Dithiothreitol


Curated chemical-gene interactions from CTD
Entrez gene IDGene symbolInteraction typeReference
10015 PDCD6IP Increases expression PMID:21692457
10891 PPARGC1A Increases expression PMID:23056435
1581 CYP7A1 Increases activity PMID:1175606
16333 INS1 Decreases activity PMID:2262933
1647 GADD45A Increases expression PMID:17332266
1649 DDIT3 Increases expression PMID:17332266; PMID:23123503; PMID:27226639; PMID:23123503; PMID:27226639
1965 EIF2S1 Increases expression PMID:28241074
2081 ERN1 Increases activity PMID:12486162
2081 ERN1 Increases expression PMID:25321315
210 ALAD Increases activity PMID:2061546; PMID:21360559
2152 F3 Increases activity PMID:17726162
26291 FGF21 Increases expression PMID:23123503; PMID:23123503; PMID:27226639; PMID:27226639
3283 HSD3B1 Increases activity PMID:36965607; PMID:38555059
3291 HSD11B2 Increases activity PMID:36878351
3309 HSPA5 Increases expression PMID:15710169; PMID:17332266; PMID:34244458; PMID:17416481; PMID:21692457; PMID:25321315; PMID:23123503
4189 DNAJB9 Increases expression PMID:23123503
467 ATF3 Increases expression PMID:17332266
468 ATF4 Increases expression PMID:27226639
595 CCND1 Decreases expression PMID:17332266
5955 RCN2 Increases expression PMID:21692457
5970 RELA Increases activity PMID:7491977
6647 SOD1 Decreases activity PMID:22867017
6648 SOD2 Increases expression PMID:7476933
7224 TRPC5 Increases activity PMID:21984481
813 CALU Increases expression PMID:21692457
83729 INHBE Increases expression PMID:22935518
83939 EIF2A Increases activity PMID:12486162
8985 PLOD3 Increases expression PMID:21692457
9 NAT1 Increases activity PMID:22835378
901 CCNG2 Increases expression PMID:17332266
9061 PAPSS1 Increases activity PMID:15065880
9451 EIF2AK3 Increases activity PMID:12486162
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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.