The interaction of 1,2-dipalmitoylglycerol (DPG) with dipalmitoylphosphatidylserine (DPPS) has been studied in aqueous dispersion in the presence and in the absence of Ca2+ by using Fourier transform infrared spectroscopy (FT-IR) and 45Ca(2+)-binding. FT-IR showed that DPG increased the phase transition of DPPS and induced a rigidification of the DPPS/DPG-Ca2+ complex. In the absence of Ca2+, the incorporation of DPG produced an increase in the proportion of dehydrated carbonyl groups in the mixture of DPPS plus DPG whereas, in the presence of Ca2+, DPG suppressed the solid-solid phase transition of phosphatidylserine-Ca2+ complexes. The phosphate band of DPPS was analyzed using a multivariate statistical analysis, indicating that DPG induced a higher dehydration of the PO2- group in the presence of subsaturating Ca2+ concentrations. Even very low concentrations of DPG, such as 2 mol%, already produced a significant effect. In the presence of both DPG and Ca2+, dehydration of DPPS increased, so that full dehydration was reached at a DPPS/Ca2+ molar ratio of 2.94 instead of 2.04 as observed for pure DPPS. However, the stoichiometry of the binding of Ca2+ to DPPS was not significantly altered by the inclusion of DPG as revealed by 45Ca(2+)-binding experiments, indicating that, in this situation, full dehydration of the PO2- groups of DPPS was reached when approx. 2 out of every 3 molecules of DPPS were binding Ca2+. The effects reported here for the interaction of DPG with DPPS may be significant for a number of biological situations where Ca2+, phosphatidylserine and diacylglycerols are involved, such as fusion of membranes or the activation of protein kinase C, where the dehydration effect produced by diacylglycerols may explain, at least in part, their effects.