二茂铁基席夫碱的合成具有不同金属离子感应能力和参与抗菌活性

IF 1.1 4区 化学 Q3 CHEMISTRY, MULTIDISCIPLINARY Journal of the Mexican Chemical Society Pub Date : 2022-07-07 DOI:10.29356/jmcs.v66i3.1677
S. Dhasarathan, Selvaraj Shunmugaperumal, Kamatchi Selvaraj P
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引用次数: 0

摘要

摘要成功地制备了由高活性二茂铁衍生物和正态芳基组成的席夫碱。新合成的不同金属离子加入受体的光谱变化揭示了所制备传感器的多金属离子传感能力。Cu2+离子与受体的协调产生于可见区域的MLCT带。从循环伏安法研究中获得的数据的精明使人们对有效传感所需的金属离子浓度有了一个概念。利用分子对接研究对上述感官材料与选定微生物蛋白相互作用进行体外抗菌研究和氢键能计算,揭示了新制备材料的抗真菌活性。Resumen。席夫碱衍生物,二茂铁基,变色龙基反应,aromáticas呋喃衍生物,萃取物。La habilidad de los sistemas como senres para detection diversos iones metálicos se vió en La variación de las características observadas en sus espectors。La interacción de iones Cu2+ conel受体产生una banda MLCT在La región可见。Los studios de voltametría cíclica indican la concentración de Los iones metálicos necesaria para una detección efficiente。体外抗菌研究通过cálculos de la energía de puentes de hidrógeno para las interacciones entre los sensores (bases de Schiff)通过proteínas de microorganismos selectos, basados en Estudios de acplamiento molecular, confirman la actividad antifúngica de los nuevos compuestos reportados。
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Synthesis of Ferrocene Based Schiff Bases Possessing Different Metal Ion Sensing Aptitude and Partaking Antimicrobial Activity
Abstract. Schiff bases comprised of highly reactive ferrocene derivatives and normal aromatic moiety have been prepared successfully. Spectral variations noticed in the spectra of newly synthesized receptors for the addition of different metal ions discloses the multi metal ion sensing ability of the prepared sensors. Harmonization of Cu2+ ions with receptor originate as MLCT band in the visible region. Shrewdness made from the data obtained from cyclic voltammetry studies give an idea about the concentration of metal ions needed for effective sensing. In vitro antimicrobial studies and H- bond energy calculation for the interaction between the above sensory materials and proteins of selected microorganisms using molecular docking studies disclosures the antifungal activity of newly prepared materials.   Resumen. Bases de Schiff derivadas de grupos ferrocenilos altamente reactivos y grupos aromáticas fueron preparadas exitosamente. La habilidad de los sistemas como sensores para detectar diversos iones metálicos se vió en la variación de las características observadas en sus espectors. La interacción de iones Cu2+ con el receptor produce una banda MLCT en la región visible. Los estudios de voltametría cíclica indican la concentración de los iones metálicos necesaria para una detección eficiente. Estudios antimicrobianos in vitro y cálculos de la energía de puentes de hidrógeno para las interacciones entre los sensores (bases de Schiff) y las proteínas de microorganismos selectos, basados en estudios de acoplamiento molecular, confirman la actividad antifúngica de los nuevos compuestos reportados.
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CiteScore
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期刊介绍: The Journal of the Mexican Chemical Society (J. Mex. Chem. Soc.) is a scientific, blind, peer reviewed, and open access, free of charge publication that covers all areas of chemistry and its sub-disciplines (i.e. medicinal chemistry, natural products, electrochemistry, material science, computational chemistry, organic chemistry, bionirganic chemistry, etc). It is devoted to facilitating the worldwide advancement of our understanding of chemistry. It will primarily publish original contributions of research in all branches of the theory and practice of chemistry in its broadest context as well as critical reviews in active areas of chemical research where the author has published significant contribution. The J. Mex. Chem. Soc. is a quarterly publication which language of submission and publication is English. To be suitable for publication in J. Mex. Chem. Soc., manuscripts must describe novel aspects of chemistry, high quality of results and discussion an excellent bibliographic support, and contribute to the development of the field. Routine or incremental work are not suitable for publication in J. Mex. Chem. Soc. Authors are encouraged to send contributions in electronic form. Our online submission system guides you stepwise through the process of entering your article details and uploading your files.
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