PROGRESS IN BIOPHYSICS AND MOLECULAR BIOLOGY An International Review Journal 60 EDITORS D. NOBLE T. L. BLUNDELL T. PAWSON* *(as of Volume 61) © PERGAMON Progress in Biophysics & Molecular Biology EDITORS D. NOBLE, University Laboratory of Physiology, Oxford OX1 3PT T. L. BLUNDELL, University of Cambridge, Department of Biochemistry, Cambridge CB2 1QW T. PAWSON, Samuel Lunenfeld Institute, Mount Sinai Hospital, Toronto, Canada M5G 1XS Subscription Rates Annual Institutional Subscription Rates 1997: Europe, The CIS and Japan 1383.00 Dutch Guilders. All other countries U.S.$854.00. Associated Personal Subscription rates are available on request for those whose institutions are library subscribers. Dutch Guilder prices exclude VAT. Non-VAT registered customers in the European Community will be charged the appropriate VAT in addition to the price listed. Prices include postage and insurance and are subject to change without notice. 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Postmaster please send address corrections to Progress in Biophysics and Molecular Biology, c/o Elsevier Science RSO, Customer Support Department, 655 Avenue of the Americas, New York, NY 10010, U.S.A. Progress in Biophysics and Molecular Biology is published as 2 volumes per year, 3 issues per volume (January, March, May, July, September, November). Copyright © 1997 Elsevier Science Ltd. All rights reserved. Back Issues Back issues of all previously published volumes are available direct from Elsevier Science Offices. Publishing /Advertising Offices Elsevier Science Ltd, Elsevier Science Inc., The Boulevard, 655 Avenue of the Americas, Langford Lane, New York, Kidlington, NY 10010, Oxford OX5 1GB, U.S.A. ContentsDirect delivers the table of contents of this journal, by e-mail, approximately two to four weeks prior to each issue’s publication. To subscribe to this free service complete and return the form at the back of this issue or send an e-mail message to [email protected] VOLUME 60 CONTENTS Regulation of Serotonin Synthesis—M. C. Boadle-Biber Short-term Control of GABA Synthesis in Brain—D. L. Martin Short-term Control of Transmitter Synthesis in Central Catecholaminergic Neurones—M. Fillenz Regulation of the Synthesis of the Transmitter Glutamate Pool— F. Fonnum Short-term Control of the Synthesis of Acetylcholine—T. Tucek Aspects of Protein Energetics and Dynamics—A. A. Rashin Standard Structures in Proteins—A. V. Efimov Distinctive Features of Foot-and-Mouth Disease Virus, a Member of the Picornavirus Family; Aspects of Virus Protein Synthesis, Protein Processing and Structure—G. J. Belsham SUBJECT INDEX Acetylcholine (Ach) regulation of 61, 64 Constancy of level in nervous system 59 Choline acetyltransferase (ChAT) Synthesis, short term control of 59-65 properties and localization 62, 64 concentration limit in neurons 64 reaction catalysed 59, 62 equilibrium concentration 63,64 a-Chymotrypsin rate-limiting circumstances 63 hairpin loop 211 sequence of events 64 half-turns 207-209 unsolved problems 65 long irregular region 211 