Histamine H1 receptor: Difference between revisions
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<scene name='78/784820/Doxepin_ball_stick/1'>Doxepin</scene> was originally made as a tricyclic antidepressant, but it also is a potent antihistamine <ref>PMID: 39202</ref> binds among the transmembrane alpha helices. Binding is stabilized by a number of <scene name='78/784820/Interacting_amino_acids/4'>interactions with amino acids</scene>. Like many G protein coupled receptors, the bottom of the binding pocket contains a conserved <scene name='78/784820/Trp_428/1'>tryptophan</scene> residue. Interestingly, second generation antihistamines take advantage of an anion binding site formed by <scene name='78/784820/Lys/2'>two lysine residues</scene>; in this structure, they interact with a phosphate. | <scene name='78/784820/Doxepin_ball_stick/1'>Doxepin</scene> was originally made as a tricyclic antidepressant, but it also is a potent antihistamine <ref>PMID: 39202</ref> binds among the transmembrane alpha helices. Binding is stabilized by a number of <scene name='78/784820/Interacting_amino_acids/4'>interactions with amino acids</scene>. Like many G protein coupled receptors, the bottom of the binding pocket contains a conserved <scene name='78/784820/Trp_428/1'>tryptophan</scene> residue. Interestingly, second generation antihistamines take advantage of an anion binding site formed by <scene name='78/784820/Lys/2'>two lysine residues</scene>; in this structure, they interact with a phosphate. | ||
Like other [[G protein-coupled receptor]]s, the Histamine H1 Receptor contains a <scene name='78/784820/Dry_motif/1'>conserved DRY</scene> (aspartate (D), arginine (R), tyrosine (Y)) motif in the seven helix transmembrane surface near the cytosolic face. In some G protein receptors, an "ionic lock" interaction between the asparate and arginine in this motif stabilizes the inactive state<ref>PMID:17192495</ref>; however, in the Histamine H1 receptor, Arginine 125 forms a hydrogen bond with <scene name='78/784820/Arg125_gln_416_salt_bridge/1'>glutamine 416</scene>, which stabilizes the inactive state. | Like other [[G protein-coupled receptor]]s, the Histamine H1 Receptor contains a <scene name='78/784820/Dry_motif/1'>conserved DRY</scene> (aspartate (D), arginine (R), tyrosine (Y)) motif in the seven helix transmembrane surface near <scene name='78/784820/Dry_motif/4'>the cytosolic face</scene>. In some G protein receptors, an "ionic lock" interaction between the asparate and arginine in this motif stabilizes the inactive state<ref>PMID:17192495</ref>; however, in the Histamine H1 receptor, Arginine 125 forms a hydrogen bond with <scene name='78/784820/Arg125_gln_416_salt_bridge/1'>glutamine 416</scene>, which stabilizes the inactive state. | ||
See also: | See also: | ||