Richter Biochemical Factors Concerned in the Functional Activity of the Nervous System

First International Meeting of the International Society for Neurochemistry, Strasbourg, 1967
1. Auflage 2013
ISBN: 978-1-4831-3848-0
Verlag: Elsevier Science & Techn.
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First International Meeting of the International Society for Neurochemistry, Strasbourg, 1967

E-Book, Englisch, 238 Seiten, Web PDF

ISBN: 978-1-4831-3848-0
Verlag: Elsevier Science & Techn.
Format: PDF
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Biochemical Factors Concerned in the Functional Activity of the Nervous System presents the biological aspects concerned in the functional activity of the nervous system. This book covers several interesting topics concerning the central nervous system, including phospholipids, RNA synthesis, nerve impulse flow, and nerve growth factor. Comprised of 213 chapters, this book begins with an overview of the electron micrographs of calcium-ATP-phospholipid complexes. This text then examines the biochemical and histochemical studies on sectioned rat spinal cords, which demonstrated two types of monoamine-reducing drugs. Other chapters consider the diversity of antagonistic relations between the thiamine derivatives and vitamin B6, which is manifested by changes in the glutamate-GABA, histidine-histamine, tryptophan-serotonin, and tyrosine-noradrenaline systems. This book discusses as well the influence of a conditioned avoidance training experience on the incorporation of radioactive uridine into the RNA of mouse brain. The final chapter deals with the amino acid-incorporating activity of cerebral polyribosomes. This book is a valuable resource for biochemists, neurologists, pharmacologists, and biophysicists.

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Autoren/Hrsg.

Richter, D.

