Martin Gladovic scite author profile

Acrylonitrile (AN) is widely used in the manufacture of resins, plastics, and polymers, where workers are exposed to it during its production, transportation, and application. After intake a portion of AN is converted to cyanoethylene oxide (CEO) by cytochrome P450 2E1. Both AN and CEO represent possible chemical carcinogens leading to DNA damage mainly in the form of the major 7-(2-oxoethyl)deoxyguanosine adduct. A kinetic model for its formation was devised and a corresponding second-order rate constant obtained from the experimental data on the reaction with CEO. A series of ab initio, density functional theory, and semiempirical calculations of activation free energies was then performed on the alkylation of nucleic bases with both CEO and AN. The combination of Hartree-Fock level of theory with the flexible 6-311++G(d,p) basis set and Langevin dipoles implicit solvation model gave the best agreement with the experimental activation barrier. It also predicted relative reactivities of all four nucleobases that are in agreement with the experimentally reported adduct yields. Moreover, this combination predicted higher reactivity of CEO than AN with all four nucleobases corroborating the experimental hypothesis that S2 substitution of CEO rather than direct Michael addition of AN is responsible for the genotoxic properties of AN. In a broader context this paper points to the applicability of quantum chemical methods to the studies of carcinogenesis.

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Tannin Basic Building Blocks as Potential Scavengers of Chemical Carcinogens: A Computational Study

Hostnik

Gladovic

Bren

2019

J. Nat. Prod.

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Tannins are natural compounds that have historically been used in the tanning of leather. In the scientific literature, one finds many reports of their possible beneficial health effects, although these are not always unequivocally confirmed. In order to gain a better insight into their proposed anticancer potential, we studied the scavenging capacity of the basic tannin building blocks against various chemical carcinogens of the epoxy type. The reactivity of gallic acid, ellagic acid, and epicathechin was examined using quantum mechanical calculations at the Hartree−Fock level of theory in conjunction with flexible basis sets and implicit solvation models. The monomeric tannin building blocks exhibited significant scavenging potential, with epicatechin presenting the best scavenger, thus encouraging and guiding future experimental studies of their anticarcinogenic properties.

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Could Microwave Irradiation Cause Misfolding of Peptides?

Gladovic

Oostenbrink

Bren

2020

J. Chem. Theory Comput.

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Microwaves have been experimentally shown to affect the folding dynamics of peptides and proteins. Using molecular dynamics, we performed all-atom simulations of a model β-peptide in aqueous solution where individual degrees of freedom of solvent molecules were decoupled to allow for investigation at non-equilibrium microwave-irradiated conditions. An elevated rotational temperature of the water medium was found to significantly affect the conformation of the peptide due to the weakened hydrogen-bonding interactions with the surrounding solvent molecules. Cluster analysis revealed that microwave irradiation can indeed act as a promoter in the formation of new misfolded peptide structures of the hairpin type, which are generally associated with the onset of several neurodegenerative disorders such as Alzheimer's, Parkinson's, Huntington's, and Creutzfeldt−Jakob diseases as well as certain cancer types such as amyloidosis.

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Thermodynamic properties of water in confined environments: a Monte Carlo study

2017

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Martin Gladovic

Nucleic Bases Alkylation with Acrylonitrile and Cyanoethylene Oxide: A Computational Study

Tannin Basic Building Blocks as Potential Scavengers of Chemical Carcinogens: A Computational Study

Could Microwave Irradiation Cause Misfolding of Peptides?

Thermodynamic properties of water in confined environments: a Monte Carlo study

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