Synthesis characterization, biocidal, and cytotoxic activities of Mn(II) and Hg(II) bridging complexes.

IF 2.1 3区化学 Q3 CHEMISTRY, MULTIDISCIPLINARY

Journal of Sulfur Chemistry Pub Date : 2025-05-04 DOI:10.1080/17415993.2025.2476548

Vinay Kumar Srivastava , Khushboo Rani

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引用次数: 0

Abstract

Dithiocarbamate transition metal complexes, which are organic molecules, are promising and appealing pharmacological targets for controlling and managing antibiotic-resistant microbial populations. The direct reaction has produced new transition metal complexes, Mn[C₁₀H₁₆O₂N₂S₄]₂ and Hg[C₁₀H₁₆O₂N₂S₄]₂ using the sodium morpholine dithiocarbamate ligand [C₅H₈ONS₂Na]. FTIR, UV–Visible, NMR techniques employed for the structural determination of complexes. Afterward, the synthesized compounds were subjected to analysis in order to evaluate their biocidal and anticancer activities. The Spectral Studies results suggest that the dithiocarbamate ion has the capacity to form robust bridging compounds with Mn (II) and Hg (II) cations.

These complexes have a reduced inclination for the creation of dative π bonds from the metal ion or to the sulfur atom. The results of the activity against bacteria show that the generated metal complexes are far more active than the ligand fragment. The theory of chelation implies there is a decrease in the ability of metallic compounds to undergo polarization or an increase in hydrogen bonding can lead to an increased susceptibility of the complex to dissolve in lipids, hence boosting its antimicrobial effectiveness. The compounds were tested for their therapeutic efficacy against a particular malignant cell. The findings of the HeLa cell line investigation suggest that Mn (II) and Hg (II) Compounds show promise for chemotherapeutic alternatives in the quest for anticancer medications. We have documented the methods of preparation, analysis, biocidal properties, and studies on apoptosis of Mn (II) and Hg (II) compounds with morpholine dithiocarbamate ligand. The complexes under investigation have demonstrated antibacterial, antifungal, and anticancer properties.

Hg (II) and Mn (II) compounds were obtained by treatment of metal precursors with Morpholine dithiocarbamate ligand. On the basis of characterization, the structure of the metal complex was elucidated. Compounds under investigation have shown potential anti-tumor, antifungal, and antibacterial properties.

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Mn（II）和Hg（II）桥接配合物的合成、表征、杀生物活性和细胞毒性。

二硫代氨基甲酸酯过渡金属配合物是一种有机分子，是控制和管理耐药微生物种群的有希望和有吸引力的药理学靶点。以二硫代氨基甲酸钠为配体[C5H8ONS2Na]，直接反应生成了新的过渡金属配合物Mn[C10H16O2N2S4]2和Hg[C10H16O2N2S4]2。FTIR, UV-Visible， NMR技术用于配合物的结构测定。然后，对合成的化合物进行分析，以评价其杀灭生物和抗癌活性。光谱研究结果表明，二硫代氨基甲酸盐离子具有与Mn （II）和Hg （II）阳离子形成坚固桥接化合物的能力。这些配合物对从金属离子或到硫原子的共轭π键的形成倾向降低。抑菌活性的结果表明，所生成的金属配合物的活性远远高于配体片段。螯合理论表明，金属化合物极化能力的下降或氢键的增加可导致复合物在脂质中溶解的敏感性增加，从而提高其抗菌效果。这些化合物对一种特殊的恶性细胞的治疗效果进行了测试。HeLa细胞系研究的结果表明，Mn （II）和Hg （II）化合物在寻求抗癌药物的化疗替代方案中显示出希望。我们记录了含二硫代氨基甲酸啉配体的Mn （II）和Hg （II）化合物的制备方法、分析、杀生物性能和凋亡研究。正在研究的配合物已经显示出抗菌、抗真菌和抗癌的特性。用二硫代氨基甲酸啉配体处理金属前驱体，得到Hg （II）和Mn （II）化合物。在表征的基础上，确定了金属配合物的结构。正在研究的化合物显示出潜在的抗肿瘤、抗真菌和抗菌特性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Sulfur Chemistry CHEMISTRY, MULTIDISCIPLINARY-

CiteScore

4.10

自引率

9.10%

发文量

审稿时长

6-12 weeks

期刊介绍： The Journal of Sulfur Chemistry is an international journal for the dissemination of scientific results in the rapidly expanding realm of sulfur chemistry. The journal publishes high quality reviews, full papers and communications in the following areas: organic and inorganic chemistry, industrial chemistry, materials and polymer chemistry, biological chemistry and interdisciplinary studies directly related to sulfur science. Papers outlining theoretical, physical, mechanistic or synthetic studies pertaining to sulfur chemistry are welcome. Hence the target audience is made up of academic and industrial chemists with peripheral or focused interests in sulfur chemistry. Manuscripts that truly define the aims of the journal include, but are not limited to, those that offer: a) innovative use of sulfur reagents; b) new synthetic approaches to sulfur-containing biomolecules, materials or organic and organometallic compounds; c) theoretical and physical studies that facilitate the understanding of sulfur structure, bonding or reactivity; d) catalytic, selective, synthetically useful or noteworthy transformations of sulfur containing molecules; e) industrial applications of sulfur chemistry; f) unique sulfur atom or molecule involvement in interfacial phenomena; g) descriptions of solid phase or combinatorial methods involving sulfur containing substrates. Submissions pertaining to related atoms such as selenium and tellurium are also welcome. Articles offering routine heterocycle formation through established reactions of sulfur containing substrates are outside the scope of the journal.