Giant Vesicles

Die Darstellung und Charakterisierung von Riesenvesikeln sowie deren physikalische und chemische Eigenschaften sind die Themen dieses Buches, das sich sowohl auf neueste Experimente als auch auf aktuelle theoretische Erkenntnisse stützt. Das Spektrum der behandelten Aspekte reicht von der reinen Mathematik bis zur anwendungsorientierten Biologie und Biochemie. 87 international renommierte Autoren haben zu diesem zeitgemäßen Nachschlagewerk und Handbuch beigetragen.

Zusatztext "The book should make a useful addition to library shelves"(Journal of Controlled Release! Vol 68! 2000) Informationen zum Autor Pier Luigi Luisi and Peter Walde, both of Institut für Polymere, ETH-Zürich, Switzerland Klappentext Perspectives in Supramolecular Chemistry Founded by J.-M. Lehn Perspectives in Supramolecular Chemistry reflects research which develops supramolecular structures with specific new properties, such as recognition, transport and simulation of biosystems or new materials. The series covers all areas from theoretical and modelling aspects through organic and inorganic chemistry and biochemistry to materials, solid-state and polymer sciences reflecting the many and varied applications of supramolecular structures in modern chemistry. Giant Vesicles Edited by Pier Luigi Luisi and Peter Walde Institute für Polymere, ETH-Zürich, Switzerland Giant vesicles or giant liposomes are supramolecular assembles of amphiphiles, surface active substances which normally contain one or two hydrophobic chains and one hydrophilic head. Due to their relatively large size, giant vesicles are easily observed by light microscopy. This volume provides an overview of ideas and results obtained from experimental studies as well as theoretical approaches. A wide variety of aspects ranging from pure mathematics and physical considerations to biochemical and biological applications are covered. Historical and fundamental aspects are discussed as well as a range of experimental approaches including the micromanipulation and micro-puncturing of single giant vesicles. 87 international contributors comment on a wide range of issues contained under the five main part headings: Introduction Preparation Methods Basic Theoretical Aspects Physical Properties Chemical and Biological Aspects. Giant Vesicles has been written for researchers in the fields of chemistry, biochemistry and biophysics, working in supra-molecular chemistry, surfactant science, liposome and pharmaceutical sciences. Zusammenfassung This volume covers the preparation methods, characterization, physical and chemical properties of giant vesicles. It provides an overview of ideas and results obtained from experimental studies as well as from theoretical approaches, covering a wide variety of aspects. Inhaltsverzeichnis INTRODUCTION. Why Giant Vesicles? (P. Luisi). Giant Vesicles: A Historical Introduction (D. Lasic). PREPARATION METHODS. Liposome Electroformation (M. Angelova). Formation of Giant Vesicles from Different Kinds of Lipids Using the Electroformation Method (A. Fischer, et al.). Observation of a Variety of Giant Vesicles under an Optical Microscope (Ken-ichirou Akashi et al). BASIC THEORETICAL ASPECTS. Bending Elasticity of Fluid Membranes (W. Helfrich). Giant Vesicles: A Theoretical Perspective (U. Seifert). Free Energy of a Fluctuating Vesicle. Influence of the Fluctuations on the Laplace Law (I. Bivas). PHYSICAL PROPERTIES. Use of Micropipet Manipulation Techniques to Measure the Properties of Giant Lipid Vesicles (David Needham and Doncho Zhelev) Fluctuating Vesicle Shapes (H.-G. Döbereiner). Oblate-Prolate Transition of Ellipsoidal Magnetoliposomes: Experiments showing an Anisotropic Spontaneous Curvature (Olivier Sandre et al). Micromanipulation of Tubular Vesicles (L. Xu H.-G. Döbereiner). Electromechanical Properties of Model Membranes and Giant Vesicle Deformations (Phillipe Méléard et al). Mechanical Properties of Lipid Bilayers Containing Grafted Lipids (I. Bivas, et al.). Motion of Particles Attached to Giant Vesicles: Falling Ball Viscosimetry and Elasticity Measurements on Lipid Membranes (Rumiana Dimova et al). Control of Fusion Between Giant Vesicles (Sek Wen Hui et al) Membrane Roughness and Dispersive Phase as Effects of Higher-order Bending in Fluid Membranes (Beate Klösgen et al). S...

