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Chemistry and Physics of Lipids 1996: Vol 82 Index PDF

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Preview Chemistry and Physics of Lipids 1996: Vol 82 Index

CPL CHEMISTRY AND AA. 44 Chemistry and Physics of Lipids PHYSICS OF LIPIDS ELSEVIER 82 (19961)9 9 Author index Volume 82 (1996) Baes, M.I. 82, 79 Golemme, A. 82, 147 Ni, J.-z. 82, 73 Bagby, M.O. 82, 33 Grasso, D. 82, 147 Barlow, D.J. 82, 89 Parmentier, G.G. 82, 79 Bernik, D.L. 82, 111 Hendrickson, H.S. 82, Pohle, W. 82, 191 Bicanic, D. 82, 15 Hiramatsu, N. 82, 63 Bushnev, A.S. 82, 85 Huang, Z. 82, 53 Sato, K. 82, 63 Busson, R.H. 82, 79 Hwang, F. 82, 73 Schorn, K. 82, 7 Sebedio, J.L. 82, 101 Chan, P.T. 82, 163 Ichimori, H. $82, 125 Seddon, J.M. 82, 53 Chauhan, S. 82, 89 Inoue, T. 82, 63 Selle, C. 82, 191 Checchetti, A. 82, 147 Semmler, K. 82, 179 Chen, J.-w. 82, 73 Kaneshina, S. 82, 125 Shvets, V.I. 82, 85 Chen, X.-h. 82, 73 Kloek, W. 82, 15 Sonnino, S. 82, 133 Chen, Z.Y. 82, 163 Knothe, G. 82, 33 Soria, M.R. 82, 133 Chidichimo, G. 82, 147 Kobelt, F. 82, 39 Spiteller, G. 82, 25, 39, 173 Christie, W.W. 82, 101 Kusnetsova, E.]. 82, 1 Suzuki, M. 82, 63 Templer, R.H. 82, 53 Dadarlat, D. 82, 15 LaRosa, C. 82, 147 Declercq, P.E. 82, 79 Lawrence, M.J. 82, 89 van den Dries, I. 82, 15 Disalvo, E.A. 82, 111 Lawrence, S.M. 82, 89 Van Houte, H.A. 82, 79 Dobner, B. 82, 179 Van Veldhoven, P.P. 82, 79 Dobson, G. 82, 101 Mannaerts, G.P. 82, 79 Vereshchagin, A.G. 82, | Dudda, A. 82, 39 Marsh, D. 82, 7 Maruyama, S. 82, 125 Wallace, P.A. 82, 141 Eyssen, H.J. 82, 79 Masserini, M. 82, 133 Weisleder, D. 82, 33 Matsuki, H. 82, 125 Weisser, M. 82, 173 Ferraretto, A. 82, 133 Meyer, H.W. 82, 179 W. Westerman, P. 82, 147 Minnikin, D.E. 82, 141 Gerkema, E. 82, 15 Mlakar, A. 82, 25 Zhao, D.-q. 82, 73 Gibkes, J. 82, 15 Motoda, I. 82, 63 Zhukov, A.V. 82, | CPL yes) CHEMISTRY AND Chemistry and Physics of Lipids ELSEVIER PHYSICS OF LIPIDS 82 (1996) 201-204 Subject index Volume 82 (1996) Acetylation; Phospholipids; Polar head group; Hydrogen Dihydroxy fatty acids; Nonenzymic lipid peroxidation; Hy- bond 82,| droxy-oxo fatty acids; Hydroperoxy oxo fatty acids; PU- FAs 82, 25 Aggregation properties; Synthesis; Novel non-ionic surfactants; Dialkyl polyoxyethylene glycerol ethers 82, 89 Dimerization constant; Merocyanine 540; Lipid vesicles; Gel state 82, 111 Aging; Plasmalogens; Bovine brain; Plasmalogen epoxide; Free aldehydes; x-Hydroxyaldehydes 82, 173 2,4-Dimethyltetradecanoic acid; Mycobacterium kansasii; Gly- colipid antigens; Fatty acid 82, 141 Allylic hydroxy groups; 'H-NMR spectroscopy; Rational func- tions; Logarithmic functions; Fatty acids; Fatty esters 82, 33 Dioleoylphosphatidylethanol Hydration; FTIR spec- troscopy; Lyotropic phase transition; Non-bilayer phases; Bilayer membrane; Interdigitation; Phase transition; Pressure; Dipalmitoylphosphatidylcholine 82, 191 Phospholipids; Vesicles 82, 125 Dipalmitoylphosphatidylcholine; Dioleoylphosphatidylethanol- Bovine brain; Plasmalogens; Plasmalogen epoxide; Free alde- amine; Hydration; FTIR spectroscopy; Lyotropic phase transi- hydes; x-Hydroxyaldehydes; Aging 82, 173 tion; Non-bilayer phases 82, 191 Ceramide phosphate; Synthesis; Thiophosphate 82, 85 Drug carrier; Liposomes; Thermosensitivity; pH Sensitiv- ity 82, 133 Cyclic fatty acids; Frying oils; Gas chromatography; High-per- formance liquid chromatography; Mass spectrometry; Oleic DSC; Lysolecithin; Phosphatidylethanolamine; 7H-NMR; *'P- acid; Silver ion chromatography; Sunflower oil 82, 101 NMR; Lipid bilayers 82, 147 