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Chemical Nanotubes, Carbon

1–50 of 139 results.
  Chemical Phenotype Co-Mentioned Terms Interaction Organisms Anatomy Inference Network References
1. Nanotubes, Carbon negative regulation of potassium ion transport Nanotubes, Carbon affects negative regulation of potassium ion transport 1: Rattus norvegicus CA1 Region, Hippocampal | Neurons
6 genes: AKAP5 | ATF4 | HTR2A | NOS3 | PLCB4 | PTK2B
1
2. Nanotubes, Carbon regulation of neuronal action potential Nanotubes, Carbon affects regulation of neuronal action potential 1: Rattus norvegicus CA1 Region, Hippocampal | Neurons 1 gene: IFNG 1
3. Nanotubes, Carbon DNA damage response, detection of DNA damage Nanotubes, Carbon results in increased DNA damage response, detection of DNA damage 1: Homo sapiens Hep G2 Cells
20 genes: CEP164 | CEP290 | DNAJA1 | DTL | MRPS11 | MRPS26 | PARP1 | PCNA | POLD1 | POLD2 | RAD18 | RFC3 | RFC4 | RFC5 | RPA1 | RPA2 | SOX4 | UBB | UBC | UBE2B
1
4. Nanotubes, Carbon negative regulation of ATP biosynthetic process Nanotubes, Carbon affects negative regulation of ATP biosynthetic process 1: Homo sapiens Bronchi | Epithelial Cells | Cell Line
4 genes: ENTPD1 | FLCN | PARP1 | PID1
1
5. Nanotubes, Carbon regulation of mitotic cell cycle Nanotubes, Carbon affects regulation of mitotic cell cycle 1: Homo sapiens Bronchi | Epithelial Cells | Cell Line
30 genes: ASCL1 | BEX4 | BIRC5 | CDK9 | CDKN1A | CDKN1C | CENPW | CYLD | DAPK3 | DYNLT3 | FBXO5 | MARS | MTOR | MYC | NEK6 | NEK7 | PIM3 | PLK1 | PTCH1 | RAN | RCC1 | RPRM | SDCBP | SIK1 | SIRT1 | SMO | SMOX | TMEM8B | TRP73 | TTC28
1
6. Nanotubes, Carbon reactive oxygen species metabolic process Nanotubes, Carbon affects reactive oxygen species metabolic process 1: Homo sapiens Bronchi | Epithelial Cells | Cell Line
30 genes: ATPIF1 | BCL2 | BNIP3 | CAT | CCN1 | CCN2 | CYBA | DDIT4 | DUOX1 | GLS2 | LRRK2 | MPV17 | MPV17L | ND2 | NDUFA13 | NDUFAF2 | NNT | NOX4 | PAX2 | PDGFB | PDK4 | PLA2R1 | PRDX4 | PREX1 | SESN1 | SFTPD | SOD1 | SOD2 | SPAST | VAV1
1
7. Nanotubes, Carbon positive regulation of interleukin-6 secretion Nanotubes, Carbon affects positive regulation of interleukin-6 secretion 1: Homo sapiens Bronchi | Epithelial Cells | Cell Line
15 genes: ARID5A | DDX58 | F2R | HMGB1 | HSPD1 | HYAL2 | IFIH1 | IL17A | IL1B | LGALS9 | NCL | PYCARD | TNF | UNC93B1 | XBP1
1
8. Nanotubes, Carbon positive regulation of interleukin-8 secretion Nanotubes, Carbon affects positive regulation of interleukin-8 secretion 1: Homo sapiens Bronchi | Epithelial Cells | Cell Line
11 genes: CD14 | CD2 | F2R | FCNA | FFAR2 | HYAL2 | LGALS9 | PYCARD | TLR1 | TLR2 | WNT5A
1
9. Nanotubes, Carbon positive regulation of response to oxidative stress Nanotubes, Carbon affects positive regulation of response to oxidative stress 1: Homo sapiens Bronchi | Epithelial Cells | Cell Line
3 genes: ACOX2 | H2AFY | TRAP1
1
10. Nanotubes, Carbon positive regulation of inflammatory response Nanotubes, Carbon affects positive regulation of inflammatory response 1: Homo sapiens Bronchi | Epithelial Cells | Cell Line
61 genes: ACE | ADAM8 | ADORA3 | AGT | CCL1 | CCL24 | CCL3 | CCR2 | CCR5 | CD47 | CEBPA | CEBPB | CLOCK | CTSS | CX3CL1 | EDNRA | EGFR | ETS1 | FABP4 | GPRC5B | HSPD1 | HYAL2 | IL12B | IL17RA | IL17RB | IL18 | IL1RL1 | IL2 | IL23A | IL33 | LDLR | LPL | MAPK13 | MGST2 | NFKBIA | NFKBIZ | OSM | PDCD4 | PDE2A | PLA2G4A | PLA2G7 | PRKCA | PTGER4 | S100A8 | S100A9 | SERPINE1 | SNCA | STAT5B | SUCNR1 | TGM2 | TLR2 | TLR3 | TLR4 | TLR6 | TLR7 | TNF | TNFRSF1A | TNFSF18 | TNFSF4 | TNIP1 | WNT5A
1
11. Nanotubes, Carbon positive regulation of cell death Nanotubes, Carbon results in increased positive regulation of cell death 1: Homo sapiens Monocytes | Cell Line, Tumor
42 genes: ACER2 | ACOX2 | AKR1C18 | ALOX12 | BCL2L11 | BMP4 | BMP7 | CCN2 | CD36 | CDKN1A | CDKN1B | CIDEB | DUSP6 | EEF1A1 | EGR1 | EP300 | FAS | GRIN2B | GZMB | HBA-A2 | HMGB1 | HP | HTRA2 | IL1B | IRF1 | LRP1 | LZTS2 | MSX2 | MT3 | MTOR | MYCN | PRNP | PRODH | PTGS2 | RAMP3 | RHEB | RIPK1 | SAP30BP | TRIM13 | TXNRD1 | UCP2 | ZC3H12A
1
