Material Property Characteristics for Lipid Bilayers Containing Lysolipid

Abstract

The apparent area expansion modulus and tensile strength of egg phosphatidylcholine (EPC) membranes are measured in the presence of monooleoylphosphatidylcholine (MOPC). The apparent area expansion modulus decreases from 171 mN m −1 for pure EPC membrane to 82 mN m −1 for a membrane containing 30 mol % MOPC. This significant decrease of the apparent area expansion modulus is attributed to the change of the membrane area due to the tension-dependent exchange of MOPC between the bathing solution and the membrane. Similar to the apparent area expansion modulus, the tensile strength of the membrane decreases with the increase of the molar concentration of MOPC in the membrane. The tensile strength of pure EPC membrane is 9.4 mN m −1 whereas that for a membrane containing 30 mol % MOPC is only 1.8 mN m −1, and for a membrane containing 50 mol % MOPC it is even smaller, on the order of 0.07 mN m −1. The decrease of the tensile strength is coupled with a decrease of the work for membrane breakdown, which changes from 4.3 × 10 −2 kT for pure EPC membrane to 2 × 10 −6 kT for a membrane with 50 mol % MOPC. Overall, these results show that the decrease of the apparent area expansion modulus in the presence of exchangeable molecules is a fundamental property for all membranes and depends on the area occupied by these molecules. The method presented here provides a unique tool for measuring the area occupied by an exchangeable molecule in the bilayer membrane.