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Inhaltsverzeichnis

1;Front Cover;1
2;Biochemical Factors Concerned in the Functional Activity of the Nervous System;4
3;Copyright Page;5
4;PART I: BIOCHEMICAL FACTORS CONCERNED IN THEFUNCTIONAL ACTIVITT OF THE NERVOUS SYSTEM;6
5;Chapter 1. INTERFACIAL INTERACTION OF CALCIUM AND ATP WITHPHOSPHOLIPIDS AND OTHER SURFACTANTS;7
6;Chapter 2. EFFECT OF VARIOUS AGENTS ON PROTEIN AND RNA SYNTHESISIN THE GOLDFISH BRAIN;9
7;Chapter 3. THE INFLUENCE OF NERVE IMPULSE FLOW ON THE EFFECTS OFDRUGS ON CENTRAL MONOAMINE NERVE TERMINALS;10
8;Chapter 4. CARBOHYDRATE METABOLISM IN EMBRIONIC SENSORY GANGLIA.EFFECT OF A SPECIFIC PROTEIN "NERVE GROWTH FACTOR" (NGF).;11
9;Chapter 5. THE METABOLISM OF ETHANOLAMINE LIPIDS IN SUB-CELLULARFRACTIONS OF RAT BRAIN;12
10;Chapter 6. NEUROCHEMICAL AND NEUROPHYSIOLOGICAL EVIDENCE FOR THE ROLE OFGLYCINE AS AN INHIBITORY TRANSMITTER IN CAT SPINAL CORD;14
11;Chapter 7. CHANGES IN THE ACTIVITY OF ENZYME SYSTEMS INEPILEPTOGENIC AND NON EPILEPTOGENIC LESIONSOF THE HUMAN NEOCORTEX;15
11.1;The following results were obtained;15
12;Chapter 8. THE ROLE OF THIAMINE IN THE BIOCHEMISTRY OFNERVOUS TISSUES;16
13;Chapter 9. EFFECTS OF NEONATAL THYROID DEFICIENCY ON THEDEVELOPING BRAIN;17
14;Chapter 10. METABOLISM OF GABA IN CEREBRAL CORTEXR. Balazs, Y. Machiyama and D. Richter;18
15;Chapter 11. COMPARTMENTILIZATION OF ACETYLCHOLINE IN BRAINF. de Balbian Verster and C.A. Robinson;19
16;Chapter 12. THE INFLUENCE OF POTASSIUM AND GLUCOSE ON GLUTAMINE SYNTHESIS IN RAT CEREBRAL CORTEX SLICES M. Balliano, I. Masi and F. Pocchiari;20
17;Chapter 13. MYELINOGENESIS IN RAT BRAINN.L. Banik and A.N. Davison;21
18;Chapter 14. COMPARATIVE EFFECTS OF ACETOXYCYCLOHEXIMIDE AND PUROMYCINON LEARNING AND MEMORY IN MICESamuel H. Barondes and Harry D. Cohen;22
19;Chapter 15. A CRITICAL EVALUATION OF INTRACEREBRAL INJECTION AND OFANAESTHESIA IN THE STUDY OF BRAIN METABOLISM IN VIVOClaude F. Baxter, C. Leo Ortiz and David Masuoka;23
20;Chapter 16. STUDIES ON THE METABOLISM OF N-ACETYL-L-ASPARTIC-ACID INPERIPHERAL TISSUES OF THE RAT*Myron Benuck and Amedeo F. D'Adamo;24
21;Chapter 17. G-LYCOLYSIS AND VISUAL CELL FUNCTIONE. De Berardinis and 0. TieriUniversity Eye Clinic, Napoli, Italy;25
22;Chapter 18. THE EXISTENCE OF TWO PATHWAYS FROM ACETYL CoA TOGLUTAMATE IN THE CENTRAL NERVOUS SYSTEMC. van den Berg*, Lj. Kr^alic, P. Mela;26
23;Chapter 19. REGIONAL METABOLISM OF [ ^C]LEUCINE IN BRAIN (CAT):VENTRICULAR AND INTRAVENOUS ADMINISTRATION.Soil Berl and Tamas Frigyesi;27
24;Chapter 20. INVESTIGATIONS ON THE SIGNIFICANCE OF CEREBROSPINALFLUID CREATINEH.H. Beriet and C. Quarcoo;28
25;Chapter 21. STUDIES ON THE NATURE OF THE ENDOGENOUS SUBSTRATE INTHE BIOSYNTHESIS OF CEREBROSIDE SULPHATE IN BRAINV.R. Bhandari and B.K. Bachhawat;29
26;Chapter 22. CEREBRAL METABOLISM OF L-[U-li+C JGLUTAMINE AND OFL-[U-1Z*CjGLUTAMIC ACID IN CHRONIC MENTAL DISEASEAND IN THERAPEUTIC INSULIN COMA;30
27;Chapter 23. ACTIVATION AND SOLUBILIZATION OF PARTICLE-BOUNDBRAIN HEXOKINASED. Biesold and P. Teichgräber;31
28;Chapter 24. PIGEON BRAIN PROTEINS: STRUCTURE, BIOSYNTHESIS ANDSTATE IN LEARNINGSamuel Bogoch;32
29;Chapter 25. STUDIES ON FREE NUCLEOTIDES AND RIBONUCLEIC ACIDS OF THERAT BRAIN UNDER VARIOUS FUNCTIONAL CONDITIONS Vincenzo Bonavita;33
30;Chapter 26. COMPARATIVE STUDY OF NUCLEIC ACIDS OBTAINED FROMRABBIT LIVER AND BRAINT. Borkowski;34
31;Chapter 27. METABOLISM OF NERVE-ENDING PARTICLESH.F. Bradford;35
32;Chapter 28. CORRELATION BETWEEN INDUCED CHANGES IN THE ELECTROCORTICOGRAMAND THE RELEASE OF BIOLOGICALLY ACTIVE SUBSTANCES FROMTHE CEREBRAL CORTEX;36
33;Chapter 29. CYCLIC NUCLEOTIDE PHOSPHODIESTERASE IN BRAIN -QUANTITATIVE HIST0CHEMISTRY;37
34;Chapter 30. INCORPORATION OF [3H]URIDINE INTO MOUSE BRAIN RNADURING STRESS Robert N. Bryan and Eugene L. Bliss;38
35;Chapter 31. CHANGES IN THE CONTENT OF INDIVIDUAL PHOSPHOLIPIDS IN BLOODENTERING AND LEAVING THE BRAIN AND IN THE CEREBROSPINAL FLUIDOF THE DOG, AND OF TOTAL PHOSPHOLIPIDS OF RAT BRAIN, DURINGVARIOUS FUNCTIONAL STATESH.Ch. Buniatian and C.G. Karageosian;39
36;Chapter 32. ON THE MECHANISM OF FORMATION OF AMMONIUM FROMAMINO ACIDS IN BRAINH.Ch. Buniatian and S.G. Movcessian;40