Acetyl-CoA turns 204 Provision for Ach synthesis 61 Chymotrypsin inhibitor (CI-2) cross-over region 210 rate-limiting 64 a-Cobratoxin cross-over region 210 Synaptoplasmic concentration 61, 62 Crambin Adenylate kinase «-B-arches 226 a-B-arch 226 Alanine aminotransferase in glutamate metabolism 51 B-a-arch 230 Alcohol dehydrogenase cross-over region 210 a-B-arches 226, 228 a-Crystallin B-a-arch 230 cross-over region 210 Alkali ion binding to proteins 178 half-turns 209 y-Aminobutyric acid see GABA turns 204 Annexin V-shaped structures 222 Cytochromes L-shaped structures 220 Arabinose-binding protein a-B-arches 226, 228 Deoxyribonuclease 1 B-a-arches 230 hairpin loop 211 Aromatic amino acid decarboxylase (AADC) long irregular region 211 in serotonin synthesis 2-4 Dihydrofolate reductase properties 4 a-B-arch 228 reactions catalysed 3 B-a-arch 230 Aspartate aminotransferase (AspT, AAT) L-DOPA (dihydroxyphenylalanine) formation from B-a-arch 230 tyrosine 30 properties and distribution in brain 50, 51 DOPAC (3,4-dihydroxyphenylacetic acid) concentration ATP effects on GAD 18, 23-25 changes in neurons 36, 41 42 Azurin long irregular region 211 Dopamine deamination to DOPAC 36 Bence-Jones protein formation from tyrosine 30 cross-over regions 210 synthesis hairpin loops 211 in synaptosomes and slices 38-40 half-turns 208 in vivo 40-42 BPTI presynaptic receptors and 38, 42 folding 155-157 Dopaminergic neurons 37-42 hydrogen exchanges studies 169 turns 205 Encephalomyocarditis virus (EMCV) see Picornavirus -trypsin complex 145, 174 Brain Flavodoxin a-B-arches 226 GABA synthesis in 17-26 Foot-and-mouth disease virus (FMDV) apoGAD levels 23 distinguishing features 257 compartmentation 20 polyprotein processing glutamate compartmentation in 47-54 myristoylation 252, 253 proteolysis 242, 251 Ca 2+ 1AB cleavage 252 binding and protein folding 177, 179 2A/2B cleavage 251 in 5-HT synthesis 8, 10 3C mediated 252 Carbamoyl transferase (CMTC) L/P1 cleavage 251 a-B-arches 228 protein synthesis B-a-arches 230 initiation sites 248-251 Carboxypeptidase IRES a-B-arch 226 identification 246, 247 L-shaped structures 220 in initiation of protein synthesis 245 Catalase, L-shaped structures 220 mode of action 247, 248 Catecholamines synthesis secondary structure 246 physiological significance of regulation 43 RNA genome 241 protein kinases regulating 42 structure 242, 243 scheme 30 modifications 243, 244 Choline provision for Ach synthesis 59 structure facilitated diffusion 60 antigenic 254-257 high-affinity carriers 60 3D 253-255 effects of inhibition 64 subtype distribution 241 vi Subject Index GABA (a-aminobutyric acid) Internal ribsome entry site (IRES) functions 20, 21 cellular 248 synthesis in brain 17-26, 48, 49 of picornaviruses 245-249 compartmentation 20-22 controlling factors 20 L7/L12 protein a-B-arch 226- degradation scheme and 21 Lactate dehydrogenase main route 17 a-B-arch 228 regulation 18, 25 B-a-arch 230 substrate availability 22 Lysozyme turnover 25 chickens, turns 204 Gluconate oxidase V-shaped structure 222 phage T4 Glucose