Synthesis of selenium containing quinoline probe for superoxide sensing and its anticancer activity study

Main Group Chemistry Pub Date : 2024-02-14 DOI:10.3233/mgc-230106
Shrikrishna T. Salunke, Divyesh S. Shelar, Snehal S. Salunkhe, Pinky R. Singh, Shashikant P. Vaidya, Sudesh T. Manjare
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Abstract

Herein, we have reported the highly effective use of the Knoevenagel condensation reaction to synthesize organoselenium containing quinoline-based probe. The probe was characterized by Nuclear Magnetic Resonance and Infra-Red spectroscopy and mass spectrometry. The probe selectively detects KO2 with high sensitivity over other reactive oxygen species and biothiols. Photo-induced electron transfer process is responsible for fluorescence “turn-on” event through transformation of selenide to selenoxide. The probe reacted with KO2 in less than a second with lower detection limit (0.14μM). The probe have better anticancer potency as compared to standard drug Cisplatin.
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用于超氧化物传感的含硒喹啉探针的合成及其抗癌活性研究
在此,我们报告了利用克诺文纳格尔缩合反应合成含喹啉的有机硒探针的高效方法。我们利用核磁共振、红外光谱和质谱对该探针进行了表征。该探针可选择性地检测 KO2,灵敏度高于其他活性氧和生物硫醇。硒化物转化为硒氧化物的荧光 "开启 "过程是由光诱导的电子转移过程引起的。该探针与 KO2 的反应时间不到一秒,检测限较低(0.14μM)。与标准药物顺铂相比,该探针具有更好的抗癌效力。
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Main Group Chemistry
Main Group Chemistry
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