37;Chapter 32. SIZE DISTRIBUTION OF RNA ISOLATED FROM GOLDFISH BRAIN Luigi Casola and Bernard W. Agranoff;41
38;Chapter 34. INCORPORATION DE L'ACIDE [ 2- 4C ]MEVALONIQUE DANS LECHOLESTEROL DU SYSTEME NERVEUX DU RAT ADULTE.LOCALISATION ANATOMIQUE DES SITES DE SYNTHESE;42
39;Chapter 35. ETUDE DES TRANSFERTS DE CHOLESTEROL D'ORIGINEPLASMATIQUE DANS LE SYSTEME NERVEUX CENTRAL DU RAT ADULTE;43
40;Chapter 36. ACTIVATION OF L-HISTIDINE DECARBOXYLASE BY APYRIDOXAL-51-PHOSPHATE DERIVATIVE;44
41;Chapter 37. PHOSPHATASE ACTIVITY RELATED TO SYNAPTIC TRANSMITTER FUNCTIONOF NORADRENALINE IN TIIE CENTRAL NERVOUS SYSTEM;45
42;Chapter 38. CHANGES IN BRAIN METABOLITES UNDER NORMALPHYSIOLOGICAL CONDITIONS;46
43;Chaptre 39. THE EFFECT OF X-IRRADIATION ON THE METABOLISM OF THEDEVELOPING CENTRAL NERVOUS SYSTEM;47
44;Chapter 40. THE EFFECT OF CHANGES IN OXYGEN CONCENTRATION, ELECTROLYTECONCENTRATION AND pH ON SUBSTRATE METABOLISM AND ULTRA STRUCTUREIN VIVO;48
45;Chapter 41. FREE AMINO-ACID CHANGES IN CAT CEREBRAL CORTEXAFTER TOPICAL APPLICATION OF STRYCHNINE AND NEMBUTAL;49
46;Chapter 42. RELATIONSHIPS BETWEEN INSOLUBLE PROTEINS IN MEMBRANE SUBCELLULAR FRACTIONS FROM RAT BRAIN;50
47;Chapter 43. PROTEIN LABELLING IN OCCIPITAL AND TEMPORALCORTEX OF MONKEY;51
48;Chapter 44. THE LIPIDS OF HUMAN PINEAL GLANDJ. Czarnocki, P.S. Sastry and Harvey C. Stancer;52
49;Chapter 45. THE INTRANEURONAL DISTRIBUTION, TRANSPORT AND LIFE-SPAN OFNORADRENALINE STORAGE GRANULES IN THE ADRENERGIC NEURON SYSTEM;53
50;Chapter 46. EXOPEPTIDASE ACTIVITIES OF BRAIN SUBCELLULAR MEMBRANE FRACTIONS;54
51;Chapter 47. THE SUBUNIT STRUCTURE OF NEUROFILAMENT PROTEIN;55
52;Chapter 48. ON A NEW GROUP OF ETHANOLAMINE CONTAINING PHOSPHOLIPIDSH. Debuch and G. Wendt;56
53;Chapter 49. GANGLIOSIDE ANALYSES OF SERIAL SECTIONS THROUGH BRAIN REGIONSAND OF ISOLATED NEURONES;57
54;Chapter 50. GLUTAMINE SYNTHETASE IN THE BRAIN Chrxsta Dierks-Ventling;58
55;Chapter 51. THE EFFECTS OF UNDERNUTRITION ON MTELINATIONAND ITS LATER SEQUELAE;59
56;Chapter 52. ACETYLCHOLINE AND SOME FACTORS AFFECTING THEPERMEABILITY OF CELL MEMBRANES IN NERVOUS TISSUES;60
57;Chapter 53. ALTERATION OF PHOSPHOLIPIDS IN WALLERIAN DEGENERATIONJ. Domonkos and L. Heiner;61
58;Chapter 54. ELABORATION AND TRANSPORT OF AXONAL PROTEINS AS REVEALEDBY ELECTRON MICROSCOPE RADIOAUTOGRAPHY;62
59;Chapter 55. PAPER CHROMATOGRAPHIC SEPARATION AND QUANTITATIVE ANALYSISOF CERTAIN B, COMPONENTS AS THEIR DANSYL DERIVATIVES;63
60;Chapter 56. AMPHETAMINE AND FREE NUCLEOTIDES IN THE BRAIN;64
61;Chapter 57. RESPIRATORY CONTROL OF NORMAL AND OF ß-INTERNAL ANDã-EXTERNAL IRRADIATED CNS MITOCHONDRIA;65
62;Chapter 58. CHANGES IN THE PROTEINS OF HUMAN AND RABBITNEURAL TISSUE WITH DEVELOPMENT;66
63;Chapter 59. THE MATURATION OF HUMAN CNS MYELIN;67
64;Chapter 60. DISTRIBUTION AND EXCHANGE OF BRAINCALCIUM IN VIVO IN THE RAT;68
65;Chaper 61. THE SYNTHESIS OF PHOSPHOENOLPYRUVATE BY MITOCHONDRIAOF MAMMALIAN BRAIN CORTEX;69
66;Chapter 62. A SENSITIVE CHEMICAL METHOD FOR THE DETERMINATIONOF ACETYLCHOLINE; ITS APPLICATION IN THESTUDY OF PRESYNAPTIC RELEASE;70
66.1;Method;70
67;Chapter 63. DOPAMINE IN CORPUS STRIATUM AND BEHAVIOUR IN RATS;71
68;Chapter 64. METABOLITES IN THE BRAIN DURING THE SEIZURES EVOKEDBY METHIONINE SULPHOXIMINE;72
69;Chapter 65. ACCUMULATION OF [ J IJTRIIODOTHYRONINE IN NEURONSAND IN OTHER TISSUES;73
70;Chapter 66. TOPOGRAPHIC STUDIES OF NORADRENALINE TRANSMITTER FUNCTIONBent Formby and Jörgen Clausen;74
71;Chapter 67. THE EFFLUX OF POTASSIUM FROM ISOLATED SLICES OF RAT BRAIN;75
72;Chapter 68. DISTRIBUTION QUANTITATIVE DES DIVERS PHOSPHOLIPIDES DANS LESNEURONES ET LES CELLULES GLIALES ISOLES DU CORTEX CEREBRALDE RAT ADULTE;76
73;Chapter 69. CATECHOLAMINES IN THE COCKROACH BRAIN.A FLUORESCENCE AND ELECTRON MICROSCOPE STUDY.;77
74;Chapter 70. NONHYDROXY AND HYDROXY FATTY ACIDS IN BRAIN CEREBROSIDESOF MAN AND VARIOUS ANIMAL SPECIES;78
75;Chapter 71. EFFECT OF DRUGS AND DIFFERENT EXPERIMENTAL CONDITIONS ONTHE ACTIVITY OF CENTRAL MONOAMINE NEURONS;79
76;Chapter 72. QUANTITATIVE ANALYSIS OF INDIVIDUAL MOLECULAR SPECIES OFLIPIDS IN THE NERVOUS STRUCTURES OF MARINE ANIMALS;80
