History of the SynapseThe History of the Synapse provides a history of those discoveries concerning the identification and function of synapses that provide the foundations for research during this new century with a personal view of the process by which new concepts have developed. Previously published as essays, the chapters in this book provide a history of various aspects of synaptic function, beginning with the evolution over two and a half thousand years and how progress was made in the establishment of a conceptual structure that would allow the synapse to be identified at the beginning of the 20th century. Numerous illustrations explain either the technical approach or the experimental finding. |
Contents
II | 3 |
IV | 5 |
V | 6 |
VI | 9 |
VII | 10 |
VIII | 12 |
IX | 14 |
X | 16 |
LXV | 107 |
LXVIII | 110 |
LXIX | 116 |
LXX | 122 |
LXXI | 129 |
LXXII | 132 |
LXXIII | 133 |
LXXIV | 135 |
XI | 17 |
XII | 20 |
XIII | 24 |
XIV | 27 |
XVII | 29 |
XVIII | 32 |
XIX | 34 |
XX | 36 |
XXI | 38 |
XXII | 40 |
XXIII | 45 |
XXVI | 46 |
XXVII | 47 |
XXVIII | 49 |
XXIX | 52 |
XXX | 55 |
XXXI | 56 |
XXXII | 60 |
XXXIII | 61 |
XXXIV | 67 |
XXXVII | 69 |
XXXIX | 74 |
XL | 75 |
XLI | 79 |
XLII | 81 |
XLV | 83 |
XLVI | 85 |
XLVII | 87 |
XLVIII | 89 |
XLIX | 90 |
L | 92 |
LI | 93 |
LV | 94 |
LVI | 97 |
LIX | 100 |
LX | 101 |
LXI | 104 |
LXII | 105 |
LXIII | 106 |
LXXV | 137 |
LXXVIII | 139 |
LXXIX | 141 |
LXXX | 147 |
LXXXI | 150 |
LXXXII | 153 |
LXXXIII | 160 |
LXXXIV | 165 |
LXXXV | 167 |
LXXXIX | 181 |
XC | 188 |
XCI | 192 |
XCII | 196 |
XCIII | 197 |
XCIV | 213 |
XCVII | 216 |
XCVIII | 220 |
XCIX | 225 |
C | 227 |
CI | 230 |
CII | 232 |
CIII | 234 |
CIV | 235 |
CVIII | 242 |
CIX | 246 |
CX | 254 |
CXI | 262 |
CXII | 273 |
CXIII | 279 |
CXIV | 280 |
CXV | 281 |
CXVI | 285 |
287 | |
CXVIII | 289 |
CXIX | 325 |
329 | |
331 | |
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Common terms and phrases
acetylcholine AChR action potential adrenaline adrenergic adrenoceptor agrin alpha amino acids amplitude antagonists atropine autonomic axons basal lamina Bennett binomial blocked brain Burnstock calcium channels calcium concentration calcium ions clozapine collaterals contraction cortex curare Dale denervated depolarisation distribution dopamine receptors Eccles effects electrical electrode endplate potential EPSP evoked excitatory experiments GABA ganglia ganglion gastrointestinal tract glycine guinea-pig hippocampus histogram impulse increase indicated inhibition inhibitory intestine intracellular Katz Langley loss of polyneuronal membrane molecules motoneurones motor units msec muscle cells muscle fibres myotubes NANC nerve stimulation nerve terminals nervous system neuroleptics neuromuscular junction neurones NMDA noradrenaline normal observed parameters Physiol polyneuronal innervation postsynaptic presynaptic protein quantal quantal release recorded reinnervation response Sherrington showed shown smooth muscle soleus soleus muscle spinal cord substance sympathetic nerve synapse formation synaptic sites synaptic terminals synaptotagmin taenia coli tetrodotoxin transmission transmitter release vagal vesicles
Popular passages
Page 295 - Effect of chlorpromazine or haloperidol on formation of 3methoxytyramine and normetanephrine in mouse brain.
Page 305 - ME (1958) Membrane potentials recorded with high-resistance micro-electrodes: and the effects of changes in ionic environment on the electrical and mechanical activity of the smooth muscle of the taenia coli of the guinea-pig. J. Physiol.
Page 320 - Niznik, HB (1991). Cloning of the gene for a human dopamine D5 receptor with higher affinity for dopamine than D,.
References to this book
Explaining the Brain: Mechanisms and the Mosaic Unity of Neuroscience Carl F. Craver No preview available - 2007 |