Construction of a Universal and Label-Free Chemiluminescent Sensor for Accurate Quantification of Both Bacteria and Human Methyltransferases.

DNA methylation plays important roles in various biological processes, and the alteration of DNA methyltransferase activity can induce the aberrant DNA methylation patterns. Despite the progress in methyltransferase activity assays, few methods enable the detection of both bacteria and human methyltransferases. Herein, we construct a universal and label-free chemiluminescent sensor for accurate quantification of both bacteria methyltransferases (e.g., M. SssI methyltransferase (M.SssI MTase)) and human methyltransferases (e.g., DNA (cytosine-5)-methyltransferase 1, (Dnmt1)) by integrating a dumbbell probe with BssHII endonuclease-mediated rolling circle amplification (RCA). We ingeniously design a structure-switchable dumbbell probe which integrates target-recognition, BssHII endonuclease-cleavage, RCA amplification and signal transduction in one probe for the detection of both M.SssI MTase and Dnmt1. Moreover, the introduction of two BssHII endonuclease recognition sites in a dumbbell probe can greatly reduce the false positivity resulting from the incomplete cleavage of dumbbell probe by BssHII, because once one of two recognition sites is identified by BssHII, the dumbbell probe can be completely digested by Exonuclease III (Exo III) and Exonuclease I (Exo I) to prevent the nonspecific RCA. This chemiluminescent sensor can accurately quantify M.SssI MTase in both 10% serum and various cell lysis buffers, and even sensitively detect Dnmt1 activity in MCF-7 cells. Furthermore, this chemiluminescent sensor can be used to screen the inhibitors of Dnmt1 and M.SssI MTase, with promising applications in disease diagnosis and drug discovery.

Citation

Zi-Yue Wang, Peng Li, Lin Cui, Qinfeng Xu, Chun-Yang Zhang. Construction of a Universal and Label-Free Chemiluminescent Sensor for Accurate Quantification of Both Bacteria and Human Methyltransferases. Analytical chemistry. 2020 Oct 06;92(19):13573-13580

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PMID: 32927942

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