Marc Brullemans scite author profile

In spite of the fact that planar lipid bilayers are still the best-suited artificial membrane system for the study of reconstituted ion channels and receptors, data dealing with their physical characterization, especially as regards dynamics, are scanty. A combined electrical and optical chamber was designed and allowed fluorescence recovery after photobleaching recovery curves to be recorded from stable virtually solvent-free bilayers. D, the lateral diffusion coefficient of N-(7-nitrobenzoyl-2-oxa-1,3-diazol-4-yl)-1,2-dihexadecanoyl-sn- glycero-3-phosphoethanolamine, was found to be relatively insensitive to the phospholipid composition (headgroup, chain unsaturation, etc.), whereas inclusion of 33-50% cholesterol in the membrane reduced D by a factor of 2. Divalent cations significantly reduced D of negatively charged bilayers. These results compare well with data gathered on other model and natural systems. In addition, the incorporation of the voltage-dependent pore-former alamethicin did slightly reduce lipid lateral mobility. This study demonstrates the feasibility of such experiments with planar bilayers, which are amenable to physical constraints, and thus offers new opportunities for systematic studies of structure-function relationships in membrane-associating molecules.

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Implication of segment S45 in the permeation pathway of voltage-dependent sodium channels

Brullemans

Helluin

Dugast

et al. 1994

Eur Biophys J

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A 34-mer peptide, encompassing the S4 and S45 segments of domain IV of the electric eel voltage-dependent sodium channel, was synthesized in order to test the potential implication of S45 in the gating or permeation pathway. The secondary structure of peptide S4-S45 assessed by circular dichroism was found mainly helical, both in organic solvents and in lipid vesicles, especially negatively-charged ones. The macroscopic conductance properties of neutral and negatively-charged Montal-Mueller planar lipid bilayers doped with S4-S45 were studied and compared with those of S4. With regard to voltage-dependence, the most efficient system was S4-S45 in neutral bilayers. Voltage thresholds for exponential conductance development were found to correlate with the background or "leak" conductance. Assuming that the latter reflects interfacial peptide concentration, the mean apparent number of monomers per conducting aggregate could be estimated to be 3-5. In single-channel experiments, the most probable events had amplitudes of 8 pS and 5 pS in neutral and negatively-charged bilayers respectively. Ionic selectivity under salt gradients conditions, both at macroscopic and single-channel levels, was in favour of sodium ions (PNa/PK = 3). These properties compare favourably to previous reports dealing with peptide modelling transmembrane segments of voltage-dependent ionic channels. Specifically, when compared to S4 alone, the reduced unit conductance and the increased selectivity for sodium support the implication of the S45 region in the inner lining of the open configuration of sodium channels.

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Influence of torus on the capacitance of asymmetrical phospholipid bilayers

Brullemans

Tancrd̀e

1987

Biophysical Chemistry

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Marc Brullemans

Lateral diffusion in planar lipid bilayers: a fluorescence recovery after photobleaching investigation of its modulation by lipid composition, cholesterol, or alamethicin content and divalent cations

Implication of segment S45 in the permeation pathway of voltage-dependent sodium channels

Influence of torus on the capacitance of asymmetrical phospholipid bilayers

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