Abstract
The influence of acyl chain-length asymmetry on the thermodynamic parameters ( T m, Δ H, and Δ S) associated with the reversible main phase transition of aqueous dispersions prepared from saturated diacyl phosphatidylcholines was studied by high-resolution differential scanning calorimetry. Two series of saturated diacyl phosphatidylcholines, grouped according to their molecular weights of 678 and 706, with a total number of 25 molecular species were examined. The normalized acyl chain-length difference between the sn-1 and sn-2 acyl chains for a given phospholipid molecule in the gel-state bilayer is expressed quantitatively by the structural parameter ΔC/CL, and the values of ΔC/CL for the two series of lipids under study vary considerably from 0.04 to 0.67. When the value of ΔC/CL is within the range of 0.09–0.40, it was shown that the thermodynamic parameters are, to a first approximation, a linear function of ΔC/CL with a negative slope. In addition, the experimental T m values and the predicted T m values put forward by Huang (Biochemistry (1991) 30, 26–30) are in very good agreement. Beyond the point of ΔC/CL= 0.41, the influence of acyl chain-length asymmetry on the thermodynamic parameters deviates significantly from a linear function. In fact, within the range of ΔC/CL values of 0.42–0.67, the thermodynamic parameters in the T m (or Δ H) vs. ΔC/CL plot were shown to be bell-shaped with the maximal T m (or Δ H) at ΔC/CL= 0.57. These results are discussed in terms of changes in the acyl chain packing modes of various phosphatidylcholine molecules within the gel-state bilayer in excess water.
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