Hugo Alejandro Pérez scite author profile

The lack of carbonyl groups and the presence of ether bonds give the lipid interphase a different water organization around the phosphate groups that affects the compressibility and electrical properties of lipid membranes. Generalized polarization of 14:0 Diether PC in correlation with FTIR analysis indicates a higher level of polarizability of water molecules in the membrane phase around the phosphate groups both below and above T m . This reorganization of water promotes a different response in compressibility and dipole moment of the interphase which is related to different H-bonding of water molecules with PO and CO groups.

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Effect of cholesterol on the hydration properties of ester and ether lipid membrane interphases

Pérez

Alarcón

Verde

et al. 2021

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Effects of Lysozyme on the Activity of Ionic of Fluoroquinolone Species

et al. 2018

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Fluoroquinolones (FQs) constitute an important class of biologically active broad-spectrum antibacterial drugs that are which are in contact with many biological fluids under different acidity conditions. We studied the reactivity of ciprofloxacin (Cpx) and levofloxacin (Lev) and their interaction with lysozyme (Lyz) at different pH values, using UV-visible absorption, fluorescence, infrared spectroscopies supported by DFT calculation and docking. In addition, by antimicrobial assays, the biological consequences of the interaction were evaluated. DFT calculation predicted that the FQ cationic species present at acid pH have lower stabilization energies, with an electric charge rearrangement because of their interactions with solvent molecules. NBO and frontier orbital calculations evidenced the role of two charged centers, NH2+ and COO−, for interactions by electronic delocalization effects. Both FQs bind to Lyz via a static quenching with a higher interaction in neutral medium. The interaction induces a structural rearrangement in β-sheet content while in basic pH a protective effect against the denaturation of Lyz was inferred. The analysis of thermodynamic parameters and docking showed that hydrophobic, electrostatic forces and hydrogen bond are the responsible of Cpx-Lyz and Lev-Lyz associations. Antimicrobial assays evidenced an antagonist effect of Lyz in acid medium while in neutral medium the FQs’ activities were not modified by Lyz.

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Effect of Xanthone and 1-Hydroxy Xanthone on the Dipole Potential of Lipid Membranes

Cejas

Rosa

Pérez

et al. 2018

Colloid and Interface Science Communications

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