Permeability and Stability of Lipid Bilayers
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A01=E. Anibal Disalvo
A01=Sidney A. Simon
acyl
advanced membrane permeability studies
Author_E. Anibal Disalvo
Author_Sidney A. Simon
Bilayer Permeability
Bilayer Thickness
Category=PSB
Category=PST
Category=PSV
chain
Cold Acclimation
Dipole Potential
elastic moduli
Electric Field Pulse
electroporation technique
energy
Energy Profile
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Fa Transport
Flip Flop Rate Constant
Fluid Bilayer
Fluorescent Fa
force
free
Free Sterols
freeze
Freeze Fracture Electron Micrographs
Freeze Fracture Electron Microscopy Studies
Freezing Tolerance
hydration
Hydrophobic Ions
Ii Phase
Ion Potential Energy
Lipid Bilayers
Lipid Vesicles
Lipophilic Anions
Lipophilic Ions
mechanical stability
mechanisms of failure
membrane biophysics
membrane permeability
Micropipet Method
molecular diffusion
Osmotic Contraction
osmotic stress adaptation
phase
phase transition analysis
plant cell membranes
thickness
Transfection Efficiency
vesicles
X-ray Structure Factors
Product details
- ISBN 9780849345319
- Weight: 710g
- Dimensions: 178 x 254mm
- Publication Date: 09 Mar 1995
- Publisher: Taylor & Francis Inc
- Publication City/Country: US
- Product Form: Hardback
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This book presents a comprehensive and coherent picture of how molecules diffuse across a liquid that is, on average, only two molecules thick. It begins by characterizing bilayers structurally, using X-ray diffraction, and then mechanically by measuring elastic moduli and mechanisms of failure. Emphasis is placed on the stability and mechanical properties of plant membranes that are subject to very large osmotic and thermal stresses. Using this information, the transport of molecules of increasing complexity across bilayers is analyzed.
E. Anibal Disalvo, Sidney A. Simon