77;Chapter 73. BRAIN STEROLS IN THE ADULT RAT;81
78;Chapter 74. TECHNICAL PROCEDURE FOR MICRO DISC-ELECTROPHORESISS. Gandini and A.R. Dravid;82
79;Chapter 75. EFFECTS OF SEVERE PROTEIN-CALORIE DEFICIENCY ON THEINCORPORATION OF GLUCOSE CARBON INTO FREE AMINOACIDS OF RAT BRAIN CORTEX IN VIVO;83
80;Chapter 76. PHENYLALANINE AMINOTRANSFERASE. PROPERTIES AND FUNCTIONSHarvey George and Sabit Gabay;84
81;Chapter 77. BIOCHEMICAL AND BIOPHYSICAL CHARACTERIZATION OFCYTOPLASMIC AND NUCLEAR RIBONUCLEOPROTEINSAND RIBONUCLEIC ACIDS OF RAT BRAIN CORTEX;85
82;Chapter 78. ACTION OF TRANQUILLIZER DRUGS AT THE LEVEL OFBRAIN NUCLEOPROTEINS;87
83;Chapter 79. NEW MICROCHEMICAL APPROACHES TO THE STUDY OF THEFUNCTIONAL ACTIVITY OF INDIVIDUAL NEURONSEzio Giacobini;88
84;Chapter 80. EFFECTS OF VARIOUS FORMS OF STRESS ON THE TURNOVER OF[%]NOREPINEPHRINE IN THE RAT BRAIN;89
85;Chapter 81. INFLUENCE OF THE SUBSTANTIA NIGRA ON THESYNTHESIS OF BIOGENIC AMINES IN THE STRIATUM;90
86;Chapter 82. HETEROGENEITY OF BEEF BRAIN S-lOO PROTEIN;91
87;Chapter 83. CHANGES IN NUCLEIC ACIDS AND ENZYMES IN DEVELOPING CEREBRALCORTEX AND CEREBELLUM OF THE RAT AFTERNEOTAL THYROIDECTOMY;92
88;Chapter 84. ROLE OF LIGHT IN THE BIOSYNTHESIS OF RIBONUCLEIC ACIDSDURING ONTOGENESIS OF VISUAL PATHWAYS;93
89;Chapter 85. TRANSIENT LOSSES OF CELL LIPID FROM CULTURES OF HUMANFOETAL CEREBELLA EXPOSED TO HETEROLOGOUS SERUM;94
90;Chapter 86. SOME STUDIES ON THE EFFECT OF ELECTRICAL STIMULATIONON THE SYMPATHETIC ADRENERGIC NEURON;95
91;Chapter 87. BIOSYNTHESIS OF GLYCOLIPIDS: INCORPORATION OF RADIOACTIVEN-ACETYL GALACTOSAMINE FROM URIDINE-DIPHOSPHO-(N-ACETYL)[ 1Z*C ]HEXOSAMINE INTO CLYCOLIPIDS BY A RAT BRAIN PARTICULATEPREPARATION;96
92;Chapter 88. AN INTERPRETATION OF NEURONAL FUNCTION, CYTOCHROMEOXIDASE ACTIVITY AND TRICYANOAMINOPROPENE;97
93;Chaper 89. TRIPHOSPHOINOSITIDE PHOSPHOHYDROLASES OF RAT BRAINGeorge Häuser, Joseph Eichberg, Steven M. Gompertzand Michael Ross;98
94;Chapter 90. ISOLATION AND CHARACTERIZATION OFSOLUBLE BRAIN LIPOPROTEINS;99
95;Chapter 91. A POTASSIUM-INDUCED STIMULATION OF POTASSIUM ANDAND GLUTAMATE TRANSPORT IN BRAIN SLICES;100
96;Chapter 92. GANGLIOSIDES IN RELATION TO HISTOLOGICAL STRUCTUREOF CEREBRAL CORTEX AND OF PHOTORECEPTOR ORGANELLES*;101
97;Chapter 93. NEUROCHEMICAL EFFECT OF NORMAL ENVIRONMENTAL DEPRIVATIONWilliamina A. Himwich and Harish C. Agrawal;103
98;Chapter 94. REGIONAL DIFFERENCES OF RETINAL LDH-PATTERNS ANDTHEIR FUNCTIONAL IMPLICATION;104
99;Chapter 95. THE SHORT-TERM TURNOVER OF ETHANOLAMINE PHOSPHOGLYCERIDES INMOUSE BRAIN MYELIN AND MICROSOMES IN VIVO;105
100;Chapter 96. THE PHOSPHOLIPID COMPOSITION OF CELL FRACTIONS FROMTHE MUSCLE OF NORMAL AND DYSTROPHIC MICE;106
101;Chapter 97. TURNOVER RATES OF PROTEIN AND RNA IN SUBCELLULARFRACTIONS OF RAT BRAIN;107
102;Chapter 98. THE BIOSYNTHESIS OF RNA AND PROTEIN IN NORMAL ANDSCRAPIE MOUSE BRAIN;109
103;Chapter 99. COMPARATIVE STUDIES OF THE DEAMINATION OFDIMETHOXYPHENYLETHYLAMINE IN RAT, DOG AND HUMAN BRAIN;110
104;Chapter 100. SIMULTANEOUS DETERMINATION OF RNA AND PROTEIN SYNTHESISIN RAT BRAIN CORTEX SLICES;111
105;Chapter 101. UTILIZATION OF ADENOSINE BY CALF BRAIN EXTRACTS;112
106;Chapter 102. PREPARATION OF BULK QUANTITIES OF DIFFERENTIATING CELLSFROM THE CHICK EMBRYO CEREBRAL HEMISPHERE;114
107;Chapter 103. TRANSPORT OF MONOSACCHARIDES INTO SLICES OFGUINEA-PIG BRAIN CORTEX;115
108;Chapter 104. BRAIN PROTEINS LABELLED BY [J P J D F P AND THEIRCONNECTION WITH THE DELAYED NEUROTOXIC EFFECTOF SOME GRGANOPHOSPHORUS COMPOUNDS;116
109;Chaper 105. LIPIDS AND FREE AMINO ACIDS IN HUMAN BRAIN SLICES;117
110;Chaper 106. BINDING OF METALLIC CATIONS BY AQUEOUSDISPERSIONS OF BRAIN LIPIDS;118
111;Chapter 107. INTERRUPTION OF HYPOGLYCEMIC COMA BY INFUSION OFAMINO ACIDS;119
112;Chapter 108. ELECTROCHEMICAL POTENTIAL DIFFERENCES FOR H+/HCOÔBETWEEN BLOOD AND CSF IN ACUTE AND SUSTAINED ACID-BASE CHANGES;120
113;Chapter 109. HISTOCHEMICAL DISTRIBUTION OF ACETYLOHOLINESTERASEIN SYMPATHETIC GANGLIA OF CONTROL ANDIMMUNOSYMPATHECTOMIZED RATS;121
114;Chapter 110. AMINO ACID METABOLISM IN RAT SUPERIOR CERVICAL GANGLION;122
115;Chapter 111. INTRINSIC PROTEIN-SYNTHESIZING MACHINERY OF THE AXON;123
116;Chapter 112.

