Dosificación de cefotaxima en pacientes obesos / Cefotaxime dosification in obese patients

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Theoretical QM/MM studies of enzymatic pericyclic reactions.

The chorismate to prephenate enzyme catalyzed reaction has been used in this review as the conduit to show different theoretical approaches that have been used over the years in our laboratory to explain its molecular mechanism. This pericyclic reaction has the advantage that other protein scaffolds such as catalytic antibodies or some promiscuous enzymes present certain chorismate mutase activity. The obtained results on all these protein environments, by comparison with the uncatalyzed reaction in solution, have been used to propose, as a general conclusion, that the origin of enzyme catalysis is in the relative electrostatic stabilization of the transition state with respect to the Michaelis complex. This feature implies that reactants of catalyzed reaction were closer to the transition state than those of the non-catalyzed reaction. From this hypothesis, and considering the features of the wild type chorismate mutases as the optimal catalyst for the reaction, some mutations on both kinds of alternative proteins have been proposed which would presumably enhance the rate constant of the chemical step.The studies presented in this paper demonstrate that the improvements and developments of the methods and techniques of theoretical and computational chemistry are now mature enough to model physic-chemical properties of biological systems with good accuracy. The combination of a potent computational protocol with molecular engineering techniques can be a promising methodology to develop novel enzymes with new or more efficient catalytic functions.

A density functional study of flavonoid compounds with anti-HIV activity.

Quantum chemical calculations at the DFT/B3LYP theory level, with the 6-31G* basis set, was employed to calculate a set of molecular properties of 26 flavonoid compounds with anti-HIV activity. The correlation between biological activity and structural properties was obtained by using the multiple linear regression method. The model obtained showed not only statistical significance but also predictive ability. We demonstrate in this paper that the anti-HIV activity of compounds can be related with the molecular hydrophobicity (ClogP), the electronegativity (chi) and the charges on some key atoms, while that the toxicity can be related with the electronic affinities (EA), ClogP and charge on atom 8.

A hybrid potential reaction path and free energy study of the chorismate mutase reaction.

We present a combination of two techniques--QM/MM statistical simulation methods and QM/MM internal energy minimizations--to get a deeper insight into the reaction catalyzed by the enzyme chorismate mutase. Structures, internal energies and free energies, taken from the paths of the reaction in solution and in the enzyme have been analyzed in order to estimate the relative importance of the reorganization and preorganization effects. The results we obtain for this reaction are in good agreement with experiment and show that chorismate mutase achieves its catalytic efficiency in two ways; first, it preferentially binds the active conformer of the substrate and, second, it reduces the free energy of activation for the reaction relative to that in solution by providing an environment which stabilizes the transition state.

Molecular volumes and surfaces of biomacromolecules via GEPOL: a fast and efficient algorithm.

A triangular tesselation approach to build up surfaces has been adapted to the study of biomolecules. By using a data-coded generic pentakisdodecahedron each atom is assigned a particular sphere whose radii are chosen according to any suitable property. Different types of surfaces have been adapted to this method: van der Waals, surface accessible, and Richard's molecular surface. A simple method is used to eliminate all triangles found at the intersection volume of the atomic spheres and a fast algorithm is employed to calculate the area of the envelope surface and the volume therein. The data about the surface are given by the coordinates of the center of each triangle, elementary surface value, and vector coordinates of the normal to the surface. Color coding of standard properties such as charge densities, potential energy, or any scalar property can be easily done with standard graphics libraries. Fairly detailed information on vector properties, such as electric field and atom velocity, can also be graphically represented by using projections along the normals with adequate color coding.