metabolism in brain 48 L-shaped structures 220 Glutamate turns 204 compartmentation in brain 47-54 V-shaped structure 222 distribution 47, 48 formation, uptake mechanisms 52 Mutations and protein stability 179-189 (see also under -glutamine cycle 49, 53 protein energetics, stability) precursors for 48, 49 Myogen, carp, turns 204 release, regulation by presynaptic receptors 52, 53 Myoglobin L-shaped structures 220 synthesis, enzymes involved 49 AspT 50, 51 GDH 51 Neurons GS 51 catecholaminergic, control of transmitter synthesis in PaG 49, 50 cholinergic 29-43 transmission control 53, 54 concentration limit to Ach 64 presence of Ach and ChAT 59 in GABA synthesis 17, 18, 20, 22-26 GABAergic 22, 25, 26 Glutamate decarboxylase (GAD) apoenzyme noradrenergic 34-37, 42 serotonergic, organization 1 as inactive enzyme reservoir 23 formation 18 Noradrenaline synthesis level, factors controlling 23-26 in slices and synaptosomes 35 assay 19 in vivo 36 presynaptic receptors and 34, 42 detection 21 route 30 in GABA synthesis 17 localization 20 Nuclease S turns 204 multiple forms 19, 20 possible regulatory mechanisms 24-26 Ovomucoid OMJPQ3, B-a-arch 230 reaction mechanism i8 2-Oxoglutarate in glutamate metabolism 51, 52 Glutamate dehydrogenase (GDH) properties and distribution in brain 51 Pancreatic trypsin inhibitor Glutamatergic a-B-arch 228 autoreceptors concept 52, 53 B-a-arch 230 terminal Phospholipase A, in choline transport 61 composition 47, 48 Picornavirus glutamate level control in 53, 54 cell-virus interaction 257 Glutaminase (PaG) properties and distribution in family 241, 242 brain 49. 50 inhibition of cell protein synthesis 249-251 Glutamate-glutamate cycle in brain 48, 49, 52, 53 internal ribosome entry site 245-249 Glutamine synthesis (GS) properties and distribution in polyprotein processing 251-253 brain 51 protein synthesis 244-251 Glutathione reductase structures 253-257 a-B-arches 226 Platocyanin long irregular region 211 a-B-arch 230 Poliovirus 241 Glyceraldehyde-phosphate dehydrogenase inhibition of cell protein synthesis 249-251 a-B-arch 228 inhibition of replication 257 B-a-arch 230 IRES 245 polyprotein processing 251-253 relationship to FMDV 242 Prealbumin Halogen ion binding to proteins 178 half-turns 208, 209 a-Helices turns 204, 205 as parts of standard structures 201 Protein energetics formation, dynamic aspects 163 interactions stability 165-168 bonded 75, 76 Hemicholinium-3 binding sites in choline transport 61 classification 75 Hemocyanin V-shaped structure 222 dispersion 79-81 Hemoglobins L-shaped structures 220 electrostatic 77-79, 104 HiPiP half-turns 207-209 entropic contributions 100-102 Hydrogen hydrogen bonds 81-83, 104, 105 bonds in protein interactions 81-83, 104, 105, 173 packing 102, 103 exchange studies of protein structure 168, 169 repulsion 76, 77 5-hydroxytryptamine (5-HT) see serotonin solvent-induced 83-85 Subject Index hydration of polar groups 98-100 initiation 245 hydrophobic solute transfer 89-92 sites 248 hydrophobic/solvophobic 85-89 Proteins, standard structures ion-ion 97, 