Regulation of cellular signal transduction pathways by densensitization [as printed] and amplification /

Bibliographic Details
Other Authors: Sibley, David Robert, 1954-, Houslay, Miles D.
Format: Book
Language:English
Published: Chichester ; New York : J. Wiley, [1994]
Series:Wiley series on molecular pharmacology of cell regulation ; v. 3.
Subjects:
Table of Contents:
  • Sensory transduction systems
  • Adaptive responses in bacterial chemotaxis / J.B. Stock
  • Regulation of visual transduction / P.A. Hargrave, H.E. Hamm
  • G-protein-linked receptors
  • Adrenergic receptor-coupled adenylyl cyclase systems: regulation of receptor function by phosphorylation, sequestration and downregulation / S.B. Liggett, R.J. Lefkowitz
  • Genetic (transcriptional and post-transcriptional) regulation of G-protein-linked receptor expression / S. Bahouth, C.C. Malbon
  • Desensitization of muscarinic cholinergic receptors and the role of protein phosphorylation / M.M. Hosey
  • Protein kinase C and the modulation of G-protein-controlled adenylyl cyclase and other signal transmission systems / M.D. Houslay
  • Regulation of phosphoinositidase C-linked receptors and phosphinositide-mediated cell signalling / R.J.H. Wojcikiewicz ... [et al.]
  • G-protein regulation
  • Sensitization of adenylyl cyclase by prior activation of inhibitory receptors / J.M. Thomas, B.B. Hoffman.
  • (cont) Adenosine receptor/adenylyl cyclase modulation: heterologous regulation at the G-protein level / V. Ramkumar, G.L. Stiles
  • Receptor-mediated downregulation of cellular G-protein levels as a mechanism for the development of sustained heterologous densensitization / G. Milligan, A. Green
  • Peptide receptors/tyrosine kinases
  • Regulation of insulin receptor function by phosphorylation / C.M. Anderson, J.M. Olefsky
  • Regulation of the epidermal growth factor receptor by phosphorylation / K.A. Lund, H.S. Wiley
  • Ion channels
  • Ligand-gated ion channels: molecular structure and functional regulation by phosphorylation / M.D. Browning, S.W. Rogers
  • Modulation of sodium and calcium channels by protein phosphorylation / W.A. Catterall.