Electrochemical Molecule Trap-Based Sensing of Low-Abundance Enzymes in One Living Cell
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Abstract
Measuring the activity of low-abundance enzymes, down to a few molecules in one living cell, is important but challenging to elucidate their biological function. Here, an electrochemical molecule trap is established at the tip of a nanopipette with an electrochemical detector, in which the diffusion of the molecules away from the electrochemical detector is prevented by electro-osmotic flow (EOF). Accordingly, a limited amount of enzymes is trapped to continuously catalyze the conversion of the substrate to generate a sufficient amount of the byproduct hydrogen peroxide for electrochemical measurements. The resistive pulse sensing of the enzymes in single liposomes validates the detection sensitivity down to 15 molecules. Using this ultrasensitive electrochemical strategy, the activity of 60 sphingomyelinase molecules inside single unstimulated living J774 cells is measured, which was hardly detected by previous methods. The established electrochemical molecule trap-based sensing approach opens the door toward single-molecule electrochemical detection in one living cell. This success will solve the long-standing problem regarding the study of the activity of low-abundance proteins in cells in their native physiological state and greatly enhance the understanding of the roles of proteins in cellular behavior.
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