The interaction of perfluoropropanoic acid (PFPA) with the amino acid cysteine was investigated using density functional theory. Previous studies suggest that the peroxisome proliferator chemical, perfluorooctanoic acid, is circulated throughout the body by way of sulfur-containing amino acids. We present conformational analysis of the interactions of PFPA, a small model of perfluorooctanoic acid, with the sulfur-containing amino acid, which occur by the process of hydrogen, bonding, in which the hydrogen of the sulfhydryl group interacts with the carboxyl oxygen, and the amino nitrogen, forms a hydrogen bond with, the hydrogen of the - OH group of the fluorinated alkyl. We also show in our structures a recently characterized weak nonbonded interaction between divalent sulfur and a main chain carboxyl oxygen in proteins. B3LYP calculated, free energies and interaction energies predict low-energy, high-interaction conformations for complex systems of perfluorinated fatty acid interactions with cysteine. © 2008 Wiley Periodicals, Inc.
CITATION STYLE
Holmes, T. M., Doskocz, J., Wright, T., & Hill, G. A. (2009). Theoretical study of interactions between cysteine and perfluoropropanoic acid in gas and aqueous phase. International Journal of Quantum Chemistry, 109(1), 119–123. https://doi.org/10.1002/qua.21892
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