The Chemical Entities of Biological Interest (ChEBI) ontology is downloaded weekly from EMBL-EBI at http://www.ebi.ac.uk/chebi/. The data is made available under the Creative Commons License (CC BY 3.0, http://creativecommons.org/licenses/by/3.0/). For more information see: Degtyarenko et al. (2008) ChEBI: a database and ontology for chemical entities of biological interest. Nucleic Acids Res. 36, D344–D350.
Organoselenium Compounds inhibits the reaction [Lipopolysaccharides results in increased phosphorylation of and results in increased activity of AKT1 protein] [Organoselenium Compounds binds to Copper] which results in decreased expression of AKT1 protein
[Organoselenium Compounds co-treated with Lipopolysaccharides] results in increased expression of GPX1 protein Organoselenium Compounds results in increased expression of GPX1 protein
[Organoselenium Compounds binds to Copper] which results in decreased expression of HSP90AA1 protein; [Organoselenium Compounds binds to Copper] which results in increased expression of HSP90AA1 mRNA
Organoselenium Compounds analog results in increased phosphorylation of MAPK1 protein Organoselenium Compounds results in increased activity of MAPK1 protein
Organoselenium Compounds results in increased activity of MAPK3 protein Organoselenium Compounds analog results in increased phosphorylation of MAPK3 protein
Organoselenium Compounds results in decreased susceptibility to [Lipopolysaccharides results in increased expression of NOS2 mRNA]; Organoselenium Compounds results in decreased susceptibility to [Lipopolysaccharides results in increased expression of NOS2 protein] Organoselenium Compounds inhibits the reaction [Lipopolysaccharides results in increased expression of NOS2 mRNA]
[Organoselenium Compounds binds to Copper] which results in decreased expression of PIM1 protein; [Organoselenium Compounds binds to Copper] which results in increased expression of PIM1 mRNA
Organoselenium Compounds inhibits the reaction [Freund's Adjuvant results in increased expression of PTGS2 mRNA]; Organoselenium Compounds results in decreased susceptibility to [Lipopolysaccharides results in increased expression of PTGS2 protein] Organoselenium Compounds inhibits the reaction [Lipopolysaccharides results in increased expression of PTGS2 mRNA] Organoselenium Compounds results in decreased activity of PTGS2 protein
Organoselenium Compounds results in decreased susceptibility to [Lipopolysaccharides results in increased expression of TNF mRNA] Organoselenium Compounds results in decreased expression of TNF protein Organoselenium Compounds inhibits the reaction [Lipopolysaccharides results in increased expression of TNF mRNA]; Organoselenium Compounds inhibits the reaction [Lipopolysaccharides results in increased expression of TNF protein]
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of THY1-AS1 mRNA] which results in increased expression of AAK1 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of ACBD3-AS1 mRNA] which results in increased expression of ACBD3 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of ACBD3-AS1 mRNA] which results in increased expression of ACBD3 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of PICART1 mRNA] which results in increased expression of ACHE mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of OSGEPL1-AS1 mRNA] which results in increased expression of ANKAR mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of ARAP1-AS1 mRNA] which results in increased expression of ARAP1 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of ARAP1-AS1 mRNA] which results in increased expression of ARAP1 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of ARAP1-AS2 mRNA] which results in increased expression of ARAP1 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of THY1-AS1 mRNA] which results in increased expression of ARHGAP30 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in increased expression of BEX2 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in decreased expression of C4ORF3 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in increased expression of C5AR1 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of CATIP-AS1 mRNA] which results in increased expression of CATIP mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of CATIP-AS1 mRNA] which results in increased expression of CATIP mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of CCDC183-AS1 mRNA] which results in increased expression of CCDC183 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of CCDC183-AS1 mRNA] which results in increased expression of CCDC183 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in decreased expression of CDH2 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of LINC01679 mRNA] which results in increased expression of CELF3 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of DNM1P35 mRNA] which results in increased expression of CIMAP1C mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of DNM1P35 mRNA] which results in increased expression of CIMAP1C mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in decreased expression of COL4A2-AS1 mRNA] which results in decreased expression of COL4A2 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of COL4A2-AS2 mRNA] which results in decreased expression of COL4A2 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of PINCR mRNA] which results in increased expression of COL7A1 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in decreased expression of CORO1A-AS1 mRNA] which results in decreased expression of CORO1A mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of CORO1A-AS1 mRNA] which results in decreased expression of CORO1A mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in decreased expression of DDIT4-AS1 mRNA] which results in decreased expression of DDIT4 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of DDIT4-AS1 mRNA] which results in decreased expression of DDIT4 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of DDX59-AS1 mRNA] which results in increased expression of DDX59 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of DDX59-AS1 mRNA] which results in increased expression of DDX59 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in increased expression of DLGAP1 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in increased expression of DLGAP1 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of DNMT3L-AS1 mRNA] which results in increased expression of DNMT3L mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of DNMT3L-AS1 mRNA] which results in increased expression of DNMT3L mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of LINC02019 mRNA] which results in increased expression of DOCK3 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in decreased expression of TM4SF19-AS1 mRNA] which results in increased expression of DYNLT2B mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of CSRP3-AS1 mRNA] which results in increased expression of E2F8 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of CSRP3-AS1 mRNA] which results in increased expression of E2F8 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in decreased expression of EGLN3 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of LINC01629 mRNA] which results in decreased expression of EPB41L1 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of TNRC6B-DT mRNA] which results in increased expression of FAM83F mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of TNRC6B-DT mRNA] which results in increased expression of FAM83F mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of FBXW7-AS1 mRNA] which results in increased expression of FBXW7 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of FBXW7-AS1 mRNA] which results in increased expression of FBXW7 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of FHAD1-AS1 mRNA] which results in increased expression of FHAD1 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of FHAD1-AS1 mRNA] which results in increased expression of FHAD1 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in decreased expression of FLNB-AS1 mRNA] which results in decreased expression of FLNB mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of FLNB-AS1 mRNA] which results in decreased expression of FLNB mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of FLNC-AS1 mRNA] which results in increased expression of FLNC mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of FLNC-AS1 mRNA] which results in increased expression of FLNC mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in decreased expression of FOXC2-AS1 mRNA] which results in decreased expression of FOXC2 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of FOXC2-AS1 mRNA] which results in decreased expression of FOXC2 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of LINC01391 mRNA] which results in increased expression of FOXL2 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of GCC2-AS1 mRNA] which results in increased expression of GCC2 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of GK-AS1 mRNA] which results in increased expression of GK mRNA; [[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of GK-IT1 mRNA] which results in increased expression of GK mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of GK-AS1 mRNA] which results in increased expression of GK mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in decreased expression of GSN-AS1 mRNA] which results in decreased expression of GSN mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of GSN-AS1 mRNA] which results in decreased expression of GSN mRNA
[[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of HIF1A-AS1 mRNA] which results in decreased expression of HIF1A mRNA
[[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of HK2-DT mRNA] which results in decreased expression of HK2 mRNA
[[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of HMGN3-AS1 mRNA] which results in decreased expression of HMGN3 mRNA
[[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of HMMR-AS1 mRNA] which results in decreased expression of HMMR mRNA
[[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of HOXA10-AS mRNA] which results in increased expression of HOXA10 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of PICART1 mRNA] which results in decreased expression of HOXB4 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of HOXB-AS4 mRNA] which results in increased expression of HOXB9 mRNA; [[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of DDIT4-AS1 mRNA] which results in increased expression of HOXB9 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of HOXC13-AS mRNA] which results in increased expression of HOXC13 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of HOXC13-AS mRNA] which results in increased expression of HOXC13 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of DNMT3L-AS1 mRNA] which results in increased expression of ICOSLG mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of DNMT3L-AS1 mRNA] which results in increased expression of ICOSLG mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of PINCR mRNA] which results in increased expression of IL1RL1 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in increased expression of INHBA mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in decreased expression of INSIG1-DT mRNA] which results in decreased expression of INSIG1 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in increased expression of IQSEC3 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in increased expression of IRGQ mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of PICART1 mRNA] which results in decreased expression of ITGA3 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of PICART1 mRNA] which results in decreased expression of ITGA3 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of THY1-AS1 mRNA] which results in increased expression of KCNA7 mRNA; [[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of PICART1 mRNA] which results in increased expression of KCNA7 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of DDIT4-AS1 mRNA] which results in increased expression of KCNC4 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of KIAA1614-AS1 mRNA] which results in increased expression of KIAA1614 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of KIAA1614-AS1 mRNA] which results in increased expression of KIAA1614 mRNA; [[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in increased expression of KIAA1614 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in decreased expression of KRT7-AS mRNA] which results in decreased expression of KRT7 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of KRT7-AS mRNA] which results in decreased expression of KRT7 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of LBX2-AS1 mRNA] which results in increased expression of LBX2 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of LBX2-AS1 mRNA] which results in increased expression of LBX2 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of LIF-AS1 mRNA] which results in increased expression of LIF mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of LIF-AS1 mRNA] which results in increased expression of LIF mRNA
[[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of LMNB1-DT mRNA] which results in decreased expression of LMNB1 mRNA
[[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of MAFA-AS1 mRNA] which results in increased expression of MAFA mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of PICART1 mRNA] which results in decreased expression of MARVELD1 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of LINC01629 mRNA] which results in increased expression of MEF2A mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in decreased expression of METRN mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of THY1-AS1 mRNA] which results in increased expression of MEX3B mRNA; [[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of PICART1 mRNA] which results in increased expression of MEX3B mRNA
[[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of MID1IP1-AS1 mRNA] which results in increased expression of MID1IP1 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of MMEL1-AS1 mRNA] which results in decreased expression of MMEL1 mRNA
[[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of ADIRF-AS1 mRNA] which results in increased expression of MMRN2 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of LINC01629 mRNA] which results in increased expression of MYPN mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of NGFR-AS1 mRNA] which results in increased expression of NGFR mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of NGFR-AS1 mRNA] which results in increased expression of NGFR mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of DDIT4-AS1 mRNA] which results in decreased expression of NPR3 mRNA; [[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in decreased expression of NPR3 mRNA