98 «/B recurrent folding units 231 ionic hydration 94-99 a-helical super-secondary structures 232, 233 transfer energies 92, 93 B-proteins super-secondary structures 233 ion binding 177-179 abcd-units 234-236 ligand design 176 corners 236, 237 methodology Greek key topologies 234 empirical potentials 103-107 formed by two elements of secondary structure dielectric constants 106 a-a-corners 217-219 hydrogen bonds 104 a-a-hairpins 216-218 polarizabilities 105, 106 a-B- andB-a-arches 224-231 entropy a-helices on a hydrophobic surface 212-214 confrontational 139-141 B-B-arches and - hairpins 222-224 rotational, translational and vibrational 137-139 L-shaped 219 221 solvational 141-143 polypeptide chain at ends of -helices 214, 215 integral equations and correlation functions 107-111 Ramachandran plot 203 closures 108, 109 relation to super-secondary structures 201 loops and crosslinks 135-137 small standard structures 201 molecular dynamics 111-113, 139, 144, 167 combinations 206, 209-212 molecular mechanisms 111, 112, 124, 146, 178 irregular regions molecular recognition 145-149, 174-177 as combinations 206 docking procedure 146-148, 174, 175 conformation 202 enzyme midfication 149 of half-turns, examples 205-209 protease inhibitor design 148, 174, 175 of turns, examples 202-205 Monte Carlo simulations 111-113, 124, 139, 153, 178, types of B-bends 202 179 Pyridoxal 5’-phosphate (pyridoxal-P) cofactor with packing effects 143-145 GAD 17, 18, 20, 23-26 scaled particle theory 113-115 Pyruvate dehydrogenase regulation and acetyl-CoA surface area correlations 128-135 levels 61, 63, 64 accessible area algorithms 134 approximations for different protein classes 129 Rhodonase f-a-arch 230 stabilities derived from 131 Ribosome see Internal ribosome entry site Treatments of electrostatics 115 RNA picornavirus translation 244, 245 boundary element method Rubredoxin turns 205 continuum reaction field 125 continuum solvent effects 124 empirical approximations 126-128 Scorpion neurotoxin finite difference method 115, 121, 122 cross-over region 210 hydration enthalpies 118, 131 molecular polarization models 123, 124 half-turns 207, 208 turns 204, 205 stability and mutations 179 of hydrophobic groups 181-183 toxin II hairpin loop 211 of ionizable groups 185-188 Serotonin (5-HT), regulation of synthesis 1-10 functional implications 10 general rules 180 introduction of crosslinks 188 neuronal impulse flow 7, 9 introduction of ion-binding site 189 relation of evoked release and synthesis 8,9 water removal 188 synthetic pathway 2 of uncharged groups 183-185 terminal autoreceptors 7, 9 substrate recognition 174-177 tetrahysrobiopterin 6 tissue oxygen levels 6 thermodynamics of association 176, 177 Protein folding 149-161 tryptophan concentration 4, 5,9 BPTI 155-157 tryptophan hydroxylase activity 7, 8 collapsed structures 152 Somatodendritic autoreceptors, on neuronal firing 7,9, 10 diffusion-collision model 154 Streptomyces subtilisin inhibitor B-x-arch 230 Subtilisin «-B-arches 226, 228 hierarchical models 160, 161 Superoxide dismutase