Deuterium nuclear magnetic resonance study of the interaction of branched chain compounds (phytanic acid, phytol) with a phospholipid model membrane.

Deuterium nuclear magnetic resonance (2H-NMR) spectra have been determined for 50 wt% aqueous dispersions of 1-palmitoyl(stearoyl)-2-[2H31]palmitoyl-sn-glycero-3-phosphocho lin e (PC-d31) containing 20 mol% of the isoprenoid compounds phytol or phytanic acid over the temperature range -5-55 degrees C. Concentration effects of the isoprenoid compounds are also reported. First moments (M1) and order parameters were calculated from the spectra. 20 Mol% of either branched chain compound causes an approximate 9% increase in the mean order parameter SCD. Significant effects are seen on the PC-d31 phase behavior. 20 Mol% of either branched chain compound causes the gel to liquid crystalline onset temperature (Ts) to drop to 28 degrees C from 38 degrees C for PC-d31 alone, as seen from the temperature dependent M1 values. The melting range ([Tl--Ts]) is congruent to 1.5 degrees C for PC-d31 and congruent to 11 degrees C for PC-d31 containing 20 mol% of the branched chain compounds. This is in direct contrast to their straight chain analogues, hexadecanol and palmitic acid, which have been shown to elevate the phase transition temperature. The isoprenoid compounds cause significant disruption of the gel phase, forcing nearest neighbor phospholipid chains apart. Transverse relaxation times (T2e, the time constant for decay of the quandrupolar echo) have been determined over the temperature range -5-50 degrees C. Possible explanation for the effect of the isoprenoid compounds on the dynamic structure of phospholipids in the bilayer are proffered.