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Journal Abstract Search

484 related items for PubMed ID: 17000774

  • 1. A novel cyclic AMP-dependent Epac-Rit signaling pathway contributes to PACAP38-mediated neuronal differentiation.
    Shi GX, Rehmann H, Andres DA.
    Mol Cell Biol; 2006 Dec; 26(23):9136-47. PubMed ID: 17000774
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  • 4. Rit contributes to nerve growth factor-induced neuronal differentiation via activation of B-Raf-extracellular signal-regulated kinase and p38 mitogen-activated protein kinase cascades.
    Shi GX, Andres DA.
    Mol Cell Biol; 2005 Jan; 25(2):830-46. PubMed ID: 15632082
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  • 7. Cyclic Adenosine 3',5'-Monophosphate Elevation and Biological Signaling through a Secretin Family Gs-Coupled G Protein-Coupled Receptor Are Restricted to a Single Adenylate Cyclase Isoform.
    Emery AC, Liu XH, Xu W, Eiden MV, Eiden LE.
    Mol Pharmacol; 2015 Jun; 87(6):928-35. PubMed ID: 25769305
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  • 8. Guanine nucleotide exchange factor Epac2-dependent activation of the GTP-binding protein Rap2A mediates cAMP-dependent growth arrest in neuroendocrine cells.
    Emery AC, Xu W, Eiden MV, Eiden LE.
    J Biol Chem; 2017 Jul 21; 292(29):12220-12231. PubMed ID: 28546426
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  • 9. Rap1-mediated activation of extracellular signal-regulated kinases by cyclic AMP is dependent on the mode of Rap1 activation.
    Wang Z, Dillon TJ, Pokala V, Mishra S, Labudda K, Hunter B, Stork PJ.
    Mol Cell Biol; 2006 Mar 21; 26(6):2130-45. PubMed ID: 16507992
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  • 10. Cyclic AMP induces integrin-mediated cell adhesion through Epac and Rap1 upon stimulation of the beta 2-adrenergic receptor.
    Rangarajan S, Enserink JM, Kuiperij HB, de Rooij J, Price LS, Schwede F, Bos JL.
    J Cell Biol; 2003 Feb 17; 160(4):487-93. PubMed ID: 12578910
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  • 11. Signaling cascades involved in neuroprotection by subpicomolar pituitary adenylate cyclase-activating polypeptide 38.
    Li M, David C, Kikuta T, Somogyvari-Vigh A, Arimura A.
    J Mol Neurosci; 2005 Feb 17; 27(1):91-105. PubMed ID: 16055949
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  • 15. Pituitary adenylate cyclase-activating peptide (PACAP) induces differentiation in the neuronal F11 cell line through a PKA-dependent pathway.
    McIlvain HB, Baudy A, Sullivan K, Liu D, Pong K, Fennell M, Dunlop J.
    Brain Res; 2006 Mar 10; 1077(1):16-23. PubMed ID: 16487495
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  • 16. Differential Pharmacophore Definition of the cAMP Binding Sites of Neuritogenic cAMP Sensor-Rapgef2, Protein Kinase A, and Exchange Protein Activated by cAMP in Neuroendocrine Cells Using an Adenine-Based Scaffold.
    Emery AC, Alvarez RA, Eiden MV, Xu W, Siméon FG, Eiden LE.
    ACS Chem Neurosci; 2017 Jul 19; 8(7):1500-1509. PubMed ID: 28290664
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  • 17. Cyclic AMP-dependent protein kinase A and EPAC mediate VIP and secretin stimulation of PAK4 and activation of Na+,K+-ATPase in pancreatic acinar cells.
    Ramos-Alvarez I, Lee L, Jensen RT.
    Am J Physiol Gastrointest Liver Physiol; 2019 Feb 01; 316(2):G263-G277. PubMed ID: 30520694
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  • 18. Cell physiology of cAMP sensor Epac.
    Holz GG, Kang G, Harbeck M, Roe MW, Chepurny OG.
    J Physiol; 2006 Nov 15; 577(Pt 1):5-15. PubMed ID: 16973695
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  • 19. A novel Epac-specific cAMP analogue demonstrates independent regulation of Rap1 and ERK.
    Enserink JM, Christensen AE, de Rooij J, van Triest M, Schwede F, Genieser HG, Døskeland SO, Blank JL, Bos JL.
    Nat Cell Biol; 2002 Nov 15; 4(11):901-6. PubMed ID: 12402047
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  • 20. Coupling of cAMP/PKA and MAPK signaling in neuronal cells is dependent on developmental stage.
    Vogt Weisenhorn DM, Roback LJ, Kwon JH, Wainer BH.
    Exp Neurol; 2001 May 15; 169(1):44-55. PubMed ID: 11312557
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