Molecular Basis of Nerve Activity
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Molecular Basis of Nerve Activity

Proceedings of the International Symposium in Memory of David Nachmansohn (1899–1983). Berlin, Federal Republic of Germany, October 11–13, 1984

  1. 808 pages
  2. English
  3. PDF
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eBook - PDF

Molecular Basis of Nerve Activity

Proceedings of the International Symposium in Memory of David Nachmansohn (1899–1983). Berlin, Federal Republic of Germany, October 11–13, 1984

Book details
Table of contents
Citations

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Yes, you can access Molecular Basis of Nerve Activity by J.-P. Changeux, Ferdinand Hucho, A. Maelicke, E. Neumann in PDF and/or ePUB format, as well as other popular books in Scienze biologiche & Scienza generale. We have over one million books available in our catalogue for you to explore.

Information

Publisher
De Gruyter
Year
2019
ISBN
9783110855630
Edition
1
Topic
Scienze biologiche
Subtopic
Scienza generale

Table of contents

  1. PREFACE
  2. Symposium Guests of Honour
  3. Symposium activities
  4. ON DAVID NACHMANSOHN'S RELATIONSHIP TO BERLIN
  5. CONTENTS
  6. David Nachmansohn (1899-1983): a pioneer of neurochemistry
  7. I. THE MOTOR ENDPLATE AND PRESYNAPTIC MECHANISMS
  8. REMODELLING OF NEUROMUSCULAR JUNCTIONS DURING REPAIR OF MUSCLE FIBRES
  9. INTERMITTENT, CALCIUM INDEPENDENT RELEASE OF ACETYLCHOLINE FROM MOTOR NERVE TERMINALS
  10. PROSTAGLANDINS MEDIATE THE MUSCARINIC INHIBITION OF ACETYLCHOLINE RELEASE FROM TORPEDO NERVE TERMINALS
  11. MOLECULAR MECHANISMS UNDERLYING ACETYLCHOLINE RELEASE
  12. ADENOSINE-5'-TRIPHOSPHATE AT THE CHOLINERGIC SYNAPSE: A CO-TRANSMITTER?
  13. SOLUBILIZATION, AFFINITY LABELLING AND PURIFICATION OF THE DIHYDROPYRIDINE RECEPTOR OF THE VOLTAGE-DEPENDENT CALCIUM CHANNEL FROM RABBIT SKELETAL MUSCLE TRANSVERSE TUBULE MEMBRANES
  14. IS ATP A GENERAL MOLECULAR CONSTITUENT OF CHOLINERGIC SYNAPTIC VESICLES?
  15. SINGLE CHANNEL FORMATION OF COOPERATIVELY INTERACTING UNITS OF THE HIGHLY-PURIFIED Na-CHANNEL PROTEIN
  16. K<sup>+</sup>-CHANNELS IN RAT VENTRICULAR CELLS SHOW VOLTAGE-DEPENDENT OUTWARD RECTIFICATION AND NON-LINEAR VOLTAGE TO CURRENT RELATION
  17. A PURIFICATION PROCEDURE OF THE TETRODOTOXIN BINDING COMPONENT CONTAINED IN THE ELECTROPLAXES OF ELECTROPHORUS ELECTRICUS
