Busulfan


Curated chemical-gene interactions from CTD
Entrez gene IDGene symbolInteraction typeReference
100506658 OCLN Decreases expression PMID:35533795
1017 CDK2 Decreases expression PMID:15388331
1019 CDK4 Decreases expression PMID:15388331
1026 CDKN1A Increases expression PMID:16882877
1029 CDKN2A Increases expression PMID:14500376
112483 SAT2 Increases expression PMID:28578006
1277 COL1A1 Increases expression PMID:37597760
1281 COL3A1 Increases expression PMID:37597760
1282 COL4A1 Affects expression PMID:15941629
1385 CREB1 Decreases expression PMID:39081119
14103 FASL Decreases expression PMID:15388331
1543 CYP1A1 Decreases activity PMID:33814510
1649 DDIT3 Increases expression PMID:35533795
196 AHR Increases expression PMID:35641671
2253 FGF8 Decreases expression PMID:15786497
23657 SLC7A11 Decreases expression PMID:38220133
2488 FSHB Decreases expression PMID:38123000
2495 FTH1 Decreases expression PMID:38220133
2668 GDNF Increases expression PMID:20684317; PMID:22082982; PMID:26524245
2697 GJA1 Decreases expression PMID:35533795
284217 LAMA1 Affects expression PMID:15941629
2879 GPX4 Decreases activity PMID:32416107
2879 GPX4 Decreases expression PMID:32416107; PMID:32416107; PMID:38220133; PMID:38220133
30061 SLC40A1 Decreases expression PMID:32416107
3091 HIF1A Increases expression PMID:35641671
3309 HSPA5 Increases expression PMID:35533795
339345 NANOS2 Decreases expression PMID:26524245
342977 NANOS3 Decreases expression PMID:26524245
346673 STRA8 Decreases expression PMID:15388331
3624 INHBA Increases expression PMID:12966370; PMID:12966370; PMID:22286157
367 AR Decreases expression PMID:39081119
3815 KIT Decreases expression PMID:15388331
3910 LAMA4 Affects expression PMID:15941629
3972 LHB Decreases expression PMID:38123000
4520 MTF1 Decreases expression PMID:35641671
462 SERPINC1 Affects expression PMID:15580502
468 ATF4 Increases expression PMID:35533795; PMID:35641671
4780 NFE2L2 Affects expression PMID:32416107; PMID:35641671
4790 NFKB1 Increases expression PMID:35641671
5010 CLDN11 Decreases expression PMID:35533795
5054 SERPINE1 Increases expression PMID:22286157
5245 PHB1 Affects expression PMID:15388331
54517 PUS7 Increases expression PMID:34097952
5468 PPARG Affects expression PMID:35641671
5594 MAPK1 Increases activity PMID:16882877
5595 MAPK3 Increases activity PMID:16882877
5743 PTGS2 Increases expression PMID:12966370; PMID:32416107
5888 RAD51 Decreases expression PMID:15388331
652 BMP4 Decreases expression PMID:15786497
6772 STAT1 Affects expression PMID:35641671
6773 STAT2 Decreases expression PMID:35641671
7018 TF Increases expression PMID:12966370; PMID:12966370; PMID:22286157
7035 TFPI Decreases expression PMID:22286157
7037 TFRC Decreases expression PMID:32416107
7040 TGFB1 Increases expression PMID:22286157; PMID:37597760
7057 THBS1 Increases expression PMID:22286157
7076 TIMP1 Increases expression PMID:37597760
7124 TNF Increases expression PMID:22286157
7157 TP53 Affects activity PMID:16882877
7157 TP53 Increases expression PMID:35641671
7296 TXNRD1 Decreases activity PMID:16085187
7494 XBP1 Affects expression PMID:35641671
7704 ZBTB16 Increases expression PMID:26524245
8031 NCOA4 Increases expression PMID:38220133
81631 MAP1LC3B Increases expression PMID:38220133
836 CASP3 Increases activity PMID:17264767; PMID:18339423
841 CASP8 Increases activity PMID:18339423
847 CAT Decreases expression PMID:38123000
8678 BECN1 Increases expression PMID:38220133
8878 SQSTM1 Decreases expression PMID:38220133
89869 PLCZ1 Decreases expression PMID:39081119
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.