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Chemical Elements

1–50 of 7,710 results.
  Chemical Phenotype Co-Mentioned Terms Interaction Organisms Anatomy Inference Network References
1. Aluminum membrane lipid catabolic process Aluminum results in increased membrane lipid catabolic process 1: Homo sapiens Blood Platelets | Membranes   1
2. Aluminum membrane lipid catabolic process Melatonin Melatonin inhibits the reaction [Aluminum results in increased membrane lipid catabolic process] 1: Homo sapiens Blood Platelets | Membranes   1
3. Aluminum membrane lipid catabolic process Ascorbic Acid | ferric chloride [Aluminum co-treated with Ascorbic Acid co-treated with ferric chloride] results in increased membrane lipid catabolic process 1: Rattus norvegicus Synaptosomes   1
4. Aluminum membrane lipid catabolic process Ascorbic Acid | ferric chloride | Melatonin Melatonin inhibits the reaction [[Aluminum co-treated with Ascorbic Acid co-treated with ferric chloride] results in increased membrane lipid catabolic process] 1: Rattus norvegicus Synaptosomes   1
5. Aluminum membrane lipid catabolic process 6-methoxytryptoline | Ascorbic Acid | ferric chloride 6-methoxytryptoline inhibits the reaction [[Aluminum co-treated with Ascorbic Acid co-treated with ferric chloride] results in increased membrane lipid catabolic process] 1: Rattus norvegicus Synaptosomes   1
6. Aluminum glutathione biosynthetic process Aluminum results in decreased glutathione biosynthetic process 1: Rattus norvegicus Brain   1
7. Aluminum long-term synaptic potentiation Aluminum results in decreased long-term synaptic potentiation  
11 genes: APP | BRAF | DRD1 | GFAP | RGS14 | S100B | SHANK2 | SLC8A3 | SNCA | TSHZ3 | UNC13A
1
8. Aluminum cAMP biosynthetic process Aluminum results in decreased cAMP biosynthetic process 1: Rattus norvegicus Hippocampus 1 gene: ADM 1
9. Aluminum positive regulation of p38MAPK cascade Copper | lipopolysaccharide, Escherichia coli O111 B4 [Aluminum co-treated with Copper] inhibits the reaction [lipopolysaccharide, Escherichia coli O111 B4 results in increased positive regulation of p38MAPK cascade] 1: Mus musculus Macrophages | Cell Line
2 genes: IL1B | XDH
1
10. Aluminum cognition Aluminum results in decreased cognition 1: Homo sapiens Brain
4 genes: APP | CYFIP1 | GTF2A1L | NF1
1
11. Aluminum lipid catabolic process Aluminum results in increased lipid catabolic process 1: Rattus norvegicus Penis
21 genes: APOB | APOC3 | CLPSL2 | DAGLB | ENPP6 | FH | HRASLS | PLA2G10 | PLA2G2D | PLA2G3 | PLA2G4A | PLBD2 | PLCD1 | PLCD4 | PLCE1 | PLD2 | PNLIPRP2 | PNLIPRP3 | PNPLA5 | PNPLA7 | RARRES3
1
12. Aluminum glutathione biosynthetic process Cysteine [Aluminum results in decreased uptake of Cysteine] which results in decreased glutathione biosynthetic process 1: Homo sapiens Neural Stem Cells | Cell Line, Tumor   1
13. Aluminum glutathione biosynthetic process Aluminum results in decreased glutathione biosynthetic process 1: Homo sapiens Neural Stem Cells | Cell Line, Tumor   1
14. Aluminum glutathione biosynthetic process Glutathione [Aluminum results in decreased glutathione biosynthetic process] which results in decreased abundance of Glutathione 1: Homo sapiens Neural Stem Cells | Cell Line, Tumor   1