Diacylglycerol; Lipid chain dynamics; Spin label; ESR; Slow Electron microscopy; Macroripples; Phosphatidylcholines; motion simulation 82, 7 Freeze-fracture 82, 179 Dialkyl polyoxyethylene glycerol ethers; Synthesis; Novel non- Epicatechin; Epicatechin gallate; Epigallocatechin; Epigallocat- ionic surfactants; Aggregation properties 82, 89 echin gallate; Jasmine tea 82, 163 Dielaidoylphosphatidylethanolamine,; Lanthanum; Lipid poly- Epicatechin gallate; Epicatechin; Epigallocatechin; Epigallocat- morphism; Differential scanning calorimetry; Phosphatidyle- echin gallate; Jasmine tea 82, 163 thanolamine; Hexagonal II 82, 73 Epigallocatechin; Epicatechin; Epicatechin gallate; Epigallocat- Differential scanning calorimetry; Lanthanum; Lipid polymor- echin gallate; Jasmine tea 82, 163 phism; Dielaidoylphosphatidylethanolamine; Phosphatidyl- ethanolamine; Hexagonal II 82, 73 Epigallocatechin gallate; Epicatechin; Epicatechin gallate; Epi- gallocatechin; Jasmine tea 82, 163 Differential scanning calorimetry; Photothermal phenomena; Photopyroelectric technique; Phase transitions; Fatty acids; ESR; Diacylglycerol; Lipid chain dynamics; Spin label; Slow Thermal parameters 82, 15 motion simulation 82, 7 202 Subject index Fatty acid epoxides; Myocardial infarction; Lipid peroxidation; Frying oils; Gas chromatography; Mass spectrometry; Oleic Glyoxal; x-Hydroxyaldehydes; Plasmalogens; Hydroxy fatty acid; Silver ion chromatography; Sunflower oil 82, 101 acids; Leukotoxins 82, 39 High pressure; Unsaturated fatty acids; Fatty acid mixture; Fatty acid mixture; Unsaturated fatty acids; Solid-liquid phase Solid-liquid phase diagram 82, 63 diagram; High pressure 82, 63 2H-NMR; Lysolecithin; Phosphatidylethanolamine; *'P-NMR; Fatty acid; Mycobacterium kansasii; 2,4-Dimethyltetradecanoic DSC; Lipid bilayers 82, 147 acid; Glycolipid antigens 82, 141 "H-NMR spectroscopy; Rational functions; Logarithmic func- Fatty acids; 'H-NMR spectroscopy; Rational functions; Loga- tions; Allylic hydroxy groups; Fatty acids; Fatty esters 82, 33 rithmic functions; Allylic hydroxy groups; Fatty esters 82, 33 Hydration; Dioleoylphosphatidylethanolamine; FTIR spec- Fatty acids; Photothermal phenomena; Photopyroelectric tech- troscopy; Lyotropic phase transition; Non-bilayer phases; nique; Differential scanning calorimetry; Phase transitions; Dipalmitoylphosphatidylcholine 82, 191 Thermal parameters 82, 15 Hydrogen bond; Phospholipids; Polar head group; Acetyla- Fatty alcohols; Inverse micellar cubic phase; Lipid mixtures; tion 82,| X-ray diffraction 82, 53 Hydroperoxy oxo fatty acids; Nonenzymic lipid peroxidation; Fatty esters; 'H-NMR spectroscopy; Rational functions; Log- Dihydroxy fatty acids; Hydroxy-oxo fatty acids; PUFAs 82, arithmic functions; Allylic hydroxy groups; Fatty acids 82, 25 33 a-Hydroxyaldehydes; Myocardial infarction; Lipid peroxida- Free aldehydes; Plasmalogens; Bovine brain; Plasmalogen tion; Glyoxal; Plasmalogens; Hydroxy fatty acids; Leukotox- epoxide; x-Hydroxyaldehydes; Aging 82, 173 ins; Fatty acid epoxides 82, 39 freeze-fracture, Macroripples; Phosphatidylcholines; Electron a-Hydroxyaldehydes; Plasmalogens; Bovine brain; Plasmalo- microscopy 82, 179 gen epoxide; Free aldehydes; Aging 82, 173 Frying oils; Cyclic fatty acids; Gas chromatography; High-per- Hydroxy fatty acids; Myocardial infarction; Lipid peroxida- formance liquid chromatography; Mass spectrometry; Oleic tion; Glyoxal; x-Hydroxyaldehydes; Plasmalogens; Leukotox- acid; Silver ion chromatography; Sunflower oil 82, 101 ins; Fatty acid epoxides 82, 39 FTIR