[[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of NR4A1AS mRNA] which results in increased expression of NR4A1 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in decreased expression of NUCB1-AS1 mRNA] which results in decreased expression of NUCB1 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in increased expression of NYAP1 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of OSGEPL1-AS1 mRNA] which results in decreased expression of OSGEPL1 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of LINC01629 mRNA] which results in increased expression of OTOG mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of DDIT4-AS1 mRNA] which results in increased expression of PGPEP1 mRNA; [[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of LINC01679 mRNA] which results in increased expression of PGPEP1 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of THY1-AS1 mRNA] which results in increased expression of ZNF37A mRNA; [[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of LINC01679 mRNA] which results in increased expression of ZNF37A mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in decreased expression of PIWIL2-DT mRNA] which results in increased expression of PIWIL2 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of PLA2G4E-AS1 mRNA] which results in increased expression of PLA2G4E mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of PLA2G4E-AS1 mRNA] which results in increased expression of PLA2G4E mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of PLCL2-AS1 mRNA] which results in increased expression of PLCL2 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of POLH-AS1 mRNA] which results in increased expression of POLH mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of POLH-AS1 mRNA] which results in increased expression of POLH mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of DDIT4-AS1 mRNA] which results in increased expression of POPDC2 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of PRICKLE2-AS1 mRNA] which results in increased expression of PRICKLE2 mRNA; [[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of PRICKLE2-AS3 mRNA] which results in increased expression of PRICKLE2 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of PRICKLE2-AS1 mRNA] which results in increased expression of PRICKLE2 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of PRICKLE2-AS3 mRNA] which results in increased expression of PRICKLE2 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of DDIT4-AS1 mRNA] which results in increased expression of PSMB11 mRNA; [[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of LINC01679 mRNA] which results in increased expression of PSMB11 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of DDIT4-AS1 mRNA] which results in increased expression of RIIAD1 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in decreased expression of S100A2 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of PICART1 mRNA] which results in increased expression of SAMD14 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of DLGAP1-AS2 mRNA] which results in increased expression of SEMA3G mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in decreased expression of SH3RF3-AS1 mRNA] which results in decreased expression of SH3RF3 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of SH3RF3-AS1 mRNA] which results in decreased expression of SH3RF3 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of PICART1 mRNA] which results in increased expression of SHF mRNA
[[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of SKAP1-AS1 mRNA] which results in increased expression of SKAP1 mRNA
[[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of SLC25A34-AS1 mRNA] which results in increased expression of SLC25A34 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of SMAD5-AS1 mRNA] which results in increased expression of SMAD5 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of SMAD5-AS1 mRNA] which results in increased expression of SMAD5 mRNA
[[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of LINC01996 mRNA] which results in increased expression of SMTNL2 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of PICART1 mRNA] which results in increased expression of SRCIN1 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of DDIT4-AS1 mRNA] which results in increased expression of SSTR5 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of LINC01629 mRNA] which results in increased expression of STAB1 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of SYP-AS1 mRNA] which results in increased expression of SYP mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of SYP-AS1 mRNA] which results in increased expression of SYP mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of TAB3-AS1 mRNA] which results in increased expression of TAB3 mRNA; [[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of TAB3-AS2 mRNA] which results in increased expression of TAB3 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of TAB3-AS1 mRNA] which results in increased expression of TAB3 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of TAB3-AS2 mRNA] which results in increased expression of TAB3 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in decreased expression of THY1-AS1 mRNA] which results in decreased expression of THY1 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of THY1-AS1 mRNA] which results in decreased expression of THY1 mRNA; [[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of LINC01629 mRNA] which results in decreased expression of THY1 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of LBX2-AS1 mRNA] which results in increased expression of TLX2 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of LBX2-AS1 mRNA] which results in increased expression of TLX2 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in decreased expression of TM4SF19-AS1 mRNA] which results in decreased expression of TM4SF19 mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in decreased expression of TM4SF19-AS1 mRNA] which results in decreased expression of TM4SF19 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of TNFRSF10A-AS1 mRNA] which results in increased expression of TNFRSF10A mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of TNFRSF10A-AS1 mRNA] which results in increased expression of TNFRSF10A mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of DDIT4-AS1 mRNA] which results in increased expression of TP53I11 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of LINC01629 mRNA] which results in increased expression of TRIM8 mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of TTC23L-AS1 mRNA] which results in increased expression of TTC23L mRNA
[[Hydroxyl Radical results in increased oxidation of dimethylselenide] which results in increased expression of UPK1A-AS1 mRNA] which results in increased expression of UPK1A mRNA; [[Ozone results in increased oxidation of dimethylselenide] which results in increased expression of UPK1A-AS1 mRNA] which results in increased expression of UPK1A mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of DDIT4-AS1 mRNA] which results in increased expression of WNT9A mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of DDIT4-AS1 mRNA] which results in increased expression of ZBTB5 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in decreased expression of DDIT4-AS1 mRNA] which results in decreased expression of ZNF385D mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of PINCR mRNA] which results in increased expression of ZNF503 mRNA