12. Nanotubes, Carbon positive regulation of cell death Aluminum Oxide [Aluminum Oxide co-treated with Nanotubes, Carbon] results in increased positive regulation of cell death 1: Homo sapiens Monocytes | Cell Line, Tumor
42 genes: ACER2 | ACOX2 | AKR1C18 | ALOX12 | BCL2L11 | BMP4 | BMP7 | CCN2 | CD36 | CDKN1A | CDKN1B | CIDEB | DUSP6 | EEF1A1 | EGR1 | EP300 | FAS | GRIN2B | GZMB | HBA-A2 | HMGB1 | HP | HTRA2 | IL1B | IRF1 | LRP1 | LZTS2 | MSX2 | MT3 | MTOR | MYCN | PRNP | PRODH | PTGS2 | RAMP3 | RHEB | RIPK1 | SAP30BP | TRIM13 | TXNRD1 | UCP2 | ZC3H12A
1
13. Nanotubes, Carbon positive regulation of interleukin-1 beta production Nanotubes, Carbon results in increased positive regulation of interleukin-1 beta production 1: Homo sapiens Monocytes | Cell Line, Tumor
4 genes: HSPB1 | IL18 | NAIP5 | NOD2
1
14. Nanotubes, Carbon positive regulation of interleukin-6 production Nanotubes, Carbon results in increased positive regulation of interleukin-6 production 1: Homo sapiens Monocytes | Cell Line, Tumor
39 genes: ADORA2B | ARHGEF2 | CCR5 | CD36 | CRHR2 | CYBA | DDX58 | FCER1G | HMGB1 | HSPD1 | IL17D | IL1A | IL1B | IL1F9 | IL33 | IL6 | IL6R | IL6RA | LBP | MAPK13 | MMP8 | MYD88 | NOD2 | PTPN11 | PYCARD | SPON2 | TICAM1 | TLR2 | TLR3 | TLR4 | TLR7 | TNF | TNFSF4 | TNFSF9 | TUT4 | VEGFD | WNT5A | ZBTB20 | ZFP64
1
15. Nanotubes, Carbon positive regulation of tumor necrosis factor production Nanotubes, Carbon results in increased positive regulation of tumor necrosis factor production 1: Homo sapiens Monocytes | Cell Line, Tumor
47 genes: ARFGEF2 | ARHGEF2 | CCL19 | CCL2 | CCL3 | CCL4 | CCR2 | CCR5 | CCR7 | CD14 | CD2 | CD36 | CLU | CYBA | FCER1G | H2-T23 | HMGB1 | IFNG | IL12B | IL18 | IL23A | LBP | LEP | LGALS9 | LY96 | MIF | MYD88 | NCL | NOD2 | PF4 | PIK3R1 | PTAFR | PTPN11 | PTPRC | PYCARD | RASGRP1 | RIPK1 | SASH3 | SPON2 | TICAM1 | TIRAP | TLR2 | TLR3 | TLR4 | TNFRSF1A | ZBTB20 | ZFP64
1
16. Nanotubes, Carbon positive regulation of tumor necrosis factor production Aluminum Oxide Aluminum Oxide inhibits the reaction [Nanotubes, Carbon results in increased positive regulation of tumor necrosis factor production] 1: Homo sapiens Monocytes | Cell Line, Tumor
47 genes: ARFGEF2 | ARHGEF2 | CCL19 | CCL2 | CCL3 | CCL4 | CCR2 | CCR5 | CCR7 | CD14 | CD2 | CD36 | CLU | CYBA | FCER1G | H2-T23 | HMGB1 | IFNG | IL12B | IL18 | IL23A | LBP | LEP | LGALS9 | LY96 | MIF | MYD88 | NCL | NOD2 | PF4 | PIK3R1 | PTAFR | PTPN11 | PTPRC | PYCARD | RASGRP1 | RIPK1 | SASH3 | SPON2 | TICAM1 | TIRAP | TLR2 | TLR3 | TLR4 | TNFRSF1A | ZBTB20 | ZFP64
1
17. Nanotubes, Carbon positive regulation of interleukin-1 beta production Aluminum Oxide Aluminum Oxide promotes the reaction [Nanotubes, Carbon results in increased positive regulation of interleukin-1 beta production] 1: Homo sapiens Monocytes | Cell Line, Tumor
4 genes: HSPB1 | IL18 | NAIP5 | NOD2
1
18. Nanotubes, Carbon positive regulation of interleukin-6 production Aluminum Oxide Aluminum Oxide inhibits the reaction [Nanotubes, Carbon results in increased positive regulation of interleukin-6 production] 1: Homo sapiens Monocytes | Cell Line, Tumor
39 genes: ADORA2B | ARHGEF2 | CCR5 | CD36 | CRHR2 | CYBA | DDX58 | FCER1G | HMGB1 | HSPD1 | IL17D | IL1A | IL1B | IL1F9 | IL33 | IL6 | IL6R | IL6RA | LBP | MAPK13 | MMP8 | MYD88 | NOD2 | PTPN11 | PYCARD | SPON2 | TICAM1 | TLR2 | TLR3 | TLR4 | TLR7 | TNF | TNFSF4 | TNFSF9 | TUT4 | VEGFD | WNT5A | ZBTB20 | ZFP64
1
19. Nanotubes, Carbon positive regulation of interleukin-1 beta production Aluminum Oxide | Lipopolysaccharides [[Aluminum Oxide co-treated with Nanotubes, Carbon] co-treated with Lipopolysaccharides] results in increased positive regulation of interleukin-1 beta production 1: Homo sapiens Blood | Monocytes
4 genes: HSPB1 | IL18 | NAIP5 | NOD2
1
20. Nanotubes, Carbon positive regulation of interleukin-1 beta production Aluminum Oxide | Lipopolysaccharides [Aluminum Oxide co-treated with Nanotubes, Carbon] promotes the reaction [Lipopolysaccharides results in increased positive regulation of interleukin-1 beta production] 1: Homo sapiens Blood | Monocytes
4 genes: HSPB1 | IL18 | NAIP5 | NOD2
1
21. Nanotubes, Carbon positive regulation of interleukin-1 beta production Lipopolysaccharides [Nanotubes, Carbon co-treated with Lipopolysaccharides] results in increased positive regulation of interleukin-1 beta production 1: Homo sapiens Blood | Monocytes