15. Aluminum aluminum ion homeostasis Environmental Pollutants [Environmental Pollutants results in decreased aluminum ion homeostasis] which results in increased abundance of Aluminum 1: Homo sapiens Blood   1
16. Aluminum superoxide dismutase activity Aluminum results in decreased superoxide dismutase activity 1: Rattus norvegicus Liver 1 gene: SOD2 1
17. Aluminum lipid catabolic process Aluminum results in increased lipid catabolic process 1: Rattus norvegicus Liver
21 genes: APOB | APOC3 | CLPSL2 | DAGLB | ENPP6 | FH | HRASLS | PLA2G10 | PLA2G2D | PLA2G3 | PLA2G4A | PLBD2 | PLCD1 | PLCD4 | PLCE1 | PLD2 | PNLIPRP2 | PNLIPRP3 | PNPLA5 | PNPLA7 | RARRES3
1
18. Aluminum leukotriene B4 biosynthetic process Aluminum results in increased leukotriene B4 biosynthetic process 1: Rattus norvegicus Liver   1
19. Aluminum superoxide dismutase activity caffeic acid caffeic acid inhibits the reaction [Aluminum results in decreased superoxide dismutase activity] 1: Rattus norvegicus Liver 1 gene: SOD2 1
20. Aluminum lipid catabolic process caffeic acid caffeic acid inhibits the reaction [Aluminum results in increased lipid catabolic process] 1: Rattus norvegicus Liver
21 genes: APOB | APOC3 | CLPSL2 | DAGLB | ENPP6 | FH | HRASLS | PLA2G10 | PLA2G2D | PLA2G3 | PLA2G4A | PLBD2 | PLCD1 | PLCD4 | PLCE1 | PLD2 | PNLIPRP2 | PNLIPRP3 | PNPLA5 | PNPLA7 | RARRES3
1
21. Aluminum leukotriene B4 biosynthetic process caffeic acid caffeic acid inhibits the reaction [Aluminum results in increased leukotriene B4 biosynthetic process] 1: Rattus norvegicus Liver   1
22. Aluminum drug transport across blood-brain barrier Aluminum Hydroxide [Aluminum Hydroxide results in increased drug transport across blood-brain barrier] which results in increased abundance of Aluminum 1: Mus musculus Cerebral Cortex   1
23. Aluminum cell death Zinc Oxide [Aluminum co-treated with Zinc Oxide] results in increased cell death 1: Homo sapiens A549 Cells
3 genes: BCL10 | HMOX1 | PTGER3
1
24. Aluminum cell death Zinc Oxide [Aluminum co-treated with Zinc Oxide] results in increased cell death 1: Homo sapiens Lung | Cell Line, Tumor
3 genes: BCL10 | HMOX1 | PTGER3
1
25. Aluminum memory Cadmium | Fluorides [Cadmium co-treated with Aluminum co-treated with Fluorides] results in decreased memory 1: Rattus norvegicus  
19 genes: ABCA7 | ADRB1 | APP | CHAT | CYP7B1 | DBH | DRD1 | EP300 | GLP1R | HRH1 | IGF1 | IL1B | KALRN | MAPT | NETO1 | PTGS2 | S100B | SHANK2 | SLC8A3
1
26. Aluminum memory Berberine | Cadmium | Fluorides Berberine inhibits the reaction [[Cadmium co-treated with Aluminum co-treated with Fluorides] results in decreased memory] 1: Rattus norvegicus  
19 genes: ABCA7 | ADRB1 | APP | CHAT | CYP7B1 | DBH | DRD1 | EP300 | GLP1R | HRH1 | IGF1 | IL1B | KALRN | MAPT | NETO1 | PTGS2 | S100B | SHANK2 | SLC8A3
1
27. Aluminum positive regulation of cellular response to oxidative stress Cadmium | Fluorides [Cadmium co-treated with Aluminum co-treated with Fluorides] results in increased positive regulation of cellular response to oxidative stress 1: Rattus norvegicus Serum 1 gene: SKN-1 1