spectroscopy; Dioleoylphosphatidylethanolamine;, Hy- Hydroxy-oxo fatty acids; Nonenzymic lipid peroxidation; Di- dration; Lyotropic phase transition; Non-bilayer phases; hydroxy fatty acids; Hydroperoxy oxo fatty acids; PU- Dipalmitoylphosphatidylcholine 82, 191 FAs 82, 25 Gas chromatography; Cyclic fatty acids; Frying oils; High-per- Interdigitation; Bilayer membrane; Phase transition; Pressure; formance liquid chromatography; Mass spectrometry; Oleic Phospholipids; Vesicles 82, 125 acid; Silver ion chromatography; Sunflower oil 82, 101 Inverse micellar cubic phase; Fatty alcohols; Lipid mixtures; Gel state; Merocyanine 540; Dimerization constant; Lipid X-ray diffraction 82, 53 vesicles 82, 111 Jasmine tea; Epicatechin; Epicatechin gallate; Epigallocate- Glycolipid antigens; Mycobacterium kansasii; 2,4-Dimethylte- chin; Epigallocatechin gallate 82, 163 tradecanoic acid; Fatty acid 82, 141 Lanthanum: Lipid polymorphism; Differential scanning Glyoxal; Myocardial infarction; Lipid peroxidation; z-Hy- calorimetry; Dielaidoylphosphatidylethanolamine; Phos- droxyaldehydes; Plasmalogens; Hydroxy fatty acids; Leuko- phatidylethanolamine; Hexagonal II 82, 73 toxins; Fatty acid epoxides 82, 39 Leukotoxins; Myocardial infarction; Lipid peroxidation; Gly- Hexagonal II; Lanthanum; Lipid polymorphism; Differential oxal; x-Hydroxyaldehydes; Plasmalogens; Hydroxy fatty acids; scanning calorimetry; Dielaidoylphosphatidylethanolamine: Fatty acid epoxides 82, 39 Phosphatidylethanolamine 82, 73 Lipid bilayers; Lysolecithin; Phosphatidylethanolamine; *H- High-performance liquid chromatography; Cyclic fatty acids; NMR; *'P-NMR; DSC_ 82, 147 Subject index 203 Lipid chain dynamics; Diacylglycerol; Spin label; ESR: Slow Novel non-ionic surfactants; Synthesis; Dialkyl polyoxyethylene motion simulation 82, 7 glycerol ethers; Aggregation properties 82, 89 Lipid mixtures; Inverse micellar cubic phase; Fatty alcohols; Oleic acid; Cyclic fatty acids; Frying oils; Gas chromatogra- X-ray diffraction $82, 53 phy; High-performance liquid chromatography; Mass spec- trometry; Silver ion chromatography; Sunflower oil 82, 101 Lipid peroxidation; Myocardial infarction; Glyoxal; x-Hydrox- yaldehydes; Plasmalogens; Hydroxy fatty acids; Leukotoxins; Phase transition; Bilayer membrane; Interdigitation; Pressure; Fatty acid epoxides 82, 39 Phospholipids; Vesicles 82, 125 Lipid polymorphism; Lanthanum; Differential scanning Phase transitions; Photothermal phenomena; Photopyroelectric technique; Differential scanning calorimetry; Fatty acids; calorimetry; Dielaidoylphosphatidylethanolamine; — Phos- Thermal parameters 82, 15 phatidylethanolamine; Hexagonal II 82, 73 Phosphatidylcholines; Macroripples; Freeze-fracture; Electron Lipid vesicles; Merocyanine 540; Dimerization constant; Gel microscopy 82, 179 State 82, 111 Phosphatidyleth ; Lanthanum; Lipid polymorphism; Liposomes; Drug carrier; Thermosensitivity; pH Sensitiv- Differential scanning calorimetry; Dielaidoylphos- ity 82, 133 phatidylethanolamine; Hexagonal Il 82, 73 Logarithmic functions; 'H-NMR spectroscopy; Rational func- Phosphatidylethanolamine; Lysolecithin; 7H-NMR; *!P-NMR; tions; Allylic hydroxy groups; Fatty acids; Fatty esters 82, 33 DSC: Lipid bilayers 82, 147 Lyotropic phase transition; Dioleoy|phosphatidylethanolamine; Phospholipids; Bilayer membrane; Interdigitation; Phase transi- Hydration; FTIR spectroscopy; Non-bilayer phases; Dipalmi- tion; Pressure; Vesicles 82, 125 toylphosphatidylcholine 82, 191 Phospholipids; Polar head group; Hydrogen bond; Acetyla- Lysolecithin; Phosphatidylethanolamine; 