INTERRELATIONS OF RNA AND PROTEIN SYNTHESIS AND NEURALFUNCTION IN CAT SPINAL CORD. A STUDY OF THE NEUROBIOLOGICALACTIVITY OF ACTINOMYCIN D (AMD)1;124
117;Chapter 113. BIOCHEMICAL AND FUNCTIONAL CHANGES IN THE NERVOUS SYSTEMPRODUCED BY METHIONINE SULPHOXIMINE;125
118;Chapter 114. ON BRAIN PROTEINS PARTICIPATING IN AMIDENITROGEN METABOLISM;126
119;Chapter 115. DETERMINATION OF Na+ AND K+ IN INDIVIDUAL INVERTEBRATE NEURONSZ. Kometiani*, S. Hovmark and E. Giacobini;128
120;Chapter 116
. COMPOSITION PHOSPHOLIPIDIQUE DES DIVERSES TUMEURSCEREBRALES CHEZ L'HOMME;129
121;Chapter 117.

A COMPARATIVE STUDY OF PHOSPHOLIPIDS IN THENERVOUS SYSTEM OF MOLLUSCS;130
122;Chapter 118.

COMPARATIVE RATES OF SYNTHESIS OF NAD IN NEURONALAND GLIAL CELL NUCLEI;131
123;Chapter 119.

PURIFICATION AND PROPERTIES OF A-TYPE ESTERASES INFOETAL AND ADULT RABBIT BRAIN;132
124;Chapter 120.

BIOCHEMICAL PATTERNS IN ISOLATED MEMBRANES OF THE CNSE.G. Lapetina, E.F. Soto* and E. De Robertis;133
125;Chapter 121.

TISSUE SLICE EXPERIMENTS ILLUSTRATING INHIBITORS OFCEREBRAL OXIDATIVE METABOLISM IN URAEMIC AND HEPATIC COMA;134
126;Chapter 122. STUDIES ON LOW MOLECULAR WEIGHT PROTEINS PRESENT INCEREBROSPINAL FLUID (C.S.F.) AND IN NORMAL ANDPATHOLOGICAL URINES;135
127;Chapter 123.

