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Synergetics of the Membrane Self-Assembly: A Micelle-to-Vesicle Transition (2000)

Goltsov, Alexey N. ; Barsukov, Leonid I.

Springer

Journal of biological physics 26 (2000), S. 27-41

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ISSN: 1573-0689

Keywords: Micelle-to-vesicle transition ; mixed lipid-detergent systems ; Membrane self-assembly ; solubilization and reconstitution of membranes

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Physics

Notes: Abstract A model approach is developed to study intermediate steps and transientstructures in a course of the membrane self-assembly. The approach isbased on investigation of mixed lipid/protein-detergent systems capable ofthe temperature induced transformation from a solubilized micellar stateto closed membrane vesicles. We performed a theoretical analysis ofself-assembling molecular structures formed in binary mixtures ofdimyristoylphosphatidylcholine (DMPC) and sodium cholate (NaC). Thetheoretical model is based on the Helfrich theory of curvature elasticity,which relates geometrical shapes of the structures to their free energy inthe Ginzburg-Landau approximation. The driving force for the shapetransformation is spontaneous curvature of amphiphilic aggregates which isnonlinearly dependent on the lipid/detergent composition. An analysis ofthe free energy in the regular solution approximation shows that theformation of mixed structures of different shapes (discoidal micelles,rod-like micelles, multilayer membrane structures and vesicles) ispossible in a certain range of detergent/lipid ratios. A transition fromthe flat discoidal micelles to the rod-like cylindrical micelles isinduced by curvature instabilities resulting from acyl chain melting andinsertion of detergent molecules into the lipid phase. Nonideal mixing ofthe NaC and DMPC molecules results in formation of nonideal cylindricalaggregates with elliptical cross section. Further dissolution of NaCmolecules in DMPC may be accompanied with a change of their orientation inthe lipid phase and leads to temperature-induced curvature instabilitiesin the highly curved cylindrical geometry. As a result the rod-likemicelles fuse into less curved bilayer structures which transformeventually to the unilamellar and multilamellar membrane vesicles. Thetheoretical analysis performed shows that a sequence of shapetransformations in the DMPC/NaC mixed systems is determined by thesynergism of four major factors: detergent/lipid ratio, temperature (acylchain melting), DMPC and NaC mixing, and reorientation of NaC molecules inmixed aggregates.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1005139631164

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Structural Polymorphism of Gramicidin A Channels: Ion Conductivity and Spectral Studies (1996)

Sychev, Sergei V. ; Sukhanov, Stanislav V. ; Barsukov, Leonid I. ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

Journal of Peptide Science 2 (1996), S. 141-156

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ISSN: 1075-2617

Keywords: gramacidin A ; channel forming peptides ; Peptide conformational analysis ; cicular dichroism ; Chemistry ; Biochemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: The relation between the various spatial structures of the gramicidin A channels and their ionic conductance has been studied. For this aim, various conformations of the peptide were pre-formed in liposomal bilayer and after subsequent fusion of liposomes with planar lipid bilayer the measured channel conductance was correlated with gramicidin structures established in liposomes. To form the single-stranded π6.3π 6.3 helix the peptide and lipid were co-dissolved in TFE prior to liposome preparation. THF and other solvents were used to form parallel (↑ ↑ π π) and antiparallel (↑ ↓ π π) double helices. Conformation of gramicidin in liposomes made by various phosphatidylcholines was monitored by CD spectroscopy, and computer analysis of the spectra obtained was performed. After fusion of gramicidin containing liposomes with planar bilayer membranes from asolectin, the histograms of single-channel conductance were obtained. The histograms had one or three distinct peaks depending on the liposome preparation. Assignment of the structure of the channel to conductance levels was made by correlation of CD data with conductance histograms. The channel-forming analogue, des(Trp-Leu)2-gramicidin A, has been studied by the same protocol. The channel conductances of gramicidin A and the shortened analogue increase in the following order: ↑ ↓ π π 2 ↑ ↑ π π 〈 π 6.3π6.3. Single-channels formed by double helices have higher dispersity of conductance than the π6.3π6.3 helical channel. Lifetimes of the double helical and the π6.3π6.3 helical channels are very close to each other. The data obtained were compared with theoretically predicted properties of double helices [1].

Additional Material: 15 Ill.