DEDUCT | Database of Endocrine Disrupting chemicals and their Toxicity profiles

Fenhexamid

Curated chemical-gene interactions from CTD

Entrez gene ID	Gene symbol	Interaction type	Reference
11199	ANXA10	Increases expression	PMID:32194361
1509	CTSD	Increases expression	PMID:26344002
1543	CYP1A1	Decreases expression	PMID:32194361
1557	CYP2C19	Decreases expression	PMID:32194361
1581	CYP7A1	Decreases expression	PMID:32194361
2099	ESR1	Decreases expression	PMID:23052036
2099	ESR1	Increases activity	PMID:20143881; PMID:26812056; PMID:23436777
2100	ESR2	Increases activity	PMID:26812056
2100	ESR2	Increases expression	PMID:23436777
27250	PDCD4	Decreases expression	PMID:23052036
332	BIRC5	Increases expression	PMID:33484789
3676	ITGA4	Increases expression	PMID:25461557
3685	ITGAV	Increases expression	PMID:25461557
383	ARG1	Decreases expression	PMID:32194361
406983	MIR200A	Increases expression	PMID:23052036
406991	MIR21	Increases expression	PMID:23052036
407004	MIR22	Increases expression	PMID:23052036
472	ATM	Increases expression	PMID:25461557
5111	PCNA	Increases expression	PMID:33484789
5154	PDGFA	Increases expression	PMID:25461557
5241	PGR	Affects expression	PMID:23052036; PMID:23436777
5728	PTEN	Decreases expression	PMID:23052036
581	BAX	Decreases expression	PMID:33484789
5915	RARB	Decreases expression	PMID:23436777
5925	RB1	Increases expression	PMID:25461557
595	CCND1	Affects expression	PMID:23052036; PMID:23436777; PMID:26344002; PMID:33484789
596	BCL2	Affects expression	PMID:23052036; PMID:33484789
6286	S100P	Increases expression	PMID:32194361
7076	TIMP1	Increases expression	PMID:25461557
7078	TIMP3	Increases expression	PMID:25461557
81671	VMP1	Increases expression	PMID:23052036
898	CCNE1	Increases expression	PMID:26344002; PMID:33484789
993	CDC25A	Increases expression	PMID:25461557

DISCLAIMER

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.