Human Interaction Network Ontology
36257 terms(s) returned
| Term Type: | Record: 14451 to 14500 of 36257 Records | Page: 290 of 726, First Previous Next Last | Show Records Per Page |
- Opioid receptors
- Opioid receptors bind opioid peptides
- Opioid:MOR
- Opioid:MOR:G protein-GDP complex
- Opioid:MOR:G protein-GTP complex
- Opioid:MOR:G-protein complex
- Opsins
- Opsins that act as GEFs for G alpha-t
- Opsins:photon
- Orai1 dimer
- Orc1 associates with Orc4:Orc5:Orc3:Orc2:origin complexes
- Orc1 is phosphorylated by cyclin A/CDK2
- Orc1 removal from chromatin
- Orc1:Orc4:Orc5:Orc3:Orc2:origin
- Orc2 associated with MCM8
- Orc2:origin
- Orc3 associates with Orc2 constitutively bound at origins of replication
- Orc3:Orc2:origin
- Orc4 associates with Orc5:Orc3:Orc2:origin complexes
- Orc4:Orc5:Orc3:Orc2:origin
- Orc5 associates with Orc3:Orc2:origin complexes
- Orc5:Orc3:Orc2:origin
- Orc6 associates with Orc1:Orc4:Orc5:Orc3:Orc2:origin complexes, forming ORC:origin complexes
- Orexin 1 receptor can bind orexin-A neuropeptide
- Orexin 1 receptor:Orexin A
- Orexin 2 receptor can bind orexin-B neuropeptide
- Orexin 2 receptor:Orexin B
- Orexin and neuropeptides FF and QRFP bind to their respective receptors
- Organic anion transport
- Organic anion transporters
- Organic cation transport
- Organic cation/anion/zwitterion transport
- Orthophosphate [cytosol]' is required for 'ribose-phosphate diphosphokinase activity of phosphoribosyl pyrophosphate synthetase 1 holoenzyme [cytosol]
- Other semaphorin interactions
- Overexpressed FGFR1
- Overexpressed FGFR1 homodimers
- Overexpressed FGFR1:TKIs
- Overexpressed FGFR2
- Overexpressed FGFR2 dimer
- Overexpressed FGFR2 homodimers
- Overexpressed FGFR2 homodimers:GP369
- Overexpressed FGFR2:TKIs
- Overexpressed FGFR3 mutant dimer
- Oxaloacetate + NADH + H+ <=> (S)-Malate + NAD+
- Oxidation of 22beta-hydroxycholesterol to 20alpha,22beta-hydroxycholesterol
- Oxidation of 3-Methoxytyramine to homovanillic acid
- Oxidation of Cysteine to Cystine in Proinsulin
- Oxidation of Fe2+ by ceruloplasmin
- Oxidation of Fe2+ by hephaestin
- Oxidation of abacavir to abacavir 5'-carboxylate