| P2860 | cites work | Genetic elucidation of human hyperosmia to isovaleric acid | Q21092752 |
| | Characterizing the expression of the human olfactory receptor gene family using a novel DNA microarray | Q21184121 |
| | Hereditary spastic paraplegia proteins REEP1, spastin, and atlastin-1 coordinate microtubule interactions with the tubular ER network | Q24301595 |
| | The human olfactory receptor gene family | Q24312045 |
| | RTP family members induce functional expression of mammalian odorant receptors | Q24315887 |
| | Loss of association of REEP2 with membranes leads to hereditary spastic paraplegia | Q24317205 |
| | Members of RTP and REEP gene families influence functional bitter taste receptor expression | Q24337758 |
| | Expression of members of the putative olfactory receptor gene family in mammalian germ cells | Q24338448 |
| | Better smelling through genetics: mammalian odor perception | Q24652727 |
| | A class of membrane proteins shaping the tubular endoplasmic reticulum | Q27940194 |
| | Genetic variation in a human odorant receptor alters odour perception | Q28249046 |
| | A novel multigene family may encode odorant receptors: a molecular basis for odor recognition | Q28276183 |
| | REEPs are membrane shaping adapter proteins that modulate specific g protein-coupled receptor trafficking by affecting ER cargo capacity | Q28507125 |
| | Mice deficient in G(olf) are anosmic | Q28512241 |
| | A second subunit of the olfactory cyclic nucleotide-gated channel confers high sensitivity to cAMP | Q28565745 |
| | Identification of a specialized adenylyl cyclase that may mediate odorant detection | Q28581625 |
| | ANO2 is the cilial calcium-activated chloride channel that may mediate olfactory amplification | Q28587956 |
| | Human olfactory receptor responses to odorants. | Q35632512 |
| | Heterotrimeric G-proteins: a short history | Q36364445 |
| | Heterotrimeric G protein activation by G-protein-coupled receptors | Q37017125 |
| | Monogenic and Monoallelic Expression of Odorant Receptors | Q38944569 |
| | Olfactory receptor trafficking involves conserved regulatory steps | Q40845252 |
| | Biochemical characterization of three stimulatory GTP-binding proteins. The large and small forms of Gs and the olfactory-specific G-protein, Golf | Q41743997 |
| | Functional expression of olfactory-adrenergic receptor chimeras and intracellular retention of heterologously expressed olfactory receptors | Q45345834 |
| | Odorant receptor localization to olfactory cilia is mediated by ODR-4, a novel membrane-associated protein. | Q45345836 |
| P703 | found in taxon | Homo sapiens | Q15978631 |
| P527 | has part(s) | ADCY3:GNAL:GTP converts ATP to cAMP | Q112996689 |
| | cAMP binds the olfactory CNG channel | Q112996690 |
| | odorant:Olfactory Receptor:GNAL:GTP:GNB1:GNG13 dissociates yielding GNAL:GTP (G alpha-olf:GTP), odorant:OlfactoryReceptor, and GNB1:GNG13 | Q112996692 |
| | odorant binds Odorant Receptor:GNAL:GDP:GNB1:GNGT1 | Q112996723 |
| | ANO2 dimer binds Ca2+ | Q112996725 |
| | ANO2:Ca2+ translocates Cl- from the cytosol to the extracellular region | Q112996727 |
| | cAMP:olfactory CNG channel translocates Na+ and Ca2+ from the extracellular region to the cytosol | Q112996728 |
| | GNAL exchanges GDP for GTP in odorant:Olfactory Receptor:GNAL:GDP:GNB1:GNG13 | Q112996734 |
| | GNAL:GTP (G alpha-olf) binds ADCY3 | Q112996736 |
| | Expression and translocation of olfactory receptors | Q113001263 |
| P361 | part of | Sensory Perception | Q106520219 |