Michael F Brown
Publications
PMID: 18348566;Abstract:
Membranes made from three specifically deuterium-labeled ether-linked bolalipids, [1′,1′,20′,20′-2H4]C20BAS-PC, [2′,2′,19′,19′-2H4]C20BAS-PC, or [10′,11′-2H2]C20BAS-PC, were analyzed by 2H NMR spectroscopy. Unlike more common monopolar, ester-linked phospholipids, C20BAS-PC exhibits a high degree of orientational order throughout the membrane and the sn-1 chain of the lipid initially penetrates the bilayer at an orientation different from that of the bilayer normal, resulting in inequivalent deuterium atoms at the C1 position. The approximate hydrophobic layer thickness and area per lipid are 18.4 Å and 60.4 Å2, respectively, at 25 °C, and their respective thermal expansion coefficients are within 20% of the monopolar phospholipid, DLPC. Copyright © 2008 American Chemical Society.
PMID: 4020856;Abstract:
High sensitivity, differential scanning calorimetry studies of vovine retinal rod outer segment (ROS) disk membranes and aqueous dispersions of the extracted ROS phospholipids have been performed. ROS disk membranes were found to exhibit a broad peak of excess heat capacity with a maximum at less than about 3°C, ascribable to a gel-to-liquid crystalline phase transition of traction of the phospholipids. A similar thermotropic transition was observed for aqueous dispersions of the total extracted and purified ROS phospholipids. Comparison of the results obtained for the dispersion of total ROS phospholipids to those of the purified head group fractions. suggests that the thermotropic behavior reffects a gel-to-liquid crystalline transition, leading to lateral phase separation, involving those phosphatidylcholine (PC) molecules containing saturated fatty acylchains, possibley together with the highest melting ROS phosphatidylethanolamine (PE) and phosphatidylserine (PS) components. The interpretation of the thermal behavior of the ROS disk membranes depends on whether the transition is assumed to derive from the ROS PC and/or PE/PS fractions, and whether the transbilayer arrangement of the ROS phospholipids is assumed to be symmetric or asymmetric. The calorimetric data can be simply explained in terms of an asymmetric distribution of the major ROS disk membrane phospholipids (G.P. Miljanich et al., J. Membrane Biol.60:249-255, 1981). In this case, the transition would arise from the PE/PS fractions in the outer ROS disk membrane monolyer, and the anticipated transition from the PC in the inner monolayer would be broadened due to interaction with cholesterol. For the ROS membranes at higher temperatures, two additional, irreversible transitions are observed at 57 and 72°C, corresponding to the thermal denauturation of opsin and rhodopsin, respectively. © 1985 Springer-Verlag.