  18. HIGH-YIELD SYNTHESIS OF A NEW Na-CHANNEL MARKER : (<sup>3</sup>H)ETHYLENEDIAMINE DITETRODOTOXIN OR ED-diTTX
  19. INSECT OLFACTORY CELLS: ELECTROPHYSIOLOGICAL AND BIOCHEMICAL STUDIES
  20. EFFECTS OF EXTRACELLULAR ATP ON <sup>86</sup>Rb INFLUX IN CHICK MYOTUBES; INDICATIONS OF A COTRANSMITTER ROLE IN NEUROMUSCULAR TRANSMISSION
  21. II. THE ACETYLCHOLINE RECEPTOR: STRUCTURAL ASPECTS
  22. A MONOCLONAL ANTIBODY SPECIFIC FOR ONE OF THE TWO AGONIST BINDING SITES AT THE ACETYLCHOLINE RECEPTOR
  23. THE MOLECULAR BIOLOGY OF ACETYLCHOLINE RECEPTORS
  24. ANTIBODIES TO SYNTHETIC PEPTIDES AS PROBES OF NICOTINIC ACETYL-CHOLINE RECEPTOR STRUCTURE
  25. REGULATION OF THE NICOTINIC ACETYLCHOLINE RECEPTOR BY PHOSPHORYLATION
  26. MOLECULAR INTERACTIONS BETWEEN THE MAJOR PROTEINS OF THE POSTSYNAPTIC DOMAIN IN TORPEDO MARMORATA ELECTROMOTOR SYNAPSE
  27. THE GLYCINE RECEPTOR OF RAT SPINAL CORD: PROGRESS IN THE INVESTIGATION OF A NEURONAL ION CHANNEL PROTEIN
  28. ANTIBODIES TO SYNTHETIC PEPTIDES AS PROBES FOR THE a-SUBUNIT AND FOR THE CHOLINERGIC BINDING SITE OF THE ACETYLCHOLINE RECEPTOR
  29. POSTSYNAPTIC MODULATION OF NEURONAL FIRING PATTERN BY ADENOSINE
  30. MAJOR PROTEINS OF THE ELECTRIC ORGAN FROM TORPEDO MARMORATA - POSSIBLE ASSOCIATIONS WITH THE POSTSYNAPTIC MEMBRANE
  31. PROTEIN-BLOT ANALYSIS OF THE NICOTINIC ACETYLCHOLINE RECEPTOR
  32. III. THE ACETYLCHOLINE RECEPTOR: FUNCTIONAL ASPECTS
  33. ACETYLCHOLINE RECEPTOR (FROM ELECTROPIIORUS ELECTRICUS) : A COMPARISON OF SINGLE-CHANT JE], CUPREMT RECORDINGS A W CHE1TICAL KINETIC t'JEASURFMENTS
  34. PHOTOAFFINITY LABELING OF RECEPTOR STATES WITH MILLISECOND TIME RESOLUTION
  35. BINDING OF [<sup>3</sup>H] ACETYLCHOLINE TO ACETYLCHOLINE RECEPTOR FROM TORPEDO CALIFORNICA UNDER EQUILIBRIUM CONDITIONS: STOICHIOMETRY AND EVIDENCE FOR LONG-LIVED METASTABLE STATES
  36. THE DIMER OF TORPEDO ACETYLCHOLINE RECEPTOR: SYNCHRONIZED DOUBLE CHANNEL
  37. SYNCHRONIZATION OF ELECTRICALLY AND CHEMICALLY EXCITABLE ION CHANNELS
  38. EFFECTS OF HISTRIONICOTOXIN ON THE SYNAPTIC AND CONDUCTING MEMBRANES OF THE ELECTROPLAX
  39. THIAMINE TRIPHOSPHATE AS SPECIFIC OPERATING SUBSTANCE IN AXONAL CONDUCTION
  40. DOSE RESPONSE CURVES AT THE NEUROMUSCULAR JUNCTION
  41. NBD-5-ACYLCHOLINE IS A FLUORESCENT AGONIST OF THE MEMBRANE-BOUND ACETYLCHOLINE RECEPTOR FROM TORPEDO MARMORATA
  42. DO SIGMOID DOSE-RESPONSE CURVES REQUIRE THE ASSUMPTION OF ALLOSTERICITY?
  43. FOUNDATIONS OF THE ION FLUX METHOD
