Receptors

Olfactory Receptors (ORs) are the physical barriers between the environment and the brain. ORs are members of the GPCR-rhodopsin family, which is involved in cell recognition, signal transduction activation, and sense mediation. OR is made up of seven transmembrane (TM) helical domains bound by three putative extracellular loops (EL) and three putative intracellular loops (IL), an extracellular N-terminus, and an intracellular C-terminus. At the intersection of TM3 and IL2, the intracellular loop includes a conserved sequence motif, the aspartate-arginine-tyrosine (DRY) amino acid motif, which is a hallmark of GPCRs. The TM1, TM2, and TM7 are all conserved. The binding site specificity is determined by the amino acid side chains of the central TM domains, which are structurally diverse. The binding pocket of ORs has a hydrophobic environment, indicative of hydrophobic interactions between odorants and ORs. The binding specificity of ORs is influenced not only by the central TM-domains hyper-variable region, but also by the N-termini and C-termini. Both terminals are small, with only about 20 amino acids each. The conserved cysteine residues in the EL1 and EL2-loops are involved in inter- and intramolecular disulphide linkages. One of the three cysteine restudies in EL2-loop has a specific role. A metal binding site is formed by the sequence motif (HXXC[DE]) in EL2-loop. On binding with Zn(II) or Cu, the EL2-loop transforms into a -helical structure confirmation (eighth helix) (II).When an odorant with a high affinity for metal ions replaces one of the metal-ligated amino acids in the EL2-loop, ORs undergo structural rearrangement, which is necessary for the activation of G-olf proteins attached to OR receptors. On the cytoplasmic side of the TM domains, the sequence motifs KAFSTC, PMYFFL, and YRDYAM play a role in OR folding and activation. The amino acid residues on the extracellular side of TM domains are variable, indicating a wide range of possible odorant recognition sites.

OlfactionBase lists 2067 ORs from two species (Human (851) and Mus musculus (1216)).

receptors
Sr. No Receptor Organism Length Chromosome Family Sub Family UniProt GenBank #Odorants Details
1876 MOR256-20 Mus musculus 312 17 2 H Q7TRL3 NM_182714 0 View
1877 MOR256-21 Mus musculus 310 17 2 H Q0VEL5 NM_146477 0 View
1878 MOR218-9 Mus musculus 312 17 14 J Q8VEU4 NM_146289 0 View
1879 MOR218-10 Mus musculus 312 17 14 J Q923Q8 NM_146287 0 View
1880 MOR263-3 Mus musculus 330 17 10 A Q8VFQ2 NM_146631 0 View
1881 MOR263-4 Mus musculus 321 17 10 A Q8VFQ0 NM_146629 0 View
1882 MOR263-10 Mus musculus 321 17 10 A Q7TRJ3 NM_146288 0 View
1883 MOR256-9 Mus musculus 309 17 2 G Q8VFQ1 NM_146630 0 View
1884 MOR256-3 Mus musculus 315 17 2 B Q8VGW6 NM_147062 5 View
1885 MOR218-8 Mus musculus 320 17 14 J Q14AJ9 NM_146290 0 View
1886 MOR218-1 Mus musculus 319 17 14 J Q8VGF0 NM_146890 0 View
1887 MOR263-9 Mus musculus 321 17 10 A Q7TRI9 NM_146327 0 View
1888 MOR121-1 Mus musculus 313 17 11 A Q8VFE3 NM_146514 0 View
1889 MOR156-2 Mus musculus 310 17 1 O Q8VFE1 NM_146512 0 View
1890 MOR250-3 Mus musculus 313 17 12 D Q920Y8 NM_146833 0 View
1891 MOR156-3 Mus musculus 309 17 1 O Q7TRK4 NM_146511 0 View
1892 MOR250-1 Mus musculus 314 17 12 D Q8VG96 NM_146835 5 View
1893 MOR267-1 Mus musculus 316 17 10 H Q8VBW9 NM_146937 0 View
1894 MOR250-2 Mus musculus 308 17 12 D Q920Z0 NM_146834 0 View
1895 MOR156-1 Mus musculus 305 17 1 O Q8VFE4 NM_146515 0 View
1896 MOR263-6 Mus musculus 312 17 10 C Q8VFE2 NM_146513 0 View
1897 MOR156-4 Mus musculus 309 17 1 O Q8VFD9 NM_146510 0 View
1898 MOR218-7 Mus musculus 323 17 14 J Q8VF25 NM_146377 0 View
1899 MOR256-4 Mus musculus 314 17 2 Y Q8VGC8 NM_146867 0 View
1900 MOR256-18 Mus musculus 312 17 2 J Q8VFC2 NM_146488 0 View
Showing 1876 to 1900 of total 2067 entries