[[Reactive Oxygen Species results in increased oxidation of dimethylselenide] which results in increased expression of LINC01629 mRNA] which results in increased expression of ZNF672 mRNA
Dithiothreitol inhibits the reaction [ebselen results in decreased activity of ALAD protein] ebselen inhibits the reaction [Cadmium Chloride results in decreased activity of ALAD protein]
ebselen inhibits the reaction [Mechlorethamine results in increased activity of CASP3 protein] ebselen results in increased activity of CASP3 protein ebselen inhibits the reaction [Methylmercury Compounds results in increased activity of CASP3 protein]; ebselen inhibits the reaction [sodium arsenite results in increased expression of CASP3 protein]
ebselen inhibits the reaction [Mechlorethamine results in increased activity of CASP9 protein] ebselen inhibits the reaction [Cadmium Chloride results in increased activity of CASP9 protein]
ebselen inhibits the reaction [FMR1 5' UTR mutant form results in decreased activity of CS protein] ebselen inhibits the reaction [Cisplatin results in decreased activity of CS protein]
ebselen inhibits the reaction [Lipopolysaccharides affects the localization of and affects the activity of FOS protein]; ebselen inhibits the reaction [Peroxynitrous Acid affects the localization of and affects the activity of FOS protein]
ebselen inhibits the reaction [Oxygen deficiency results in increased expression of GJA1 mRNA]; ebselen inhibits the reaction [Oxygen deficiency results in increased expression of GJA1 protein]
ebselen inhibits the reaction [GPX1 gene mutant form inhibits the reaction [Glucose results in increased secretion of INS1 protein]] ebselen inhibits the reaction [Methylmercury Compounds results in decreased activity of GPX1 protein]
ebselen binds to and results in decreased activity of [GSTA1 protein binds to GSTA3 protein]; ebselen binds to and results in decreased activity of GSTA3 protein
ebselen inhibits the reaction [Acetylcysteine inhibits the reaction [Oxygen deficiency results in increased activity of HIF1A protein]]; ebselen inhibits the reaction [Acetylcysteine inhibits the reaction [Oxygen deficiency results in increased expression of HIF1A mRNA]]; ebselen inhibits the reaction [glutathione glycylethyl ester inhibits the reaction [Oxygen deficiency results in increased activity of HIF1A protein]]; ebselen inhibits the reaction [glutathione glycylethyl ester inhibits the reaction [Oxygen deficiency results in increased expression of HIF1A mRNA]]
[ebselen affects the abundance of Reactive Oxygen Species] which results in decreased expression of HMOX1 protein; [ebselen affects the abundance of Reactive Oxygen Species] which results in increased activity of HMOX1 protein
ebselen inhibits the reaction [[Lipopolysaccharides co-treated with IFNG protein] results in increased expression of NOS2 mRNA]; ebselen inhibits the reaction [[Lipopolysaccharides co-treated with IFNG protein] results in increased expression of NOS2 protein]
ebselen inhibits the reaction [GPX1 gene mutant form inhibits the reaction [Glucose results in increased secretion of INS1 protein]]; ebselen inhibits the reaction [SOD1 gene mutant form inhibits the reaction [Glucose results in increased secretion of INS1 protein]]; ebselen promotes the reaction [Glucose results in increased secretion of INS1 protein]
ebselen inhibits the reaction [NGF protein results in increased phosphorylation of and results in increased activity of MAPK1 protein] ebselen results in increased activity of MAPK1 protein ebselen inhibits the reaction [Methylmercury Compounds results in increased phosphorylation of MAPK1 protein]; ebselen inhibits the reaction [SOD2 protein results in increased phosphorylation of and results in increased activity of MAPK1 protein]; ebselen inhibits the reaction [tetrakis(N-methyl-4-pyridiniumyl)porphine manganese(III) complex results in increased phosphorylation of and results in increased activity of MAPK1 protein] ebselen analog results in increased phosphorylation of MAPK1 protein; ebselen results in increased phosphorylation of MAPK1 protein
ebselen inhibits the reaction [NGF protein results in increased phosphorylation of and results in increased activity of MAPK3 protein] ebselen results in increased activity of MAPK3 protein ebselen analog results in increased phosphorylation of MAPK3 protein; ebselen results in increased phosphorylation of MAPK3 protein ebselen inhibits the reaction [Methylmercury Compounds results in increased phosphorylation of MAPK3 protein]; ebselen inhibits the reaction [SOD2 protein results in increased phosphorylation of and results in increased activity of MAPK3 protein]; ebselen inhibits the reaction [tetrakis(N-methyl-4-pyridiniumyl)porphine manganese(III) complex results in increased phosphorylation of and results in increased activity of MAPK3 protein]
ebselen inhibits the reaction [NGF protein results in increased phosphorylation of and results in increased activity of MAPK1 protein]; ebselen inhibits the reaction [NGF protein results in increased phosphorylation of and results in increased activity of MAPK3 protein]
ebselen inhibits the reaction [[Lipopolysaccharides co-treated with IFNG protein] results in increased expression of NOS2 mRNA]; ebselen inhibits the reaction [[Lipopolysaccharides co-treated with IFNG protein] results in increased expression of NOS2 protein] ebselen results in decreased activity of NOS2 protein
ebselen inhibits the reaction [Lipopolysaccharides affects the localization of and affects the activity of RELA protein]; ebselen inhibits the reaction [Peroxynitrous Acid affects the localization of and affects the activity of RELA protein]
[ebselen co-treated with Glucose] results in increased expression of SLC2A2 protein ebselen inhibits the reaction [Cisplatin results in increased expression of SLC2A2 protein]
ebselen results in decreased susceptibility to SOD1 protein mutant form ebselen inhibits the reaction [SOD1 gene mutant form inhibits the reaction [Glucose results in increased secretion of INS1 protein]]
ebselen inhibits the reaction [SOD2 protein results in increased phosphorylation of and results in increased activity of MAPK1 protein]; ebselen inhibits the reaction [SOD2 protein results in increased phosphorylation of and results in increased activity of MAPK3 protein]
ebselen inhibits the reaction [Carbon Tetrachloride results in increased expression of TGFB1 mRNA] ebselen inhibits the reaction [TGFB1 protein results in increased expression of ACTA2 protein]; ebselen inhibits the reaction [TGFB1 protein results in increased phosphorylation of SMAD3 protein]
AR protein inhibits the reaction [methylselenic acid results in decreased expression of ABCC4 mRNA] methylselenic acid affects the expression of ABCC4 mRNA
[methylselenic acid results in decreased phosphorylation of AKT1 protein] which results in increased susceptibility to Doxorubicin; AKT1 protein modified form inhibits the reaction [[Doxorubicin co-treated with methylselenic acid] results in increased degradation of PARP1 protein]; methylselenic acid inhibits the reaction [Doxorubicin results in increased phosphorylation of AKT1 protein] AKT1 protein results in decreased susceptibility to methylselenic acid
