Constraint Coupling of Redox Cascade and Electron Transfer Synchronization on Electrode‐Nanosensor Interface for Repeatable Detection of Tumor Biomarkers

Abstract: Quantitative analysis of up‐regulated biomarkers in pathological tissues is helpful to tumor surgery yet the loss of biomarker extraction and time‐consuming operation limited the accurate and quick judgement in preoperative or intraoperative diagnosis. Herein, an immobilization‐free electrochemical sensing platform is developed by constraint coupling of electron transfer cascade on electrode‐nanosensor interface. Specifically, electrochemical indicator (Ri)‐labeled single‐stranded DNA on electroactive nanodono… Show more

“…A variety of methods have been developed for the detection of ATP, such as colorimetry, 11 fluorescence, 12,13 bioluminescence, 14,15 surface-enhanced Raman scattering, 16 and electrochemical methods. [17][18][19][20] In general, ATP measurements based on optical methods are effective in the determination of ATP in populations of cells and visualizing ATP distribution at single cell/subcellular resolution. Electrochemical biosensors, owing to their good quantitative ability, have been used for detecting ATP in cell lysates.…”

“…Electrochemical biosensors, owing to their good quantitative ability, have been used for detecting ATP in cell lysates. 17,18 Microsized biosensors were also placed outside cells but they cannot readily reflect the exact concentration of intracellular ATP and its biological effects in living cells due to the relatively large size of the electrodes. In contrast, nanoelectrochemical analytical methods are characterized by their high temporal-spatial resolution and are commonly used for the analysis of physiological processes at the single-cell and even subcellular levels.…”

Electroactive polymer tag modified nanosensors for enhanced intracellular ATP detection

“…A variety of methods have been developed for the detection of ATP, such as colorimetry, 11 fluorescence, 12,13 bioluminescence, 14,15 surface-enhanced Raman scattering, 16 and electrochemical methods. [17][18][19][20] In general, ATP measurements based on optical methods are effective in the determination of ATP in populations of cells and visualizing ATP distribution at single cell/subcellular resolution. Electrochemical biosensors, owing to their good quantitative ability, have been used for detecting ATP in cell lysates.…”

“…Electrochemical biosensors, owing to their good quantitative ability, have been used for detecting ATP in cell lysates. 17,18 Microsized biosensors were also placed outside cells but they cannot readily reflect the exact concentration of intracellular ATP and its biological effects in living cells due to the relatively large size of the electrodes. In contrast, nanoelectrochemical analytical methods are characterized by their high temporal-spatial resolution and are commonly used for the analysis of physiological processes at the single-cell and even subcellular levels.…”

Electroactive polymer tag modified nanosensors for enhanced intracellular ATP detection

Electrochemical Biosensors for Cancer Diagnosis: Multitarget Analysis to Present Molecular Characteristics of Tumor Heterogeneity