Chemistry and Physics of Lipids 2000: Vol 105 Index PDF
Preview Chemistry and Physics of Lipids 2000: Vol 105 Index
CPL Chemistry and Physics of Lipids CHEMISTRY AND R PHYSICS OF LIPIDS 105 (2000) 231 www.elsevier.com/locate/chemphyslip Author index Volume 105 (2000) Aguilella, V.M. 105, 225 Kier, A.B. Portella, C. 105, Akerlund, B. 105, 167 Klein, E. 105, 215 Antonopoulos, E. 105, 31 Kley, J.T. 105, 189 Quartey, E.G.K. 105, 105 Quinn, P.J. 105, 149 Bagatolli, L.A. 105, 135 Lacort, M. 105, 179 Bahr, G. 105, | Rettig, W. 105, 149 Lee Gau Chong, P. 105, 193 Bakowsky, U. 105, 31 Rogalska, E. 105, 71 Lipman, A. 105, 121 Barenholz, Y. 105, 121 Rothe, U. 105, 31 Barreleiro, P.C.A. 105, 201 Ruiz-Larrea, M.B. 105, 179 Mafe, S. 105, 225 Bilewicz, R. 105, 71 Manzanares, J.A. 105, 225 Billheimer, J.T. 105, 9 Samuni, A.M. 105, 121 Marsh, D. 105, 43 Brigaud, T. 105, 71 Schoer, J.K. 105, 9 Martini, T. 105, 31 Schroeder, F. 105, 9 Martin, C. 105, 179 Christie, W.W. 105, 93 Schwarz, G. 105, | Martinez, R. 105, 179 Selle, C. 105, 149 Fankhaenel, S. 105, 189 Massing, U. 105, 189 Semmler, K. 105, 149 Feitosa, E. 105, 201 Meyer, H.W. 105, 149 Sliwka, H.R. 105, 105 Foulard, G. 105, 71 Miller, N.J. 105, 179 Slotte, J.P. 105, 167 Freisleben, H.-J. 105, 31 Moujahid, C.E. 105, 71 Starodub, O. 105, 9 Mukherjee, K.D. 105, 215 Stébé, M.-J. 105, 71 Gabriel, J.L. 105, 193 Swamy, M.J. 105, 43 Gallegos, A.M. 105, 9 Navarro, R. 105, 179 Grage, S. 105, 149 Ulrich, A.S. 105, 149 Gratton, E. 105, 135 Ohvo-Rekilé, H. 105, 167 Giirtesch, L. 105, 189 Olofsson, G. 105, 201 Vosmann, K. 105, 215 Hamilton, J.T.G. 105, 93 Parasassi, T. 105, 135 Weber, N. 105, 215 Henkel, L. 105, 31 Partali, V. 105, 105 Weis, I. 105, | Houte, H. 105, 105 Pohle, W. 105, 149 Weilzel, P.B. 105, | PII: S0009-3084(00)00131-6 CPL CHEMISTRY AND Chemistry and Physics of Lipids PHYSICS OF LIPIDS 105 (2000) 233-236 www.elsevier.com/locate/chemphyslip Subject index Volume 105 (2000) ABTS**; Estrogens; Total antioxidant activity; Trolox; Hu- Boyle point; Langmuir monolayers; Thermodynamic analysis; man low-density lipoproteins 105, 179 Novel approach; Aggregation; Fit curves 105, | Aggregation; Langmuir monolayers; Thermodynamic analysis; Carotenoids; Selenium: Condensation reaction; Antioxidants: Novel approach; Boyle point; Fit curves 105, | Structured lipids; Glycerolether 105, 105 Analogs; Synthesis; DOTAP; Cationic lipids; Transfection; Cationic lipids; Synthesis; DOTAP; Analogs; Transfection; Im- Imidazolides 105, 189 idazolides 105, 189 Antioxidants; Carotenoids; Selenium; Condensation reaction: Chain melting thermodynamics; N-Biotinyl phosphatidyl- Structured lipids; Glycerolether 105, 105 ethanolamine; N-Acyl phosphatidylethanolamine; N-Acyl ethanolamine; Avidin; Differential scanning calorimetry; X- Antioxidants; Lipases; 9(10)-S-Tetradecyl stearic acid tetrade- Ray diffraction; *'P NMR; Spin-label ESR: Lipid bilayers; cyl thioesters; Thioesterification; Transthioesterification; Un- Non-lamellar phases; Lipid miscibility; Binary phase dia- saturated fatty acid thioesters 105, 215 grams 105, 43 Atomic force microscopy; Thermoplasma acidophilum; Bipolar Cholestatrienol; Desorption kinetics; Dehydroergosterol; Phos- tetraether lipid; Langmuir—Blodgett films; Ellipsometry; pholipid 105, 167 Monomolecular lipid organization 105, 31 Cholesterol; Sterol carrier protein-2; Lysosome; Mitochondria; Avidin; N-Biotinyl phosphatidylethanolamine; N-Acyl phos- Membrane 105, 9 phatidylethanolamine; N-Acyl ethanolamine; Differential scanning calorimetry; X-Ray diffraction; *'P NMR; Spin-label Condensation reaction; Carotenoids; Selenium; Antioxidants; ESR; Lipid bilayers; Non-lamellar phases; Chain melting ther- Structured lipids; Glycerolether 105, 105 