Jean-Luc Ranck scite author profile

The interaction of dodecyl maltoside with lipids was investigated through the studies of solubilization and reconstitution processes. The solubilization of large unilamellar liposomes was analyzed through changes in turbidity and cryo-transmission electron microscopy. Solubilization was well described by the three-stage model previously reported for other detergents, and the critical detergent/phospholipid ratios at which lamellar-to-micellar transition occurred (Rsat = 1 mol/mol) and finished (Rsol = 1.6 mol/mol) were determined. The vesicle-micelle transition was further observed in the vitrified hydrated state by cryo-transmission electron microscopy. A striking feature of the solubilization process by dodecyl maltoside was the discovery of a new phase consisting of a very viscous "gel-like" sample. It is shown that this equilibrium cohesive phase is composed of long filamentous thread-like micelles, over microns in length. Similar structures were observed upon solubilization of sonicated liposomes, multilamellar liposomes, or biological Ca2+ ATPase membranes. This "gel-like" phase was also visualized during the process of liposome reconstitution after detergent removal from lipid-dodecyl maltoside micelles. The rate of detergent removal, controlled through the use of SM2 Bio-Beads, was demonstrated to drastically influence the morphology of reconstituted liposomes with a propensity for multilamellar liposome formation upon slow transition through the "gel-like" phase. Finally, on the basis of these observations, the mechanisms of dodecyl maltoside-mediated reconstitution of bacteriorhodopsin were analyzed, and optimal conditions for reconstitution were defined.

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Order-disorder conformational transitions of the hydrocarbon chains of lipids

Ranck

Mateu

Sadler

et al. 1974

Journal of Molecular Biology

159

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Use of detergents in two-dimensional crystallization of membrane proteins

Rigaud

Chami

Lambert

et al. 2000

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Structure determination at high resolution is actually a difficult challenge for membrane proteins and the number of membrane proteins that have been crystallized is still small and far behind that of soluble proteins. Because of their amphiphilic character, membrane proteins need to be isolated, purified and crystallized in detergent solutions. This makes it difficult to grow the well-ordered three-dimensional crystals that are required for high resolution structure analysis by X-ray crystallography. In this difficult context, growing crystals confined to two dimensions (2D crystals) and their structural analysis by electron crystallography has opened a new way to solve the structure of membrane proteins. However, 2D crystallization is one of the major bottlenecks in the structural studies of membrane proteins. Advances in our understanding of the interaction between proteins, lipids and detergents as well as development and improvement of new strategies will facilitate the success rate of 2D crystallization. This review deals with the various available strategies for obtaining 2D crystals from detergent-solubilized intrinsic membrane proteins. It gives an overview of the methods that have been applied and gives details and suggestions of the physical processes leading to the formation of the ordered arrays which may be of help for getting more proteins crystallized in a form suitable for high resolution structural analysis by electron crystallography.

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A novel packing of the hydrocarbon chains in lipids the low temperature phases of dipalmitoyl phosphatidyl-glycerol

Ranck¹,

Keira²,

Luzzati³

1977

Biochimica et Biophysica Acta (BBA) - Lipids and Lipid Metaboli

110

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The structure of a lipid–water lamellar phase containing two types of lipid monolayers. An X-ray and neutron scattering study

Ranck¹,

Zaccai²,

Luzzati³

1980

J Appl Cryst

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One lamellar phase, observed in the mitochondrial lipids-water system at low temperature (ca 253 K) and at low water content (ca 15%), contains four lipid monolayers in its unit cell, two of type ~ and two of type ft. Previous X-ray scattering studies of this phase led to an ambiguity: the phase could contain either two homogeneous bilayers, one e and one fl, or two mixed bilayers, each formed by an e and a fl monolayer. A solution to this problem was sought in a neutron scattering study as a function of the D20/H20 ratio. Because of limited resolution, straightforward analysis of the neutron scattering data leads also to ambiguous results. Using a more sophisticated analysis based upon the.zeroth-and second-order moments of the Patterson peaks relevant to the exchangeable components, it is shown that the weight of the evidence is in favour of a structure containing mixed bilayers.

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Two-dimensional structure of the native light-harvesting complex LH2 from Rubrivivax gelatinosus and of a truncated form

Ranck

Ruíz

Péhau‐Arnaudet

et al. 2001

Biochimica et Biophysica Acta (BBA) - Bioenergetics

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The light-harvesting complex LH2 of Rubrivivax gelatinosus has an oligomeric structure built from alpha-beta heterodimers containing three bacteriochlorophylls and one carotenoid each. The alpha subunit (71 residues) presents a C-terminal hydrophobic extension (residues 51-71) which is prone to attack by an endogenous protease. This extension can also be cleaved by a mild thermolysin treatment, as demonstrated by electrophoresis and by matrix-assisted laser desorption-time of flight mass spectrometry. This cleavage does not affect the pigment binding sites as shown by absorption spectroscopy. Electron microscopy was used to investigate the structures of the native and thermolysin cleaved forms of the complexes. Two-dimensional crystals of the reconstituted complexes were examined after negative staining and cryomicroscopy. Projection maps at 10 A resolution were calculated, demonstrating the nonameric ring-like organization of alpha-beta subunits. The cleaved form presents the same structural features. We conclude that the LH2 complex is structurally homologous to the Rhodopseudomonas acidophila LH2. The hydrophobic C-terminal extension does not fold back in the membrane, but lays out on the periplasmic surface of the complex.

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Use of Octyl β-Thioglucopyranoside in Two-Dimensional Crystallization of Membrane Proteins

Chami

Péhau‐Arnaudet

Lambert

et al. 2001

Journal of Structural Biology

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Jean-Luc Ranck

Bio-Beads: An Efficient Strategy for Two-Dimensional Crystallization of Membrane Proteins

A New “Gel-like” Phase in Dodecyl Maltoside–Lipid Mixtures: Implications in Solubilization and Reconstitution Studies

Order-disorder conformational transitions of the hydrocarbon chains of lipids

Use of detergents in two-dimensional crystallization of membrane proteins

A novel packing of the hydrocarbon chains in lipids the low temperature phases of dipalmitoyl phosphatidyl-glycerol

The structure of a lipid–water lamellar phase containing two types of lipid monolayers. An X-ray and neutron scattering study

Two-dimensional structure of the native light-harvesting complex LH2 from Rubrivivax gelatinosus and of a truncated form

Use of Octyl β-Thioglucopyranoside in Two-Dimensional Crystallization of Membrane Proteins

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