TitleAneural Organisms in Neurobiology [electronic resource] / edited by Edward M. Eisenstein
ImprintBoston, MA : Springer US, 1975
Connect tohttp://dx.doi.org/10.1007/978-1-4613-4473-5
Descript VIII, 146 p. 45 illus. online resource

SUMMARY

This volume had its inception at a symposium entitled Aneura1 Organisms: Their Significance for Neurobiology held at the Winter Conference on Brain Research in Vail, Colorado, in January, 1972. The original participants were Drs. Epstein, Hamilton, Kung, Wood and myself. However, since that time several other authors (Drs. Applewhite, Chen, Diehn and Ettienne) were asked to contriยญ bute papers and all were asked to update their presentations so as to present a broad perspective as to the role and significance of aneura1 systems for investigating neurobiological problems. This volume is the result of that effort. I wish to thank Dr. Claude F. Baxter, the program chairman of the Winter Conference, and his staff for their help, as well as the contributors for their efforts. Great appreciation is due Mrs. Sharon Loomis for her excellent work in preparing the manuscript for publication. It is our hope that this volume will demonstrate the usefulness and advantages in exploiting aneura1 systems for the insights they may yield in answering some of the fundamental neurobiological questions facing us. E.M. Eisenstein v Contents Aneural Systems and Neurobiology: A Point of View . โข . 1 E.M. Eisenstein (Introduction) Protozoa as Models of Stimulus Transduction 5 David C. Wood Genetic Dissection - An Approach to Neurobiology 25 Ching Kung Cybernetics and the Behavior of Microorganisms 41 Bodo Diehn Control of Ciliary Activity in Aneural Organisms 59 Miles Epstein Membrane Potential and Behavior: Proposal of a Model System โข . . . . . . .


CONTENT

Aneural Systems and Neurobiology: A Point of View -- Protozoa as Models of Stimulus Transduction -- Genetic Dissection โ An Approach to Neurobiology -- Cybernetics and the Behavior of Microorganisms -- Control of Ciliary Activity in Aneural Organisms -- Membrane Potential and Behavior: Proposal of a Model System -- Contractility of Muscle Cells and Non-Muscular Contractile Cells -- Behavioral Plasticity in Protozoans -- Plant and Animal Behavior: An Introductory Comparison -- Contributors


SUBJECT

  1. Science
  2. Science
  3. general
  4. Science
  5. general