4 genes: HSPB1 | IL18 | NAIP5 | NOD2
1
22. Nanotubes, Carbon positive regulation of acute inflammatory response Nanotubes, Carbon results in increased positive regulation of acute inflammatory response 1: Mus musculus Lung | Macrophages, Alveolar
11 genes: ADAM8 | ALOX5AP | BPIFA1 | C2CD4B | IL6 | IL6ST | KLK1 | MIF | OSM | OSMR | PIK3CG
1
23. Nanotubes, Carbon positive regulation of interleukin-1 beta production Nanotubes, Carbon results in increased positive regulation of interleukin-1 beta production 1: Mus musculus Lung
4 genes: HSPB1 | IL18 | NAIP5 | NOD2
1
24. Nanotubes, Carbon positive regulation of interleukin-1 beta production Aluminum Oxide [Aluminum Oxide co-treated with Nanotubes, Carbon] results in increased positive regulation of interleukin-1 beta production 1: Mus musculus Lung
4 genes: HSPB1 | IL18 | NAIP5 | NOD2
1
25. Nanotubes, Carbon positive regulation of interleukin-1 beta production Aluminum Oxide Aluminum Oxide inhibits the reaction [Nanotubes, Carbon results in increased positive regulation of interleukin-1 beta production] 1: Mus musculus Lung
4 genes: HSPB1 | IL18 | NAIP5 | NOD2
1
26. Nanotubes, Carbon positive regulation of interleukin-6 production Nanotubes, Carbon results in increased positive regulation of interleukin-6 production 1: Mus musculus Lung
39 genes: ADORA2B | ARHGEF2 | CCR5 | CD36 | CRHR2 | CYBA | DDX58 | FCER1G | HMGB1 | HSPD1 | IL17D | IL1A | IL1B | IL1F9 | IL33 | IL6 | IL6R | IL6RA | LBP | MAPK13 | MMP8 | MYD88 | NOD2 | PTPN11 | PYCARD | SPON2 | TICAM1 | TLR2 | TLR3 | TLR4 | TLR7 | TNF | TNFSF4 | TNFSF9 | TUT4 | VEGFD | WNT5A | ZBTB20 | ZFP64
1
27. Nanotubes, Carbon positive regulation of interleukin-6 production Aluminum Oxide [Aluminum Oxide co-treated with Nanotubes, Carbon] results in increased positive regulation of interleukin-6 production 1: Mus musculus Lung
39 genes: ADORA2B | ARHGEF2 | CCR5 | CD36 | CRHR2 | CYBA | DDX58 | FCER1G | HMGB1 | HSPD1 | IL17D | IL1A | IL1B | IL1F9 | IL33 | IL6 | IL6R | IL6RA | LBP | MAPK13 | MMP8 | MYD88 | NOD2 | PTPN11 | PYCARD | SPON2 | TICAM1 | TLR2 | TLR3 | TLR4 | TLR7 | TNF | TNFSF4 | TNFSF9 | TUT4 | VEGFD | WNT5A | ZBTB20 | ZFP64
1
28. Nanotubes, Carbon positive regulation of tumor necrosis factor production Nanotubes, Carbon results in increased positive regulation of tumor necrosis factor production 1: Mus musculus Lung
47 genes: ARFGEF2 | ARHGEF2 | CCL19 | CCL2 | CCL3 | CCL4 | CCR2 | CCR5 | CCR7 | CD14 | CD2 | CD36 | CLU | CYBA | FCER1G | H2-T23 | HMGB1 | IFNG | IL12B | IL18 | IL23A | LBP | LEP | LGALS9 | LY96 | MIF | MYD88 | NCL | NOD2 | PF4 | PIK3R1 | PTAFR | PTPN11 | PTPRC | PYCARD | RASGRP1 | RIPK1 | SASH3 | SPON2 | TICAM1 | TIRAP | TLR2 | TLR3 | TLR4 | TNFRSF1A | ZBTB20 | ZFP64
1
29. Nanotubes, Carbon hydrogen peroxide biosynthetic process Nanotubes, Carbon results in increased hydrogen peroxide biosynthetic process 1: Mus musculus Macrophages | Cell Line
8 genes: CYBA | CYP1A1 | CYP1A2 | DUOX1 | MAOB | NCF1 | SOD1 | SOD2
1
30. Nanotubes, Carbon cell proliferation Nanotubes, Carbon results in increased cell proliferation 1: Mus musculus Neutrophils
263 genes: ACE | ACVR2B | ADRA1B | AKT1 | APPL2 | AREG | ARHGEF1 | ASCC3 | BAD | BAK1 | BAX | BCAR1 | BCAT1 | BCL2 | BCL2L1 | BHLHE41 | BMP4 | BOK | BOP1 | BRCA2 | BST2 | BUB1 | BUB1B | BYSL | CBFA2T3 | CCN1 | CD276 | CD34 | CD5 | CD74 | CDC14A | CDC25A | CDC25C | CDK1 | CDK3 | CDK4 | CDK5 | CDK5RAP1 | CDK7 | CDK9 | CDV3 | CFB | CITED2 | CKLF | CKS1B | CKS2 | CLK1 | CNOT11 | COL4A3 | CREBBP | CREG1 | CRIP1 | CSE1L | CSF1 | CSF1R | CSPG4 | CUZD1 | CXCL1 | CYP1A1 | DAB2 | DACH1 | DDIT4 | DDX41 | DKC1 | DNPH1 | DPH1 | DTYMK | DUSP22 | E2F8 | E4F1 | EDNRA | EGFR | EHF | EIF4B | ELF5 | ELN | EMP1 | EMP2 | ENPEP | ENTPD5 | ERCC1 | EREG | ERG | EVI5 | FAM83D | FBXL7 | FER | FES | FGF1 | FGF18 | FGF2 | FPGS | FSCN1 | FURIN | GAS6 | GDNF | GLUL | GMNC | GNAT1 | GNB1 | GNG2 | GNL3 | GPX1 | GRHL2 | GRPR | GSK3B | HDGF | HDGFL3 | HRAS | ID4 | IGF1 | IGFBP4 | IGSF8 | IL12B | IL15RA | IL18 | IL18RAP | IL1A | IL2RA | ILK | INSIG1 | IRS2 | ISG20 | KANK1 | KHDRBS1 | KIF15 | KIF2C | KITLG | KLF10 | LAMA5 | LHX9 | LIG4 | LIPA | LRP1 | LY6E | LY86 | MAP2K1 | MAP3K2 | MAP3K20 | MAP4K1 | MAP7 | MAPRE1 | MAPRE2 | MATK | MCM10 | MCM7 | MDM4 | MELK | MIA | MIF | MKI67 | MORF4L1 | MPL | MRE11A | MRPS27 | MT3 | MTCP1 | MVP | MXD1 | MYB | MYC | MYH10 | NASP | NCF1 | NPY | NRG1 | NUPR1 | OGFOD1 | ORC2 | OSM | OTUD6B | PA2G4 | PAK4 | PCNA | PDAP1 | PDK1 | PDPN | PDXK | PDZK1 | PELO | PEMT | PES1 | PICALM | PIM1 | PLCE1 | PLK1 | POLA1 | POLR3G | PPARD | PRDX1 | PRG4 | PRKAR1A | PROK1 | PROK2 | PTEN | PTMA | PTPN6 | PURB | RAC1 | RAF1 | RAPGEF3 | RASGRF1 | RETNLB | RIOX2 | RPL23A | RPS27 | RRN3 | S100B | SBDS | SDCBP2 | SERPINF1 | SETMAR | SHH | SIPA1 | SIX1 | SKP2 | SMAD4 | SORL1 | SOX11 | SOX2 | SPHK2 | SRA1 | SRC | STAT3 | STAT4 | STIL | TACC1 | TACC2 | TACC3 | TACSTD2 | TBX1 | TCF19 | TCF7L2 | TFDP1 | TGFB1 | TGFBI | THOC6 | TNFRSF17 | TNFRSF1B | TNFSF13B | TNFSF8 | TNFSF9 | TOP2A | TP53 | TPX2 | TRAIP | TRP63 | TSPAN5 | TSPO | TXN | TXNRD1 | UBA1 | UBE2L3 | UBE2V2 | UCHL1 | UHRF1 | UHRF2 | VEGFA | VEGFD | VTN | WDR12 | ZEB1 | ZMYND11
1
31. Nanotubes, Carbon cell proliferation Nanotubes, Carbon results in increased cell proliferation 1: Mus musculus Lymphocytes
263 genes: ACE | ACVR2B | ADRA1B | AKT1 | APPL2 | AREG | ARHGEF1 | ASCC3 | BAD | BAK1 | BAX | BCAR1 | BCAT1 | BCL2 | BCL2L1 | BHLHE41 | BMP4 | BOK | BOP1 | BRCA2 | BST2 | BUB1 | BUB1B | BYSL | CBFA2T3 | CCN1 | CD276 | CD34 | CD5 | CD74 | CDC14A | CDC25A | CDC25C | CDK1 | CDK3 | CDK4 | CDK5 | CDK5RAP1 | CDK7 | CDK9 | CDV3 | CFB | CITED2 | CKLF | CKS1B | CKS2 | CLK1 | CNOT11 | COL4A3 | CREBBP | CREG1 | CRIP1 | CSE1L | CSF1 | CSF1R | CSPG4 | CUZD1 | CXCL1 | CYP1A1 | DAB2 | DACH1 | DDIT4 | DDX41 | DKC1 | DNPH1 | DPH1 | DTYMK | DUSP22 | E2F8 | E4F1 | EDNRA | EGFR | EHF | EIF4B | ELF5 | ELN | EMP1 | EMP2 | ENPEP | ENTPD5 | ERCC1 | EREG | ERG | EVI5 | FAM83D | FBXL7 | FER | FES | FGF1 | FGF18 | FGF2 | FPGS | FSCN1 | FURIN | GAS6 | GDNF | GLUL | GMNC | GNAT1 | GNB1 | GNG2 | GNL3 | GPX1 | GRHL2 | GRPR | GSK3B | HDGF | HDGFL3 | HRAS | ID4 | IGF1 | IGFBP4 | IGSF8 | IL12B | IL15RA | IL18 | IL18RAP | IL1A | IL2RA | ILK | INSIG1 | IRS2 | ISG20 | KANK1 | KHDRBS1 | KIF15 | KIF2C | KITLG | KLF10 | LAMA5 | LHX9 | LIG4 | LIPA | LRP1 | LY6E | LY86 | MAP2K1 | MAP3K2 | MAP3K20 | MAP4K1 | MAP7 | MAPRE1 | MAPRE2 | MATK | MCM10 | MCM7 | MDM4 | MELK | MIA | MIF | MKI67 | MORF4L1 | MPL | MRE11A | MRPS27 | MT3 | MTCP1 | MVP | MXD1 | MYB | MYC | MYH10 | NASP | NCF1 | NPY | NRG1 | NUPR1 | OGFOD1 | ORC2 | OSM | OTUD6B | PA2G4 | PAK4 | PCNA | PDAP1 | PDK1 | PDPN | PDXK | PDZK1 | PELO | PEMT | PES1 | PICALM | PIM1 | PLCE1 | PLK1 | POLA1 | POLR3G | PPARD | PRDX1 | PRG4 | PRKAR1A | PROK1 | PROK2 | PTEN | PTMA | PTPN6 | PURB | RAC1 | RAF1 | RAPGEF3 | RASGRF1 | RETNLB | RIOX2 | RPL23A | RPS27 | RRN3 | S100B | SBDS | SDCBP2 | SERPINF1 | SETMAR | SHH | SIPA1 | SIX1 | SKP2 | SMAD4 | SORL1 | SOX11 | SOX2 | SPHK2 | SRA1 | SRC | STAT3 | STAT4 | STIL | TACC1 | TACC2 | TACC3 | TACSTD2 | TBX1 | TCF19 | TCF7L2 | TFDP1 | TGFB1 | TGFBI | THOC6 | TNFRSF17 | TNFRSF1B | TNFSF13B | TNFSF8 | TNFSF9 | TOP2A | TP53 | TPX2 | TRAIP | TRP63 | TSPAN5 | TSPO | TXN | TXNRD1 | UBA1 | UBE2L3 | UBE2V2 | UCHL1 | UHRF1 | UHRF2 | VEGFA | VEGFD | VTN | WDR12 | ZEB1 | ZMYND11
1
32. Nanotubes, Carbon cell proliferation Nanotubes, Carbon results in increased cell proliferation 1: Mus musculus Eosinophils
263 genes: ACE | ACVR2B | ADRA1B | AKT1 | APPL2 | AREG | ARHGEF1 | ASCC3 | BAD | BAK1 | BAX | BCAR1 | BCAT1 | BCL2 | BCL2L1 | BHLHE41 | BMP4 | BOK | BOP1 | BRCA2 | BST2 | BUB1 | BUB1B | BYSL | CBFA2T3 | CCN1 | CD276 | CD34 | CD5 | CD74 | CDC14A | CDC25A | CDC25C | CDK1 | CDK3 | CDK4 | CDK5 | CDK5RAP1 | CDK7 | CDK9 | CDV3 | CFB | CITED2 | CKLF | CKS1B | CKS2 | CLK1 | CNOT11 | COL4A3 | CREBBP | CREG1 | CRIP1 | CSE1L | CSF1 | CSF1R | CSPG4 | CUZD1 | CXCL1 | CYP1A1 | DAB2 | DACH1 | DDIT4 | DDX41 | DKC1 | DNPH1 | DPH1 | DTYMK | DUSP22 | E2F8 | E4F1 | EDNRA | EGFR | EHF | EIF4B | ELF5 | ELN | EMP1 | EMP2 | ENPEP | ENTPD5 | ERCC1 | EREG | ERG | EVI5 | FAM83D | FBXL7 | FER | FES | FGF1 | FGF18 | FGF2 | FPGS | FSCN1 | FURIN | GAS6 | GDNF | GLUL | GMNC | GNAT1 | GNB1 | GNG2 | GNL3 | GPX1 | GRHL2 | GRPR | GSK3B | HDGF | HDGFL3 | HRAS | ID4 | IGF1 | IGFBP4 | IGSF8 | IL12B | IL15RA | IL18 | IL18RAP | IL1A | IL2RA | ILK | INSIG1 | IRS2 | ISG20 | KANK1 | KHDRBS1 | KIF15 | KIF2C | KITLG | KLF10 | LAMA5 | LHX9 | LIG4 | LIPA | LRP1 | LY6E | LY86 | MAP2K1 | MAP3K2 | MAP3K20 | MAP4K1 | MAP7 | MAPRE1 | MAPRE2 | MATK | MCM10 | MCM7 | MDM4 | MELK | MIA | MIF | MKI67 | MORF4L1 | MPL | MRE11A | MRPS27 | MT3 | MTCP1 | MVP | MXD1 | MYB | MYC | MYH10 | NASP | NCF1 | NPY | NRG1 | NUPR1 | OGFOD1 | ORC2 | OSM | OTUD6B | PA2G4 | PAK4 | PCNA | PDAP1 | PDK1 | PDPN | PDXK | PDZK1 | PELO | PEMT | PES1 | PICALM | PIM1 | PLCE1 | PLK1 | POLA1 | POLR3G | PPARD | PRDX1 | PRG4 | PRKAR1A | PROK1 | PROK2 | PTEN | PTMA | PTPN6 | PURB | RAC1 | RAF1 | RAPGEF3 | RASGRF1 | RETNLB | RIOX2 | RPL23A | RPS27 | RRN3 | S100B | SBDS | SDCBP2 | SERPINF1 | SETMAR | SHH | SIPA1 | SIX1 | SKP2 | SMAD4 | SORL1 | SOX11 | SOX2 | SPHK2 | SRA1 | SRC | STAT3 | STAT4 | STIL | TACC1 | TACC2 | TACC3 | TACSTD2 | TBX1 | TCF19 | TCF7L2 | TFDP1 | TGFB1 | TGFBI | THOC6 | TNFRSF17 | TNFRSF1B | TNFSF13B | TNFSF8 | TNFSF9 | TOP2A | TP53 | TPX2 | TRAIP | TRP63 | TSPAN5 | TSPO | TXN | TXNRD1 | UBA1 | UBE2L3 | UBE2V2 | UCHL1 | UHRF1 | UHRF2 | VEGFA | VEGFD | VTN | WDR12 | ZEB1 | ZMYND11
1
33. Nanotubes, Carbon cell proliferation Nanotubes, Carbon results in decreased cell proliferation 1: Mus musculus Macrophages | Cell Line
263 genes: ACE | ACVR2B | ADRA1B | AKT1 | APPL2 | AREG | ARHGEF1 | ASCC3 | BAD | BAK1 | BAX | BCAR1 | BCAT1 | BCL2 | BCL2L1 | BHLHE41 | BMP4 | BOK | BOP1 | BRCA2 | BST2 | BUB1 | BUB1B | BYSL | CBFA2T3 | CCN1 | CD276 | CD34 | CD5 | CD74 | CDC14A | CDC25A | CDC25C | CDK1 | CDK3 | CDK4 | CDK5 | CDK5RAP1 | CDK7 | CDK9 | CDV3 | CFB | CITED2 | CKLF | CKS1B | CKS2 | CLK1 | CNOT11 | COL4A3 | CREBBP | CREG1 | CRIP1 | CSE1L | CSF1 | CSF1R | CSPG4 | CUZD1 | CXCL1 | CYP1A1 | DAB2 | DACH1 | DDIT4 | DDX41 | DKC1 | DNPH1 | DPH1 | DTYMK | DUSP22 | E2F8 | E4F1 | EDNRA | EGFR | EHF | EIF4B | ELF5 | ELN | EMP1 | EMP2 | ENPEP | ENTPD5 | ERCC1 | EREG | ERG | EVI5 | FAM83D | FBXL7 | FER | FES | FGF1 | FGF18 | FGF2 | FPGS | FSCN1 | FURIN | GAS6 | GDNF | GLUL | GMNC | GNAT1 | GNB1 | GNG2 | GNL3 | GPX1 | GRHL2 | GRPR | GSK3B | HDGF | HDGFL3 | HRAS | ID4 | IGF1 | IGFBP4 | IGSF8 | IL12B | IL15RA | IL18 | IL18RAP | IL1A | IL2RA | ILK | INSIG1 | IRS2 | ISG20 | KANK1 | KHDRBS1 | KIF15 | KIF2C | KITLG | KLF10 | LAMA5 | LHX9 | LIG4 | LIPA | LRP1 | LY6E | LY86 | MAP2K1 | MAP3K2 | MAP3K20 | MAP4K1 | MAP7 | MAPRE1 | MAPRE2 | MATK | MCM10 | MCM7 | MDM4 | MELK | MIA | MIF | MKI67 | MORF4L1 | MPL | MRE11A | MRPS27 | MT3 | MTCP1 | MVP | MXD1 | MYB | MYC | MYH10 | NASP | NCF1 | NPY | NRG1 | NUPR1 | OGFOD1 | ORC2 | OSM | OTUD6B | PA2G4 | PAK4 | PCNA | PDAP1 | PDK1 | PDPN | PDXK | PDZK1 | PELO | PEMT | PES1 | PICALM | PIM1 | PLCE1 | PLK1 | POLA1 | POLR3G | PPARD | PRDX1 | PRG4 | PRKAR1A | PROK1 | PROK2 | PTEN | PTMA | PTPN6 | PURB | RAC1 | RAF1 | RAPGEF3 | RASGRF1 | RETNLB | RIOX2 | RPL23A | RPS27 | RRN3 | S100B | SBDS | SDCBP2 | SERPINF1 | SETMAR | SHH | SIPA1 | SIX1 | SKP2 | SMAD4 | SORL1 | SOX11 | SOX2 | SPHK2 | SRA1 | SRC | STAT3 | STAT4 | STIL | TACC1 | TACC2 | TACC3 | TACSTD2 | TBX1 | TCF19 | TCF7L2 | TFDP1 | TGFB1 | TGFBI | THOC6 | TNFRSF17 | TNFRSF1B | TNFSF13B | TNFSF8 | TNFSF9 | TOP2A | TP53 | TPX2 | TRAIP | TRP63 | TSPAN5 | TSPO | TXN | TXNRD1 | UBA1 | UBE2L3 | UBE2V2 | UCHL1 | UHRF1 | UHRF2 | VEGFA | VEGFD | VTN | WDR12 | ZEB1 | ZMYND11
1
34. Nanotubes, Carbon ATP biosynthetic process Nanotubes, Carbon results in decreased ATP biosynthetic process 1: Mus musculus Macrophages | Cell Line
18 genes: ALDOA | ATP-1 | ATP5A1 | ATP5B | ATP5G1 | ATP5K | ATP5L | ATP5O | ATP5S | CKB | DLST | LDHD | PKLR | PKM | PRKAG2 | SLC25A13 | TGFB1 | UQCC3
1
35. Nanotubes, Carbon reactive oxygen species metabolic process Nanotubes, Carbon results in increased reactive oxygen species metabolic process 1: Mus musculus Macrophages | Cell Line
30 genes: ATPIF1 | BCL2 | BNIP3 | CAT | CCN1 | CCN2 | CYBA | DDIT4 | DUOX1 | GLS2 | LRRK2 | MPV17 | MPV17L | ND2 | NDUFA13 | NDUFAF2 | NNT | NOX4 | PAX2 | PDGFB | PDK4 | PLA2R1 | PRDX4 | PREX1 | SESN1 | SFTPD | SOD1 | SOD2 | SPAST | VAV1
1
