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Molecular aspects of bioelectricity : festschrift and proceedings of the international symposium and poster session in honour of David Nachmansohn on the occasion of his 81st birthday, Li�ege, May 25-27, 1980, under the auspices of the Universit�e de Li�ege, Belgium and the Max-Planck-Institut f�ur Biochemie, Martinsried/M�unchen, Germany /
Molecular Aspects of Bioelectricity.
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Oxford [Oxfordshire] :
Pergamon Press,
1980.
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| Edición: | First edition. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Molecular Aspects of Bioelectricity; Copyright Page; Table of Contents; PREFACE; OPENING ADDRESS; SESSIONAL CHAIRMAN'S REMARKS; CHAIRMAN'S INTRODUCTION TO SESSION; INTRODUCTORY REMARKS; FROM THE ADDRESS AT THE FAREWELL DINNER IN HONOR OF PROFESSOR DAVID NACHMANSOHN; CHAPTER 1. SELFORGANIZATION IN MOLECULAR AND CELLULAR NETWORKS; ABSTRACT; CHAPTER 2. CHEMICAL REPRESENTATION OF ION FLUX GATING IN EXCITABLE BIOMEMBRANES; ABSTRACT; KEY WORDS; INTRODUCTION; ION FLUX GATING CONCEPT; ELEMENTAL BIOELECTRICAL SIGNAL; GATING MACROMOLECULES; ACETYLCHOLINESTERASE; AXONAL GATING.
- Acknowledgementsreferences; chapter 3. theoretical implication of liganding reactions in axonal sodium channel gating; abstract; keywords; introduction; liganding reaction in sodium channel activation; electrical-chemical gating model; evidence for chemical energy input from membrane capacitance measurements; conclusion; acknowledgement; references; chapter 4. ligand interactions of crustacean axonal membranes; abstract; keywords; text; chapter 5. biochemical studies of the structure, mechanism and differentiation of the voltage-sensitive sodium channel; abstract; keywords; introduction.
- THE TETRODOTOXIN (OR SAXITOXIN) RECEPTORTHE GATING SYSTEM OF THE Na+ CHANNEL; THE DEVELOPMENTAL PROPERTIES OF THE SODIUM CHANNEL; ACKNOWLEDGMENTS; REFERENCES; CHAPTER 6. Na-CHANNELS IN MEMBRANE FRAGMENTS FROM ELECTROPHORUS ELECTRICUS ELECTROPLAQUES: BIOCHEMICAL STUDIES; ABSTRACT; KEYWORDS; INTRODUCTION; CONCLUSIONS; ACKNOWLEDGEMENT; REFERENCES; CHAPTER 7. THE BIOCHEMICAL CYCLE OF IMPEDANCE VARIATION IN AXONAL MEMBRANES; ABSTRACT; KEYWORDS; INTRODUCTION; METHODS; RESULTS; DISCUSSION; ACKNOWLEDGEMENTS; REFERENCES; CHAPTER 8. EFFECT OF VARIOUS COMPOUNDS ON THE PHOSPHORYLATION OF NERVE PROTEINS.
- Abstractkeywords; introduction; material and methods; results; discussion; acknowledgements; references; chapter 9. protein phosphorylation in nerve and electric organ : isolation and partial characterization of a high affinity system for atp; abstract; keywords; introduction; material and methods; results; discussion; acknowledgements; references; chapter 10. inseparability of acetylcholinesterase and nerve excitation; references; chapter 11. molecular aspects of the actions of cyclic nucleotides at synapses; abstract; keywords; introduction.
- Experimental study of protein phosphorylation in neural tissuescyclic nucleotides, protein phosphorylation and membrane polarisation; references; chapter 12. acetylcholine and choline acetyltransferase; abstract; keywords; introduction; acetylcholine and choline; chapter 13. the collagen-like subunits of acetylcholinesterase from the eel electrophorus electricus; abstract; keywords; introduction; isolation of pepsin-resistant fragments of acetylcholinesterase; characterization of pepsin-resistant fragments of acetylcholinesterase; isolation of ""intact"" tail subunits of acetylcholinesterase.