Electromagnetic Fields and Biomembranes

  • Marko Markov
  • Martin Blank

Table of contents

  1. Front Matter
    Pages i-ix
  2. Johannes de Gier
    Pages 1-7
  3. Klaus Gawrisch, Klaus Arnold, Kerstin Dietze, Uta Schulze
    Pages 9-18
  4. L. Keszthelyi
    Pages 49-57
  5. R. Dean Astumian, P. Boon Chock, Francoise Chauvin, Tian Yow Tsong
    Pages 59-74
  6. V. Pastushenko
    Pages 75-77
  7. Yu. A. Kholodov
    Pages 109-116
  8. R. Grebe, M. Zuckermann, H. Schmid-Schönbein
    Pages 141-144
  9. Keijo Saali, Jukka Juutilainen, Tapani Lahtinen
    Pages 161-164
  10. Torsten Müller, Günter Fuhr, Frank Geißler, Rolf Hagedorn
    Pages 179-182
  11. R. Pancheva, M. Naplatarova, P. Antonov
    Pages 183-186
  12. Nezabravka Popdimitrova, Jan Gutowicz, Andrey Atanassov, Andrzej Krawczyk, Minko Petrov, Stanislaw Miekisz
    Pages 187-190
  13. Minko Petrov, Nezabravka Popdimitrova, Andrey Atanassov
    Pages 191-194
  14. Vassilii Goltsev, Ognjan Popov, Virginia Doltchinkova, Ivan Yordanov, Valerian Kagan
    Pages 249-253
  15. Anatoliy I. Dvoretsky, Alla M. Shainskaya, Elena G. Yegorova, Sineric N. Ayraoetyan
    Pages 255-258
  16. Radostina Georgieva, Roland Glaser
    Pages 263-266
  17. Georgi Ivanov, Stylian Stoeff, Radko Pelov, Milka Metodieva
    Pages 273-275

About this book


The First International School on "Electromagnetic Fields and Biomembranes" took place in Pleven, Bulgaria on 6-12 October 1986. It was designed as an advanced course through a collaboration of the Biological Faculty of Sofia University and the Council of the Bioelectrochemical Society. In an advanced course the lecturers are specialized in particular areas, and the students are usually specialists in related areas. We have captured the expertise of both groups of participants in this volume. The longer papers prepared by the lecturers are joined with the shorter papers based on the posters presented by the "students" to provide a summary of the school as well as an indication of current research directions in the field. The course was designed to provide the latest information about biomembrane structure and function, covering the properties of both the lipid matrix and the recently characterized proteins that function as specialized channels and receptors. Real membranes and various models were covered, with an emphasis on understanding their mechanisms of interaction with various exogenous stimuli (e.g., electric, magnetic, light, etc.). Several practical applications of this information (e.g., electroporation, electro-fusion) were also presented with indications of the possibilities for new developments in biotechnology. The mixture of basic science with practical applications, together with the int~rmingling of lecturers and students from many different countries produced a stimulating atmosphere and effective teaching. We hope that this volume will transmit some of this atmosphere.


Biomembran electromagnetic electromagnetic fields magnetic fields proteins

Editors and affiliations

  • Marko Markov
    • 1
  • Martin Blank
    • 2
  1. 1.Sofia UniversitySofiaBulgaria
  2. 2.Columbia UniversityNew YorkUSA

Bibliographic information