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Journal Abstract Search

171 related items for PubMed ID: 6279654

  • 1. The hepatic angiotensin II receptor. II. Effect of guanine nucleotides and interaction with cyclic AMP production.
    Crane JK, Campanile CP, Garrison JC.
    J Biol Chem; 1982 May 10; 257(9):4959-65. PubMed ID: 6279654
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  • 2. Role of Ni in coupling angiotensin receptors to inhibition of adenylate cyclase in hepatocytes.
    Pobiner BF, Hewlett EL, Garrison JC.
    J Biol Chem; 1985 Dec 25; 260(30):16200-9. PubMed ID: 2999149
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  • 3. Evidence for agonist-induced interaction of angiotensin receptor with a guanine nucleotide-binding protein in bovine adrenal zona glomerulosa.
    De Léan A, Ong H, Gutkowska J, Schiller PW, McNicoll N.
    Mol Pharmacol; 1984 Nov 25; 26(3):498-508. PubMed ID: 6092899
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  • 4. Hepatic vasopressin receptor: differential effects of divalent cations, guanine nucleotides, and N-ethylmaleimide on agonist and antagonist interactions with the V1 subtype receptor.
    Gopalakrishnan V, McNeill JR, Sulakhe PV, Triggle CR.
    Endocrinology; 1988 Aug 25; 123(2):922-31. PubMed ID: 2969327
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  • 5. Effects of monovalent and divalent cations and of guanine nucleotides on binding of vasopressin to the rat mesenteric vasculature.
    Larivière R, Schiffrin EL.
    Can J Physiol Pharmacol; 1987 Jun 25; 65(6):1171-81. PubMed ID: 2957041
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  • 12. The bombesin receptor is coupled to a guanine nucleotide-binding protein which is insensitive to pertussis and cholera toxins.
    Fischer JB, Schonbrunn A.
    J Biol Chem; 1988 Feb 25; 263(6):2808-16. PubMed ID: 2830264
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  • 13. Calcitonin gene-related peptide stimulates adenylate cyclase activation via a guanine nucleotide-dependent process in rat liver plasma membranes.
    Yamaguchi A, Chiba T, Yamatani T, Inui T, Morishita T, Nakamura A, Kadowaki S, Fukase M, Fujita T.
    Endocrinology; 1988 Nov 25; 123(5):2591-6. PubMed ID: 3049052
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  • 14. Hormone-stimulated polyphosphoinositide breakdown in rat liver plasma membranes. Roles of guanine nucleotides and calcium.
    Uhing RJ, Prpic V, Jiang H, Exton JH.
    J Biol Chem; 1986 Feb 15; 261(5):2140-6. PubMed ID: 3003097
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  • 15. Guanosine 5'-triphosphate and guanosine 5'-[beta gamma-imido]triphosphate effect a collision coupling mechanism between the glucagon receptor and catalytic unit of adenylate cyclase.
    Houslay MD, Dipple I, Elliott KR.
    Biochem J; 1980 Mar 15; 186(3):649-58. PubMed ID: 6249258
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  • 16. The inhibitory guanine nucleotide-binding regulatory component of adenylate cyclase. Subunit dissociation and the inhibition of adenylate cyclase in S49 lymphoma cyc- and wild type membranes.
    Katada T, Bokoch GM, Smigel MD, Ui M, Gilman AG.
    J Biol Chem; 1984 Mar 25; 259(6):3586-95. PubMed ID: 6142891
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  • 17. A guanine nucleotide-sensitive, glucagon-stimulated adenylyl cyclase in Candida albicans: effect of glucagon on cell morphology.
    Paveto C, Egidy G, Galvagno MA, Passeron S.
    Biochem Biophys Res Commun; 1990 Mar 30; 167(3):1177-83. PubMed ID: 2182026
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  • 18. Characterization of the rabbit ventricular myocardial receptor for angiotensin II. Evidence for two sites of different affinities and specificities.
    Wright GB, Alexander RW, Ekstein LS, Gimbrone MA.
    Mol Pharmacol; 1983 Sep 30; 24(2):213-21. PubMed ID: 6310363
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  • 19. Studies on the hepatic alpha 1-adrenergic receptor. Modulation of guanine nucleotide effects by calcium, temperature, and age.
    Lynch CJ, Charest R, Blackmore PF, Exton JH.
    J Biol Chem; 1985 Feb 10; 260(3):1593-600. PubMed ID: 2981866
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  • 20. The somatostatin receptor is directly coupled to adenylate cyclase in GH4C1 pituitary cell membranes.
    Koch BD, Schonbrunn A.
    Endocrinology; 1984 May 10; 114(5):1784-90. PubMed ID: 6143660
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