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Biology of Cellular Transducing Signals

  • Jack Y. Vanderhoek

Table of contents

  1. Front Matter
    Pages i-x
  2. Receptors

    1. L. A. Sklar, W. N. Swann, S. P. Fay, Z. G. Oades
      Pages 1-10
    2. Mari R. Candelore, Sandra L. Gould, Wendy S. Hill, Anne H. Cheung, Elaine Rands, Barbara A. Zemcik et al.
      Pages 11-19
    3. Catherine H. Koo, Jeffrey W. Sherman, Laurent Baud, Winzhen Jin, Kai Mai, Edward J. Goetzl
      Pages 21-27
    4. Marco Ruggiero, Timothy P. Fleming, Toshimitsu Matsui, Eddi di Marco, Christopher Molloy, Pier Paolo di Fiore et al.
      Pages 39-47
    5. Solomon H. Snyder, Christopher D. Ferris, Anne B. Theibert
      Pages 49-59
    6. Frank S. Menniti, Haruo Takemura, Hiroshi Sugiya, James W. Putney Jr.
      Pages 61-72
  3. G Proteins

    1. Eva J. Neer, Yung-Kang Chow, Suzanne Garen-Fazio, Thomas Michel, Carl J. Schmidt, Seth Silbert
      Pages 83-91
    2. Lutz Birnbaumer, Atsuko Yatani, Rafael Mattera, Juan Codina, Arthur M. Brown
      Pages 93-106
    3. Allen M. Spiegel, William F. Simonds, Paul K. Goldsmith, Cecilia G. Unson
      Pages 115-123
    4. Jean M. Lewis, Marilyn J. Woolkalis, George L. Gerton, David R. Manning
      Pages 133-140
    5. R. I. Sha’afi, J. Gomez-Cambronero, M. Yamazaki, M. Durstin, T. F. P. Molski, C.-K. Huang
      Pages 153-162
    6. Robert T. Abraham, James A. Augustine, Janis W. Schlager, Thomas J. Barna, Paul J. Leibson
      Pages 173-183
    7. Martha Vaughan, Joel Moss
      Pages 193-200
  4. Inositol Phosphates

    1. Susan E. Rittehouse, Warren G. King, C. Peter Downes, Gregory L. Kucera
      Pages 227-233
    2. Henry M. Sarau, Maritsa N. Tzimas, James J. Foley, James D. Winkler, Matthew E. Kennedy, Stanley T. Crooke
      Pages 235-243
  5. Kinases

    1. Susan Jaken, Susan C. Kiley, Theresa Klauck, Liqun Dong, Susannah Hyatt
      Pages 245-252
    2. Denis R. Alexander, Jonathan D. Graves, Susan C. Lucas, J. Mark Hexham, Doreen A. Cantrell, Michael J. Crumpton
      Pages 253-262
    3. Matthew Wahl, Nancy Olashaw, Shunzo Nishibe, Jack Pledger, Graham Carpenter
      Pages 263-274
  6. Phospholipases

    1. Keith B. Glaser, Mark D. Lister, Edward A. Dennis
      Pages 281-287
    2. M. Motasim Billah, John C. Anthes, Robert W. Egan, Theodore J. Mullmann, Marvin I. Siegel
      Pages 301-311
  7. Calcium

    1. Michael A. Beaven, Russell Ludowyke, Heloisa M. S. Gonzaga, Dolores Collado-Escobar, Michihiro Hide, Hydar Ali
      Pages 313-322
    2. Jan B. Hoek, Kathleen E. Coll, Thomas A. Rooney, Andrew P. Thomas
      Pages 323-332
    3. Gundu H. R. Rao, J. S. Cox, V. G. Mahadevappa, James G. White
      Pages 343-352
  8. Eicosanoids

    1. Volkhard Kaever, Hans-Jürgen Pfannkuche, Klaus Wessel, Henning Sommermeyer, Klaus Resch
      Pages 359-369
    2. Mike A. Clarke, Terresa M. Conway, Mike Cook, Lynne Webb, Janice Dispoto, Seymore Mong et al.
      Pages 381-390
  9. Glycosylated Phosphoinositides

    1. Alan R. Saltiel
      Pages 391-399
  10. Back Matter
    Pages 411-418

About this book

Introduction

Intercellular communication in multicellular organisms enables cells to respond to environmental changes. Intercellular signal transduction transmitters include hormones, peptide growth factors, neurotransmitters as well as some lipid-soluble mediators. Once signalling molecules are bound to their cell surface receptors, one or more intracellular signals are generated which alter the Qehavior of the target cell. The IXth International Washington Spring Symposium at the George Washington University in Washington, D.C. was organized to assess the current status of the field of signal transduction processes and regulatory mechanisms. The symposium was held on May 8-'.2, 1989 and was attended by more than 1000 scientists from 30 countries. Most of the papers presented at the plenary sessions have been collected in this volume. The first section of this book details the action and regulation of receptors such as ,B-pdr.'nergic receptors and receptors for EGF, insulin, leukotrienes, phosphoinositides and prostaglandins. Section two focuses on the family of guanine nucleotide regulatory proteins (G proteins). These G proteins are known to mediate the coupling of receptor-mediated signals to several intracellular effector systems. Papers are presented describing the intracellular localization of G proteins, the utilization of G protein antibodies, the interaction of G proteins with tubulin and the involvement of G proteins in the regulation of ion channels, adenylate cy~lase and in the activation of neutrophils and T cells. In the third section, several papers describe the second messenger role of phosphoinositides as well as the regulation of phosphoinositide production.

Keywords

Calcium Colon DNA Nucleotide cyclin enzymes metabolism proteins

Editors and affiliations

  • Jack Y. Vanderhoek
    • 1
  1. 1.The George Washington University Medical CenterUSA

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