CPL at CHEMISTRY AND mR. el} Chemistry and Physics of Lipids PHYSICS OF LIPIDS ELSEVIER 89 (1997) 159 Author index Volume 89 (1997) Ahmed, M.K. 89, 107 Janshoff, A. 89, 141 Ringler, P. 89, 15 Aoki, H. 89, 83 Riske, K.A. 89, 31 Rodriguez, S. 89, 119 Kaneshina, S. 89, 97 Brisson, A. 89, 15 Rukavishnikov, A.V. 89, 153 Keana, J.F.W. 89, 153 Kodama, M. 89, 83 Carballeira, N.M. 89, 91 Scott, J.E. 89, 107 Koynova, R. 89, 67 Sieber, M. 89, 141 Kremer, F. 89, 15 Das, R.M. 89, 107 Spiteller, G. 89, 131 Spiteller, P. 89, 131 Lamy-Freund, M.T. 89, 31 Engberts, J.B.F.N. 89, 15 Steinem, C. 89, 141 Liu, M. 89, 55 Fraaije, J.G.E.M. 89, 15 Takahashi, H. 89, 83 Mantsch, H.H. 89, 107 Tsubai, T. 89, 107 Galla, H.-J. 89, 141 Matsuki, H. 89, 97 Garda, H.A. 89, 119 Moyna, P. 89, 119 van Breemen, J.F.L. 89, 15 Giles, A.N. 89, 45 van Neuren, S. 89, 15 Gonzalez, M.V. 89, 91 Neubert, R. 89, 3 Vos, S.E. 89, 45 Griffith, O.H. 89, 153 Nyilas, A. 89, 75 Wagenaar, A. 89, 15 Hata, T. 89, 97 Oulton, M.R. 89, 107 Wartewig, S. Hatta, I. 89, 83 Wegener, M. Heinzen, H. 89, 119 Hendrickson, H.S. 89, 45 Pagan, M. 89, 91 Wienhold, A. Hohn, F. 89, 141 Politi, M.J. 89, 31 Huetz, P. 89, 15 Yoshioka, T. 89, 97 Reed, W.F. 89, 31 Ichimori, H. 89, 97 Rettig, W. 89, 3 Zaikova, T.O. 89, 153 0009-3084/97/$17.00 © 1997 Elsevier Science Ireland Ltd. All rights reserved. PIT $0009-3084(97)00078-9 CPL a CHEMISTRY AND Fe oS 1 Chemistry and Physics of Lipids PHYSICS OF LIPIDS ELSEVIER 89 (1997) 161-163 Subject index Volume 89 (1997) Air—liquid interface; Lung surfactant; Nonionic surfactant; Critical micelle concentration; Lung surfactant; Nonionic sur- Critical micelle concentration 89, 55 factant; Air—liquid interface 89, 55 Ara-CMP-diolein; Leukemia; Ara-CMP-dipalmitin; Ara-CMP- Diacylphosphatidylcholines; Bilayer membrane; Phase transi- distearin; MMTr-ara-C; Diphenyl carbonate 89, 75 tion; Phospholipids; Pressure; Vesicles 89, 97 Ara-CMP-dipalmitin; Leukemia; Ara-CMP-distearin; Ara- Differential polarized phase fluorescence; Pentacyclic triterpe- CMP-diolein; MMTr-ara-C; Diphenyl carbonate 89, 75 nes; Dipalmitoylphosphatidylcholine bilayers; 1,6-Diphenyl- 1,3-5-hexatriene; | -(4-Trimethylammoniumpheny]l)-6-phenyl- 1,3,5-hexatriene; Fluorescence lifetime; Bilayer ordering 89, Ara-CMP-distearin; Leukemia; Ara-CMP-dipalmitin; Ara- 119 CMP-diolein; MMTr-ara-C; Diphenyl carbonate 89, 75 1,2-Dimyristoyloxypropane-3-thiophospho( 1 D-1-myo-inositol); Bacillus cereus; | ,2-Dimyristoyloxypropane-3-thiophospho(1D- Bacillus cereus; Phosphatidylinositol-specific phospholipase C; |-myo-inositol); Phosphatidylinositol-specific phospholipase C; Thiophosphate; Interfacial kinetics 89, 45 Thiophosphate; Interfacial kinetics 89, 45 Dipalmitoylphosphatidylcholine bilayers; Pentacyclic triterpe- Bacteriorhodopsin; Impedance