28. Aluminum positive regulation of cellular response to oxidative stress Cadmium | Fluorides [Cadmium co-treated with Aluminum co-treated with Fluorides] results in increased positive regulation of cellular response to oxidative stress 1: Rattus norvegicus Brain 1 gene: SKN-1 1
29. Aluminum positive regulation of cellular response to oxidative stress Berberine | Cadmium | Fluorides Berberine inhibits the reaction [[Cadmium co-treated with Aluminum co-treated with Fluorides] results in increased positive regulation of cellular response to oxidative stress] 1: Rattus norvegicus Serum 1 gene: SKN-1 1
30. Aluminum positive regulation of cellular response to oxidative stress Berberine | Cadmium | Fluorides Berberine inhibits the reaction [[Cadmium co-treated with Aluminum co-treated with Fluorides] results in increased positive regulation of cellular response to oxidative stress] 1: Rattus norvegicus Brain 1 gene: SKN-1 1
31. Aluminum monoamine oxidase activity Cadmium | Fluorides [Cadmium co-treated with Aluminum co-treated with Fluorides] results in increased monoamine oxidase activity 1: Rattus norvegicus Serum   1
32. Aluminum monoamine oxidase activity Cadmium | Fluorides [Cadmium co-treated with Aluminum co-treated with Fluorides] results in increased monoamine oxidase activity 1: Rattus norvegicus Brain   1
33. Aluminum monoamine oxidase activity Berberine | Cadmium | Fluorides Berberine inhibits the reaction [[Cadmium co-treated with Aluminum co-treated with Fluorides] results in increased monoamine oxidase activity] 1: Rattus norvegicus Serum   1
34. Aluminum monoamine oxidase activity Berberine | Cadmium | Fluorides Berberine inhibits the reaction [[Cadmium co-treated with Aluminum co-treated with Fluorides] results in increased monoamine oxidase activity] 1: Rattus norvegicus Brain   1
35. Aluminum apoptotic chromosome condensation Cadmium | Fluorides [Cadmium co-treated with Aluminum co-treated with Fluorides] results in increased apoptotic chromosome condensation 1: Rattus norvegicus CA1 Region, Hippocampal | Neurons   1
36. Aluminum apoptotic chromosome condensation Berberine | Cadmium | Fluorides Berberine inhibits the reaction [[Cadmium co-treated with Aluminum co-treated with Fluorides] results in increased apoptotic chromosome condensation] 1: Rattus norvegicus CA1 Region, Hippocampal | Neurons   1
37. Aluminum neurogenesis aluminum chloride [aluminum chloride results in increased abundance of Aluminum] which results in decreased neurogenesis 1: Mus musculus Hippocampus
7 genes: DAGLB | DNER | EHMT2 | PCSK1 | PMM2 | PRDM13 | TACC3
1
38. Aluminum regulation of endoplasmic reticulum stress-induced neuron intrinsic apoptotic signaling pathway aluminum chloride [aluminum chloride results in increased abundance of Aluminum] which affects regulation of endoplasmic reticulum stress-induced neuron intrinsic apoptotic signaling pathway 1: Mus musculus Hippocampus   1
39. Aluminum cell quiescence aluminum chloride [aluminum chloride results in increased abundance of Aluminum] which affects cell quiescence 1: Mus musculus Hippocampus | Neural Stem Cells   1