ion-binding requirements 177 lattice studies 153 hairpin loop 211 molten globule behaviour 150, 151 half-turns 208 rules, analysis of 172 turns 204 thermolysin 158-160, 162 Protein structure Tetrahydrobiopterin (6R-BH,4) monoamine synthesis cavities and flexibility 163-165 cofactor 6 domains and stable fragments 161-163 Thermolysin a-helices 163, 165-168 folding 158-160, 162 hydrogen exchange studies 168, 169 inhibitor binding 177 predictions and design 169-174, 189 Thiorductase B-x-arch 230 principles, present understanding 189 Triose phosphate isomerase stability/flexibility requirements 74 a-B-arch 228 B-strands 171-174 B-a-arch 230 Protein synthesis in picornavirus 244-251 TRP repressor V-shaped structure 222 Viii Subject Index Tryptophan concentration effects in serotonin synthesis 4, cofactor 31 5, 9, 10 O, requirements 31, 32 Tryptophan hydroxylase substrate 31 Ca ** activation 8, 10 localization of activity 33, 34, 37 in serotonin synthesis 2 Tyrosyl-tRNA-synthetase V-shaped structure 222 properties 3 reaction catalysed 2 Uteroglobin V-shaped structure 222 regulation of activity 7, 8 Tyrosine hydroxylase characteristics Vesamicol (AH5183, 2-(4-phenylpiperidino)-cyclopexanol) kinetics of enzyme reaction 29-32 effect on Ach uptake and release 65 NAME INDEX OF AUTHORS OF ARTICLES IN PREVIOUS VOLUMES Aarnstein, H.R. V. Vol. 7, p. 165 Butler, J. A. V. Vol. 4, p. 148; Vol. 18, p. 209 Aarts, H. J. M. Vol. 51, p. 47 Byrne, B. M. Vol. 53, p. 33 Ab, G. Vol. 53, p. 33 Abrahamson, E. W. Vol. 17, p. 179 Adams, W. B. Vol. 46, p. 1 Caille, J. Vol. 46, p. 185 Adolph, A. R. Vol. 41, p. 125 Cameron, G.N. Vol. 56, p. 215 Campbell, P. N. Vol. 15, p. 1 Adrian, R. H. Vol. 19, p. 343 CantorVol. 25, p. 69 Alfsen, A. Vol. 42, p. 79; Vol. 54, p. 145 Carbone, E. Vol. 54, p. 31 Ambrose, E. J. Vol. 6, p. 25; Vol. 16, p. 241 Amjad, A. M. Vol. 53, p. 1 Carlson, F.D. Vol. 13, p. 261 Amos, L. A. Vol. 39, p. 183 Caro, L. Vol. 16, p. 171 Carruthers, A. Vol. 43, p. 33 Amzel, L. M. Vol. 31, p. 67 Carsana, A. Vol. 51, p. 165 Arden, G. B. Vol. 19, p. 375 Case, D. A. Vol. 52, p. 39 Arnott, S. Vol. 21, p. 265; Vol. 22, p. 179 Castresana, J. Vol. 59, p. 23 Arrondo, J. L. R. Vol. 59, p. 23 Cater, D. B. Vol. 10, p. 153 Ashcroft, F. M. Vol. 54, p. 87 Chad, J. E. Vol. 44, p. 215 Askonas, B. A. Vol. 25, p. 129 Chapman, D. Vol. 43, p. 71 Astumian, R. D. Vol. 50, p. 1 Attwell, D. Vol. 31, p. 201; Vol. 34, p. 81 Chapman, R. A. Vol. 50, p. 67 Cheeseman, C. I. Vol. 55, p. 71 Audinat, E. Vol. 55, p. 31 Cheng, Y.-K. Vol. 58, p. 255 Augustein, L.G. Vol. 13, p. 1 Chik, C. L. Vol. 53, p. 197 Clark, S. M. Vol. 7, p. 225 Baker, E. N. Vol. 44, p. 97 Clegg, G. A. Vol. 36, p. 53 Baker, K. Vol. 49, p. 89 Clemens, M. J. Vol. 28, p. 69 Baker, P. F. Vol. 24, p. 177 Clough, G. Vol. 55, p. 47 Baldwin, J. M. Vol. 29, p. 225 Coakley, W. T. Vol. 48, p. 155 Bangham, A. D. Vol. 18, p. 29 Cohen, I. Vol. 31, p. 201 Banks, B. E.C. Vol. 20, p. 247 Conchie, J. Vol. 14, p. 105 Bass, L. Vol. 27, p. 145 Congdon, C.C. Vol. 19, p. 311 Batke, J. Vol. 53, p. 105 Constantin, L. J. Vol. 