Membrane FusionA broad overview of recent progress in membrane fusion research, treating the subject from the fields of biophysics, biochemistry, cell biology, virology, and biotechnology. Featuring sections on the general properties of membranes and applications of membrane fusion techniques, this sourcebook outl |
Contents
3 | 29 |
Michael J Hope The Canadian Liposome Co Ltd Vancouver British | 35 |
Diabetes Digestive and Kidney Diseases and Division of Computer | 65 |
II | 84 |
5 | 90 |
6 | 130 |
Nol van der Steena Centre for Biomembranes and Lipid Enzymology | 155 |
Harvey B Pollard Laboratory of Cell Biology and Genetics National Insti | 183 |
CellFree Systems for Studying the Pathway of Receptor | 449 |
Specific Conditions for Fusion of Membranes of Nuclear | 463 |
Reconstitution of Transport Between Early Compartments | 493 |
Cytoplasmic Determinants of Exocytotic Membrane Fusion | 511 |
An Approach to the Study of Exocytosis | 553 |
Ultrastructural Aspects of Exocytosis | 571 |
David S Roos Department of Biological Sciences University of Pennsyl | 601 |
Paul R Meersb Cancer Research Institute School of Medicine University | 627 |
Fusion of Liposomes Induced and Modulated by Proteins | 195 |
aOrganon Teknika Turnhout Belgium | 209 |
SekWen Hui Department of Biophysics Roswell Park Memorial Institute | 231 |
Modulation of Membrane Fusion by Glycolipids and Lectin | 255 |
John Lenard Department of Physiology and Biophysics University | 275 |
From Microscopic Observation | 289 |
Influenza Virus Hemagglutinin and Membrane Fusion | 313 |
Fusion of Viruses with Phospholipid Vesicles at Neutral pH | 337 |
Abraham Loyter Department of Biochemistry Institute of Life Sciences | 375 |
CDepartment of Physiology and Biophysics Wright State University Dayton | 395 |
Mark Marsh Chester Beatty Laboratories Institute of Cancer Research | 421 |
Experimental and Technological Applications of CellCell | 649 |
Electrofusion and Electropermeabilization in Genetic | 665 |
T Hauw The Department of Clinical Immunology University Hospital | 697 |
Reconsti | 731 |
Enveloped Viruses as a Tool in the Study of Lipid Organiza | 751 |
Insertion | 777 |
Modulation and Analysis of Structure and Function of | 803 |
Current Status and Future | 845 |
| 891 | |
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Common terms and phrases
Acad Acta acyl chain adhesion aggregation aqueous assay binding Biochemistry Biochim biological membranes Biophys Ca2+ Ca2+-induced calcium Cell Biol cell fusion cell membrane cell surface cellular Chem cholesterol chromaffin cells concentration cytoplasmic divalent cations Düzgüneş effect endocytosis endosomes envelopes erythrocyte exocytosis exocytotic fluorescence formation fuse fusion event fusion process fusion reaction fusogenic gangliosides glycophorin glycoproteins Golgi granule headgroup Helenius hemolysis HII phase Hoekstra hydration hydrophobic increase incubation induced influenza virus inhibit interaction intracellular kinetics Kruijff lipid bilayers Lipid polymorphism lipid vesicles liposomes mechanism membrane fusion membrane proteins model membranes molecular molecules myoblast myoblast fusion Natl negatively charged observed occur osmotic Papahadjopoulos particles permeability phase separation phase transition phosphatidylcholine phosphatidylserine phospholipid vesicles planar plasma membrane Proc receptors reconstituted release role secretory Sendai virus specific structure studies synexin target membrane temperature tion unilamellar vesicle fusion vesicles vesicular viral membrane virions virosomes viruses Wilschut
Popular passages
Page vii - University of Medicine and Dentistry of New Jersey, Robert Wood Johnson Medical School, New Brunswick, New Jersey Rhonda Dale Terry, PhD, RD, Associate Professor, Department of Food Science and Human Nutrition.