7H-NMR; *'P-NMR; tion 82,| DSC; Lipid bilayers 82, 147 Photopyroelectric technique; Photothermal phenomena; Differ- Macroripples; Phosphatidylcholines; Freeze-fracture; Electron ential scanning calorimetry; Phase transitions; Fatty acids; microscopy 82, 179 Thermal parameters 82, 15 Mass spectrometry; Cyclic fatty acids; Frying oils; Gas chro- Photothermal phenomena; Photopyroelectric technique; Differ- matography; High-performance liquid chromatography; Oleic ential scanning calorimetry; Phase transitions; Fatty acids; acid; Silver ion chromatography; Sunflower oil 82, 101 Thermal parameters 82, 15 Merocyanine 540; Dimerization constant; Lipid vesicles; Gel pH_ Sensitivity; Liposomes; Drug carrier; Thermosensitiv- ity $2, 133 state 82, 111 Plasmalogen epoxide; Plasmalogens; Bovine brain; Free alde- Mycobacterium kansasii, 2,4-Dimethyltetradecanoic acid; Gly- hydes; «-Hydroxyaldehydes; Aging 82, 173 colipid antigens; Fatty acid 82, 141 Plasmalogens; Bovine brain; Plasmalogen epoxide; Free alde- Myocardial infarction; Lipid peroxidation; Glyoxal; x-Hydrox- hydes; x-Hydroxyaldehydes; Aging 82, 173 yaldehydes; Plasmalogens; Hydroxy fatty acids; Leukotoxins; Fatty acid epoxides 82, 39 Plasmalogens; Myocardial infarction; Lipid peroxidation; Gly- oxal; x-Hydroxyaldehydes; Hydroxy fatty acids; Leukotoxins; Non-bilayer phases; Dioleoylphosphatidylethanolamine; Hy- Fatty acid epoxides 82, 39 dration; FTIR spectroscopy; Lyotropic phase transition; Dipalmitoylphosphatidylcholine 82, 191 3!P-NMR; Lysolecithin; Phosphatidylethanolamine; 7H-NMR; DSC; Lipid bilayers 82, 147 Nonenzymic lipid peroxidation; Dihydroxy fatty acids; Hy- droxy-oxo fatty acids; Hydroperoxy oxo fatty acids; PU- Polar head group; Phospholipids; Hydrogen bond; Acetyla- FAs 82, 25 tion 82,| Nordolichoic acid; Polyprenol 82, 79 Polyprenol; Nordolichoic acid 82, 79 204 Subject index Pressure; Bilayer membrane; Interdigitation; Phase transition; phy; High-performance liquid chromatography; Mass spec- Phospholipids; Vesicles 82, 125 trometry; Oleic acid; Silver ion chromatography 82, 101 PUFAs; Nonenzymic lipid peroxidation; Dihydroxy fatty Synthesis; Ceramide phosphate; Thiophosphate 82, 85 acids; Hydroxy-oxo fatty acids; Hydroperoxy oxo fatty Synthesis; Novel non-ionic surfactants; Dialkyl poly- acids 82, 25 oxyethylene glycerol ethers; Aggregation properties 82, 89 Rational functions; 'H-NMR spectroscopy; Logarithmic func- Thermal parameters; Photothermal phenomena; Photopy- tions; Allylic hydroxy groups; Fatty acids; Fatty esters 82, 33 roelectric technique; Differential scanning calorimetry; Phase transitions; Fatty acids 82, 15 Silver ion chromatography; Cyclic fatty acids; Frying oils; Gas chromatography; High-performance liquid chromatography; Thermosensitivity; Liposomes; Drug carrier; pH Sensitiv- Mass spectrometry; Oleic acid; Sunflower oil 82, 101 ity 82, 133 Slow motion simulation; Diacylglycerol; Lipid chain dynamics; Thiophosphate; Ceramide phosphate; Synthesis 82, 85 Spin label; ESR 82, 7 Unsaturated fatty acids; Fatty acid mixture; Solid-liquid phase Solid-liquid phase diagram; Unsaturated fatty acids; Fatty acid diagram; High pressure 82, 63 mixture; High pressure 82, 63 Vesicles; Bilayer membrane; Interdigitation; Phase transition; Spin label; Diacylglycerol; Lipid chain dynamics; ESR; Slow Pressure; Phospholipids 82, 125 motion simulation 82, 7 X-ray diffraction; Inverse micellar cubic phase; Fatty alcohols; Sunflower oil; Cyclic fatty acids; Frying oils; Gas chromatogra- Lipid mixtures 82, 53

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