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Chemistry and Physics of Lipids 1996: Vol 84 Index PDF

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Preview Chemistry and Physics of Lipids 1996: Vol 84 Index

CPL : ; er CHEMISTRY AND Chemistry and Physics of Lipids PHYSICS OF LIPIDS 84 (1996) 175 Author index Volume 84 (1996) Abuin. E. 84, 35 Jira, W. 84, 165 Oudet, P. 84, 13 Axelsson, A. 84, | Kirsch, M.J. 84, 87 Parkinson, J.A. 84, 93 Banovetz, C. 84, 87 Koufaki, M. 84, 21 Prows, D.R. 84, 47 Barauskas, J. 84, 123 Beswick, P.H. 84, 93 Larsson, K. 84, 123 Razumas, V. 84, 123 Lebeau, L. 84, 13 Reed, D. 84, 93 Campos, A.M. 84, 35 Lin, S.Y. 84, 21 Carballeira, N.M. 84, 81 Lissi. E.A. 84. 35 Sadler, LH. 84, 93 Cruz, C. 84, 81 Schramm, A. 84, 165 Makriyannis, A. 84, 21 Schroeder, F. 84, 47 de Madariaga, M.A. 84, 147 Malcolmson. RJ. 84. 93 Singh, A. 84, 65 Disalvo, E.A. 84, 35 Markowitz, M.A. 84, 65 Spiteller, G. 84, 165 Domingo, J.C. 84, 147 ees 4 Marsan, M.-P. 84, 117 Talaikyté, Z. 84, 123 Egmond, M.R. 84, 195 se, SOF | Theodoropoulou, E. 84, 21 Mavromoustakos, T. 84, 21 Engblom, J. 84, 155 Evans, R.W. 84, 57 Miezis, Y. 84, 123 Uchida. K. 84. 75 Milon, A. 84, 117 Flipsen, J.A.C. 84, 195 Mioskowski, C. 84, 13 van der Hijden, H.T.W.M. 84, 195 Moncecchi, D. 84, 47 Vanderkooi, G. 84, 139 Gabdoulline, R.R. 84, 139 Muller, I. 84, 117 Verheij, H.M. 84, 195 Goodman, D.M. 84, 57 Murphy, E.J. 84, 47 Winter, P.M. 84, 57 Hendrickson, E.K. 84, 87 Nemoto, E.M. 84, 57 Hendrickson, H.S. 84, 87 Nuss, S. 84, 13 Yang, D.P. 84, 21 Higinbotham, J. 84, 93 Nylander, T. 84, 1, 123 Zacchi, G. 84, | Itakura, K. 84, 75 Osawa, T. 84, 75 Zheng, C. 84, 139 CPL CHEMISTRY AND m Aa! Chemistry and Physics of Lipids PHYSICS OF LIPIDS ELSEVIER 84 (1996) 177-179 Subject index Volume 84 (1996) Aging; Hydroxy fatty acids; LDL; Atherosclerosis 84, 165 Cutinase; Oil-drop; Oil-water interfacial tension; Hydrolysis products; Triolein; Oleic acid; Oleate 84, 195 Anesthesia; Halothane; Isoflurane; Phospholipid monolayer; Surface pressure; Phospholipase C 84, 57 Deuterated lipid; Phospholipid; Fluidity; 7H-NMR; Mono- layer 84, 13 Atherosclerosis; Hydroxy fatty acids; LDL; Aging 84, 165 Deuterium NMR; Plant sterols; Soybean phosphatidyl Azone; Biological effects; Lipid bilayer; Partition; Bicontinu- choline 84, 117 ous cubic; Glycerol monooleate 84, 155 Diacetylene; Tubule; Gel; Ribbons; Phospholipid; Microstruc- Bacillus cereus; Phosphatidylinositol; Phospholipase C; Thio- ture 84, 65 phosphate; Vesicle; 1,2-Dimyristoyloxypropane-3-thiophos- pho(1bD-l-myo-inositol) 84, 87 Diffusion measurements; Monoolein; Glucose; Cubic phase; Holographic laser interferometry; Concentration profile 84, | Bicontinuous cubic; Biological effects; Lipid bilayer; Partition; Azone; Glycerol monooleate 84, 155 Dimethyl! disulfide; Methylene-interrupted; Ethyl 9,12-oc- tadecadienoate; Mass spectrometry 84, 81 Bicontinuous cubic phase; Monoolein; Distearoylphosphatidyl- glycerol; Lysozyme; X-ray diffraction; Raman scattering 84, 1,2-Dimyristoylox ypropane-3-thiophospho( 1 D-1-myo-inositol); 123 Bacillus cereus; Phosphatidylinositol; Phospholipase C; Thio- phosphate; Vesicle 84, 87 Biological effects; Lipid bilayer; Partition; Bicontinuous cubic; Azone; Glycerol monooleate 84, 155 Dipole potential; Lipid bilayers; Electrostatic potential; Wa- ter 84, 139 Cholesterol; '*C-NMR; Molecular dynamics; DMPC; Mem- branes; Cholesteryl oleate 84, 93 Distearoylphosphatidylglycerol; Monoolein; Lysozyme; Bicon- tinuous cubic phase; X-ray diffraction; Raman scattering 84, Cholestery! oleate; '*C-NMR; Molecular dynamics; Choles- 123 terol; DMPC; Membranes 84, 93 DMPC; '*C-NMR; Molecular dynamics; Cholesterol; Mem- '53C-NMR; Molecular dynamics; Cholesterol; DMPC; Mem- branes; Cholesteryl