Ratiometric fluorescent detection of superoxide anion with polystyrene@nanoscale coordination polymers

Song, Yonghai; Hao, Jie; Hu, Dongqin; Zeng, Mulan; Li, Ping; Li, Hongbo; Chen, Lili; Tan, Hongliang; Wang, Linyu

doi:10.1016/j.snb.2016.04.181

Cited by 17 publications

(5 citation statements)

References 37 publications

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“…•with high sensitivity and selectivity. 125 The PS-SO 3 H@Tb/G NCPs was prepared using suffocated polystyrene nanoparticles as the core and Tb-G coordination polymer as the O 2…”

Section: Oxidation Of Guanosine-terbium (Tb) Coordination Polymermentioning

confidence: 99%

Oxygen‐derived free radicals: Production, biological importance, bioimaging, and analytical detection with responsive luminescent nanoprobes

Liu

Zhang

et al. 2021

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Oxygen-derived free radicals (ODFRs) are partially reduced oxygen reactive intermediates in living organisms during various biological processes, such as mitochondrial respirations, enzyme-catalyzed oxidations, and radiolysis. Of various ODFRs being identified, superoxide anion (O 2•-) and hydroxyl (•OH) radicals are extensively investigated. Due to their high reactivity, these radicals can oxidize many biomolecules, including nucleic acids, proteins, lipids, and carbohydrates, which would damage some key cellular components. Under oxidative stress, elevated oxygen radical levels are closely associated with various diseases, such as neurodegenerative diseases, cardiovascular diseases, rheumatoid arthritis, and cancers. In this context, a number of responsive nanoprobes have been developed for luminescent detection of ODFRs in living organisms.In this review, we briefly introduce the production of ODFRs and their biological importance for various diseases. We then extensively summarize responsive nanoprobes for detection and bioimaging of these two oxygen radicals, O 2 •and•OH, which are designed and developed based on their specific oxidation mechanisms in the recent decade. Challenges and some future research directions are also proposed as the conclusion. K E Y W O R D Sluminescence biosensing and imaging, oxygen-derived free radical, radical-associated diseases, responsive nanoprobes, superoxide anion and hydroxyl radical 1This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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“…•with high sensitivity and selectivity. 125 The PS-SO 3 H@Tb/G NCPs was prepared using suffocated polystyrene nanoparticles as the core and Tb-G coordination polymer as the O 2…”

Section: Oxidation Of Guanosine-terbium (Tb) Coordination Polymermentioning

confidence: 99%

Oxygen‐derived free radicals: Production, biological importance, bioimaging, and analytical detection with responsive luminescent nanoprobes

Liu

Zhang

et al. 2021

VIEW

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“…The fluorescence of PS-SO 3 H was slightly weakened as a reference, and the fluorescence of Tb 3+ was largely weakened in the presence of O 2 •– , resulting in a selective ratiometric fluorescent sensor toward O 2 •– . The ratio of fluorescence intensity linearly decreased with increasing O 2 •– concentration in the range of 10 nmol·L −1 –6 µmol·L −1 with a detection limit of 3.4 nmol·L −1 [ 104 ].…”

Section: Colorimetric Sensors and Nanoprobes For Detecting Reactivmentioning

confidence: 99%

Novel Spectroscopic and Electrochemical Sensors and Nanoprobes for the Characterization of Food and Biological Antioxidants

Apak

Çekiç

Üzer

et al. 2018

Sensors

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Since an unbalanced excess of reactive oxygen/nitrogen species (ROS/RNS) causes various diseases, determination of antioxidants that can counter oxidative stress is important in food and biological analyses. Optical/electrochemical nanosensors have attracted attention in antioxidant activity (AOA) assessment because of their increased sensitivity and selectivity. Optical sensors offer advantages such as low cost, flexibility, remote control, speed, miniaturization and on-site/in situ analysis. Electrochemical sensors using noble metal nanoparticles on modified electrodes better catalyze bioelectrochemical reactions. We summarize the design principles of colorimetric sensors and nanoprobes for food antioxidants (including electron-transfer based and ROS/RNS scavenging assays) and important milestones contributed by our laboratory. We present novel sensors and nanoprobes together with their mechanisms and analytical performances. Our colorimetric sensors for AOA measurement made use of cupric-neocuproine and ferric-phenanthroline complexes immobilized on a Nafion membrane. We recently designed an optical oxidant/antioxidant sensor using N,N-dimethyl-p-phenylene diamine (DMPD) as probe, from which ROS produced colored DMPD-quinone cationic radicals electrostatically retained on a Nafion membrane. The attenuation of initial color by antioxidants enabled indirect AOA estimation. The surface plasmon resonance absorption of silver nanoparticles as a result of enlargement of citrate-reduced seed particles by antioxidant addition enabled a linear response of AOA. We determined biothiols with Ellman reagent−derivatized gold nanoparticles.

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“…In the past, various methods such as spectrophotometry, luminescence, fluorescence, and electrochemistry have been used to detect O 2 •– produced in biological systems. In particular, electrochemical detection of O 2 •– has received more attention because of its prominent advantages of good sensitivity, short response time, reliable reproducibility, and easy to be miniaturized. , Conventionally, electrochemical biosensors have relied on natural enzymes for long.…”

Section: Introductionmentioning

confidence: 99%

Mn-Etched Zeolitic Imidazolate Framework-67 Nanostructures for Biomimetic Superoxide Anion Sensing

Shi

Zou

et al. 2022

ACS Appl. Nano Mater.

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It is a great challenge to detect superoxide anions (O2 •–) with low level concentrations and short half-life in biological systems. Herein, mild and facile Mn etching for zeolitic imidazolate framework-67 (ZIF-67) was used to synthesize Mn/ZIF-67 with a hydrangea-like nanostructure for biomimetic sensing of O2 •– released from living cells. The tailored optimal Mn/ZIF-67 sensor achieves a high selectivity, a fast response time (1.6 s), a broad linear detection range (1.5 nM–10 μM), an ultralow detection limit (0.8 nM), and a remarkably high sensitivity (439.2 μA μM–1 cm–2) that ranks the best among all reported conventional Mn- and Co-compound-based nanozymes such as Co2P and Mn3(PO4)2. The excellent sensing performances are attributed to the Mn etching-generating hydrangea-like nanostructure for a significantly increased reaction surface area and coordinating Mn2+ with Co2+ to raise the oxidation state of Co2+ for fast electron transfer during the oxidation of O2 •–. This work holds great potential for a highly sensitive O2 •– nanozyme sensor in practical clinical diagnosis and bioscience research, while shedding fundamental light on designs of sensitive nanozyme sensors by incorporating two metal ions with largely different negativity for an efficient electrocatalytic process, thereby possessing universal significance.

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Ratiometric fluorescent detection of superoxide anion with polystyrene@nanoscale coordination polymers

Cited by 17 publications

References 37 publications

Oxygen‐derived free radicals: Production, biological importance, bioimaging, and analytical detection with responsive luminescent nanoprobes

Oxygen‐derived free radicals: Production, biological importance, bioimaging, and analytical detection with responsive luminescent nanoprobes

Novel Spectroscopic and Electrochemical Sensors and Nanoprobes for the Characterization of Food and Biological Antioxidants

Mn-Etched Zeolitic Imidazolate Framework-67 Nanostructures for Biomimetic Superoxide Anion Sensing

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