AR protein affects the susceptibility to methylselenic acid methylselenic acid results in increased degradation of AR mRNA; methylselenic acid results in increased degradation of AR protein methylselenic acid results in decreased expression of AR mRNA; methylselenic acid results in decreased expression of AR protein methylselenic acid results in decreased activity of AR protein AR protein inhibits the reaction [methylselenic acid results in decreased expression of ABCC4 mRNA]; AR protein inhibits the reaction [methylselenic acid results in decreased expression of DHCR24 mRNA]; AR protein inhibits the reaction [methylselenic acid results in decreased expression of GUCY1A1 mRNA]; AR protein inhibits the reaction [methylselenic acid results in decreased expression of KLK2 mRNA]; AR protein inhibits the reaction [methylselenic acid results in decreased expression of KLK3 mRNA]; methylselenic acid inhibits the reaction [Dihydrotestosterone promotes the reaction [AR protein binds to KLK3 promoter]]; Superoxides promotes the reaction [methylselenic acid results in decreased expression of AR protein]
BCL2L11 protein affects the susceptibility to [Doxorubicin co-treated with methylselenic acid]; BCL2L11 protein promotes the reaction [[Doxorubicin co-treated with methylselenic acid] results in increased cleavage of and results in increased activity of CASP9 protein]; BCL2L11 protein promotes the reaction [[Doxorubicin co-treated with methylselenic acid] results in increased degradation of PARP1 protein]; Tamoxifen promotes the reaction [methylselenic acid results in increased cleavage of BCL2L11 protein] methylselenic acid results in increased expression of BCL2L11 mRNA; methylselenic acid results in increased expression of BCL2L11 protein
[2,5,7,8-tetramethyl-2R-(4R,8R,12-trimethyltridecyl)chroman-6-yloxy acetic acid co-treated with methylselenic acid co-treated with resveratrol] results in decreased expression of BIRC5 protein; methylselenic acid inhibits the reaction [SP1 protein binds to BIRC5 promoter] methylselenic acid results in decreased expression of BIRC5 mRNA; methylselenic acid results in decreased expression of BIRC5 protein
methylselenic acid results in increased cleavage of and results in increased activity of CASP3 protein methylselenic acid results in increased cleavage of CASP3 protein
methylselenic acid results in increased cleavage of CASP7 protein Acetylcysteine inhibits the reaction [methylselenic acid results in increased cleavage of CASP7 protein]; HSPA5 protein inhibits the reaction [methylselenic acid results in increased cleavage of CASP7 protein]; methylselenic acid inhibits the reaction [CASP7 protein binds to HSPA5 protein]; Sodium Selenite inhibits the reaction [methylselenic acid results in increased cleavage of CASP7 protein]; Tamoxifen promotes the reaction [methylselenic acid results in increased cleavage of CASP7 protein]
[2,5,7,8-tetramethyl-2R-(4R,8R,12-trimethyltridecyl)chroman-6-yloxy acetic acid co-treated with methylselenic acid co-treated with resveratrol] results in increased cleavage of CASP8 protein; [[methylselenic acid co-treated with Tamoxifen] results in increased cleavage of CASP9 protein] which results in increased cleavage of CASP8 protein; [methylselenic acid co-treated with Tamoxifen] results in increased cleavage of CASP8 protein [methylselenic acid results in increased cleavage of CASP9 protein] which results in increased cleavage of CASP8 protein; methylselenic acid results in increased cleavage of CASP8 protein
[2,5,7,8-tetramethyl-2R-(4R,8R,12-trimethyltridecyl)chroman-6-yloxy acetic acid co-treated with methylselenic acid co-treated with resveratrol] results in increased cleavage of CASP9 protein; [[methylselenic acid co-treated with Tamoxifen] results in increased cleavage of CASP9 protein] which results in increased cleavage of CASP8 protein; [Doxorubicin co-treated with methylselenic acid] results in increased cleavage of and results in increased activity of CASP9 protein; [methylselenic acid co-treated with Tamoxifen] results in increased cleavage of CASP9 protein; BCL2L11 protein promotes the reaction [[Doxorubicin co-treated with methylselenic acid] results in increased cleavage of and results in increased activity of CASP9 protein]; methylselenic acid results in increased cleavage of and results in increased activity of CASP9 protein [methylselenic acid results in increased cleavage of CASP9 protein] which results in increased cleavage of CASP8 protein; methylselenic acid results in increased cleavage of CASP9 protein methylselenic acid results in increased expression of CASP9 mRNA
methylselenic acid affects the expression of CCND1 mRNA methylselenic acid affects the expression of CCND1 protein methylselenic acid results in decreased expression of CCND1 mRNA [2,5,7,8-tetramethyl-2R-(4R,8R,12-trimethyltridecyl)chroman-6-yloxy acetic acid co-treated with methylselenic acid co-treated with resveratrol] results in decreased expression of CCND1 protein; KLF4 protein affects the reaction [methylselenic acid results in decreased expression of CCND1 mRNA]; methylselenic acid promotes the reaction [CDKN2A protein binds to CDK4 protein binds to CCND1 protein]; methylselenic acid results in decreased activity of [CDKN2A protein binds to CDK4 protein binds to CCND1 protein]
methylselenic acid affects the expression of CDC25A mRNA methylselenic acid results in decreased expression of CDC25A mRNA; methylselenic acid results in decreased expression of CDC25A protein
HSPA5 protein affects the reaction [methylselenic acid results in decreased expression of CDK1 protein] methylselenic acid results in decreased expression of CDK1 mRNA; methylselenic acid results in decreased expression of CDK1 protein
HSPA5 protein affects the reaction [methylselenic acid results in decreased expression of CDK2 protein]; methylselenic acid promotes the reaction [CDKN1A protein binds to CDKN1B protein binds to CDK2 protein]; methylselenic acid results in decreased activity of [CDKN1A protein binds to CDKN1B protein binds to CDK2 protein] methylselenic acid results in decreased expression of CDK2 mRNA; methylselenic acid results in decreased expression of CDK2 protein
methylselenic acid promotes the reaction [CDKN2A protein binds to CDK4 protein binds to CCND1 protein]; methylselenic acid results in decreased activity of [CDKN2A protein binds to CDK4 protein binds to CCND1 protein] methylselenic acid results in decreased expression of CDK4 mRNA
methylselenic acid promotes the reaction [CDKN2A protein binds to CDK6 protein]; methylselenic acid results in decreased activity of [CDKN2A protein binds to CDK6 protein]
DDIT3 protein affects the reaction [methylselenic acid results in increased expression of CDKN1A mRNA]; DDIT3 protein affects the reaction [methylselenic acid results in increased expression of CDKN1A protein]; HSPA5 protein affects the reaction [methylselenic acid results in increased expression of CDKN1A protein]; KLF4 protein affects the reaction [methylselenic acid results in increased expression of CDKN1A mRNA]; methylselenic acid promotes the reaction [CDKN1A protein binds to CDKN1B protein binds to CDK2 protein]; methylselenic acid results in decreased activity of [CDKN1A protein binds to CDKN1B protein binds to CDK2 protein]; methylselenic acid results in increased expression of and results in decreased degradation of CDKN1A protein methylselenic acid affects the expression of CDKN1A protein methylselenic acid results in increased expression of CDKN1A mRNA; methylselenic acid results in increased expression of CDKN1A protein methylselenic acid affects the expression of CDKN1A mRNA
KLF4 protein affects the reaction [methylselenic acid results in increased expression of CDKN1B mRNA]; methylselenic acid promotes the reaction [CDKN1A protein binds to CDKN1B protein binds to CDK2 protein]; methylselenic acid results in decreased activity of [CDKN1A protein binds to CDKN1B protein binds to CDK2 protein] methylselenic acid affects the expression of CDKN1B protein methylselenic acid results in increased expression of CDKN1B mRNA; methylselenic acid results in increased expression of CDKN1B protein
