protein results in increased import of Uric Acid | PMID:20639259 | Slc22a12 | increases uptake | ISO | SLC22A12 (Homo sapiens) | 6480464 | CTD | SLC22A12 protein results in increased uptake of Uric Acid | PMID:14694169 PMID:21272127 PMID:21449597 PMID:33007874 | Slc22a12 | multiple interactions | ISO | SLC22A12 (Homo sapiens) | 6480464 | CTD | 6-hydroxybenzbromarone inhibits the reaction [SLC22A12 protein results in increased uptake of Uric Acid]; [Chlorine co-treated with perfluoro-n-heptanoic acid] inhibits the reaction [SLC22A12 protein results in increased import of Uric Acid]; [Chlorine co-treated with perfluoro-n-nonanoic acid] inhibits the reaction [SLC22A12 protein results in increased import of Uric Acid]; [Chlorine co-treated with perfluorodecanoic acid] inhibits the reaction [SLC22A12 protein results in increased import of Uric Acid]; [Chlorine co-treated with perfluorooctanoic acid] inhibits the reaction [SLC22A12 protein results in increased import of Uric Acid]; [Losartan results in decreased activity of SLC22A12 protein] which results in decreased abundance of Uric Acid; benzarone inhibits the reaction [SLC22A12 protein results in increased uptake of Uric Acid]; Benzbromarone inhibits the reaction [SLC22A12 protein results in increased uptake of Uric Acid]; Chlorine inhibits the reaction [SLC22A12 protein results in increased import of Uric Acid]; E 3040 inhibits the reaction [SLC22A12 protein results in increased uptake of Uric Acid]; Enalapril inhibits the reaction [SLC22A12 protein results in increased uptake of Uric Acid]; Indomethacin inhibits the reaction [SLC22A12 protein results in increased uptake of Uric Acid]; Phenylbutazone inhibits the reaction [SLC22A12 protein results in increased uptake of Uric Acid]; Probenecid inhibits the reaction [SLC22A12 protein results in increased uptake of Uric Acid]; Salicylates inhibits the reaction [SLC22A12 protein results in increased uptake of Uric Acid]; Sulfinpyrazone inhibits the reaction [SLC22A12 protein results in increased uptake of Uric Acid]; Uric Acid inhibits the reaction [SLC22A12 protein results in increased uptake of Oxypurinol] | PMID:16135657 PMID:18670416 PMID:20639259 PMID:21272127 | Slc22a12 | multiple interactions | ISO | Slc22a12 (Mus musculus) | 6480464 | CTD | Benzbromarone inhibits the reaction [SLC22A12 protein affects the transport of Uric Acid]; gluconic acid promotes the reaction [SLC22A12 protein affects the transport of Uric Acid]; Lactic Acid affects the reaction [SLC22A12 protein affects the transport of Uric Acid]; Probenecid inhibits the reaction [SLC22A12 protein affects the transport of Uric Acid]; pyrazinoic acid promotes the reaction [SLC22A12 protein affects the transport of Uric Acid] | PMID:14747372 | |
Go Back to source page | Continue to Ontology report |