Iodoacetic acid


Curated chemical-gene interactions from CTD
Entrez gene IDGene symbolInteraction typeReference
10017 BCL2L10 Decreases expression PMID:31693920
1019 CDK4 Increases expression PMID:31693920
1026 CDKN1A Increases expression PMID:31693920; PMID:34453833
1081 CGA Decreases expression PMID:34453833
142 PARP1 Increases expression PMID:25944804
1583 CYP11A1 Increases expression PMID:31693920
1586 CYP17A1 Decreases expression PMID:31693920
1588 CYP19A1 Decreases expression PMID:31693920
163223 ZNF676 Decreases expression PMID:23397585
2099 ESR1 Decreases expression PMID:31693920
2488 FSHB Increases expression PMID:34453833
2597 GAPDH Decreases activity PMID:21671678
3283 HSD3B1 Increases expression PMID:31693920
3292 HSD17B1 Decreases expression PMID:31693920
3398 ID2 Decreases expression PMID:23397585
3399 ID3 Decreases expression PMID:23397585
3814 KISS1 Increases expression PMID:34453833
3972 LHB Decreases expression PMID:34453833
4288 MKI67 Decreases expression PMID:31693920
581 BAX Increases expression PMID:31693920
596 BCL2 Decreases expression PMID:31693920
6347 CCL2 Decreases expression PMID:23397585
6770 STAR Increases expression PMID:31693920
687 KLF9 Decreases expression PMID:23397585
890 CCNA2 Decreases expression PMID:31693920
891 CCNB1 Decreases expression PMID:31693920
894 CCND2 Decreases expression PMID:31693920
898 CCNE1 Decreases expression PMID:31693920
9131 AIFM1 Increases expression PMID:31693920
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We have built a comprehensive resource which compiles potential endocrine disrupting chemicals (EDCs) based on the observed adverse effects or endocrine-mediated endpoints in published experiments on humans or rodents to support basic research. We are not responsible for any errors or omissions in the published research articles or supporting literature on potential EDCs compiled in this resource. Users are advised to exercise their own judgement on the weight of evidence for potential EDCs compiled in this resource. Importantly, our sole goal to build this resource on potential EDCs is to enable future basic research towards better understanding of the systems-level perturbations upon chemical exposure rather than influencing regulatory advice on chemical use.