The

EPC we used in the present study is a natural lipid w

The

EPC we used in the present study is a natural lipid with mixed acyl chains. Hence, the resulting parameters such as lipid molecules per mean area are a consequence of zwiterionic/monocationic polar headgroups and broad acyl chains distributions. This is probably the reason why the EPC/DOTAP mean area per lipid as a function of XDOTAP does not have a pronounced minimum ( Fig. 1B). However, we can observe this minimum in the ΔGExc Selleck Stem Cell Compound Library profile, suggesting as described before that the balance between the induced dipoles from the zwitterionic and cationic charges from the polar headgroups has a favorable EPC and DOTAP composition. Fig. 5A and B presents a schematic representation for EPC, DOTAP for one component monolayer, indicating that there is no dipole orientation for EPC film and the repulsive nature for DOTAP film. Fig. 5D, represents the condition for dipole–dipole orientation, when XDOTAP reaches approximately 0.6. The monolayer properties are completely changed to EPC/DOPE when compared to the previous EPC/DOTAP monolayers. The EPC and DOPE one-component isotherms are quite closer, with similar shapes, but the EPC monolayer is slightly more expanded than the DOPE monolayer (Fig.

2A). This behavior is reflected in the compression modulus (Fig. 2D and Table 1), when DOPE assumes higher values than EPC. This is a consequence of the ability of PE lipids to form both intra- Doxorubicin solubility dmso and intermolecular hydrogen bonds (lateral interactions) and hence to adopt a more densely packed monolayer structure [29]. These lateral interactions reduce the PE hydration [27] as schematically shown in Fig. 5C. Despite the same

DOPE and EPC zwitterionic nature, the polar headgroups are different. It is well known that the DOPE has a small headgroup and higher capability of hydration HA-1077 solubility dmso compared to EPC. This is a consequence of higher positive charge density of ethanolamine [30], [31] and [32]. However, not only the amine moiety is exposed to water in PE, but also the phosphate and lipid backbone of PE are more hydrated than those of PC. Overall, the PE headgroup hydration is approximately 25% larger than PC. The main reason for these differences resides in their distinct capabilities to perform hydrogen bonds [33]. The ability to form direct hydrogen bonds between the lipid headgroups decides whether the solvation-induced transition is exothermic (as in dioctadecadienoylphosphatidylcholine – DODPC, no lipid–lipid H bonds) or endothermic (as in DOPE, lipid–lipid H bonds present). Consequently, the solvation-induced transition in DOPE is entropy-driven, while in DODPC is enthalpy-driven [34]. The positive deviation from the ideal mixing was identified for all of the DOPE composition range (Fig. 2B). This positive deviation is a consequence of hydrogen bonds between PE and water which are necessary for PE molecules stabilization in EPC monolayers.

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