Home
  >  
Section 74
  >  
Chapter 73,768

A polymorphism of the human β2-adrenergic receptor within the fourth transmembrane domain alters ligand binding and functional properties of the receptor

Green, S.A.; Cole, G.; Jacinto, M.; Innis, M.; Liggett, S.B.

Journal of Biological Chemistry 268(31): 23116-23121

1993

ISSN/ISBN: 0021-9258
Accession: 073767030
Download citation:  
Text
  |  
BibTeX
  |  
RIS

Full Text Article emailed within 1 workday
Payments are secure & encrypted
Powered by Stripe
Powered by PayPal

Related References

Green, S.A.; Cole, G.; Jacinto, M. 1993: A polymorphism of the human b2-adrenergic receptor within the fourth transmembrane domain alters ligand binding and functional properties of the receptor Journal of Biological Chemistry 268: 116-121
Green, S.A.; Cole, G.; Jacinto, M.; Innis, M.; Liggett, S.B. 1993: A polymorphism of the human beta 2-adrenergic receptor within the fourth transmembrane domain alters ligand binding and functional properties of the receptor Journal of Biological Chemistry 268(31): 23116-23121
Suzuki, T.; Namba, K.; Yamagishi, R.; Kaneko, H.; Haga, T.; Nakata, H. 2009: A highly conserved tryptophan residue in the fourth transmembrane domain of the a adenosine receptor is essential for ligand binding but not receptor homodimerization Journal of Neurochemistry 110(4): 1352-1362
Matsui, H.; Lefkowitz, J.Robert; Caron, M.G. 1989: Localization of the fourth membrane spanning domain as a ligand binding site in the human platelet a2-adrenergic receptor Biochemistry (American Chemical Society) 28: 25-30
Matsui, H.; Lefkowitz, R.J.; Caron, M.G.; Regan, J.W. 1989: Localization of the fourth membrane spanning domain as a ligand binding site in the human platelet alpha 2-adrenergic receptor Biochemistry 28(9): 4125-4130
Boucard, A.A.; Sauvé, S.S.; Guillemette, G.ét.; Escher, E.; Leduc, R. 2003: Photolabelling the rat urotensin II/GPR14 receptor identifies a ligand-binding site in the fourth transmembrane domain Biochemical Journal 370(Part 3): 829-838
Coopman, K.; Wallis, R.; Robb, G.; Brown, A.J.H.; Wilkinson, G.F.; Timms, D.; Willars, G.B. 2011: Residues within the transmembrane domain of the glucagon-like peptide-1 receptor involved in ligand binding and receptor activation: modelling the ligand-bound receptor Molecular Endocrinology 25(10): 1804-1818
Forfar, R.; Lu, Z-Liang. 2011: Role of the transmembrane domain 4/extracellular loop 2 junction of the human gonadotropin-releasing hormone receptor in ligand binding and receptor conformational selection Journal of Biological Chemistry 286(40): 34617-34626
Domazet, I.; Holleran, B.J.; Martin, S.ép.S.; Lavigne, P.; Leduc, R.; Escher, E.; Guillemette, G.ét. 2009: The second transmembrane domain of the human type 1 angiotensin Ii receptor participates in the formation of the ligand binding pocket and undergoes integral pivoting movement during the process of receptor activation Journal of Biological Chemistry 284(18): 11922-11929
Jacobs, M.N.; Dickins, M.; Lewis, D.F.V. 2003: Homology modelling of the nuclear receptors: human oestrogen receptorbeta (hERbeta), the human pregnane-X-receptor (PXR), the Ah receptor (AhR) and the constitutive androstane receptor (CAR) ligand binding domains from the human oestrogen receptor alpha (hERalpha) crystal structure, and the human peroxisome proliferator activated receptor alpha (PPARalpha) ligand binding domain from the human PPARgamma crystal structure Journal of Steroid Biochemistry and Molecular Biology 84(2-3): 117-132
Jacobs, M.N.; Dickins, M.; Lewis, D.F.V. 2003: Homology modelling of the nuclear receptors Human oestrogen receptorbeta , the human pregnane-X-receptor , the Ah receptor and the constitutive androstane receptor ligand binding domains from the human oestrogen receptor alpha crystal structure, and the human peroxisome proliferator activated receptor alpha ligand binding domain from the human PPARgamma crystal structure Journal of Steroid Biochemistry and Molecular Biology 84(2-3): 117-132
Jin, T.; Inouye, M. 1993: Ligand binding to the receptor domain regulates the ratio of kinase to phosphatase activities of the signaling domain of the hybrid Escherichia coli transmembrane receptor, Taz1 Journal of Molecular Biology 232(2): 484-492
Mouledous, L.; Topham, C.M.; Moisand, C.; Mollereau, C.; Meunier, J.C. 2000: Functional inactivation of the nociceptin receptor by alanine substitution of glutamine 286 at the C terminus of transmembrane segment VI: evidence from a site-directed mutagenesis study of the ORL1 receptor transmembrane-binding domain Molecular Pharmacology 57(3): 495-502
Shyu, J.F.; Inoue, D.; Baron, R.; Horne, W.C. 1996: The deletion of 14 amino acids in the seventh transmembrane domain of a naturally occurring calcitonin receptor isoform alters ligand binding and selectively abolishes coupling to phospholipase C Journal of Biological Chemistry 271(49): 31127-31134
Lee, S.Y.; Zhu, S.Z.; el-Fakahany, E.E. 1996: Role of two highly conserved tyrosine residues in the m1 muscarinic receptor second transmembrane domain in ligand binding and receptor function Receptors and Signal Transduction 6(1): 43-52
Blüml, K.; Mutschler, E.; Wess, J. 1994: Functional role in ligand binding and receptor activation of an asparagine residue present in the sixth transmembrane domain of all muscarinic acetylcholine receptors Journal of Biological Chemistry 269(29): 18870-18876
Domazet, I.; Martin, S.ép.S.; Holleran, B.J.; Morin, M.-E.; Lacasse, P.; Lavigne, P.; Escher, E.; Leduc, R.; Guillemette, G.ét. 2009: The fifth transmembrane domain of angiotensin Ii Type 1 receptor participates in the formation of the ligand-binding pocket and undergoes a counterclockwise rotation upon receptor activation Journal of Biological Chemistry 284(46): 31953-31961
Zhang, R.; Hurst, D.P.; Barnett-Norris, J.; Reggio, P.H.; Song, Z.-H. 2005: Cysteine 2.59(89) in the second transmembrane domain of human CB2 receptor is accessible within the ligand binding crevice: evidence for possible CB2 deviation from a rhodopsin template Molecular Pharmacology 68(1): 69-83
Dallery, N.; Sablonniere, B.; Grillier, I.; Formstecher, P.; Dautrevaux, M. 1993: Purification and functional characterization of the ligand-binding domain from the retinoic acid receptor α : evidence that sulfhydryl groups are involved in ligand-receptor interactions Biochemistry (Easton) 32(46): 12428-12436
Dallery, N.; Sablonniere, B.; Grillier, I. 1993: Purification and functional characterization of the ligand-binding domain from the retinoic acid receptor a: evidence that sulfhydryl groups are involved in ligand-receptor interactions Biochemistry (American Chemical Society) 32: 428-36