"The book should make a useful addition to library shelves" (Journal of Controlled Release, Vol 68, 2000)

Auteur

Pier Luigi Luisi and Peter Walde, both of Institut für Polymere, ETH-Zürich, Switzerland

Texte du rabat
Perspectives in Supramolecular Chemistry Founded by J.-M. Lehn Perspectives in Supramolecular Chemistry reflects research which develops supramolecular structures with specific new properties, such as recognition, transport and simulation of biosystems or new materials. The series covers all areas from theoretical and modelling aspects through organic and inorganic chemistry and biochemistry to materials, solid-state and polymer sciences reflecting the many and varied applications of supramolecular structures in modern chemistry. Giant Vesicles Edited by Pier Luigi Luisi and Peter Walde Institute für Polymere, ETH-Zürich, Switzerland Giant vesicles or giant liposomes are supramolecular assembles of amphiphiles, surface active substances which normally contain one or two hydrophobic chains and one hydrophilic head. Due to their relatively large size, giant vesicles are easily observed by light microscopy. This volume provides an overview of ideas and results obtained from experimental studies as well as theoretical approaches. A wide variety of aspects ranging from pure mathematics and physical considerations to biochemical and biological applications are covered. Historical and fundamental aspects are discussed as well as a range of experimental approaches including the micromanipulation and micro-puncturing of single giant vesicles. 87 international contributors comment on a wide range of issues contained under the five main part headings: Introduction Preparation Methods Basic Theoretical Aspects Physical Properties Chemical and Biological Aspects. Giant Vesicles has been written for researchers in the fields of chemistry, biochemistry and biophysics, working in supra-molecular chemistry, surfactant science, liposome and pharmaceutical sciences.

Résumé
This volume covers the preparation methods, characterization, physical and chemical properties of giant vesicles. It provides an overview of ideas and results obtained from experimental studies as well as from theoretical approaches, covering a wide variety of aspects.

Contenu

INTRODUCTION.
Why Giant Vesicles? (P. Luisi).
Giant Vesicles: A Historical Introduction (D. Lasic).
PREPARATION METHODS.
Liposome Electroformation (M. Angelova).
Formation of Giant Vesicles from Different Kinds of Lipids Using the Electroformation Method (A. Fischer, et al.).
Observation of a Variety of Giant Vesicles under an Optical Microscope (Ken-ichirou Akashi et al).

BASIC THEORETICAL ASPECTS.
Bending Elasticity of Fluid Membranes (W. Helfrich).
Giant Vesicles: A Theoretical Perspective (U. Seifert).
Free Energy of a Fluctuating Vesicle. Influence of the Fluctuations on the Laplace Law (I. Bivas).

PHYSICAL PROPERTIES.
Use of Micropipet Manipulation Techniques to Measure the Properties of Giant Lipid Vesicles (David Needham and Doncho Zhelev)
Fluctuating Vesicle Shapes (H.-G. Döbereiner).
Oblate-Prolate Transition of Ellipsoidal Magnetoliposomes: Experiments showing an Anisotropic Spontaneous Curvature (Olivier Sandre et al).
Micromanipulation of Tubular Vesicles (L. Xu H.-G. Döbereiner).
Electromechanical Properties of Model Membranes and Giant Vesicle Deformations (Phillipe Méléard et al).
Mechanical Properties of Lipid Bilayers Containing Grafted Lipids (I. Bivas, et al.).
Motion of Particles Attached to Giant Vesicles: Falling Ball…