PURIFICATION OF BRAIN ACETYLCHOLINESTERASE;136
128;Chapter 124. AMIDATION OF A SPECIFIC BRAIN PROTEIN FRACTION DURINGCONVULSIVE ACTIVITY AND AMMONIA INTOXICATION;137
129;Chapter 125. GANGLIOSIDES OF THE ADRENAL MEDULLA;138
130;Chapter 126.STUDIES OF PHOSPHOPEPTIDES IN ANIMAL TISSUES;139
131;Chapter 127. THE SOLUBILITY OF BRAIN PROTEINS IN CHLOROFORM-METHANOLMIXTURES;140
132;Chapter 128.A BARRIER EFFECT AT THE LEVEL OF THE PIAL SURFACE OF THE BRAIN;141
133;Chapter 129. UPTAKE OF EXOGENOUS MONOAMINES BY NEURONS OFTHE CENTRAL NERVOUS SYSTEM;142
134;Chapter 130. THE MECHANISM BY WHICH SIALIC ACID IN THE GANGLIOSIDESIS RENDERED IMMUNE TO SIALIDASE;143
135;Chapter 131. CYTOCHEMICAL STUDY OF STIMULATORY AND INHIBITORY NEURONSOF THE CEREBELLAR CORTEX;144
136;Chapter 132. ATP AND PYRIDINE NUCLEOTIDE CONTENT OF LIGHT ANDDARK ADAPTED VERTEBRATE RETINA;145
137;Chapter 133. STRUCTURE AND BIOSYNTHESIS OF MYELIN IN THEMAMMALIAN CNS IN VITRO;146
138;Chapter 134. THE RELEASE OF UNESTERIFIED FATTY ACIDS IN BRAIN;147
139;Chapter 135. THE OCCURRENCE OF FLUORESCENT LIPIDS IN BRAIN;148
140;Chapter 136. AGENTS WITH SPECIFIC ACTIONS ON SODIUM AND POTASSIUMION MOVEMENTS IN MAMMALIAN CEREBRAL TISSUES;149
141;Chapter 137. CHANGES IN THE CONCENTRATION OF THE yc-GLOBULIN OFBOVINE CEREBROSPINAL FLUID WITH DEVELOPMENT;150
142;Chapter 138. A COMPARISON OF THE METABOLISM OF BRAIN ANDAN EXPERIMENTAL GLIAL NEOPLASM DURING ISCHEMIA;151
143;Chapter 139. SOME PROPERTIES OF THE LIMITING MEMBRANES OFSYNAPTOSOMES AND SYNAPTIC VESICLES;152
144;Chapter 140.

CHOLINE ACETYLTRANSFERASE ACTIVITY IN SPINAL ANDSYMPATHETIC GANGLIA OF CHICK EMBRYO;153
145;Chapter 141
. FREE AMINO ACIDS OF HUMAN BRAIN DURING MATURATION;154
146;Chapter 142.

SEROTONIN, NORADRENALINE AND SLEEP CHANGES DURINGNITROGEN DEPRIVATION;155
147;Chapter 143.

THE METABOLISM OF THE BASIC PROTEINS OFRAT BRAIN DURING DEVELOPMENT;156
148;Chapter 144.

EFFECT OF IONIC STRENGTH ON GLUTAMATE DECARBOXYLASEACTIVITY OF MOUSE BRAIN MITOCHONDRIA;157
149;Chapter 145.

THE EFFECT OF AN ELECTRIC FIELD ON CEPHALIN FILMS;158
150;Chapter 146.

COMPARISON OF THE PROTEIN COMPOSITION OFMYELIN FROM DIFFERENT SPECIES;159
151;Chapter 147.

A POSSIBLE ROLE OF STRANDIN IN THE REGULATION OFCATECHOLAMINE TRANSPORT ACROSS MEMBRANES;160
152;Chapter 148.

ENZYMIC FUNCTIONS RELATED TO REDUCED PYRIDINENUCLEOTIDE REGULATION IN BRAIN;161
153;Chapter 149.

ENZYMIC PATTERN CHANGES IN CAT NEOCORTEXPRODUCED BY MESCALINE EPILEPTOGENIC FO;162
154;Chapter 150.

PREPARATION AND TURNOVER STUDIES OF FOUR BRAIN PROTEINSB.W. Moore, A. Pena-Ramos and V.J. Perez;163
155;Chapter 151.

DIRECT ACTION OF DEUTERIUM ON ISOLATED NERVOUSTISSUES IN ORGANIZED CULTURE;164
156;Chapter 152.

A STUDY ON THE PRECURSOR FOR ACETYLCHOLINESYNTHESIS IN THE NERVOUS TISSUE;165
157;Chapter 153.

RAT BRAIN MYELIN: COMPOSITIONAL CHANGES DURING DEVELOPMENT;166
158;Chapter 154.

RATES OF PROTEIN SYNTHESIS AND CATABOLISM INTHE DEVELOPING RAT BRAIN;168
159;Chapter 155.

BIOCHEMICAL AND BEHAVIOURAL CHANGES ASSOCIATED WITHFOCAL DEUTERON IRRADIATION OF THE MOUSE BRAIN;169
160;Chapter 156
. ADENOSINETRIPHOSPHATASE DU NERF NORMAL, RÉGÉNÉRÉ ET DÉGÉNÉRÉ;170
161;Chapter 157.

CHANGES IN THE ACTIVITY OF AMINO ACID: tRNA-LIGASES INTHE MOUSE BRAIN DURING POSTNATAL DEVELOPMENT;172
162;Chapter 158.