modynamics; Lipid miscibility; Binary phase diagrams 105, 43 Cyclopentane rings; Tetraether lipids; Interaction energy; Ther- moacidophiles; Sulfolobus acidocaldarius 105, 193 Bilayer curvature; Saturated phosphatidylcholines; Subgel phase; Hydration protocol; Freeze-fracture electron mi- Degree of dissociation; Lipid monolayer; Double layer poten- croscopy 105, 149 tial; Surface potential 105, 225 Binary phase diagrams; N-Biotinyl phosphatidylethanolamine; Dehydroergosterol; Desorption kinetics; Cholestatrienol; Phos- N-Acyl phosphatidylethanolamine; N-Acyl ethanolamine; pholipid 105, 167 Avidin; Differential scanning calorimetry; X-Ray diffraction; *'P NMR: Spin-label ESR; Lipid bilayers; Non-lamellar phases; Chain melting thermodynamics; Lipid miscibil- Derivatives of pD-mannitol; Fluorinated surfactants; Mono- molecular films; Langmuir isotherms; Gibbs isotherms ity 105, 43 105, 71 Bipolar tetraether lipid; Thermoplasma acidophilum; Lang- muir— Blodgett films; Ellipsometry; Atomic force microscopy: Desorption kinetics; Dehydroergosterol; Cholestatrienol; Phos- Monomolecular lipid organization 105, 31 pholipid 105, 167 PII: SO009-3084(00)001 32-8 234 Subject index Differential scanning calorimetry; N-Biotinyl phosphatidyl- Human low-density lipoproteins; ABTS**; Estrogens; Total ethanolamine; N-Acyl phosphatidylethanolamine; N-Acyl antioxidant activity; Trolox 105, 179 ethanolamine; Avidin; X-Ray diffraction; *'P NMR; Spin-la- bel ESR; Lipid bilayers; Non-lamellar phases; Chain melting Hydration protocol; Saturated phosphatidylcholines; Subgel thermodynamics; Lipid miscibility; Binary phase dia- phase; Bilayer curvature; Freeze-fracture electron micro- grams 105, 43 scopy 105, 149 Differential scanning calorimetry; Transition temperature; Son- Imidazolides; Synthesis; DOTAP; Analogs; Cationic lipids; icated vesicles; Non-sonicated vesicles; Extruded vesicles 105, Transfection 105, 189 201 Interaction energy; Tetraether lipids; Cyclopentane rings; Ther- 4,4-dimethyloxazoline; Mass spectrometry; Fatty acid; Picol- moacidophiles; Sulfolobus acidocaldarius 105, 193 inyl ester 105, 93 Langmuir-—Blodgett films; Thermoplasma acidophilum; Bipolar DOTAP; Synthesis; Analogs; Cationic lipids; Transfection; tetraether lipid; Ellipsometry; Atomic force microscopy; Imidazolides 105, 189 Monomolecular lipid organization 105, 31 Double layer potential; Lipid monolayer; Degree of dissocia- Langmuir isotherms; Fluorinated surfactants; Derivatives of tion; Surface potential 105, 225 D-mannitol:; Monomolecular films; Gibbs isotherms 105, 71 Ellipsometry; Thermoplasma acidophilum; Bipolar tetraether Langmuir monolayers; Thermodynamic analysis; Novel ap- lipid; Langmuir—Blodgett films; Atomic force microscopy: proach; Boyle point; Aggregation; Fit curves 105, | Monomolecular lipid organization 105, 31 6-Lauroyl-2-(V,N-dimethylamino)naphtalene; Giant unilamellar Estrogens; ABTS**: Total antioxidant activity; Trolox: Hu- vesicles; Generalized polarization; Unilamellar 105, 135 man low-density lipoproteins 105, 179 Lipases; Antioxidants; 9(10)-S-Tetradecyl stearic acid tetrade- Extruded vesicles; Differential scanning calorimetry; Transition cyl thioesters; Thioesterification; Transthioesterification; Un- temperature; Sonicated vesicles; Non-sonicated vesicles 1085, saturated fatty acid thioesters 105, 215 201 Lipid bilayers; N-Biotinyl phosphatidylethanolamine; N-Acyl Fatty acid; Mass spectrometry; Picolinyl ester; 4,4-dimethylox- phosphatidylethanolamine; N-Acyl ethanolamine; Avidin; Dif- azoline 105, 93 ferential scanning calorimetry; X-Ray diffraction; *!P NMR; Spin-label ESR; Non-lamellar phases; Chain melting thermo- Fit curves; Langmuir monolayers; Thermodynamic analysis; dynamics; Lipid miscibility; Binary