7-[(2R)-2-hydroxypropyl]-1,3-dimethylpurine-2,6-dione 的量子计算和实验光谱研究（傅立叶变换红外光谱、拉曼光谱、紫外可见光谱）、PES、LHE 和拓扑研究

IF 4.1 3区化学 Q2 CHEMISTRY, PHYSICAL

Journal of Photochemistry and Photobiology A-chemistry Pub Date : 2024-10-09 DOI:10.1016/j.jphotochem.2024.116067

S. Gayathri , M. Saravanakumar , P. Manikandan , Jamal M. Khaled , S. Sakthivel , S. Muthu

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引用次数: 0

摘要

目前的研究探索了一种嘌呤衍生物--7-[(2R)-2-羟基丙基]-1,3-二甲基嘌呤-2,6-二酮（2HDPD）的结构优化、电学和振动特性，并通过 DFT 程序进行了量子化学计算。功能基团是通过傅立叶变换红外光谱与模拟光谱相关联而发现的。对紫外-可见吸收进行了 TD-DFT 计算，并确定了溶剂和气相的电子特性，从而对化合物的 LHE 进行了进一步研究。实验结果和理论参数非常吻合。LUMO 和 HOMO 带隙光谱表明，分子具有化学反应性，并且存在充分的电荷转移。极性溶剂的带隙值最高，为 5.057 eV。使用 Multiwfn 工具进行了大量拓扑分析。电荷转移研究证明了最必要的状态。利用 RDG 分析、LOL、NBO 和 ELF 研究了弱分子间相互作用。通过应用 MEP 和 Fukui 研究发现了 2HDPD 化合物的反应区域。超极化特性用于计算 NLO 行为。该分子的类药物特性遵循 Lipinski 五条规则。化合物 2HDPD 与蛋白质 1NG2、2DVV、3CAF 和 7OEX 进行对接后，显示出中等的结合亲和力，依次为 -5.28、-5.04、-4.96 和 -5.66 kcal/mol。拉马钱德兰图验证了蛋白质的稳定性和优势位置。Docking 结果表明化合物 2HDPD 具有 COPD 特性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Quantum computational and experimental spectroscopic investigation (FT-IR, Raman, UV–Vis), PES, LHE and topological investigations of 7-[(2R)-2-hydroxypropyl]-1,3-dimethylpurine-2,6-dione

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Quantum computational and experimental spectroscopic investigation (FT-IR, Raman, UV–Vis), PES, LHE and topological investigations of 7-[(2R)-2-hydroxypropyl]-1,3-dimethylpurine-2,6-dione

The current research explored the structural optimization, electrical and vibrational characteristics, and quantum chemical calculations via the procedure of DFT for a purine derivative, 7-[(2R)-2-hydroxypropyl]-1,3-dimethylpurine-2,6-dione (2HDPD). Functional groups were found by correlating FT-IR with simulated spectra. TD-DFT calculations were done for UV–vis absorption and to ascertain the electronic properties of both the solvent and the gas phase, enabling additional study of the compounds LHE. The experimental outcomes and theoretic parameters are in good agreement. LUMO and HOMO band gaps spectacle that the molecule is chemically reactive and that there is adequate charge transfer. Polar solvent exhibits the highest band gap value, 5.057 eV. Numerous topological considerations were accomplished using the Multiwfn tool. Charge transfer investigations have demonstrated the most imperative states. Weak intermolecular interactions were investigated using RDG analysis, LOL, NBO, and ELF. The 2HDPD compounds reactive areas were discovered by applying the MEP and Fukui investigations. Hyperpolarizability characteristics were used to calculate NLO behavior. The drug-like characteristics of the molecule follow Lipinski five rules. After docking with the proteins 1NG2, 2DVV, 3CAF, and 7OEX, the compound 2HDPD showed moderate binding affinities of −5.28, −5.04, −4.96, and −5.66 kcal/mol, in that order. The Ramachandran plot verified the proteins stability and advantageous locations. The Docking results show compound 2HDPD exhibited a COPD property.

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来源期刊

Journal of Photochemistry and Photobiology A-chemistry 化学-物理化学

CiteScore

7.90

自引率

7.00%

发文量

580

审稿时长

48 days

期刊介绍： JPPA publishes the results of fundamental studies on all aspects of chemical phenomena induced by interactions between light and molecules/matter of all kinds. All systems capable of being described at the molecular or integrated multimolecular level are appropriate for the journal. This includes all molecular chemical species as well as biomolecular, supramolecular, polymer and other macromolecular systems, as well as solid state photochemistry. In addition, the journal publishes studies of semiconductor and other photoactive organic and inorganic materials, photocatalysis (organic, inorganic, supramolecular and superconductor). The scope includes condensed and gas phase photochemistry, as well as synchrotron radiation chemistry. A broad range of processes and techniques in photochemistry are covered such as light induced energy, electron and proton transfer; nonlinear photochemical behavior; mechanistic investigation of photochemical reactions and identification of the products of photochemical reactions; quantum yield determinations and measurements of rate constants for primary and secondary photochemical processes; steady-state and time-resolved emission, ultrafast spectroscopic methods, single molecule spectroscopy, time resolved X-ray diffraction, luminescence microscopy, and scattering spectroscopy applied to photochemistry. Papers in emerging and applied areas such as luminescent sensors, electroluminescence, solar energy conversion, atmospheric photochemistry, environmental remediation, and related photocatalytic chemistry are also welcome.