Cellular and Molecular Control of Direct Cell Interactions

  • H.-J. Marthy

Part of the NATO ASI Series book series (NSSA, volume 99)

Table of contents

  1. Front Matter
    Pages i-xi
  2. Section I

    1. Front Matter
      Pages 1-1
  3. Section II

  4. Section III

  5. Section IV

    1. Front Matter
      Pages 283-283
    2. Luca Turin
      Pages 285-296
    3. Walter W. Stewart, Ned Feder
      Pages 297-312
  6. Section V

    1. Front Matter
      Pages 313-313
    2. Werner W. Franke, Hans-Peter Kapprell, Pamela Cowin
      Pages 315-318
    3. Hubert Reggio, Daniel Louvard, Evelyne Coudrier
      Pages 319-322
    4. John D. Pitts, Malcolm E. Finbow, T. Eldridge, J. Buultjens, Ephraim Kam, John Shuttleworth
      Pages 323-335
    5. C. R. Green, N. B. Gilula
      Pages 337-350
  7. Back Matter
    Pages 360-376

About this book


The NATO Advanced Study Institute on "Cellular and Molecular Control of Direct Cell Interactions in Developing System" has been attended by 15 invited main lecturers and 60 participants. According to its purpose senior scientists, postdoctoral trainees and graduate students working in areas like biology, biochemistry, electrophysiology, medicine etc . . . could discuss their common interest in the various structural, ultrastructural, molecular and functional aspects of cell interactions in developing in vivo and in vitro systems. Whereas the topics of the first week have been mostly concerned with the general aspects of cell interactions in embryogenesis (section I and II of this book), the second week has been mainly devoted to the structures and functions of the direct cell contact sites at the membrane level as gap junctions, including electrophysiological aspects, dye coupling and selective cell-cooperation in some model systems as the neuro-muscular junctions (section III-V of this book). A multidisciplinary and stepwise approach, from initial cell contacts in early embryogenesis up to well defined selective cell cooperation, appeared to be an efficient means to provide answers to the question of how cells control, in a dynamic system as given in a differentiating embryo, their multiple temporary and permanent interactions so necessary for ordered cell positioning, cell linking and well established cell-to-cell communication.


biochemistry biology cell cells chemistry communication electrophysiology embryo medicine membrane nervous system physiology skeleton

Editors and affiliations

  • H.-J. Marthy
    • 1
  1. 1.C.N.R.S.—Pierre and Marie Curie UniversityBanyuls-sur-MerFrance

Bibliographic information