phase diagrams 105, 43 Novel approach; Boyle point; Aggregation 105, | Lipid miscibility; N-Biotinyl phosphatidylethanolamine; N- Fluorinated surfactants; Derivatives of D-mannitol; Mono- Acyl phosphatidylethanolamine; N-Acyl ethanolamine: molecular films; Langmuir isotherms; Gibbs isotherms Avidin; Differential scanning calorimetry; X-Ray diffraction; 105, 71 *'P NMR; Spin-label ESR: Lipid bilayers; Non-lamellar phases; Chain melting thermodynamics; Binary phase dia- Freeze-fracture electron microscopy; Saturated phosphatidyl- grams 105, 43 cholines; Subgel phase; Bilayer curvature; Hydration proto- col 105, 149 Lipid monolayer; Double layer potential; Degree of dissocia- tion; Surface potential 105, 225 Generalized polarization; Giant unilamellar vesicles; 6-Lauroyl- 2-(N,N-dimethylamino)naphtalene; Unilamellar 105, 135 Lipid peroxidation; Liposomes; Stability; Tempol: Nitroxides; Vitamin E105, 121 Giant unilamellar vesicles; 6-Lauroyl-2-(N,N-dimethyl- amino)naphtalene; Generalized polarization; Unilamellar Liposomes; Stability; Tempol: Nitroxides; Lipid peroxidation: 105, 135 Vitamin E_ 105, 121 Gibbs isotherms; Fluorinated surfactants; Derivatives of pb- Lysosome; Sterol carrier protein-2; Mitochondria; Membrane: mannitol; Monomolecular films; Langmuir isotherms 105, 71 Cholesterol 105, 9 Glycerolether; Carotenoids; Selenium; Condensation reaction; Mass spectrometry; Fatty acid; Picolinyl ester; 4,4-dimethylox- Antioxidants; Structured lipids 105, 105 azoline 105, 93 Subject index Membrane; Sterol carrier protein-2; Lysosome; Mitochondria: *'P NMR; N-Biotinyl phosphatidylethanolamine; N-Acyl Cholesterol 105, 9 phosphatidylethanolamine; N-Acyl ethanolamine; Avidin; Dif- ferential scanning calorimetry; X-Ray diffraction; Spin-label Mitochondria; Sterol carrier protein-2; Lysosome; Membrane: ESR; Lipid bilayers; Non-lamellar phases; Chain melting ther- Cholesterol 105, 9 modynamics; Lipid miscibility; Binary phase diagrams 105, 43 Monomolecular films; Fluorinated surfactants; Derivatives of Saturated phosphatidylcholines; Subgel phase; Bilayer curva- D-mannitol; Langmuir isotherms; Gibbs isotherms 105, 71 ture; Hydration protocol; Freeze-fracture electron micro- scopy 105, 149 Monomolecular lipid organization; Thermoplasma acidophilum: Bipolar tetraether lipid; Langmuir—Blodgett films; Ellipsome- Selenium: Carotenoids: Condensation reaction; Antioxidants; try; Atomic force microscopy 105, 31 Structured lipids; Glycerolether 105, 105 N-Acyl ethanolamine; N-Biotinyl phosphatidylethanolamine: Sonicated vesicles; Differential scanning calorimetry; Transi- N-Acyl phosphatidylethanolamine; Avidin; Differential scan- tion temperature; Non-sonicated vesicles; Extruded vesicles ning calorimetry; X-Ray diffraction; *!P NMR: Spin-label 105, 201 ESR; Lipid bilayers; Non-lamellar phases; Chain melting ther- modynamics; Lipid miscibility; Binary phase diagrams 105, Spin-label ESR; N-Biotinyl phosphatidylethanolamine; N-Acyl 43 phosphatidylethanolamine; N-Acyl ethanolamine; Avidin; Dif- ferential scanning calorimetry; X-Ray diffraction; *'P NMR; N-Acyl_ phosphatidylethanolamine; N-Biotiny! phosphatidyl- Lipid bilayers; Non-lamellar phases; Chain melting thermody- ethanolamine; N-Acyl ethanolamine; Avidin; Differential namics; Lipid miscibility; Binary phase diagrams 105, 43 scanning calorimetry; X-Ray diffraction; *'P NMR; Spin-label ESR; Lipid bilayers; Non-lamellar phases; Chain melting ther- Stability; Liposomes; Tempol; Nitroxides; Lipid peroxidation; modynamics; Lipid miscibility; Binary phase diagrams 105, Vitamin E105, 121 43 Sterol carrier protein-2; Lysosome: Mitochondria; Membrane: N-Biotinyl phosphatidylethanolamine; N-Acyl phosphatidyl- Cholesterol 105, 9 ethanolamine; N-Acyl