29, p. 197 Bayley, P. M. Vol. 27, p. 3; Vol. 37, p. 149 Conway, B. E. Vol. 4, p. 148 Beaufay, H. Vol. 9, p. 325 Cooper, A. Vol. 44, p. 181 Beeler, G. W. Vol. 34, p. 219 Cooper, K. Vol. 46, p. 51; Vol. 53, p. 153 Behari, J. Vol. 56, p. | Cox, R. A. Vol. 32, p. 193 Beidler, L. M. Vol. 12, p. 107 Cramp, W. A. Vol. 43, p. 71; Vol. 50, p. 121 Beintema, J.J. Vol. 51, p. 165 Crane, E. E. Vol. 1, p. 85 Belluzzi,O. Vol. 55, p. | Creeth, J. M. Vol. 17, p. 217 Belsham, G. J. Vol. 60, p. 241 Crepel, F. Vol. 55, p. 31 Benga, G. Vol. 43, p. 195; Vol. 51, p. 193 Crippa, M. Vol. 31, p. 247 Benson, J. A. Vol. 46, p. 1 Curtis, A. S.G. Vol. 27, p. 317 Bergel, D. H. Vol. 11, p. 1 Berman, H. M. Vol. 41, p. 43 Bernhard, S. A. Vol. 10, p. 115 Dalmark, M. Vol. 31, p. 145 Berthet, J. Vol. 9, p. 325 Damjanovich, S. Vol. 39, p. 109; Vol. 49, p. 65 Bevan, M. J. Vol. 25, p. 129 Danchin, A. Vol. 54, p. 81 Binet, J. Vol. 43, p. 161 Date, T. Vol. 30, p. 23 Bitenksy, M. W. Vol. 26, p. 429 Davies, D. R. Vol. 15, p. 189 Blackshaw, S. E. Vol. 58, p. 19 Davies, H. G. Vol. 3, p. 195 Blake, C. C. F. Vol. 25, p. 69 Davison, P. F. Vol. 4, p. 148 Blinks, J. R. Vol. 40, p. 1 Dean, A.C. R. Vol. 5, p. 1 Boadle-Biber, M. C. Vol. 60, p. 1 De Crombrugghe, M. Vol. 49, p. 29 Bocciarelli, D. S. Vol. 15, p. 149 De Duve, C. Vol. 9, p. 325 Booth, F. Vol. 3, p. 131 DeFelice, L. J. Vol. 28, p. 189 Boyett, N. R. Vol. 26, p. | Del Castillejo, J. Vol. 6, p. 121 Brachet, J. Vol. 15, p. 97 De Mello, W. C. Vol. 39, p. 147 Bradbury, E. M. Vol. 20, p. 187 Denton, E. J. Vol. 11, p. 177 Brahmachary, R. L. Vol. 18, p. 207 Dervichian, D.G. Vol. 14, p. 263 Breeze, P. Vol. 53, p. | De Vries, H. F. Vol. 6, p. 207 Bretscher, M. R. Vol. 18, p. 177 Dhalla, N.S. Vol. 52, p. 1 Brillinger, D. R. Vol. 53, p. 1 DiFrancesco, D. Vol. 46, p. 163 Brindley, G. S. Vol. 8, p. 49 Doniach, I. Vol. 3, p. 1 Broda, E. Vol. 21, p. 143 Doonan, S._ Vol. 20, p. 247 Brown, Jr. R. H. Vol. 28, p. 341 Drummond, M. L. J. Vol. 47, p. 1 Burns, V. W. Vol. 12, p. 1 Dubois, J. M. Voi. 42, p. 1; Vol. 59, p. 1 x Name Index of Authors of Articles in Previous Volumes Dulhunty, A. F. Vol. 57, p. 181 Hasnain, S. S. Vol. 50, p. 47 Duysens, L.M.N. Vol. 14, p. 1 Hasselbach, W. Vol. 14, p. 167 Havel, T. F. Vol. 56, p. 43 Ebashi, S. Vol. 18, p. 123 Heinrich, R. Vol. 32, p. 1 Eckert, R. Vol. 44, p. 215 Helene, C. Vol. 39, p. 1 Edstrom, J.-E. Vol. 30, p. 57 Helliwell, J. R. Vol. 41, p. 67 Edwards, J.C. Vol. 43, p. 71 Henderson, R. Vol. 39, p. 183 Efimov, A. V. Vol. 60, p. 201 Hess, P. Vol. 40, p. 1 Eisenberg, R. Vol. 53, p. 153 Hilgemann, D. W. Vol. 51, p. 1 Eisenberg, R. S. Vol. 20, p. 1 Hill, T. L. Vol. 28, p. 267; Vol. 29, p. 105 Ellerton, H. D. Vol. 41, p. 143 Hille, B. Vol. 21, p. 1 Ellerton, N. F. Vol. 41, p. 143 Hindley, J. Vol. 26, p. 269 Endo, M. Vol. 18, p. 123 Hinshelwood, C. N. Vol. 5, p. 1 Engstrom, A. Vol. 1, p. 164 Ho, A. K. Vol. 53, p. 197 Errera, M. Vol. 3, p. 88 Hol, W.G.J. Vol. 45, p. 149 Holland, I. B. Vol. 49, p. 89 Fain, G. L. Vol. 37, p. 91 Holmes, R. P. Vol. 43, p. 195 Fairhurst, S. A. Vol. 34, p. 1 Hope, A. B. Vol. 23, p. 3 Feldman, M. Ya. Vol. 32, p. 83 Hovmoller, S. Vol. 51, p. 131 Felix, K. Vol. 6, p. 1 Howard, A. Vol. 3, p. 1 Fernandez-Moran, H. Vol. 4, p. 112 Huang, P.C. Vol. 23, p. 105 Few, A. V. Vol. 5, p. 41 Huang, R.