36. Nanotubes, Carbon nitric oxide biosynthetic process Nanotubes, Carbon results in increased nitric oxide biosynthetic process 1: Mus musculus Macrophages | Cell Line
14 genes: AKT1 | ARG2 | CYP1B1 | DDAH1 | DDAH2 | GCH1 | GCHFR | HSP90AA1 | NOS2 | NOS3 | NQO1 | P2RX4 | RORA | SLC7A2
1
37. Nanotubes, Carbon cell proliferation Nanotubes, Carbon results in increased cell proliferation 1: Mus musculus Lung
263 genes: ACE | ACVR2B | ADRA1B | AKT1 | APPL2 | AREG | ARHGEF1 | ASCC3 | BAD | BAK1 | BAX | BCAR1 | BCAT1 | BCL2 | BCL2L1 | BHLHE41 | BMP4 | BOK | BOP1 | BRCA2 | BST2 | BUB1 | BUB1B | BYSL | CBFA2T3 | CCN1 | CD276 | CD34 | CD5 | CD74 | CDC14A | CDC25A | CDC25C | CDK1 | CDK3 | CDK4 | CDK5 | CDK5RAP1 | CDK7 | CDK9 | CDV3 | CFB | CITED2 | CKLF | CKS1B | CKS2 | CLK1 | CNOT11 | COL4A3 | CREBBP | CREG1 | CRIP1 | CSE1L | CSF1 | CSF1R | CSPG4 | CUZD1 | CXCL1 | CYP1A1 | DAB2 | DACH1 | DDIT4 | DDX41 | DKC1 | DNPH1 | DPH1 | DTYMK | DUSP22 | E2F8 | E4F1 | EDNRA | EGFR | EHF | EIF4B | ELF5 | ELN | EMP1 | EMP2 | ENPEP | ENTPD5 | ERCC1 | EREG | ERG | EVI5 | FAM83D | FBXL7 | FER | FES | FGF1 | FGF18 | FGF2 | FPGS | FSCN1 | FURIN | GAS6 | GDNF | GLUL | GMNC | GNAT1 | GNB1 | GNG2 | GNL3 | GPX1 | GRHL2 | GRPR | GSK3B | HDGF | HDGFL3 | HRAS | ID4 | IGF1 | IGFBP4 | IGSF8 | IL12B | IL15RA | IL18 | IL18RAP | IL1A | IL2RA | ILK | INSIG1 | IRS2 | ISG20 | KANK1 | KHDRBS1 | KIF15 | KIF2C | KITLG | KLF10 | LAMA5 | LHX9 | LIG4 | LIPA | LRP1 | LY6E | LY86 | MAP2K1 | MAP3K2 | MAP3K20 | MAP4K1 | MAP7 | MAPRE1 | MAPRE2 | MATK | MCM10 | MCM7 | MDM4 | MELK | MIA | MIF | MKI67 | MORF4L1 | MPL | MRE11A | MRPS27 | MT3 | MTCP1 | MVP | MXD1 | MYB | MYC | MYH10 | NASP | NCF1 | NPY | NRG1 | NUPR1 | OGFOD1 | ORC2 | OSM | OTUD6B | PA2G4 | PAK4 | PCNA | PDAP1 | PDK1 | PDPN | PDXK | PDZK1 | PELO | PEMT | PES1 | PICALM | PIM1 | PLCE1 | PLK1 | POLA1 | POLR3G | PPARD | PRDX1 | PRG4 | PRKAR1A | PROK1 | PROK2 | PTEN | PTMA | PTPN6 | PURB | RAC1 | RAF1 | RAPGEF3 | RASGRF1 | RETNLB | RIOX2 | RPL23A | RPS27 | RRN3 | S100B | SBDS | SDCBP2 | SERPINF1 | SETMAR | SHH | SIPA1 | SIX1 | SKP2 | SMAD4 | SORL1 | SOX11 | SOX2 | SPHK2 | SRA1 | SRC | STAT3 | STAT4 | STIL | TACC1 | TACC2 | TACC3 | TACSTD2 | TBX1 | TCF19 | TCF7L2 | TFDP1 | TGFB1 | TGFBI | THOC6 | TNFRSF17 | TNFRSF1B | TNFSF13B | TNFSF8 | TNFSF9 | TOP2A | TP53 | TPX2 | TRAIP | TRP63 | TSPAN5 | TSPO | TXN | TXNRD1 | UBA1 | UBE2L3 | UBE2V2 | UCHL1 | UHRF1 | UHRF2 | VEGFA | VEGFD | VTN | WDR12 | ZEB1 | ZMYND11
1
38. Nanotubes, Carbon mast cell degranulation Nanotubes, Carbon results in decreased mast cell degranulation 1: Rattus norvegicus Basophils | Cell Line, Tumor
8 genes: CBL | CPLX2 | KIT | LAT | LAT2 | MILR1 | PIK3CG | RASGRP1
1
39. Nanotubes, Carbon regulation of cytosolic calcium ion concentration Nanotubes, Carbon affects regulation of cytosolic calcium ion concentration 1: Rattus norvegicus Basophils | Cell Line, Tumor
17 genes: ADCY8 | ANXA2 | ASPH | ATP2B2 | BOK | CALCA | CAV1 | CLN3 | CNGA1 | FKBP1B | FXYD1 | HRC | OCM | PVALB | SLC35G1 | TMEM178 | YWHAE
1
40. Nanotubes, Carbon DNA damage response, detection of DNA damage Nanotubes, Carbon results in increased DNA damage response, detection of DNA damage 1: Mus musculus Lung
20 genes: CEP164 | CEP290 | DNAJA1 | DTL | MRPS11 | MRPS26 | PARP1 | PCNA | POLD1 | POLD2 | RAD18 | RFC3 | RFC4 | RFC5 | RPA1 | RPA2 | SOX4 | UBB | UBC | UBE2B
1
41. Nanotubes, Carbon positive regulation of cell proliferation Nanotubes, Carbon results in increased positive regulation of cell proliferation 1: Homo sapiens Bronchioles | Epithelial Cells | Cell Line, Transformed
350 genes: ACER2 | ACER3 | ADM | ADORA2B | ADRA2A | ADRB2 | AGT | AKR1C18 | AKT1 | AKT2 | ALDH1A2 | ALDH3A1 | ANG4 | ANP32B | APLN | AREG | ARRB1 | ATF3 | AVPR1A | BCL2 | BCL2L1 | BIRC5 | BMP4 | BMP5 | BMP6 | BNC1 | BST1 | CACUL1 | CALR | CAMP | CAPNS1 | CARM1 | CAV3 | CCAR1 | CCK | CCN2 | CCND1 | CCND3 | CCPG1 | CD248 | CD38 | CD47 | CD86 | CDC123 | CDC20 | CDC25B | CDK2 | CDK4 | CDKN1B | CEP131 | CHRNA7 | CLEC11A | CLU | CNTFR | COL18A1 | CRIP2 | CRLF2 | CSF1 | CSF1R | CSF2 | CSF3 | CST3 | CTSH | CXCL10 | CXCL12 | CXCL5 | CXCR2 | CXCR3 | DDR2 | DENR | DERL2 | DHPS | DKC1 | DLG1 | DLL1 | DMD | DPP4 | E2F3 | EDN1 | EDNRA | EDNRB | EFEMP1 | EFNB2 | EGFR | EGR4 | EIF5A | EIF5A2 | EMP2 | ENPP2 | EPHA1 | EPOR | EREG | ESM1 | ETS1 | EZH2 | F2R | FABP4 | FAM98A | FASL | FBXO5 | FER | FGF1 | FGF10 | FGF18 | FGF2 | FGF21 | FGF7 | FGFBP1 | FGFR1OP | FGFR2 | FGFR3 | FGFR4 | FLT1 | FLT3 | FLT3L | FN1 | FNTA | FNTB | FOLR2 | FOSL1 | FOXM1 | FXN | FZR1 | GAREM1 | GAS1 | GATA3 | GCNT2 | GDNF | GLP1R | GNAS | GRK5 | HAS2 | HBEGF | HCK | HCLS1 | HES1 | HIF1A | HILPDA | HIPK2 | HMGB1 | HMGCR | HMGN5 | HRAS | HSP90AA1 | HTR2A | ID2 | ID3 | ID4 | IFNG | IGF1 | IGF1R | IGF2 | IKBKB | IL11 | IL11RA1 | IL18 | IL1B | IL2 | IL24 | IL31RA | IL4 | IL5 | IL6 | IL6R | IL6RA | IL6ST | IL7R | ILK | INSR | IRS1 | IRS2 | ITGAV | ITGB1 | ITGB1BP1 | JUN | KDM4C | KDR | KIF20B | KIT | KITL | KITLG | KLB | KLF5 | KLK1 | KMT2D | KRAS | KRT6A | LAMC2 | LEF1 | LEP | LGALS3 | LGMN | LIF | LIFR | LRP5 | MAPK1 | MARCH7 | MARCKSL1 | MARK4 | MATK | MDM4 | MECP2 | MFGE8 | MLXIPL | MST1R | MTA3 | MVD | MYB | MYC | MYCN | MYOCD | MZB1 | NACC1 | NAMPT | NAP1L1 | NDUFAF4 | NMB | NOD2 | NODAL | NOLC1 | NOP2 | NOTCH1 | NPM1 | NPY | NRG1 | NTF3 | NTRK2 | NUDT16 | ODC1 | OPTN | OSM | OSMR | PAX2 | PBX1 | PDGFA | PDGFB | PDGFC | PDGFRA | PDGFRB | PGF | PGR | PKHD1 | PLA2G1B | PLA2G4A | PLAC8 | PLAU | PPARD | PRC1 | PRDX3 | PRKCZ | PRKRA | PRMT1 | PROK1 | PROX1 | PRTN3 | PTEN | PTGER4 | PTGFR | PTGS2 | PTH1R | PTK2 | PTK2B | PTPN6 | RAC2 | RAD51B | RARB | RARG | RECQL4 | REG3B | RELA | RHOG | ROGDI | RPA1 | RPS15A | RRM2 | RTKN2 | S100B | S1PR1 | S1PR2 | S1PR3 | SAPCD2 | SCX | SDCBP | SERTAD1 | SFRP1 | SFRP2 | SHC4 | SHH | SHMT2 | SIRT1 | SLC25A27 | SLC25A33 | SLC25A5 | SLC35F6 | SMARCA4 | SMO | SOX11 | SOX4 | SOX9 | SPHK1 | SPHK2 | SRPK2 | SSBP3 | SSR1 | STAT1 | STAT3 | STAT5B | STX3 | SYF2 | TBX1 | TBX3 | TCIRG1 | TDGF1 | TET1 | TFF2 | TGFB1 | TGFB3 | TGFBR1 | TGFBR2 | TGFBR3 | THBS1 | THRB | TIAM1 | TIMP1 | TIPIN | TNC | TNF | TNFRSF11A | TNFSF13B | TNFSF4 | TNS3 | TPD52 | TRAF5 | TSC22D1 | TTK | TXNL4B | UBE2A | UFL1 | VEGFA | VEGFC | VEGFD | VIPR1 | WDR77 | WNT1 | WNT10B | WNT2 | WNT5A | WNT7A | WWTR1 | XBP1
1
42. Nanotubes, Carbon positive regulation of reactive oxygen species biosynthetic process Nanotubes, Carbon results in increased positive regulation of reactive oxygen species biosynthetic process 1: Homo sapiens Bronchioles | Epithelial Cells | Cell Line, Transformed
11 genes: ADGRB1 | CD36 | CLCN3 | CYBA | FOXO3 | IL4 | MMP8 | OGT | RAB27A | TLR4 | TLR6
1
43. Nanotubes, Carbon positive regulation of peptidyl-tyrosine phosphorylation Nanotubes, Carbon results in increased positive regulation of peptidyl-tyrosine phosphorylation 1: Homo sapiens Bronchioles | Epithelial Cells | Cell Line, Transformed
83 genes: ADIPOQ | AGT | ANGPT1 | AREG | ARHGEF2 | ARRB2 | BANK1 | CAV2 | CCK | CD24A | CD36 | CD4 | CD44 | CD74 | CD80 | CNTN1 | CSF3 | CSPG4 | EFNA1 | EFNA5 | EHD4 | ENPP2 | FGF10 | FGF7 | FGFR3 | GATA1 | GDNF | GFRA1 | GHR | HAX1 | HBEGF | HCLS1 | HTR2A | ICAM1 | IGF1 | IGF2 | IGHM | IL11 | IL4 | IL5 | IL6 | IL6R | IL6RA | ITGA5 | ITGB1 | ITGB3 | KITL | KITLG | LIF | LRP4 | LRP8 | LRRK1 | MIF | MTOR | NOD2 | NRG1 | NRP1 | NTF3 | OSM | PDGFB | PDGFRA | PLPP3 | PRNP | PTK2B | PTPRC | PTPRZ1 | RELN | RICTOR | SEMA4D | SRC | TDGF1 | TGFB1 | THBS4 | THY1 | TLR4 | TNK2 | TP53 | TREM2 | TRP53 | VEGFA | VEGFB | VEGFC | VTN
1
44. Nanotubes, Carbon positive regulation of mitotic cell cycle Nanotubes, Carbon results in decreased positive regulation of mitotic cell cycle 1: Homo sapiens Bronchioles | Epithelial Cells | Cell Line, Transformed
27 genes: APP | ASNS | BIRC5 | BRCA2 | CCNB1 | CDC25B | CDK1 | DUSP3 | DYNLT3 | EIF4E | EIF4EBP1 | FGF10 | FOXA1 | HMGB1 | LGMN | MCM10 | MEIS2 | MYB | PAFAH1B1 | PRKCA | PTPN11 | SHB | SMOC2 | SPHK1 | STAT5B | TAL1 | USP2
1
45. Nanotubes, Carbon positive regulation of cell proliferation Nitrogen [Nanotubes, Carbon co-treated with Nitrogen] results in increased positive regulation of cell proliferation 1: Homo sapiens Bronchioles | Epithelial Cells | Cell Line, Transformed