  44. SURFACE PROCESSES IN ION TRANSPORT AND EXCITATION
  45. CHEMICAL KINETIC INVESTIGATIONS OF THE EFFECTS OF CIS AND TRANS BIS-Q CN THE ACETYLCHOLINE RECEPTOR IN ELECTROPHORUS ELECTRICUS VESICLES
  46. DETERMINATION OF THIAMINE AND ITS PHOSPHATE ESTERS BY REVERSED-PHASE HPLC AT FEMTOMOLE LEVELS. APPLICATION TO BIOELECTROGENESIS
  47. IV. IMMUNOLOGY OF THE ACETYLCHOLINE RECEPTOR: MYASTHENIA GRAVIS AND SYNAPTIC PLASTICITY
  48. REGULATION OF THE IMMUNE RESPONSE TO THE ACETYLCHOLINE RECEPTOR AND OF EXPERIMENTAL MYASTHENIA
  49. CONGENITAL AND AUTOIMMUNE DISEASES OF THE NEUROMUSCULAR JUNCTION
  50. ANTI-IDIOTYPIC ANTIBODY TO THE ACETYLCHOLINE AND ADENOSINE RECEPTORS
  51. ANALYSIS OF THE PROPHYLACTIC AND THERAPEUTIC ACTION OF ELEC1RCLECHN IN EXPERIMENTAL AUTOIMMUNE MYASTHENIA GRAVIS
  52. Regulation of Acetylcholine Receptors on Muscle in vitro by Central Nervous System Factors
  53. USE AND DISUSE AND THE CONTROL OF ACETYLCHOLINESTERASE ACTIVITY IN FAST AND SLOW TWITCH MUSCLE OF RAT
  54. THE EXPRESSION OF MICROTUBULE PROTEINS DURING THE DEVELOPMENT OF THE NERVOUS SYSTEM
  55. V. ACETYLCHOLINESTERASE AND CHOLINE ACETYLTRANSFERASE
  56. ACETYLCHOLINESTERASE OF MUSCLE AND NERVE
  57. EXPRESSION OF ACETYLCHOLINESTERASE IN MURINE NEURAL CELLS IN VIVO AND IN CULTURE
  58. THE INVOLVEMENT OF PHOSPHATIDYLINOSITOL IN THE ANCHORING OF HYDROPHOBIC FORMS OF ACETYLCHOLINESTERASE TO THE PLASMA MEMBRANE
  59. THE HYDROPHOBIC DOMAIN OF HUMAN ERYTHROCYTE ACETYLCHOLINESTERASE CONTAINS NONAMINO ACID COMPONENTS
  60. CHOLINESTERASE: TWO SURPRISING INHIBITORS
  61. CORRELATION OF ASSUMED FUNCTIONS OF ACETYLCHOLINESTERASE WITH ITS CELLULAR AND SUBCELLULAR DISTRIBUTION
  62. THE MECHANISM OF ACTION OF CHOLINE ACETYLTRANSFERASE
  63. ACETYLCHOLINESTERASE IN REGENERATING SKELETAL MUSCLES
  64. Distribution and regulation of acetylcholinesterase forms in chick myotubes : comparison with rat myotubes
  65. ACETYLCHOLINESTERASE IN MAMMALIAN SKELETAL MUSCLE AND SYMPATHETIC GANGLION CELLS. EXTRA AND INTRACELLULAR HYDROPHILIC AND HYDROPHOBIC ASYMMETRIC FORMS
  66. INHIBITION AND PHOTOAFFINITY LABELING OF ACETYLCHOLINESTERASE BY PHENCYCLIDINE AND TRIPHENYLMETHYLPHOSPHONIUM
  67. A COMPARATIVE STUDY OF THE AGEING OF DFP-INHIBITED SERINE HYDROLASES BY MEANS OF <sup>31</sup>P-NMR AND MASS SPECTROMETRY
  68. LIPID MECHANISM AND ACETYLCHOLINESTERASE FUNCTION
  69. AUTHOR INDEX
  70. SUBJECT INDEX