Synthesis, Kinetic Study, and Spectroscopic Analysis of Peroxidase-like Pinch-Porphyrin Fe(III) Complexes.

In the present manuscript, we report the kinetic and spectroscopic analysis of six new pinch-porphyrins: protoporphyrin-picpenta 1, mesoporphyrin-picpenta 2, deuteroporphyrin-picpenta 3, protoporphyrin-picocta 4, mesoporphyrin-picocta 5, and deuteroporphyrin-picocta 6. The Michaelis-Menten enzymatic pathway and the guaiacol test confirmed the ability of the compounds to function like new peroxidase models. UV-vis, 1H NMR, and electron spin resonance studies are in accordance with porphyrin-Fe(III) molecules with the quantum phenomena called quantum mixed spin (qms, s = 3/2, s = 5/2). Importantly, the influence of the presence of the s = 3/2 spin state in the compounds and its critical role for the catalytic capacity is proven here, which was the original hypothesis in our research group. The compounds with higher populations of the s = 3/2 spin state have increased peroxidase activity.

Geometric distortions on a three-coordinated T1 Cu site model as a potential strategy to modulate redox potential. A theoretical study.

A model of the three-coordinated T1 Cu site from Trametes versicolor was considered to evaluate the effect on redox potential of geometrical distortions in the copper coordination sphere. Systematic modifications of geometrical parameters (distances and angles) of the coordination sphere of the T1 Cu site were carried out within a density functional theory (DFT) framework, to evaluate their effects on electron affinity directly related to redox potential. The most promising result in terms of redox potential increment was distortion of the dihedral angle C(methylthiolate)-S-Cu-N(ImA) (ω), which can be rationalized as a decrease in the overlap of imidazole orbitals in the redox-active molecular orbital (ß-LUMO). This overlap is minimized when ω achieves the value of 10°, therefore, this conformation might have the highest redox potential. From the molecular orbital viewpoint, a parallelism was found between the effect caused by the presence of a fourth ligand and the distorted three-coordination, which could be extrapolated to spectroscopic properties. It was also found that solvation effects on the redox potentials during geometrical distortions produce a very similar tendency, independently of the polarity of the solvent.