40. ammonium molybdate lipid catabolic process cadmium sulfate [ammonium molybdate co-treated with cadmium sulfate] affects lipid catabolic process 1: Anas platyrhynchos Testis   1
41. antimony trichloride apoptotic process antimony trichloride results in increased apoptotic process 1: Homo sapiens T-Lymphocytes   1
42. antimony trichloride cell proliferation antimony trichloride results in decreased cell proliferation 1: Homo sapiens T-Lymphocytes   1
43. Arsenic membrane lipid catabolic process Arsenic results in increased membrane lipid catabolic process 1: Rattus norvegicus Kidney
2 genes: CYP1B1 | SMPDL3B
1
44. Arsenic membrane lipid catabolic process Acetaminophen Acetaminophen promotes the reaction [Arsenic results in increased membrane lipid catabolic process] 1: Rattus norvegicus Kidney
2 genes: CYP1B1 | SMPDL3B
1
45. Arsenic response to oxidative stress Arsenic results in increased response to oxidative stress 1: Rattus norvegicus Kidney
84 genes: ABCC1 | ABCC2 | AKT1 | ALAD | ALDH1A1 | APOE | APP | BCL2 | BCL2L1 | C19ORF12 | CAR3 | CAT | CEP-1 | CHRNA4 | COX2 | CST3 | CYCS | DAXX | DDIT3 | EGFR | ERCC1 | ERCC2 | ERCC3 | ERCC6 | ETFDH | G6PD | GCLC | GCLM | GPX2 | GPX-5 | GSR | GSS | HMOX1 | HMOX2 | IDH1 | JAK2 | KEAP1 | KRT1 | MICB | MMP2 | MMP9 | MPO | MSRA | MSRB3 | MT2 | MT3 | MUTYH | NDUFS2 | NEIL1 | NF1 | NFKB1 | NQO1 | OGG1 | PCNA | PDLIM1 | PNKP | PON2 | PPID | PRDX1 | PRDX2 | PRDX5 | PRDX6 | PRKN | PSEN1 | PTGS2 | RBPMS | RRM2B | SDHAF3 | SGK2 | SLC23A2 | SLC7A11 | SOD1 | SOD2 | SRXN1 | TFAM | TLR4 | TP53 | TRP53 | TRPM2 | TXN2 | TXNIP | TXNRD1 | WRN | XPA
1
46. Arsenic response to oxidative stress Acetaminophen Acetaminophen promotes the reaction [Arsenic results in increased response to oxidative stress] 1: Rattus norvegicus Kidney
84 genes: ABCC1 | ABCC2 | AKT1 | ALAD | ALDH1A1 | APOE | APP | BCL2 | BCL2L1 | C19ORF12 | CAR3 | CAT | CEP-1 | CHRNA4 | COX2 | CST3 | CYCS | DAXX | DDIT3 | EGFR | ERCC1 | ERCC2 | ERCC3 | ERCC6 | ETFDH | G6PD | GCLC | GCLM | GPX2 | GPX-5 | GSR | GSS | HMOX1 | HMOX2 | IDH1 | JAK2 | KEAP1 | KRT1 | MICB | MMP2 | MMP9 | MPO | MSRA | MSRB3 | MT2 | MT3 | MUTYH | NDUFS2 | NEIL1 | NF1 | NFKB1 | NQO1 | OGG1 | PCNA | PDLIM1 | PNKP | PON2 | PPID | PRDX1 | PRDX2 | PRDX5 | PRDX6 | PRKN | PSEN1 | PTGS2 | RBPMS | RRM2B | SDHAF3 | SGK2 | SLC23A2 | SLC7A11 | SOD1 | SOD2 | SRXN1 | TFAM | TLR4 | TP53 | TRP53 | TRPM2 | TXN2 | TXNIP | TXNRD1 | WRN | XPA
1
47. Arsenic positive regulation of apoptotic process Arsenic results in increased positive regulation of apoptotic process 1: Homo sapiens Cell Line, Tumor
163 genes: ABR | ADAM10 | ADAM17 | ADM | AGER | AKT1 | ALDH1A1 | ANKRD1 | ANO6 | ANXA1 | APAF1 | APBB1 | ARHGEF12 | ARHGEF18 | ARHGEF2 | ARHGEF7 | ATG7 | ATM | BAX | BCL10 | BCL2L1 | BCL6 | BID | BIK | BMP2 | BMP4 | BOK | CAPN10 | CASP2 | CASP3 | CASP6 | CASP8 | CASP9 | CDK19 | CDK4 | CDKN2A | CREB1 | CTLA4 | CTNNB1 | CYP1B1 | CYR61 | DAXX | DDIT3 | DFFA | DHODH | DKKL1 | DUSP1 | E2F1 | EEF1E1 | EIF5A | ENDOG | ERBB4 | ERCC3 | ESR2 | FAS | FASLG | FGD4 | FRZB | GADD45B | GSK3B | HIF1A | HMGA2 | HMOX1 | HRG | HSPD1 | IFNG | IGF2R | IGFBP3 | IL1B | IL24 | IL6 | ING3 | IP6K2 | ITGB1 | JAK2 | JUN | KALRN | KCNMA1 | KLRK1 | LDHA | LILRB1 | LTA | MAP2K6 | MAP3K1 | MAPK8 | MAPK9 | MCF2 | MCF2L | MIR15B | MIR200B | MIR21 | MMP2 | MMP9 | NEUROD1 | NF1 | NGEF | NGF | NLRC4 | NOS2 | NOS3 | NOTCH2 | NOX4 | NR4A1 | NTRK3 | OBSCN | OSGIN1 | PDIA3 | PIDD1 | PNMA1 | POU4F1 | PPARG | PPID | PRKDC | PRKN | PSEN1 | PTEN | PTGS2 | PTN | RACK1 | RASSF6 | RBM5 | RELA | RNPS1 | RPS6KA2 | SAV1 | SCRIB | SFRP2 | SFRP4 | SLC9A1 | SNCA | SOD1 | SOS1 | SOS2 | SP110 | SQSTM1 | SRC | STEAP3 | TCTN3 | TGFB1 | TGFB3 | TLR4 | TNF | TNFAIP8 | TNFRSF12A | TNFRSF8 | TNFSF10 | TOMM40 | TOP2A | TP53 | TP53INP1 | TP73 | TRAF6 | TRP53 | TXNIP | UBA52 | UBD | USP7 | VAV1 | VAV2 | VAV3 | WNT11 | ZBTB16 | ZNF346
1
48. Arsenic corticosterone secretion Arsenic results in increased corticosterone secretion 1: Rattus norvegicus Serum 1 gene: SELENOM 1
49. Arsenic regulation of blood pressure Arsenic affects regulation of blood pressure 1: Rattus norvegicus Tail
27 genes: ACTA2 | CACNA1C | CORIN | CYBA | DLL1 | EDN2 | EDNRA | EDNRB | GCH1 | HMOX1 | LEP | LRP5 | NOS2 | NOS3 | NOX1 | NPPA | NPR3 | P2RX4 | PPARG | PTGS2 | SCNN1A | SGK1 | SOD1 | SOD2 | STK39 | TAC4 | UTS2D
1
50. Arsenic apoptotic process Arsenic results in increased apoptotic process 1: Rattus norvegicus Kidney Tubules, Proximal | Cells
227 genes: AKT1 | APAF1 | APBB1 | APLP1 | APP | ARG2 | ATM | AXIN1 | BABAM2 | BAG3 | BAX | BCL10 | BCL2 | BCL2L1 | BCL2L12 | BCL7B | BECN1 | BID | BIK | BIRC3 | BIRC5 | BLCAP | BOK | BRCA1 | BRSK2 | C19ORF12 | CADM1 | CASP10 | CASP2 | CASP3 | CASP4 | CASP6 | CASP7 | CASP8 | CASP9 | CD14 | CD2 | CD27 | CDK1 | CDK5 | CDKN2A | CEACAM6 | CEP-1 | CIDEA | CIDEB | CLPTM1L | CRYAA | CSE1L | CSNK2A1 | CST3 | CXCR3 | CXCR4 | CYCS | DAPK1 | DAXX | DDIT3 | DEDD2 | DFFA | DFFB | DLC1 | DOCK1 | E2F1 | EDAR | EFNA5 | EIF5A | EPB41L3 | EPHA2 | ERBB4 | ERCC2 | ERCC3 | ERN2 | EVA1A | FAM3B | FAS | FASLG | FGF13 | FGFR3 | FHIT | FXR1 | GADD45B | GDF6 | GRAMD4 | GRK5 | HIP1 | HMOX1 | HRAS | IER3 | IFNG | IGFBP3 | IL17A | IL1A | IL1B | IL24 | IL2RA | IRF1 | ITPR1 | JAK2 | KANK2 | LGALS7 | LSP1 | LTA | LY86 | MALT1 | MAP2K6 | MAPK1 | MAPK14 | MAPK3 | MAPT | MCL1 | MECOM | MEF2C | MT3 | MTFP1 | MUL1 | MX1 | MYD88 | NCF1 | NFKB1 | NFKBIA | NLRC4 | NLRP3 | NOC2L | NOTCH2 | NR3C1 | NR4A1 | NTN1 | NUAK2 | PAK2 | PARP1 | PDCD10 | PDCD4 | PEA15 | PGLYRP1 | PIDD1 | PLAGL1 | PLEKHF1 | PML | POLB | POLR2G | PPID | PPP1R13B | PPP1R13L | PPP2R1A | PRDX5 | PRF1 | PRKCA | PRKCB | PRKCE | PRKD1 | PSEN1 | PTEN | PTK2B | PTPN6 | PUF60 | RACK1 | RAF1 | RASSF6 | RBM5 | RHBDD1 | RNF130 | RNF216 | RNF34 | ROCK1 | RTKN | S100A8 | S100A9 | SAV1 | SEMA3A | SFRP2 | SFRP5 | SGK1 | SGMS1 | SH3KBP1 | SH3RF1 | SIAH2 | SIVA1 | SMNDC1 | SNCA | SP110 | SPIN2B | SQSTM1 | STEAP3 | STK11 | STK17B | SULF1 | TCTN3 | TESK2 | TGFBR2 | TIAF1 | TIAL1 | TIMM50 | TM2D1 | TMEM173 | TMEM214 | TNF | TNFAIP3 | TNFAIP8 | TNFRSF10B | TNFRSF12A | TNFRSF19 | TNFRSF1A | TNFRSF1B | TNFRSF25 | TNFSF10 | TNFSF12 | TNFSF15 | TNFSF8 | TNFSF9 | TNIP2 | TOPAZ1 | TP53 | TP53INP1 | TP73 | TRAF2 | TRAF3 | TRAF5 | TRIAP1 | TRIM39 | TRP53 | UNC5B | WWOX | XIAP | ZBTB16 | ZC3H12A | ZFAND6 | ZNF385B | ZSWIM2
1
1–50 of 7,710 results.