LIPID COMPONENTS OF HUMAN MYELIN MEMBRANESFORMING THE MYELIN SHEATH;173
163;Chapter 159.

EFFECT OF AN ECTOSYLVIAN EPILEPTOGENIC FOCUS ONOXIDATIVE PHOSPHORYLATION IN THE CAT NEOCORTEX;174
164;Chapter 160.

COMPARATIVE STUDIES OF FATTY ACID COMPOSITION OFPHOSPHOLIPIDS IN SUBCELLULAR FRACTIONS OF RABBIT BRAIN;175
165;Chapter 161.

MECHANISMS OF BIOSYNTHESIS OF PHOSPHATIDYLETHANOLAMINE ANDPHOSPHATIDYLSERINE IN BRAIN TISSUE AT THE MICROSOMAL LEVEL.THE ROLE OF L-SERINE ETHANOLAMINE AND L-THREONINE ETHANOLAMINEPHOSPHODIESTERS;176
166;Chapter 162
. CEREBRAL AMINO ACID METABOLISM IN BRAIN TUMOURS;178
167;Chapter 163.

CATIONIC STIMULATION OF RNA SYNTHESIS IN RAT BRAINCORTEX SLICES;179
168;Chapter 164.

OLFACTION AND CHANGES IN BRAIN NUCLEAR RNA IN A TELEOST;180
169;Chapter 165.

^C-LABELLING OF N-ACETYL-ASPARTIC ACID AND N-ACETYLASPARTYL-GLUTAMIC ACID IN MOUSE BRAIN TISSUE SLICES;181
170;Chapter 166.

THE COMPARATIVE PRODUCTION OF ã-AMINOBUTYRATE INBIDIRECTIONALLY BRED BEHAVIOURAL· STRAINS;182
171;Chapter 167.

ISOLATION AND PROPERTIES OF ISOLATED NERVE ENDINGMEMBRANES AND JUNCTIONAL COMPLEXES;183
172;Chapter 168.

ASSOCIATION OF COMPONENTS OF THE ã-AMINOBUTYRIC ACID (GABA)SYSTEM WITH SYNAPTIC VESICLES;184
173;Chapter 169.

ENZYME HISTOCHEMICAL STUDIES ON THE CEREBRAL CORTEX OFTHYROID HORMONE-DEFICIENT RATS;185
174;Chapter 170.

METABOLISM OP ISOLATED NEURONAL AND GLIAL CELLS;187
175;Chapter 171.

THE OCCURRENCE AND METABOLISM OF TRIGLYCERIDESIN BRAIN;188
176;Chapter 172.
LIPID CHARGE AND MEMBRANE STRUCTURE;189
177;Chapter 173.

IONIC COMPOSITION OF BRAIN SLICES ISOLATED FROM THE RAT;190
178;Chapter 174.

THE EFFECT OF LITHIUM ON CEREBRAL MONOAMINE NEURONSMogens Schou, Hans Corrodi, Kjell Fuxe and Tomas Hokfelt;191
179;Chapter 175.

INCORPORATION OF EXOGENOUS ACETYLCHOLINE, CHOLINEAND ATROPINE IN MOUSE BRAIN CORTEX SLICES;192
180;Chapter 176.

THE IDENTIFICATION AND MEASUREMENT OF MYO-INOSOSE-2AND SCYLLO-INOSITOL IN MAMMALIAN TISSUES;193
181;Chapter 177.

RELATIONS BETWEEN THE TISSUE ACID-BASE AND THE TISSUEENERGY METABOLISM IN THE BRAIN;194
182;Chapter 178.

IN VITRO SYNTHESIS OF MYELIN IN NORMAL AND DEMYELINATING RATS;195
183;Chapter 179.

ACTIVATION OF SINGLE NEURONS IN RAT BRAIN BY L-GLUTAMICACID BEFORE AND AFTER INHIBITION OF THE DECARBOXYLASE:INTERACTIONS OF PYRIDOXAL-5T-PHOSPHATE;196
184;Chapter 180.

GLYCOLIPIDS OF PERIPHERAL NERVE IN METACHROMATICLEUCODYSTROPHY (MLD;197
185;Chapter 181.

ISOLATION, CHEMICAL CHARACTERIZATION AND COMPARISON OFTHE MEMBRANOUS CYTOPLASMIC BODIES FROM BRAINS OF TAY-SACHSDISEASE AND GM1-GANGLIOSIDOSIS (GENERALIZED GANGLIOSIDOSIS);198
186;Chapter 182.

FREE AND PROTEIN-BOUND LYSINE FLUX INDEVELOPING RABBIT BRAIN;199
187;Chapter 183.

EFFECTS OF OUABAIN ON ISOLATED GUINEA-PIG CEREBRAL CORTEX;200
188;Chapter 184.

REGULATION BY PYRUVATE KINASE OF AEROBIC GLYCOLYSISIN BRAIN TISSUE IN VITRO;201
189;Chapter 185
. RNase AND RNase INHIBITOR, EXAMINED IN RELATION TOPROTEIN AND RNA METABOLISM IN THE CENTRAL NERVOUS TISSUE;202
190;Chapter 186.

