Synthesis of coumarin based Tb3+ complex and its application in cell imaging

IF 4 2区化学 Q2 CHEMISTRY, PHYSICAL Journal of Molecular Structure Pub Date : 2024-11-17 DOI:10.1016/j.molstruc.2024.140777

Sneha Wankar, Sushma Bankar

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Abstract

Mitochondria is an important site for ATP production from oxidative phosphorylation, and plays a crucial role in biochemical processes. It is a significant site for the production of ATP via oxidative phosphorylation, and plays crucial in regulation of apoptosis, redox homeostasis and calcium signalling. In the present work, Tb³⁺ complex was synthesized using coumarin based ligand L and 1, 10-phenanthroline as coligand. The coumarin is well known for its photophysical and medicinal importance in therapeutic research. Photophysical characterizations of the complex indicated that the ligand efficiently sensitizes the emissive level of Tb³⁺ ion. Thus, the long-excited state lifetime of 0.75 ms and high quantum yield of 57 % exhibited by the complex led to its employment in imaging of cellular organelles. Interestingly, the complex was found to be selectively localized to mitochondria, its positively charged chemical structure being permeable to the cell membrane and accumulating in mitochondria, which is well visualized under confocal microscopy. An attempt has been made to understand how the Tb³⁺ complex can be taken up by mitochondria and become a better target for drugs that exhibit therapeutic effect.

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基于香豆素的 Tb3+ 复合物的合成及其在细胞成像中的应用

线粒体是通过氧化磷酸化产生 ATP 的重要场所，在生化过程中发挥着至关重要的作用。线粒体是通过氧化磷酸化产生 ATP 的重要场所，在调节细胞凋亡、氧化还原平衡和钙信号传导中起着至关重要的作用。本研究使用香豆素配体 L 和 1，10-菲罗啉作为副配体合成了 Tb3+ 复合物。众所周知，香豆素在光物理和药物治疗研究方面具有重要意义。该复合物的光物理特性表明，配体能有效敏化 Tb3+ 离子的发射水平。因此，该复合物具有 0.75 毫秒的长激发态寿命和 57% 的高量子产率，可用于细胞器成像。有趣的是，研究发现该复合物可选择性地定位在线粒体中，其带正电荷的化学结构可渗透细胞膜，并在线粒体中聚集，这在共聚焦显微镜下可以很好地观察到。我们试图了解 Tb3+ 复合物如何被线粒体吸收，并成为具有治疗效果的药物的更好靶点。

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来源期刊

Journal of Molecular Structure 化学-物理化学

CiteScore

7.10

自引率

15.80%

发文量

2384

审稿时长

45 days

期刊介绍： The Journal of Molecular Structure is dedicated to the publication of full-length articles and review papers, providing important new structural information on all types of chemical species including: • Stable and unstable molecules in all types of environments (vapour, molecular beam, liquid, solution, liquid crystal, solid state, matrix-isolated, surface-absorbed etc.) • Chemical intermediates • Molecules in excited states • Biological molecules • Polymers. The methods used may include any combination of spectroscopic and non-spectroscopic techniques, for example: • Infrared spectroscopy (mid, far, near) • Raman spectroscopy and non-linear Raman methods (CARS, etc.) • Electronic absorption spectroscopy • Optical rotatory dispersion and circular dichroism • Fluorescence and phosphorescence techniques • Electron spectroscopies (PES, XPS), EXAFS, etc. • Microwave spectroscopy • Electron diffraction • NMR and ESR spectroscopies • Mössbauer spectroscopy • X-ray crystallography • Charge Density Analyses • Computational Studies (supplementing experimental methods) We encourage publications combining theoretical and experimental approaches. The structural insights gained by the studies should be correlated with the properties, activity and/ or reactivity of the molecule under investigation and the relevance of this molecule and its implications should be discussed.