spectroscopy; Solid supported nes; 1,6-Diphenyl-1,3-5-hexatriene; 1-(4-Trimethylammoni- lipid bilayer; Photocurrent 89, 141 umphenyl)-6-phenyl-1,3,5-hexatriene; Fluorescence _ lifetime; Differential polarized phase fluorescence; Bilayer order- Bilayer membrane; Diacylphosphatidylcholines; Phase transi- ing 89, 119 tion; Phospholipids; Pressure; Vesicles 89, 97 Dipheny! carbonate; Leukemia; Ara-CMP-dipalmitin; Ara- Bilayer ordering; Pentacyclic triterpenes; Dipalmitoylphos- CMP-distearin; Ara-CMP-diolein; MMTr-ara-C 89, 75 phatidylcholine bilayers; 1,6-Diphenyl-1,3-5-hexatriene; 1-(4- Trimethylammoniumpheny]l)-6-phenyl-1,3,5-hexatriene; Fluor- 1,6-Diphenyl-1 ,3-5-hexatriene; Pentacyclic triterpenes; escence lifetime; Differential polarized phase fluorescence 89, Dipalmitoylphosphatidylcholine bilayers; 1-(4-Trimethylam- 119 moniumpheny])-6-phenyl-1,3,5-hexatriene; Fluorescence _life- time; Differential polarized phase fluorescence; Bilayer Biotinylated lipids; Lipid tubules; Supramolecular aggregates; ordering 89, 119 Liposomes; Helical crystallization of proteins 89, 15 DMPG; Light scattering; lonic strength; Phase transition; Boron trifluoride methanol; Methyl 9,12-octadecadienoate; Surface ionization 89, 31 Methoxylation; Methyl 9,12-dimethoxyoctadecanoate; Methyl 10,13-dimethoxyoctadecanoate 89, 91 DSC; Phase transition; Polymorphism; Liposomes; Lipid membranes 89, 67 Bronchoalveolar lavage (BAL); Methylmercury; Lung surfac- tant; Surface tension; Phospholipids; Fourier transform in- DSC: Stratum corneum: Ceramides; Stearic acid; Phase be- frared spectroscopy 89, 107 haviour; Raman spectroscopy 89, 3 Ceramides: Stratum corneum; Stearic acid; Phase behaviour; Enzyme assay; Phosphoinositide-specific phospholipase C; Raman spectroscopy; DSC 89, 3 Substrate analog; 4-Nitrophenol; p-Nitrophenol 89, 153 0009-3084/97/$17.00 © 1997 Elsevier Science Ireland Ltd. All rights reserved. PIT $0009-3084(97)00079-0 162 Subject index Fluorescence lifetime; Pentacyclic triterpenes; Dipalmitoylphos- Liposomes; Phase transition; Polymorphism; Lipid membranes; phatidylcholine bilayers; 1,6-Diphenyl-1,3-5-hexatriene; 1-(4- DSC_ 89, 67 Trimethylammoniumpheny])-6-phenyl-1,3,5-hexatriene; —_D if- Lung surfactant; Methylmercury; Bronchoalveolar lavage ferential polarized phase fluorescence; Bilayer ordering (BAL); Surface tension; Phospholipids; Fourier transform in- 89, 119 frared spectroscopy 89, 107 Fourier transform infrared spectroscopy; Methylmercury; Lung Lung surfactant; Nonionic surfactant; Critical micelle concen- surfactant; Bronchoalveolar lavage (BAL); Surface tension; tration; Air—liquid interface 89, 55 Phospholipids 89, 107 Metastable phase; Phosphatidylethanolamine; Stable phase; X- Helical crystallization of proteins; Lipid tubules; Biotinylated ray diffraction 