350 genes: ACER2 | ACER3 | ADM | ADORA2B | ADRA2A | ADRB2 | AGT | AKR1C18 | AKT1 | AKT2 | ALDH1A2 | ALDH3A1 | ANG4 | ANP32B | APLN | AREG | ARRB1 | ATF3 | AVPR1A | BCL2 | BCL2L1 | BIRC5 | BMP4 | BMP5 | BMP6 | BNC1 | BST1 | CACUL1 | CALR | CAMP | CAPNS1 | CARM1 | CAV3 | CCAR1 | CCK | CCN2 | CCND1 | CCND3 | CCPG1 | CD248 | CD38 | CD47 | CD86 | CDC123 | CDC20 | CDC25B | CDK2 | CDK4 | CDKN1B | CEP131 | CHRNA7 | CLEC11A | CLU | CNTFR | COL18A1 | CRIP2 | CRLF2 | CSF1 | CSF1R | CSF2 | CSF3 | CST3 | CTSH | CXCL10 | CXCL12 | CXCL5 | CXCR2 | CXCR3 | DDR2 | DENR | DERL2 | DHPS | DKC1 | DLG1 | DLL1 | DMD | DPP4 | E2F3 | EDN1 | EDNRA | EDNRB | EFEMP1 | EFNB2 | EGFR | EGR4 | EIF5A | EIF5A2 | EMP2 | ENPP2 | EPHA1 | EPOR | EREG | ESM1 | ETS1 | EZH2 | F2R | FABP4 | FAM98A | FASL | FBXO5 | FER | FGF1 | FGF10 | FGF18 | FGF2 | FGF21 | FGF7 | FGFBP1 | FGFR1OP | FGFR2 | FGFR3 | FGFR4 | FLT1 | FLT3 | FLT3L | FN1 | FNTA | FNTB | FOLR2 | FOSL1 | FOXM1 | FXN | FZR1 | GAREM1 | GAS1 | GATA3 | GCNT2 | GDNF | GLP1R | GNAS | GRK5 | HAS2 | HBEGF | HCK | HCLS1 | HES1 | HIF1A | HILPDA | HIPK2 | HMGB1 | HMGCR | HMGN5 | HRAS | HSP90AA1 | HTR2A | ID2 | ID3 | ID4 | IFNG | IGF1 | IGF1R | IGF2 | IKBKB | IL11 | IL11RA1 | IL18 | IL1B | IL2 | IL24 | IL31RA | IL4 | IL5 | IL6 | IL6R | IL6RA | IL6ST | IL7R | ILK | INSR | IRS1 | IRS2 | ITGAV | ITGB1 | ITGB1BP1 | JUN | KDM4C | KDR | KIF20B | KIT | KITL | KITLG | KLB | KLF5 | KLK1 | KMT2D | KRAS | KRT6A | LAMC2 | LEF1 | LEP | LGALS3 | LGMN | LIF | LIFR | LRP5 | MAPK1 | MARCH7 | MARCKSL1 | MARK4 | MATK | MDM4 | MECP2 | MFGE8 | MLXIPL | MST1R | MTA3 | MVD | MYB | MYC | MYCN | MYOCD | MZB1 | NACC1 | NAMPT | NAP1L1 | NDUFAF4 | NMB | NOD2 | NODAL | NOLC1 | NOP2 | NOTCH1 | NPM1 | NPY | NRG1 | NTF3 | NTRK2 | NUDT16 | ODC1 | OPTN | OSM | OSMR | PAX2 | PBX1 | PDGFA | PDGFB | PDGFC | PDGFRA | PDGFRB | PGF | PGR | PKHD1 | PLA2G1B | PLA2G4A | PLAC8 | PLAU | PPARD | PRC1 | PRDX3 | PRKCZ | PRKRA | PRMT1 | PROK1 | PROX1 | PRTN3 | PTEN | PTGER4 | PTGFR | PTGS2 | PTH1R | PTK2 | PTK2B | PTPN6 | RAC2 | RAD51B | RARB | RARG | RECQL4 | REG3B | RELA | RHOG | ROGDI | RPA1 | RPS15A | RRM2 | RTKN2 | S100B | S1PR1 | S1PR2 | S1PR3 | SAPCD2 | SCX | SDCBP | SERTAD1 | SFRP1 | SFRP2 | SHC4 | SHH | SHMT2 | SIRT1 | SLC25A27 | SLC25A33 | SLC25A5 | SLC35F6 | SMARCA4 | SMO | SOX11 | SOX4 | SOX9 | SPHK1 | SPHK2 | SRPK2 | SSBP3 | SSR1 | STAT1 | STAT3 | STAT5B | STX3 | SYF2 | TBX1 | TBX3 | TCIRG1 | TDGF1 | TET1 | TFF2 | TGFB1 | TGFB3 | TGFBR1 | TGFBR2 | TGFBR3 | THBS1 | THRB | TIAM1 | TIMP1 | TIPIN | TNC | TNF | TNFRSF11A | TNFSF13B | TNFSF4 | TNS3 | TPD52 | TRAF5 | TSC22D1 | TTK | TXNL4B | UBE2A | UFL1 | VEGFA | VEGFC | VEGFD | VIPR1 | WDR77 | WNT1 | WNT10B | WNT2 | WNT5A | WNT7A | WWTR1 | XBP1
1
46. Nanotubes, Carbon positive regulation of reactive oxygen species biosynthetic process Nitrogen [Nanotubes, Carbon co-treated with Nitrogen] results in increased positive regulation of reactive oxygen species biosynthetic process 1: Homo sapiens Bronchioles | Epithelial Cells | Cell Line, Transformed
11 genes: ADGRB1 | CD36 | CLCN3 | CYBA | FOXO3 | IL4 | MMP8 | OGT | RAB27A | TLR4 | TLR6
1
47. Nanotubes, Carbon positive regulation of mitotic cell cycle Nitrogen [Nanotubes, Carbon co-treated with Nitrogen] results in decreased positive regulation of mitotic cell cycle 1: Homo sapiens Bronchioles | Epithelial Cells | Cell Line, Transformed
27 genes: APP | ASNS | BIRC5 | BRCA2 | CCNB1 | CDC25B | CDK1 | DUSP3 | DYNLT3 | EIF4E | EIF4EBP1 | FGF10 | FOXA1 | HMGB1 | LGMN | MCM10 | MEIS2 | MYB | PAFAH1B1 | PRKCA | PTPN11 | SHB | SMOC2 | SPHK1 | STAT5B | TAL1 | USP2
1
48. Nanotubes, Carbon vacuole organization Nanotubes, Carbon results in decreased vacuole organization 1: Mus musculus Liver
2 genes: FIG4 | MAN2A1
1
49. Nanotubes, Carbon vacuole organization Nanotubes, Carbon analog results in decreased vacuole organization 1: Mus musculus Liver
2 genes: FIG4 | MAN2A1
1
50. Nanotubes, Carbon positive regulation of cell death Nanotubes, Carbon results in increased positive regulation of cell death 1: Homo sapiens Human Umbilical Vein Endothelial Cells | Cells, Cultured
42 genes: ACER2 | ACOX2 | AKR1C18 | ALOX12 | BCL2L11 | BMP4 | BMP7 | CCN2 | CD36 | CDKN1A | CDKN1B | CIDEB | DUSP6 | EEF1A1 | EGR1 | EP300 | FAS | GRIN2B | GZMB | HBA-A2 | HMGB1 | HP | HTRA2 | IL1B | IRF1 | LRP1 | LZTS2 | MSX2 | MT3 | MTOR | MYCN | PRNP | PRODH | PTGS2 | RAMP3 | RHEB | RIPK1 | SAP30BP | TRIM13 | TXNRD1 | UCP2 | ZC3H12A
1
1–50 of 139 results.