oleate 84, 93 branes; Cholesteryl oleate 84, 93 Electrostatic potential; Lipid bilayers; Dipole potential; Wa- Concentration profile; Monoolein; Glucose; Diffusion measure- ter 84, 139 ments; Cubic phase; Holographic laser interferometry 84, | Ether lipids; 1-Thiohexadecyl-2-O-methyl-S-glycero-3-phos- Cross-link; Fluorescence; Malondialdehyde; Lysine; Protein; phocholine (ET-S-16-OCH,); High resolution NMR _ spec- Lipofuscin 84, 75 troscopy; Molecular graphics; Micelles 84, 21 Cubic phase; Monoolein; Glucose; Diffusion measurements; Ethyl 9,12-octadecadienoate; Dimethyl disulfide; Methylene-in- Holographic laser interferometry; Concentration profile 84, | terrupted; Mass spectrometry 84, 81 178 Subject index Fatty acid esterification; L-cells; Intestinal fatty acid-binding Lipid bilayer; Biological effects; Partition; Bicontinuous cubic; protein; Fatty acid uptake; Transfection 84, 47 Azone; Glycerol monooleate 84, 155 Fatty acid uptake; L-cells; Intestinal fatty acid-binding protein; Lipid bilayers; Dipole potential; Electrostatic potential; Wa- Fatty acid esterification; Transfection 84, 47 ter 84, 139 Fluidity; Phospholipid; Deuterated lipid; 7H-NMR; Mono- Lipofuscin; Fluorescence; Malondialdehyde; Lysine; Protein; Cross-link 84, 75 layer 84, 13 Lysine; Fluorescence; Malondialdehyde; Protein; Cross-link; Fluorescence; Malondialdehyde; Lysine; Protein; Cross-link; Lipofuscin 84, 75 Lipofuscin 84, 75 Lysozyme; Monoolein; Distearoylphosphatidylglycerol; Bicon- Fourier transform infrared spectroscopy; \-acylphosphatidyl- tinuous cubic phase; X-ray diffraction; Raman scattering 84, ethanolamines; N-acyl chain length; Gel-to-liquid crystal 123 phase transition 84, 147 Malondialdehyde; Fluorescence; Lysine; Protein; Cross-link; Gel-to-liquid crystal phase transition; \-acylphosphatidyl- Lipofuscin 84, 75 ethanolamines; N-acyl chain length; Fourier transform infra- red spectroscopy 84, 147 Mass spectrometry; Dimethyl disulfide; Methylene-interrupted; Ethyl 9,12-octadecadienoate 84, 81 Gel; Tubule; Ribbons; Diacetylene; Phospholipid; Microstruc- ture 84, 65 Membranes; '*C-NMR: Molecular dynamics; Cholesterol; DMPC; Cholesteryl oleate 84, 93 Glucose; Monoolein; Diffusion measurements; Cubic phase; Holographic laser interferometry; Concentration profile 84, | Methylene-interrupted; Dimethyl disulfide; Ethyl 9,12-oc- tadecadienoate; Mass spectrometry 84, 81 Glycerol monooleate; Biological effects; Lipid bilayer; Parti- tion; Bicontinuous cubic; Azone 84, 155 Micelles; Ether lipids; 1-Thiohexadecyl-2-O-methyl-S-glycero- 3-phosphocholine (ET-S-16-OCH,); High resolution NMR Halothane; Anesthesia; Isoflurane; Phospholipid monolayer; spectroscopy; Molecular graphics 84, 21 Surface pressure; Phospholipase C 84, 57 Microstructure; Tubule; Gel; Ribbons; Diacetylene; Phospho- High resolution NMR spectroscopy; Ether lipids; 1-Thiohex- lipid 84, 65 adecyl -2- O- methyl - S- glycero -3- phosphocholine (ET -S- 16- Molecular dynamics; '*C-NMR; Cholesterol; DMPC; Mem- OC-H,); Molecular graphics; Micelles 84, 21 branes; Cholesteryl oleate 84, 93 2H-NMR; Phospholipid; Deuterated lipid; Fluidity; Mono- Molecular graphics; Ether lipids; 1-Thiohexadecyl-2-O-methyl- layer 84, 13 S-glycero-3-phosphocholine (ET-S-16-OCH,); High resolution NMR spectroscopy; Micelles 84, 21 Holographic laser interferometry; Monoolein; Glucose; Diffu- sion measurements; Cubic phase; Concentration profile 84, | Monolayer; Phospholipid; Deuterated lipid; Fluidity; 7H- NMR _ 84, 13 Hydrolysis products; Cutinase; Oil-drop; Oil-water interfacial tension; Triolein; Oleic acid; Oleate 84, 195 Monoolein; Distearoylphosphatidylglycerol; Lysozyme; Bicon- tinuous cubic phase; X-ray diffraction; Raman scattering 84, Hydroxy