QUALITATIVE ÁÍ¼ QUANTITATIVE PATTERNS OF GANGLIOSIDESIN THE BRAINS OF DIFFERENT ANIMALS;203
191;Chapter 187.
MYELINOGENESIS AND BRAIN FUNCTION INPRENATALLY X-IRRADIATED RATS;204
192;Chapter 188.

THE INFLUENCE OF NUCLEASES, AND INHIBITORS OFNUCLEIC ACID AND PROTEIN SYNTHESIS, ON BEHAVIOUR IN THE MOUSE;205
193;Chapter 189.

STUDIES ON RNA SYNTHESIZED IN VITRO BY SENSORY GANGLIAOF CHICK EMBRYO;206
194;Chapter 190.

MULTIPLE SCLEROSIS BRAIN GAMMA GLOBULIN ANDTHE SINK ACTION OF THE CEREBROSPINAL FLUID;207
195;Chapter 191.

OUABAIN AND ELECTROLYTE METABOLISM OF CEREBRALCORTEX IN VITRO;209
196;Chapter 192.

BIOCHEMICAL STUDIES ON ORGAN-SPECIFIC PROTEINFROM BRAIN MICROSOMES;210
197;Chapter 193.

GLUCOSE BALANCE AND SYNTHESIS OF FREE AMINO ACIDS IN THECNS OF NORMAL AND GAMMA(Co60)-IRRADIATED RATS;211
198;Chapter 194.

MOLECULAR PROPERTIES OF THE NERVE GROWTH FACTORSilvio Varon, J. Nomura and E.M. Shooter;212
199;Chapter 195,

GLYCEROLPHOSPHATE DEHYDROGENASE DIFFERENTIATIONIN THE DEVELOPING RAT BRAIN: EFFECT OF X-IRRADIATION;213
200;Chapter 196.

SEPARATION OF THE LOW MOLECULAR WEIGHT PEPTIDE FRACTION FROMCALF BRAIN STEM AND IDENTIFICATION OF SOME ACIDIC COMPOUNDS;214
201;Chapter 197,

MODIFICATION OF THE POLYSOMAL PATTERN IN RABBITCEREBRAL CORTEX BY ELECTROSHOCK TREATMENT;215
202;Chapter 198.

FINE STRUCTURE AND HISTOCHEMISTRY OF PERIPHERAL BLOODLEUCOCYTES AND PLATELETS IN NIEMANN-PICK DISEASE;216
203;Chapter 199.

BIOSYNTHESIS OF RNA IN »NEURONAL1 AND »NEUROGLIAL« FRACTIONS;217
204;Chapter 200 . BRAIN TRANSGLUTAMINASE DURING DEVELOPMENT OF EAE;218
205;Chapter 201
. INFLUENCE OF SOME IONS AND SMALL MOLECULES ON THE ACTIVITYAND PHYSICAL PROPERTIES OF A PURIFIED ANIONIC ASPARTIC-2OXOGLUTARIC AMINOTRANSFERASE: A MODEL SYSTEM;219
206;Chapter 202
. PROPERTIES OF A "BRAIN-SPECIFIC" GLYCOPROTEIN IN AQUEOUSEXTACTS OF HUMAN CENTRAL AND PERIPHERAL NERVE TISSUE;220
207;Chapter 203
. THE INTRACELLULAR DISTRIBUTION OF BRAIN CATECHOLAMINES;221
208;Chapter 204. ELECTROLYTES OF THE BRAIN IN WATER INTOXICATION;222
209;Chapter 205. INCREASED RNA SYNTHESIS IN THE BRAINS OF MICEUNDERGOING CONDITIONED AVOIDANCE TRAINING;223
210;Chapter 206. EVALUATION OF EXTRACTION PROCEDURES AND PRELIMINARYSEPARATIONSOF PEPTIDES FROM CALF BRAIN STEM;224
211;Chapter 207. PROTEINS OF CENTRUM OVALE, OPTIC NERVE ANDPERIPHERAL NERVE MYELIN;225
212;Chapter 208. ACTIVITY OF MEMBRANE-BOUND ENZYMES AS A FUNCTIONOF STRUCTURAL CHANGES IN MEMBRANES;226
213;Chapter 209, UDPG AND UDPGA IN BRAIN AND OTHER ORGANS;227
214;Chapter 210. OUTER SEGMENT RENEWAL IN PHOTORECEPTOR CELLS OFTHE VERTEBRATE RETINA;228
215;Chapter 211. STUDIES ON BRAIN SIALIDASE;229
216;Chapter 212. SITE OF INCREASED LABELLING OF RNA IN BRAINS OF MICEDURING SHORT TERM LEARNING EXPERIENCE;230
217;Chapter 213. SEDIMENTATION PROPERTIES OF CEREBRAL RIBOSOMESACTIVE IN AMINO ACID INCORPORATION;231
218;INDEX;232
219;ADDENDUM;238
220;STEROL METABOLISM IN THE BRAIN OF THE DEVELOPING CHICK EMBRYO;239

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