Use este identificador para citar ou linkar para este item: http://repositorio.ufla.br/jspui/handle/1/29635
Título: Molecular docking, metal substitution and hydrolysis reaction of chiral substrates of phosphotriesterase
Palavras-chave: Enzyme
Phosphotriesterase
Organophosphorus
Enzimas
Fosfotriesterase
Organofosforado
Data do documento: 2016
Editor: Bentham Science
Citação: CASTRO, A. A. de et al. Molecular docking, metal substitution and hydrolysis reaction of chiral substrates of phosphotriesterase. Combinatorial Chemistry & High Throughput Screening, v. 19, n. 4, 11 p., 2016. doi: 10.2174/1386207319666160325113844.
Resumo: During World War II, organophosphorus compounds with neurotoxic action were developed and used as the basis for the development of structures currently used as pesticides in the agricultural industry. Among the nerve agents, Tabun, Sarin, Soman and VX are the most important. The factor responsible for the high toxicity of organophosphorus (OP) is the acetylcholinesterase inhibition. However, one of the characterized enzymes capable of degrading OP is Phosphotriesterase (PTE). This enzyme has generated considerable interest for applications of rapid and complete detoxification. Due to the importance of bioremediation methods for the poisoning caused by OP, this work aims to study the interaction mode between the PTE enzyme and organophosphorus compounds, in this case, Sarin, Soman, Tabun and VX have been used, which are potent acetylcholinesterase inhibitors, taking into account the enantiomers "Rp" and " Sp" of each compound, with the Sp-enantiomers presenting the higher toxicity. With that, we were able to demonstrate the existence of the stereochemical preference by PTE in these compounds. With the purpose of increasing the speed of the hydrolysis mechanism, we have proposed a modification in the enzyme active site structure, where Zn2+ ions were substituted by Al3+ ions. To analyze the stability of Al3+ ions in the wild-type PTE active site, MD simulations were also performed. This mutation brought relevant results; in this case, there was a reduction of the reaction energy barrier for all the compounds, mainly for VX in which the reaction presented lower activation energy values, and consequently, a faster hydrolysis process.
URI: http://www.eurekaselect.com/140716/article
http://repositorio.ufla.br/jspui/handle/1/29635
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