ethanolamine; Avidin; Differential scanning calorimetry; X-Ray diffraction; *'P NMR; Spin-label 9(10)-S-Tetradecyl stearic acid tetradecyl thioesters; Antioxi- ESR; Lipid bilayers; Non-lamellar phases; Chain melting ther- dants; Lipases; Thioesterification; Transthioesterification; Un- modynamics; Lipid miscibility; Binary phase diagrams 105, saturated fatty acid thioesters 105, 215 43 Structured lipids; Carotenoids; Selenium; Condensation reac- Nitroxides; Liposomes; Stability; Tempol; Lipid peroxidation: tion; Antioxidants; Glycerolether 105, 105 Vitamin E- 105, 121 Subgel phase; Saturated phosphatidylcholines; Bilayer curva- Non-lamellar phases; N-Biotinyl phosphatidylethanolamine: ture: Hydration protocol; Freeze-fracture electron micro- N-Acyl phosphatidylethanolamine; N-Acyl ethanolamine; scopy 105, 149 Avidin; Differential scanning calorimetry; X-Ray diffraction; *'P NMR; Spin-label ESR: Lipid bilayers; Chain melting thermodynamics; Lipid miscibility; Binary phase dia- Sulfolobus acidocaldarius; Tetraether lipids; Interaction energy: grams 105, 43 Cyclopentane rings; Thermoacidophiles 105, 193 Non-sonicated vesicles; Differential scanning calorimetry: Surface potential; Lipid monolayer; Double layer potential; Transition temperature; Sonicated vesicles; Extruded vesi- Degree of dissociation 105, 225 cles 105, 201 Synthesis; DOTAP; Analogs; Cationic lipids; Transfection; Novel approach; Langmuir monolayers; Thermodynamic anal- Imidazolides 105, 189 ysis; Boyle point; Aggregation; Fit curves 105, | Tempol; Liposomes; Stability; Nitroxides; Lipid peroxidation; Phospholipid; Desorption _ kinetics: Dehydroergosterol: Vitamin E_ 105, 121 Cholestatrienol 105, 167 Picolinyl ester; Mass spectrometry; Fatty acid: 4,4-dimethylox- Tetraether lipids; Interaction energy; Cyclopentane rings; Ther- azoline 105, 93 moacidophiles; Sulfolobus acidocaldarius 105, 193 236 Subject index Thermoacidophiles; Tetraether lipids; Interaction energy: Transthioesterification; Antioxidants; Lipases; 9(10)-S-Tetrade- Cyclopentane rings; Sulfolobus acidocaldarius 105, 193 cyl stearic acid tetradecyl thioesters; Thioesterification; Unsat- urated fatty acid thioesters 105, 215 Thermodynamic analysis; Langmuir monolayers; Novel ap- proach; Boyle point; Aggregation; Fit curves 105, | Trolox; ABTS’ *; Estrogens; Total antioxidant activity; Hu- man low-density lipoproteins 105, 179 Thermoplasma acidophilum; Bipolar tetraether lipid; Lang- Unilamellar; Giant unilamellar vesicles; 6-Lauroyl-2-(N,N- muir—Blodgett films; Ellipsometry; Atomic force microscopy; dimethylamino)naphtalene; Generalized polarization 105, Monomolecular lipid organization 105, 31 135 Thioesterification; Antioxidants; Lipases; 9(10)-S-Tetradecyl Unsaturated fatty acid thioesters; Antioxidants; Lipases; 9(10)- stearic acid tetradecyl thioesters; Transthioesterification; Un- S-Tetradecyl stearic acid tetradecyl thioesters; Thioesterifica- saturated fatty acid thioesters 105, 215 tion; Transthioesterification 105, 215 Total antioxidant activity; ABTS**; Estrogens; Trolox; Hu- Vitamin E; Liposomes; Stability; Tempol; Nitroxides; Lipid man low-density lipoproteins 105, 179 peroxidation 105, 121 Transfection; Synthesis;s DOTAP; Analogs; Cationic lipids; X-Ray diffraction; N-Biotinyl phosphatidylethanolamine; N- Imidazolides 105, 189 Acyl phosphatidylethanolamine; N-Acyl ethanolamine; Avidin; Differential scanning calorimetry; *'P NMR; Spin-la- Transition temperature; Differential scanning calorimetry; Son- bel ESR; Lipid bilayers; Non-lamellar phases; Chain melting icated vesicles; Non-sonicated vesicles: Extruded vesicles 105, thermodynamics; Lipid miscibility; Binary phase dia- 201 grams 105, 43
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