Dr. Ming-Hao Liu, Ning-Ning Zhao, Wan-Tong Yu, Jin-Zhi Zhang, Prof. Zi-Yue Wang, Prof. Chun-Yang Zhang
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Subsequently, the activated DNAzyme initiates the cyclic cleavage of the signal probe with the assistance of cofactor Mg<sup>2+</sup>, liberating large numbers of Cy5 molecules. This assay possesses the characteristics of easy operation, low sample consumption, without the requirements of expensive radiolabeling, antibodies, and nanomaterials. Especially, this assay can be performed in one pot under isothermal conditions (37°C) within 60 min. Due to the high efficiency of DNAzyme-based cyclic cleavage reaction and the intrinsic advantages of single-molecule detection, this assay achieves high sensitivity with a limit of detection (LOD) of 2.74×10<sup>−3</sup> ng μL<sup>−1</sup>. It can be applied to screen MPO inhibitors, measure cellular MPO activity at the single-cell level, and image intracellular MPO in living cells, providing a powerful platform for early clinical diagnosis and drug discovery.</p>","PeriodicalId":72192,"journal":{"name":"Analysis & sensing","volume":"4 3","pages":""},"PeriodicalIF":3.4000,"publicationDate":"2023-07-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Construction of an Oxidative Cleavage-Activated DNAzyme Biosensor for Rapid Detection and Cellular Imaging of the Myeloperoxidase Activity\",\"authors\":\"Dr. Ming-Hao Liu, Ning-Ning Zhao, Wan-Tong Yu, Jin-Zhi Zhang, Prof. Zi-Yue Wang, Prof. Chun-Yang Zhang\",\"doi\":\"10.1002/anse.202300043\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Myeloperoxidase (MPO) is a mammalian pro-oxidant protease and it is closely related to severe infections and diverse inflammatory diseases. 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Due to the high efficiency of DNAzyme-based cyclic cleavage reaction and the intrinsic advantages of single-molecule detection, this assay achieves high sensitivity with a limit of detection (LOD) of 2.74×10<sup>−3</sup> ng μL<sup>−1</sup>. 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引用次数: 0
摘要
髓过氧化物酶(MPO)是一种哺乳动物促氧化蛋白酶,与严重感染和各种炎症疾病密切相关。快速灵敏地测量 MPO 活性对于抗癌药物的发现和炎症研究至关重要。在此,我们展示了一种氧化裂解激活脱氧核糖核酸酶(DNAzyme)生物传感器的构建,用于快速检测 MPO 活性并进行细胞成像。当目标 MPO 存在时,经硫代磷酸酯(PS)修饰的发夹探针会被 MPO 特异性定点裂解,释放出完整的 Mg2+ 依赖性 DNA 酶序列。随后,活化的 DNA 酶在辅助因子 Mg2+ 的帮助下启动信号探针的循环裂解,释放出大量 Cy5 分子。这种检测方法具有操作简便、样品消耗少的特点,无需昂贵的放射性标记、抗体和纳米材料。尤其是,在等温条件下(37°C),60 分钟内即可完成一锅检测。由于基于 DNA 酶的高效循环裂解反应和单分子检测的固有优势,该检测方法灵敏度高,检测限(LOD)为 2.74×10-3 ng μL-1。它可用于筛选 MPO 抑制剂、单细胞水平测量细胞 MPO 活性以及活细胞内 MPO 图像,为早期临床诊断和药物研发提供了一个强大的平台。
Construction of an Oxidative Cleavage-Activated DNAzyme Biosensor for Rapid Detection and Cellular Imaging of the Myeloperoxidase Activity
Myeloperoxidase (MPO) is a mammalian pro-oxidant protease and it is closely related to severe infections and diverse inflammatory diseases. Rapid and sensitive measurement of MPO activity is essential for anticancer drug discovery and inflammatory research. Herein, we demonstrate the construction of an oxidative cleavage-activated deoxyribozymes (DNAzyme) biosensor for rapid detection and cellular imaging of the MPO activity. When target MPO is present, the phosphorothioate (PS)-modified hairpin probe is site-specifically cleaved by MPO, releasing the intact Mg2+-dependent DNAzyme sequences. Subsequently, the activated DNAzyme initiates the cyclic cleavage of the signal probe with the assistance of cofactor Mg2+, liberating large numbers of Cy5 molecules. This assay possesses the characteristics of easy operation, low sample consumption, without the requirements of expensive radiolabeling, antibodies, and nanomaterials. Especially, this assay can be performed in one pot under isothermal conditions (37°C) within 60 min. Due to the high efficiency of DNAzyme-based cyclic cleavage reaction and the intrinsic advantages of single-molecule detection, this assay achieves high sensitivity with a limit of detection (LOD) of 2.74×10−3 ng μL−1. It can be applied to screen MPO inhibitors, measure cellular MPO activity at the single-cell level, and image intracellular MPO in living cells, providing a powerful platform for early clinical diagnosis and drug discovery.