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首页> 外文期刊>Spectrochimica acta, Part A. Molecular and biomolecular spectroscopy >Conformational study of the electronic interactions and nitric oxide release potential of new S-nitrosothiols esters derivatives of ibuprofen, naproxen and phenyl acids substituted (SNO-ESTERS): Synthesis, infrared spectroscopy analysis and theoretical calculations
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Conformational study of the electronic interactions and nitric oxide release potential of new S-nitrosothiols esters derivatives of ibuprofen, naproxen and phenyl acids substituted (SNO-ESTERS): Synthesis, infrared spectroscopy analysis and theoretical calculations

机译:新硝基甲苯酯衍生物的电子相互作用和一氧化氮释放电位的构象研究取代(SnO-酯):合成,红外光谱分析和理论计算

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摘要

The conformational study on the new S-nitrosothiols esters (SNO-ESTERS): pars-substituted (X = H, OMe, Cl and NO2) S-nitrosothiol derivatives 2-methyl-2-(sulfanyl)propyl phenylacetates (R1), 2-(4-isobutylphenyl) propanoate (ibuprofen, R2), and 2-(4-isobutylphenyl)propanoate of 2-methyl-2-(nitrososulfanyl)propyl (naproxen, R3) was performed using infrared spectroscopy (IR) in solvents with increasing polarity (CCl4, CH3Cl, and CH3CN), and theoretical calculations, to determine the preferential conformer and the potential of these compounds to release nitric oxide (NO). S-Nitrosothiols were synthesized by esterification reactions, using chlorides of the corresponding carboxylic acids, with good yields (similar to 60%). IR results showed that these compounds presented only one conformation, and the experimental data were supported by the theoretical results obtained by density functional theory (DFT) calculations using the 6311+G (2df, 2p) basis set. The calculations revealed that all S-nitrosothiols presented one preferential anticlinal (ac) geometric conformation, which agrees with the data obtained experimentally in CCl4. These conformers are stabilized by intramolecular hydrogen bonds. Examination of the geometry with regard to the R-SNO group revealed that these compounds are preferentially in the trans (anti) conformation. The calculation of the orbital interactions using the Natural Bond Orbital (NBO) method showed that the n(O(NO)) - sigma((S-N))* hyper-conjugative interaction increases the S-N bond length. The strong n(s) - pi((NO))* interaction and electronic delocalization induces a partial pi character to the S-N bond. The weak sigma(S-N) bond indicates strong delocalization of the electron pair in O (NO) by the n(O(NO)) - sigma((S-N))* interaction, thereby increasing the capacity of NO release from SNO-ESTERS. (C) 2018 Elsevier B.V. All rights reserved.
机译:新型S-亚硝基硫醇酯(SnO-酯)的构象性研究:取代(X = H,OME,Cl和NO2)S-亚硝素噻唑衍生物2-甲基-2-(磺酰基)丙基苯乙酸酯(R1),2 - 使用红外光谱(IR)在溶剂中使用红外光谱(IR)在溶剂中使用溶剂(IR)在溶剂中使用2-甲基-2-(亚甲磺酰基)丙基(丁香糖磺酰基)丙基(丁香磺酰基)丙基(丁香糖,R3)的2-(4-异丁基苯基)丙烷酯极性(CCL4,CH3Cl和CH 3CN)和理论计算,以确定优先化素和这些化合物释放一氧化氮(NO)的电位。通过酯化反应合成S-亚硝基硫醇,使用相应的羧酸的氯化物,产率良好(类似于60%)。 IR结果表明,这些化合物仅呈现一种构象,并且通过使用6311 + g(2df,2p)基础集的密度函数理论(DFT)计算获得的理论结果支持实验数据。计算显示,所有S-亚硝素罗基硫醇都呈现了一种优先的抗癌性(AC)几何构象,其同意通过在CCL4中实验获得的数据。这些赋容剂通过分子内氢键稳定。关于R-SnO组的几何形状的检查显示,这些化合物优先于反式(抗)构象中。使用天然键(NBO)方法的轨道相互作用表明N(O(NO)) - & Sigma((S-N))*超缀合物相互作用增加了S-N键长度。强的n(s) - & PI((否))*相互作用和电子临床化引起S-N键的部分PI字符。弱Sigma(S-N)键表明N(O(NO)) - & o(o(no))中的电子对的强烈删除性强化。 Sigma((S-N))*相互作用,从而增加不含SnO-酯的释放能力。 (c)2018年elestvier b.v.保留所有权利。

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