Lysophospholipids are known to play a role in a wide range of cellular processes involving membrane-protein or membrane-membrane interactions; however lysolipids-lamellar lipids interactions remain unclear. The effects of lysolipids on membrane order and dynamics were examined using optical birefringence and fluorescence techniques. We found that lysophosphatidic acid (LPA) induces a considerable disorder in chain orientation for synthetic lipid of dimyristoyl-phosphatidylcholines (DMPC), whereas a slight order for natural lipid of egg yolk phosphatidylcholine (Egg-PC), e.g. the chain order decreases by 10% at 0.1 mole ratio for DMPC in comparison with the membranes without LPA and increases by 3.4% at 0.09 mole ratio for Egg-PC. Also, membrane fluidity corresponds with the change in the chain disorder, namely, the fluidity increases for DMPC membranes, while decreases for Egg-PC membranes by addition of LPA. The difference in the effects of LPA is interpreted by a difference in the chain packing between the synthetic and the natural lipid bilayers. LPA can be incorporated into natural lipid membranes without disturbance, and readjusts itself to a more favorable hydrophobic match with the bilayers. Lysophophatidylcholine (LPC) also induces a disorder in DMPC membranes, but the decrease in chain order is only half compared with that for LPA.