Detection of Reactive Oxygen Species by a Carbon-Dot-Ascorbic Acid Hydrogel

Sagarika Bhattacharya; Rhitajit Sarkar; Sukhendu Nandi; Angel Porgador; Raz Jelinek

doi:10.1021/acs.analchem.6b03749

Detection of Reactive Oxygen Species by a Carbon-Dot-Ascorbic Acid Hydrogel

Sagarika Bhattacharya, Rhitajit Sarkar, Sukhendu Nandi, Angel Porgador, Raz Jelinek

Ben-Gurion University of the Negev

Research output: Contribution to journal › Article › peer-review

Abstract

Detection of reactive oxygen species (ROS) is important in varied biological processes, disease diagnostics, and chemotherapeutic drug screening. We constructed a ROS sensor comprising an ascorbic-acid-based hydrogel encapsulating luminescent amphiphilic carbon-dots (C-dots). The sensing mechanism is based upon ROS-induced oxidation of the ascorbic acid units within the hydrogel scaffold; as a consequence, the hydrogel framework collapses resulting in aggregation of the C-dots and quenching of their luminescence. The C-dot-hydrogel platform exhibits high sensitivity and detected ROS generated chemically in solution and in actual cell environments. We demonstrate application of the C-dot-hydrogel for evaluating the efficacy of a chemotherapeutic substance, underscoring the potential of the system for drug screening applications.

Original language	American English
Pages (from-to)	830-836
Number of pages	7
Journal	Analytical Chemistry
Volume	89
Issue number	1
DOIs	https://doi.org/10.1021/acs.analchem.6b03749
State	Published - 3 Jan 2017

All Science Journal Classification (ASJC) codes

Analytical Chemistry

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10.1021/acs.analchem.6b03749

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abstract = "Detection of reactive oxygen species (ROS) is important in varied biological processes, disease diagnostics, and chemotherapeutic drug screening. We constructed a ROS sensor comprising an ascorbic-acid-based hydrogel encapsulating luminescent amphiphilic carbon-dots (C-dots). The sensing mechanism is based upon ROS-induced oxidation of the ascorbic acid units within the hydrogel scaffold; as a consequence, the hydrogel framework collapses resulting in aggregation of the C-dots and quenching of their luminescence. The C-dot-hydrogel platform exhibits high sensitivity and detected ROS generated chemically in solution and in actual cell environments. We demonstrate application of the C-dot-hydrogel for evaluating the efficacy of a chemotherapeutic substance, underscoring the potential of the system for drug screening applications.",

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AU - Bhattacharya, Sagarika

AU - Sarkar, Rhitajit

AU - Nandi, Sukhendu

AU - Porgador, Angel

AU - Jelinek, Raz

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N2 - Detection of reactive oxygen species (ROS) is important in varied biological processes, disease diagnostics, and chemotherapeutic drug screening. We constructed a ROS sensor comprising an ascorbic-acid-based hydrogel encapsulating luminescent amphiphilic carbon-dots (C-dots). The sensing mechanism is based upon ROS-induced oxidation of the ascorbic acid units within the hydrogel scaffold; as a consequence, the hydrogel framework collapses resulting in aggregation of the C-dots and quenching of their luminescence. The C-dot-hydrogel platform exhibits high sensitivity and detected ROS generated chemically in solution and in actual cell environments. We demonstrate application of the C-dot-hydrogel for evaluating the efficacy of a chemotherapeutic substance, underscoring the potential of the system for drug screening applications.

AB - Detection of reactive oxygen species (ROS) is important in varied biological processes, disease diagnostics, and chemotherapeutic drug screening. We constructed a ROS sensor comprising an ascorbic-acid-based hydrogel encapsulating luminescent amphiphilic carbon-dots (C-dots). The sensing mechanism is based upon ROS-induced oxidation of the ascorbic acid units within the hydrogel scaffold; as a consequence, the hydrogel framework collapses resulting in aggregation of the C-dots and quenching of their luminescence. The C-dot-hydrogel platform exhibits high sensitivity and detected ROS generated chemically in solution and in actual cell environments. We demonstrate application of the C-dot-hydrogel for evaluating the efficacy of a chemotherapeutic substance, underscoring the potential of the system for drug screening applications.

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Detection of Reactive Oxygen Species by a Carbon-Dot-Ascorbic Acid Hydrogel

Abstract

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