fatty acids; LDL; Aging; Atherosclerosis 84, 165 123 Intestinal fatty acid-binding protein; L-cells; Fatty acid uptake; Monoolein; Glucose; Diffusion measurements; Cubic phase; Fatty acid esterification; Transfection 84, 47 Holographic laser interferometry; Concentration profile 84, | Isoflurane; Anesthesia; Halothane; Phospholipid monolayer; N-acyl chain length; N-acylphosphatidylethanolamines; Surface pressure; Phospholipase C 84, 57 Fourier transform infrared spectroscopy; Gel-to-liquid crystal phase transition 84, 147 L-cells; Intestinal fatty acid-binding protein; Fatty acid up- take; Fatty acid esterification; Transfection 84, 47 N-acylphosphatidylethanolamines; N-acyl chain length; Fourier transform infrared spectroscopy; Gel-to-liquid crystal phase LDL; Hydroxy fatty acids; Aging; Atherosclerosis 84, 165 transition 84, 147 Subject index 179 Oil-drop; Cutinase; Oil-water interfacial tension; Hydrolysis Lysozyme; Bicontinuous cubic phase; X-ray diffraction 84, products; Triolein; Oleic acid; Oleate 84, 195 123 Oil-water interfacial tension; Cutinase; Oil-drop; Hydrolysis Ribbons; Tubule; Gel; Diacetylene; Phospholipid; Microstruc- products; Triolein; Oleic acid; Oleate 84, 195 ture 84, 65 Oleate; Cutinase; Oil-drop; Oil-water interfacial tension; Hy- Soybean phosphatidyl choline; Plant sterols; Deuterium drolysis products; Triolein; Oleic acid 84, 195 NMR _ 84, 117 Oleic acid; Cutinase; Oil-drop; Oil-water interfacial tension; Surface changes; Osmotic shrinkage; Unilamellar vesicles 84, Hydrolysis products; Triolein; Oleate 84, 195 35 Osmotic shrinkage; Unilamellar vesicles; Surface changes 84, Surface pressure; Anesthesia; Halothane; Isoflurane; Phospho- 35 lipid monolayer; Phospholipase C 84, 57 Partition; Biological effects; Lipid bilayer; Bicontinuous cubic; 1-Thiohexadecyl-2-O-methyl-S-glycero-3-phosphocholine (ET- Azone; Glycerol monooleate 84, 155 S-16-OCH,); Ether lipids; High resolution NMR _ spec- troscopy; Molecular graphics; Micelles 84, 21 Phosphatidylinositol; Bacillus cereus; Phospholipase C; Thio- phosphate; Vesicle; 1,2-Dimyristoyloxypropane-3-thiophos- Thiophosphate; Bacillus cereus; Phosphatidylinositol; Phospho- pho(1bD-l-myo-inositol) 84, 87 lipase C; Vesicle; 1,2-Dimyristoyloxypropane-3-thiophos- pho(|b-l-myo-inositol) 84, 87 Phospholipase C; Anesthesia; Halothane; Isoflurane; Phospho- lipid monolayer; Surface pressure 84, 57 Transfection; L-cells; Intestinal fatty acid-binding protein; Fatty acid uptake; Fatty acid esterification 84, 47 Phospholipase C; Bacillus cereus; Phosphatidylinositol; Thio- phosphate; Vesicle; 1,2-Dimyristoyloxypropane-3-thiophos- Triolein; Cutinase; Oil-drop; Oil-water interfacial tension; Hy- pho(1pD-l-myo-inositol) 84, 87 drolysis products; Oleic acid; Oleate 84, 195 Phospholipid; Deuterated lipid; Fluidity; 7H-NMR; Mono- Tubule; Gel; Ribbons; Diacetylene; Phospholipid; Microstruc- layer 84, 13 ture 84, 65 Phospholipid monolayer; Anesthesia; Halothane; Isoflurane; Unilamellar vesicles; Osmotic shrinkage; Surface changes 84, Surface pressure; Phospholipase C 84, 57 35 Phospholipid; Tubule; Gel; Ribbons; Diacetylene; Microstruc- Vesicle; Bacillus cereus; Phosphatidylinositol; Phospholipase ture 84, 65 C; Thiophosphate; 1,2-Dimyristoyloxypropane-3-thiophos- pho(1D-1l-myo-inositol) 84, 87 Plant sterols; Deuterium NMR; Soybean phosphatidyl choline 84, 117 Water; Lipid bilayers; Dipole potential; Electrostatic poten- tial 84, 139 Protein; Fluorescence; Malondialdehyde; Lysine; Cross-link; Lipofuscin 84, 75 X-ray diffraction; Monoolein; Distearoylphosphatidylglycerol; Lysozyme; Bicontinuous cubic phase; Raman scattering 84, Raman scattering; Monoolein; Distearoylphosphatidylglycerol; 123

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