methylselenic acid promotes the reaction [CDKN2A protein binds to CDK4 protein binds to CCND1 protein]; methylselenic acid promotes the reaction [CDKN2A protein binds to CDK6 protein]; methylselenic acid results in decreased activity of [CDKN2A protein binds to CDK4 protein binds to CCND1 protein]; methylselenic acid results in decreased activity of [CDKN2A protein binds to CDK6 protein] methylselenic acid results in increased expression of CDKN2A protein
[2,5,7,8-tetramethyl-2R-(4R,8R,12-trimethyltridecyl)chroman-6-yloxy acetic acid co-treated with methylselenic acid co-treated with resveratrol] results in decreased expression of CFLAR protein
DDIT3 protein affects the reaction [methylselenic acid results in increased expression of CDKN1A mRNA]; DDIT3 protein affects the reaction [methylselenic acid results in increased expression of CDKN1A protein]; HSPA5 protein inhibits the reaction [methylselenic acid results in increased expression of DDIT3 protein] methylselenic acid results in increased expression of DDIT3 mRNA; methylselenic acid results in increased expression of DDIT3 protein
methylselenic acid affects the expression of E2F1 mRNA methylselenic acid promotes the reaction [E2F1 protein binds to RB1 protein] methylselenic acid results in decreased expression of E2F1 mRNA; methylselenic acid results in decreased expression of E2F1 protein
HSPA5 protein inhibits the reaction [methylselenic acid results in increased phosphorylation of EIF2AK3 protein]; methylselenic acid results in increased phosphorylation of and results in increased activity of EIF2AK3 protein
[methylselenic acid co-treated with afimoxifene] results in decreased expression of ESR1 mRNA; [methylselenic acid co-treated with afimoxifene] results in decreased expression of ESR1 protein; methylselenic acid inhibits the reaction [Estradiol binds to ESR1 protein]; methylselenic acid results in decreased expression of and results in decreased activity of ESR1 protein methylselenic acid results in decreased expression of ESR1 mRNA; methylselenic acid results in decreased expression of ESR1 protein
methylselenic acid inhibits the reaction [Doxorubicin results in increased phosphorylation of GSK3B protein] methylselenic acid results in decreased phosphorylation of GSK3B protein
methylselenic acid affects the expression of GUCY1A1 mRNA methylselenic acid results in decreased expression of GUCY1A1 mRNA AR protein inhibits the reaction [methylselenic acid results in decreased expression of GUCY1A1 mRNA]
methylselenic acid results in increased expression of HSP90B1 protein HSPA5 protein inhibits the reaction [methylselenic acid results in increased expression of HSP90B1 protein]
HSPA5 protein affects the reaction [methylselenic acid results in decreased expression of CDK1 protein]; HSPA5 protein affects the reaction [methylselenic acid results in decreased expression of CDK2 protein]; HSPA5 protein affects the reaction [methylselenic acid results in increased expression of CDKN1A protein]; HSPA5 protein inhibits the reaction [methylselenic acid results in increased cleavage of CASP12 protein]; HSPA5 protein inhibits the reaction [methylselenic acid results in increased cleavage of CASP7 protein]; HSPA5 protein inhibits the reaction [methylselenic acid results in increased cleavage of PARP1 protein]; HSPA5 protein inhibits the reaction [methylselenic acid results in increased expression of DDIT3 protein]; HSPA5 protein inhibits the reaction [methylselenic acid results in increased expression of HSP90B1 protein]; HSPA5 protein inhibits the reaction [methylselenic acid results in increased expression of HSPA5 protein]; HSPA5 protein inhibits the reaction [methylselenic acid results in increased phosphorylation of EIF2A protein]; HSPA5 protein inhibits the reaction [methylselenic acid results in increased phosphorylation of EIF2AK3 protein]; methylselenic acid inhibits the reaction [CASP7 protein binds to HSPA5 protein] methylselenic acid results in increased expression of HSPA5 mRNA; methylselenic acid results in increased expression of HSPA5 protein
KLF4 protein affects the reaction [methylselenic acid results in decreased expression of CCND1 mRNA]; KLF4 protein affects the reaction [methylselenic acid results in increased expression of CDKN1A mRNA]; KLF4 protein affects the reaction [methylselenic acid results in increased expression of CDKN1B mRNA] methylselenic acid results in increased expression of KLF4 mRNA methylselenic acid results in increased activity of KLF4 protein methylselenic acid affects the expression of KLF4 mRNA
AR protein inhibits the reaction [methylselenic acid results in decreased expression of KLK3 mRNA]; methylselenic acid inhibits the reaction [Dihydrotestosterone inhibits the reaction [NCOR1 protein binds to KLK3 promoter]]; methylselenic acid inhibits the reaction [Dihydrotestosterone inhibits the reaction [NCOR2 protein binds to KLK3 promoter]]; methylselenic acid inhibits the reaction [Dihydrotestosterone promotes the reaction [AR protein binds to KLK3 promoter]]; methylselenic acid inhibits the reaction [Dihydrotestosterone promotes the reaction [NCOA1 protein binds to KLK3 promoter]]; methylselenic acid inhibits the reaction [Dihydrotestosterone promotes the reaction [NCOA2 protein binds to KLK3 promoter]]; methylselenic acid inhibits the reaction [mibolerone results in increased expression of KLK3 mRNA]; methylselenic acid results in increased degradation of and results in decreased expression of and results in decreased secretion of KLK3 protein methylselenic acid results in decreased expression of KLK3 mRNA; methylselenic acid results in decreased expression of KLK3 protein methylselenic acid affects the expression of KLK3 mRNA methylselenic acid results in decreased secretion of KLK3 protein
methylselenic acid affects the expression of MYC mRNA methylselenic acid inhibits the reaction [afimoxifene results in increased expression of MYC mRNA]; methylselenic acid inhibits the reaction [Estradiol results in increased expression of MYC mRNA]
[2,5,7,8-tetramethyl-2R-(4R,8R,12-trimethyltridecyl)chroman-6-yloxy acetic acid co-treated with methylselenic acid co-treated with resveratrol] results in increased cleavage of PARP1 protein; [Doxorubicin co-treated with methylselenic acid] results in increased degradation of PARP1 protein; AKT1 protein modified form inhibits the reaction [[Doxorubicin co-treated with methylselenic acid] results in increased degradation of PARP1 protein]; BCL2L11 protein promotes the reaction [[Doxorubicin co-treated with methylselenic acid] results in increased degradation of PARP1 protein]; HSPA5 protein inhibits the reaction [methylselenic acid results in increased cleavage of PARP1 protein]; SB 216763 inhibits the reaction [[Doxorubicin co-treated with methylselenic acid] results in increased degradation of PARP1 protein]
methylselenic acid promotes the reaction [E2F1 protein binds to RB1 protein]; methylselenic acid results in decreased phosphorylation of and results in increased expression of RB1 protein
methylselenic acid inhibits the reaction [afimoxifene results in increased expression of TFF1 mRNA]; methylselenic acid inhibits the reaction [Estradiol results in increased expression of TFF1 mRNA]
selenomethylselenocysteine results in decreased expression of BCL2 mRNA selenomethylselenocysteine results in decreased expression of BCL2 protein [selenomethylselenocysteine results in decreased expression of BCL2 mRNA] which results in increased activity of TNFSF10 protein