89, 83 lipids; Supramolecular aggregates; Liposomes 89, 15 Methoxylation; Boron trifluoride methanol; Methyl 9,12-oc- 13-HODE; Lipid peroxidation; Linoleic acid; 9-HODE; 9- tadecadienoate; Methyl 9,12-dimethoxyoctadecanoate; Methyl HPODE; 13-HPODE 839, 131 10,13-dimethoxyoctadecanoate 89, 91 9-HODE; Lipid peroxidation; Linoleic acid; 13-HODE: 9- Methyl 10,13-dimethoxyoctadecanoate; Boron _ trifluoride methanol; Methyl 9,12-octadecadienoate; Methoxylation; HPODE; 13-HPODE 839, 131 Methyl 9,12-dimethoxyoctadecanoate 89, 91 13-HPODE; Lipid peroxidation; Linoleic acid; 9-HODE; 13- Methyl 9,12-dimethoxyoctadecanoate; Boron _ trifluoride HODE; 9-HPODE 839, 131 methanol; Methyl 9,12-octadecadienoate; Methoxylation; Methyl 10,13-dimethoxyoctadecanoate 89, 91 9-HPODE; Lipid peroxidation; Linoleic acid; 9-HODE; 13- HODE; 13-HPODE 839, 131 Methylmercury; Lung surfactant; Bronchoalveolar lavage (BAL); Surface tension; Phospholipids; Fourier transform in- Impedance spectroscopy; Solid supported lipid bilayer; Bacteri- frared spectroscopy 89, 107 orhodopsin; Photocurrent 89, 141 Methyl 9,12-octadecadienoate; Boron trifluoride methanol; Interfacial kinetics; Bacillus cereus; 1,2-Dimyristoyloxypro- Methoxylation; Methyl 9,12-dimethoxyoctadecanoate; Methyl pane-3-thiophospho(1D-1-myo-inositol); Phosphatidylinositol- 10,13-dimethoxyoctadecanoate 89, 91 specific phospholipase C; Thiophosphate 89, 45 MMTr-ara-C; Leukemia; Ara-CMP-dipalmitin; Ara-CMP-dis- tearin; Ara-CMP-diolein; Diphenyl carbonate 89, 75 Ionic strength; DMPG; Light scattering; Phase transition; Sur- face ionization 89, 31 4-Nitrophenol; Phosphoinositide-specific phospholipase C; Substrate analog; Enzyme assay; p-Nitrophenol 89, 153 Leukemia; Ara-CMP-dipalmitin; Ara-CMP-distearin; Ara- CMP-diolein; MMTr-ara-C; Diphenyl carbonate 89, 75 Nonionic surfactant; Lung surfactant; Critical micelle concen- tration; Air—liquid interface 89, 55 Light scattering; DMPG; Ionic strength; Phase transition; Sur- face ionization 89, 31 Pentacyclic triterpenes; Dipalmitoylphosphatidylcholine bilay- ers; 1,6-Diphenyl-1,3-5-hexatriene; _1-(4-Trimethylammoni- Linoleic acid; Lipid peroxidation; 9-HODE; 13-HODE; 9- umphenyl)-6-phenyl-1,3,5-hexatriene; Fluorescence lifetime; HPODE; 13-HPODE 839, 131 Differential polarized phase fluorescence; Bilayer order- ing 89, 119 Lipid membranes; Phase transition; Polymorphism; Liposomes; DSC _ 89, 67 Phase behaviour; Stratum corneum; Ceramides; Stearic acid; Raman spectroscopy; DSC 89, 3 Lipid peroxidation; Linoleic acid; 9-HODE; !3-HODE; 9- Phase transition; Bilayer membrane; Diacylphosphatidylcholi- HPODE; 13-HPODE 839, 131 nes; Phospholipids; Pressure; Vesicles 89, 97 Lipid tubules; Biotinylated lipids; Supramolecular aggregates; Phase transition, DMPG; Light scattering; lonic