-C.C. Vol. 17, p. 149 Filitti, Wurmser, S. Vol. 7, p. 87 Hubbard, J. I. Vol. 21, p. 33 Fillenz, M. Vol. 60, p. 29 Hubbard, R. E. Vol. 44, p. 97 Finean, J. B. Vol. 16, p. 143 Hughes, A. F. W.Vol, 1, p. 137 Finkelstein, A. V. Vol. 50, p. 171 Hughes, R.C. Vol. 26, p. 189 Fischer, H. Vol. 6, p. | Hunter, P. J. Vol. 30, p. 99; Vol. 52, p. 101 Fishman, H. M.Vol, 46, p. 127 Hutchinson, F. Vol. 5, p. 72 Fitton, J. E. Vol. 36, p. 53 Huxley, A. F. Vol. 7, p. 255 Fonnum, F. Vol. 60, p. 47 Hyde, B. B. Vol. 15, p. 129 Fothergill-Gilmore, L. A. Vol. 59, p. 105 Franck, U. F. Vol. 6, p. 171 Iball, J. Vol. 7, p. 225 Frankenhaeuser, V. Vol. 18, p. 97 lidefonse, M. Vol. 46, p. 185 Fraser, R. D. B. Vol. 4, p. 47 Inuzuka, M. Vol. 30, p. 23 French, A. S. Vol. 54, p. 59 Irie, M. Vol. 51, p. 165 Fuchs, R. Vol. 56, p. 215 Jack, J. Vol. 34, p. 81 Gallez, D. Vol. 48, p. 155 Jaenicke, R. Vol. 49, p. 117 Garner, C. D. Vol. 50, p. 47 Jakobsson, E. Vol. 46, p. 51 Gary-Bobo, C. M. Vol. 26, p. 103 James, A.M. Vol. 8, p. 95 Gates, P. Vol. 53, p. 153 Janin, J. Vol. 27, p. 79; Vol. 42, p. 21; Vol. 49, p. 29 George, A.M. Vol. 50, p. 121 Jardetzky,O. Vol. 43, p. 94 George, P. Vol. 10, p. 1 Jewell, B. R. Vol. 36, p. 1 Geschwind, N. Vol. 8, p. 165 Johns, E. W. Vol. 18, p. 209 Gibson, Q.H. Vol. 5, p. 1 Johnson, E. A. Vol. 20, p. | Gierer, A. Vol. 10, p. 299; Vol. 37, p. 1 Johnson, J. E. Vol. 55, p. 107 Glisin, V. Vol. 23, p. 193 Johnson, M. E. Vol. 59, p. 285 Glynn, I. M. Vol. 18, p. 241 Jolles, J. and P. Vol. 22, p. 97 Goddard, J. P. Vol. 32, p. 233 Joly, M. Vol. 5, p. 168 Goldman, Y. Vol. 27, p. 259 Joo, F. Vol. 53, p. 71 Goni, F.M. Vol. 59, p. 23 Jordan, D.O. Vol. 2, p. 51 Goodman, M. Vol. 38, p. 105 Gorman, R. E. Vol. 26, p. 409 Katchalsky, A. Vol. 4, p. 1 Goutier, R. Vol. 11, p. 53 Katz, B. Vol. 6, p. 121 Grant, P. T. Vol. 7, p. 165 Kay, R.H. Vol. 28, p. 109 Gray, J. A. B. Vol. 9, p. 285 Keleti, T. Vol. 53, p. 105 Gray, L.H. Vol. 2, p. 240 Kelly, L.S. Vol. 8, p. 143 Greenhough, T. J. Vol. 41, p. 67 Kendrew, J.C. Vol. 4, p. 244 Grisvard, J. Vol. 31, p. 165 Kepes, A. Vol. 19, p. 201 Gruber, M. Vol. 53, p. 33 Khodorov, B. I. Vol. 30, p. 146; Vol. 37, p. 49; Grunberg-Manago, M. Vol. 13, p. 175 Vol. 45, p. 57 Grundfest, H. Vol. 7, p. 1 Kitagawa, T. Vol. 58, p. 1 Guild, W. R. Vol. 5, p. 72 Klootwijk, J. Vol. 51, p. 77 Guille, E. Vol. 27, p. 123; Vol. 31, p. 165 Knapp, A. G. Vol. 56, p. 107 Gutfreund, H. Vol. 1, p. 1; Vol. 10, p. 115; Vol. 29, p. 161 Koller, P.C. Vol. 4, p. 195 Kon, H. Vol. 55, p. 85 Hadjiolov, A. A. Vol. 31, p. 95 Korner, A. Vol. 17, p. 61 Hall, D.O. Vol. 24, p. 125 Korner, P. I. Vol. 11, p. 111 Halliday, D. M. Vol. 53, P. 1 Kratky, O. Vol. 13, p. 105 Harel, M. Vol. 48, p. 67 Krekels, A. Vol. 6, p. 1 Harrison, P. M. Vol. 36, p. 53 Kumar, S. A. Vol. 38, p. 165 Hartzell, H.C. Vol. 52, p. 165 Kuppers, B. Vol. 30, p. 1