4-(4-((5-(4,5-dimethyl-2-nitrophenyl)-2-furanyl)methylene)-4,5-dihydro-3-methyl-5-oxo-1H-pyrazol-1-yl)benzoic acid inhibits the reaction [selenomethylselenocysteine metabolite results in increased expression of BMF mRNA]; BMF protein promotes the reaction [selenomethylselenocysteine metabolite results in increased expression of CASP3 protein modified form]; BMF protein promotes the reaction [selenomethylselenocysteine metabolite results in increased expression of CASP6 protein modified form]; BMF protein promotes the reaction [selenomethylselenocysteine metabolite results in increased expression of CASP9 protein modified form]; BMF protein promotes the reaction [selenomethylselenocysteine metabolite results in increased expression of PARP1 protein modified form]; HDAC8 inhibits the reaction [selenomethylselenocysteine metabolite results in increased expression of BMF mRNA]; selenomethylselenocysteine metabolite inhibits the reaction [HDAC8 protein binds to BMF promoter]; selenomethylselenocysteine metabolite inhibits the reaction [STAT3 protein binds to BMF promoter]; selenomethylselenocysteine metabolite promotes the reaction [EP300 protein binds to BMF promoter]; selenomethylselenocysteine metabolite promotes the reaction [SP3 protein binds to BMF promoter]; STAT3 protein inhibits the reaction [selenomethylselenocysteine metabolite results in increased expression of BMF mRNA] selenomethylselenocysteine metabolite results in increased expression of BMF protein selenomethylselenocysteine metabolite results in increased expression of BMF mRNA; selenomethylselenocysteine metabolite results in increased expression of BMF protein
selenomethylselenocysteine results in increased activity of CASP3 protein selenomethylselenocysteine metabolite results in increased expression of CASP3 protein modified form BMF protein promotes the reaction [selenomethylselenocysteine metabolite results in increased expression of CASP3 protein modified form]
selenomethylselenocysteine metabolite results in increased expression of CASP6 protein modified form BMF protein promotes the reaction [selenomethylselenocysteine metabolite results in increased expression of CASP6 protein modified form]
selenomethylselenocysteine results in decreased expression of CCND1 protein selenomethylselenocysteine results in decreased expression of CCND1 mRNA; selenomethylselenocysteine results in decreased expression of CCND1 protein [selenomethylselenocysteine co-treated with Tamoxifen] results in decreased expression of CCND1 protein
selenomethylselenocysteine metabolite results in increased expression of CDKN1A protein [Aminooxyacetic Acid results in decreased metabolism of selenomethylselenocysteine] which results in decreased expression of CDKN1A protein
selenomethylselenocysteine results in decreased expression of COL1A1 mRNA; selenomethylselenocysteine results in decreased expression of COL1A1 protein
selenomethylselenocysteine results in decreased expression of COL1A2 mRNA; selenomethylselenocysteine results in decreased expression of COL1A2 protein
selenomethylselenocysteine results in decreased expression of ESR1 protein [selenomethylselenocysteine co-treated with Tamoxifen] results in decreased expression of ESR1 protein
selenomethylselenocysteine results in increased activity of GPX1 protein selenomethylselenocysteine results in increased expression of GPX1 mRNA; selenomethylselenocysteine results in increased expression of GPX1 protein
HDAC8 inhibits the reaction [selenomethylselenocysteine metabolite results in increased expression of BMF mRNA]; selenomethylselenocysteine metabolite inhibits the reaction [HDAC8 protein binds to BMF promoter]
[selenomethylselenocysteine co-treated with Tamoxifen] results in decreased expression of MKI67 protein selenomethylselenocysteine results in decreased expression of MKI67 protein
selenomethylselenocysteine inhibits the reaction [Lipopolysaccharides results in increased expression of NOS2 mRNA]; selenomethylselenocysteine inhibits the reaction [Lipopolysaccharides results in increased expression of NOS2 protein]
[Aminooxyacetic Acid results in decreased metabolism of selenomethylselenocysteine] which results in decreased expression of PARP1 protein modified form; BMF protein promotes the reaction [selenomethylselenocysteine metabolite results in increased expression of PARP1 protein modified form]
selenomethylselenocysteine results in decreased expression of PGR protein [selenomethylselenocysteine co-treated with Tamoxifen] results in decreased expression of PGR protein
selenomethylselenocysteine metabolite inhibits the reaction [STAT3 protein binds to BMF promoter]; STAT3 protein inhibits the reaction [selenomethylselenocysteine metabolite results in increased expression of BMF mRNA]
selenomethylselenocysteine results in decreased expression of BCL2 mRNA [selenomethylselenocysteine results in decreased expression of BCL2 mRNA] which results in increased activity of TNFSF10 protein selenomethylselenocysteine results in decreased expression of BCL2 protein
4-(4-((5-(4,5-dimethyl-2-nitrophenyl)-2-furanyl)methylene)-4,5-dihydro-3-methyl-5-oxo-1H-pyrazol-1-yl)benzoic acid inhibits the reaction [selenomethylselenocysteine metabolite results in increased expression of BMF mRNA]; BMF protein promotes the reaction [selenomethylselenocysteine metabolite results in increased expression of CASP3 protein modified form]; BMF protein promotes the reaction [selenomethylselenocysteine metabolite results in increased expression of CASP6 protein modified form]; BMF protein promotes the reaction [selenomethylselenocysteine metabolite results in increased expression of CASP9 protein modified form]; BMF protein promotes the reaction [selenomethylselenocysteine metabolite results in increased expression of PARP1 protein modified form]; HDAC8 inhibits the reaction [selenomethylselenocysteine metabolite results in increased expression of BMF mRNA]; selenomethylselenocysteine metabolite inhibits the reaction [HDAC8 protein binds to BMF promoter]; selenomethylselenocysteine metabolite inhibits the reaction [STAT3 protein binds to BMF promoter]; selenomethylselenocysteine metabolite promotes the reaction [EP300 protein binds to BMF promoter]; selenomethylselenocysteine metabolite promotes the reaction [SP3 protein binds to BMF promoter]; STAT3 protein inhibits the reaction [selenomethylselenocysteine metabolite results in increased expression of BMF mRNA] selenomethylselenocysteine metabolite results in increased expression of BMF mRNA; selenomethylselenocysteine metabolite results in increased expression of BMF protein
selenomethylselenocysteine results in increased activity of CASP3 protein BMF protein promotes the reaction [selenomethylselenocysteine metabolite results in increased expression of CASP3 protein modified form]
selenomethylselenocysteine metabolite results in increased expression of CASP6 protein modified form BMF protein promotes the reaction [selenomethylselenocysteine metabolite results in increased expression of CASP6 protein modified form]
selenomethylselenocysteine results in decreased expression of CCND1 protein [selenomethylselenocysteine co-treated with Tamoxifen] results in decreased expression of CCND1 protein selenomethylselenocysteine results in decreased expression of CCND1 mRNA; selenomethylselenocysteine results in decreased expression of CCND1 protein
