Efforts to describe and model the molecular structure of biological membranes go back to the beginning of the last century. In 1917, Langmuir described membranes as a layer of lipids one molecule thick [1]. Eight years later, Gorter and Grendel concluded from their studies that “the phospholipid molecules that formed the cell membrane were arranged in two layers to form a lipid bilayer” [2]. Danielli and Robertson proposed, in 1935, a model in which the bilayer of lipids is sequestered between two monolayers of unfolded proteins [3], and the currently still accepted fuid mosaic model was proposed by Singer and Nicolson in 1972 [4]. Among those landmarks of biomembrane history, a serendipitous observation made by Alex Bangham during the early 1960s deserves undoubtedly a special place. His fnding that exposure of dry phospholipids to an excess of water gives rise to lamellar structures [5] has opened versatile experimental access to studying the biophysics and biochemistry of biological phospholipid membranes. Although during the following 4 decades biological membrane models have grown in complexity and functionality [6], liposomes are, besides supported bilayers, membrane nanodiscs, and hybrid membranes, still an indisputably important tool for membrane b- physicists and biochemists. In vol. II of this book, the reader will fnd detailed methods for the use of liposomes in studying a variety of biochemical and biophysical membrane phenomena concomitant with chapters describing a great palette of state-of-the-art analytical technologies.
Edited by:
Volkmar Weissig
Imprint: Humana Press Inc.
Country of Publication: United States
Volume: 606
Dimensions:
Height: 254mm,
Width: 178mm,
Spine: 36mm
Weight: 1.373kg
ISBN: 9781607614463
ISBN 10: 1607614464
Series: Methods in Molecular Biology
Pages: 548
Publication Date: 23 December 2009
Audience:
Professional and scholarly
,
Undergraduate
Format: Hardback
Publisher's Status: Active
Utilization of Liposomes for Studying Drug Transfer and Uptake.- The Use of Liposomes in the Study of Drug Metabolism: A Method to Incorporate the Enzymes of the Cytochrome P450 Monooxygenase System into Phospholipid, Bilayer Vesicles.- Use of Liposomes to Study Cellular Osmosensors.- Studying Mechanosensitive Ion Channels Using Liposomes.- Studying Amino Acid Transport Using Liposomes.- Use of Liposomes for Studying Interactions of Soluble Proteins with Cellular Membranes.- Liposomal Reconstitution of Monotopic Integral Membrane Proteins.- The Reconstitution of Actin Polymerization on Liposomes.- Electroformation of Giant Unilamellar Vesicles from Native Membranes and Organic Lipid Mixtures for the Study of Lipid Domains under Physiological Ionic-Strength Conditions.- Visualization of Lipid Domain-Specific Protein Sorting in Giant Unilamellar Vesicles.- Biosynthesis of Proteins Inside Liposomes.- Study of Respiratory Cytochromes in Liposomes.- Use of Liposomes to Evaluate the Role of Membrane Interactions on Antioxidant Activity.- Studying Colloidal Aggregation Using Liposomes.- Assessment of Liposome–Cell Interactions.- Methods to Monitor Liposome Fusion, Permeability, and Interaction with Cells.- The Use of Isothermal Titration Calorimetry to Study Multidrug Transport Proteins in Liposomes.- Studying Lipid Organization in Biological Membranes Using Liposomes and EPR Spin Labeling.- Membrane Translocation Assayed by Fluorescence Spectroscopy.- Interaction of Lipids and Ligands with Nicotinic Acetylcholine Receptor Vesicles Assessed by Electron Paramagnetic Resonance Spectroscopy.- Environmental Scanning Electron Microscope Imaging of Vesicle Systems.- Freeze-Fracture Electron Microscopy on Domains in Lipid Mono- and Bilayer on Nano-Resolution Scale.- Atomic ForceMicroscopy for the Characterization of Proteoliposomes.- Method of Simultaneous Analysis of Liposome Components Using HPTLC/FID.- Viscometric Analysis of DNA-Lipid Complexes.- Fluorometric Analysis of Individual Cationic Lipid-DNA Complexes.- Fluorescence Resonance Energy Transfer-Based Analysis of Lipoplexes.- Analysis of Lipoplex Structure and Lipid Phase Changes.- Fluorescence Methods for Evaluating Lipoplex-Mediated Gene Delivery.- FRET Imaging of Cells Transfected with siRNA/Liposome Complexes.- Spectral Bio-Imaging and Confocal Imaging of the Intracellular Distribution of Lipoplexes.- Techniques for Loading Technetium-99m and Rhenium-186/188 Radionuclides into Pre-formed Liposomes for Diagnostic Imaging and Radionuclide Therapy.- Fluorescence Correlation Spectroscopy for the Study of Membrane Dynamics and Organization in Giant Unilamellar Vesicles.- Liposome Biodistribution via Europium Complexes.- Biosensor-Based Evaluation of Liposomal Binding Behavior.- Use of Liposomes to Study Vesicular Transport.
Reviews for Liposomes: Methods and Protocols, Volume 2: Biological Membrane Models
From the reviews: Provide a comprehensive guide to the preparation, characterisation, and potential use of currently known types of liposomes. They are written using an interdisciplinary approach, and so provide essential knowledge of liposomes, for not only researchers in this particular field, but also scientists in wider pharmaceutical and biological areas. ... very inspiring - the potential for liposomes is immense - and these well-written chapters ignited notions of further applications - this is clearly a very exciting field. (Trudy L. Knight, BTS Newsletter, Issue 37, Winter, 2010)