strength; Sur- Liposomes; Helical crystallization of proteins 89, 15 face ionization 89, 31 Liposomes; Lipid tubules; Biotinylated lipids; Supramolecular Phase transition; Polymorphism; Liposomes; Lipid mem- aggregates; Helical crystallization of proteins 89, 15 branes; DSC 89, 67 Subject index 163 Phosphatidylethanolamine; Stable phase; Metastable phase; X- Stable phase; Phosphatidylethanolamine; Metastable phase; ray diffraction 89, 83 X-ray diffraction 89, 83 Stearic acid; Stratum corneum; Ceramides; Phase behaviour; Phosphatidylinositol-specific phospholipase C; Bacillus cereus; | 2-Dimyristoyloxypropane-3-thiophospho(1D-1-myo-inosi- Raman spectroscopy; DSC _ 89, 3 tol); Thiophosphate; Interfacial kinetics 89, 45 Stratum corneum; Ceramides; Stearic acid; Phase behaviour; Raman spectroscopy; DSC 89, 3 Phosphoinositide-specific phospholipase C; Substrate analog; Enzyme assay; 4-Nitrophenol; p-Nitrophenol 89, 153 Substrate analog; Phosphoinositide-specific phospholipase C; Enzyme assay; 4-Nitrophenol; p-Nitrophenol 89, 153 Phospholipids; Bilayer membrane; Diacylphosphatidylcholines; Phase transition; Pressure; Vesicles 89, 97 Supramolecular aggregates; Lipid tubules; Biotinylated lipids; Liposomes; Helical crystallization of proteins 89, 15 Phospholipids; Methylmercury; Lung surfactant; Bronchoalve- olar lavage (BAL); Surface tension; Fourier transform infrared Surface ionization; DMPG; Light scattering; Ionic strength; spectroscopy 89, 107 Phase transition 89, 31 Surface tension; Methylmercury; Lung surfactant; Bron- Photocurrent; Impedance spectroscopy; Solid supported lipid choalveolar lavage (BAL); Phospholipids; Fourier transform bilayer; Bacteriorhodopsin 89, 141 infrared spectroscopy 89, 107 p-Nitrophenol; Phosphoinositide-specific phospholipase C; Thiophosphate; Bacillus cereus; |1,2-Dimyristoyloxypropane-3- Substrate analog; Enzyme assay; 4-Nitrophenol 89, 153 thiophospho(1D-1-myo-inositol); Phosphatidylinositol-specific phospholipase C; Interfacial kinetics 89, 45 Polymorphism; Phase transition; Liposomes; Lipid membranes; DSC_ 89, 67 1 - (4- Trimethylammoniumpheny)) - 6 - phenyl - 1,3,5 - hexatriene; Pentacyclic triterpenes; Dipalmitoylphosphatidylcholine bilay- ers; 1,6-Diphenyl-1,3-5-hexatriene; Fluorescence lifetime; Dif- Pressure; Bilayer membrane; Diacylphosphatidylcholines; ferential polarized phase fluorescence; Bilayer ordering 839, Phase transition; Phospholipids; Vesicles 89, 97 119 Raman spectroscopy; Stratum corneum; Ceramides; Stearic Vesicles; Bilayer membrane; Diacylphosphatidylcholines; acid; Phase behaviour; DSC 89, 3 Phase transition; Phospholipids; Pressure 89, 97 Solid supported lipid bilayer; Impedance spectroscopy; Bacteri- X-ray diffraction; Phosphatidylethanolamine; Stable phase; orhodopsin; Photocurrent 89, 141 Metastable phase 89, 83