selenomethylselenocysteine metabolite results in increased expression of CDKN1A protein [Aminooxyacetic Acid results in decreased metabolism of selenomethylselenocysteine] which results in decreased expression of CDKN1A protein
selenomethylselenocysteine results in decreased expression of COL1A1 mRNA; selenomethylselenocysteine results in decreased expression of COL1A1 protein
selenomethylselenocysteine results in decreased expression of COL1A2 mRNA; selenomethylselenocysteine results in decreased expression of COL1A2 protein
selenomethylselenocysteine results in decreased expression of ESR1 protein [selenomethylselenocysteine co-treated with Tamoxifen] results in decreased expression of ESR1 protein
selenomethylselenocysteine results in increased activity of GPX1 protein selenomethylselenocysteine results in increased expression of GPX1 mRNA; selenomethylselenocysteine results in increased expression of GPX1 protein
HDAC8 inhibits the reaction [selenomethylselenocysteine metabolite results in increased expression of BMF mRNA]; selenomethylselenocysteine metabolite inhibits the reaction [HDAC8 protein binds to BMF promoter]
[selenomethylselenocysteine co-treated with Tamoxifen] results in decreased expression of MKI67 protein selenomethylselenocysteine results in decreased expression of MKI67 protein
selenomethylselenocysteine inhibits the reaction [Lipopolysaccharides results in increased expression of NOS2 mRNA]; selenomethylselenocysteine inhibits the reaction [Lipopolysaccharides results in increased expression of NOS2 protein]
[Aminooxyacetic Acid results in decreased metabolism of selenomethylselenocysteine] which results in decreased expression of PARP1 protein modified form; BMF protein promotes the reaction [selenomethylselenocysteine metabolite results in increased expression of PARP1 protein modified form]
selenomethylselenocysteine results in decreased expression of PGR protein [selenomethylselenocysteine co-treated with Tamoxifen] results in decreased expression of PGR protein
selenomethylselenocysteine metabolite inhibits the reaction [STAT3 protein binds to BMF promoter]; STAT3 protein inhibits the reaction [selenomethylselenocysteine metabolite results in increased expression of BMF mRNA]
NFE2L2 mutant form inhibits the reaction [selenocystine results in increased expression of GCLC mRNA]; NFE2L2 mutant form inhibits the reaction [selenocystine results in increased expression of NQO1 mRNA]; NFE2L2 mutant form inhibits the reaction [selenocystine results in increased expression of TXNRD1 mRNA] selenocystine affects the localization of NFE2L2 protein
NFE2L2 mutant form inhibits the reaction [selenocystine results in increased expression of NQO1 mRNA] selenocystine results in increased expression of NQO1 protein selenocystine affects the expression of NQO1 mRNA
TXNRD1 protein results in decreased susceptibility to selenocystine selenocystine results in increased expression of TXNRD1 mRNA; selenocystine results in increased expression of TXNRD1 protein NFE2L2 mutant form inhibits the reaction [selenocystine results in increased expression of TXNRD1 mRNA]
AR protein promotes the reaction [Selenomethionine results in decreased expression of KLK3 protein]; AR protein promotes the reaction [Selenomethionine results in increased expression of TP53 mRNA] Selenomethionine results in decreased activity of AR protein
Selenomethionine inhibits the reaction [T-2 Toxin results in increased expression of DDIT3 mRNA]; Selenomethionine inhibits the reaction [T-2 Toxin results in increased expression of DDIT3 protein]
Selenomethionine inhibits the reaction [Lipopolysaccharides affects the localization of and affects the activity of FOS protein]; Selenomethionine inhibits the reaction [Peroxynitrous Acid affects the localization of and affects the activity of FOS protein]
Selenomethionine affects the expression of GPX1 mRNA Selenomethionine results in increased expression of GPX1 mRNA [SOD2 protein polymorphism affects the susceptibility to Selenomethionine analog] which affects the expression of GPX1 mRNA Selenomethionine results in increased activity of GPX1 protein Selenomethionine inhibits the reaction [Diethylhexyl Phthalate results in decreased activity of GPX1 protein]; Selenomethionine inhibits the reaction [mono-(2-ethylhexyl)phthalate results in decreased activity of GPX1 protein] Selenomethionine inhibits the reaction [APP protein results in decreased expression of and results in decreased activity of GPX1 protein] Selenomethionine results in increased expression of GPX1 mRNA; Selenomethionine results in increased expression of GPX1 protein
Selenomethionine results in decreased methylation of GSTP1 promoter Selenomethionine results in increased expression of GSTP1 mRNA; Selenomethionine results in increased expression of GSTP1 protein
Selenomethionine inhibits the reaction [T-2 Toxin results in increased expression of HSPA5 mRNA]; Selenomethionine inhibits the reaction [T-2 Toxin results in increased expression of HSPA5 protein]
Selenomethionine inhibits the reaction [sodium arsenite results in decreased secretion of IFNG protein] Selenomethionine results in decreased secretion of IFNG protein
Selenomethionine inhibits the reaction [sodium arsenite results in decreased secretion of IL4 protein] Selenomethionine results in decreased secretion of IL4 protein
Selenomethionine results in decreased expression of KLK3 protein AR protein promotes the reaction [Selenomethionine results in decreased expression of KLK3 protein]
Selenomethionine inhibits the reaction [Lipopolysaccharides affects the localization of and affects the activity of RELA protein]; Selenomethionine inhibits the reaction [Peroxynitrous Acid affects the localization of and affects the activity of RELA protein] Selenomethionine results in increased phosphorylation of RELA protein
Selenomethionine affects the localization of SOD1 protein Selenomethionine results in decreased expression of SOD1 protein [SOD2 protein polymorphism affects the susceptibility to Selenomethionine analog] which affects the expression of SOD1 mRNA
Selenomethionine results in increased expression of SOD2 protein SOD2 protein polymorphism affects the susceptibility to Selenomethionine analog [SOD2 protein polymorphism affects the susceptibility to Selenomethionine analog] which affects the expression of CAT mRNA; [SOD2 protein polymorphism affects the susceptibility to Selenomethionine analog] which affects the expression of GPX1 mRNA; [SOD2 protein polymorphism affects the susceptibility to Selenomethionine analog] which affects the expression of SOD1 mRNA; [SOD2 protein polymorphism affects the susceptibility to Selenomethionine analog] which affects the expression of SOD2 mRNA
AR protein promotes the reaction [Selenomethionine results in increased expression of TP53 mRNA]; Selenomethionine inhibits the reaction [mono-(2-ethylhexyl)phthalate results in increased activity of TP53 protein] Selenomethionine results in decreased expression of TRP53 protein Diethylhexyl Phthalate inhibits the reaction [Selenomethionine results in decreased expression of TRP53 protein]; Selenomethionine inhibits the reaction [mono-(2-ethylhexyl)phthalate results in increased expression of TRP53 protein] Selenomethionine results in decreased activity of TP53 protein
Selenomethionine results in increased glutathionylation of TUBA4A protein Selenomethionine promotes the reaction [TUBA4A protein binds to FUS protein]; Selenomethionine promotes the reaction [TUBA4A protein binds to TIA1 protein]; TUBA4A mutant form results in increased abundance of [Selenomethionine binds to Selenium]
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