Two highly sensitive and selective coumarin-based fluorometric probes for the detection of ClO<sup>−</sup> and cell imaging

Jin, Lei; Tan, Xiaoxue; Zhao, Cong; Wang, Qing-Ming

doi:10.1039/c9ay00105k

Cited by 10 publications

(11 citation statements)

References 48 publications

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“…With the increase of ClO − , the emission intensity of CCO at 530 nm was continuously and regularly enhanced. The fluorescence enhancement mechanism may be due to the redox reaction of the surface lactone groups of CCO . A more detailed information is found that the emission response of probe CCO to ClO − had a good linear relationship (R 2 =0.996) in the range of 0–8.5 μ M (Figure S4) .…”

Section: Resultsmentioning

confidence: 92%

A Fluorescent Probe with a Significant Selective Turn‐On Response for HClO Detection and Bioimaging in Living Cells

et al. 2019

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Hypochlorous/Hypochlorite(HClO/ClO À ) plays an important biochemistry roles in normal operation of the life system. Herein, a fluorescent probe 7-chloro-3-((E)-3-(4-(dimethylamino)phenyl)acryloyl)-2H-chromen-2-one (CCO) was rationally designed and synthesized via aldehyde ketone condensation reaction to detect ClO À in Tris-HCl (pH = 7.2, 60% DMF) solution. Probe CCO was cleaved conceivably in the coumarin lactone ring by an oxidation reaction with ClO À and emitted intensive bright yellow fluorescence. The sensing mechanism was further confirmed by ESI-MS and DFT calculation. The fluorescence emission of probe CCO triggered by ClO À was obviously enhanced within 20 s. The limit of detection of probe CCO was calculated as low as 2.6 nM. Furthermore, probe CCO can be given as an effective and outstanding fluorescent exogenous ClO À probe in living HEK293T cells for microscopic cell imaging.

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Section: Resultsmentioning

confidence: 92%

A Fluorescent Probe with a Significant Selective Turn‐On Response for HClO Detection and Bioimaging in Living Cells

et al. 2019

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“…In 2019, Jin and coauthors proposed two probes of the switch and turn-on types with a coumarin core, BCO and BETC, respectively (Fig. 7) [62]. Switching BCO (λ ex = 372 nm; λ em = 430/460 nm) and turning or C=O and C=N bonds (in the case of BETC) under the effect of HOCl with the formation of a common end product (NOA, Fig.…”

Section: Coumarin-based Probesmentioning

confidence: 99%

Fluorescent Probes for HOCl Detection in Living Cells

Reut

Gorudko²,

Grigorieva³

et al. 2022

Russ J Bioorg Chem

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Hypochlorous acid (HOCl) plays an important role in the immune system not only protecting the organism from pathogens, but also, due to its high reactivity, provoking the development and complication of many diseases. Therefore, the development of highly sensitive and selective HOCl biosensors, including fluorescent probes, to better understand the roles of HOCl in living systems, is of great importance. Nevertheless, there are many difficulties associated with HOCl registration in biological probes (chemo-and photostability, cytotoxicity, fluorescence and absorption characteristics, selectivity, sensitivity, etc.). Thus, the development of new chemosensors has been relevant for many years. In this review, we describe classification of smallmolecule probes for HOCl detection in biological systems, as well as summarize the results of the development of chemosensors, their photophysical properties, and biological applications. Particular attention is paid to the achievements in this area over the years 2016-2021. A number of problems related to the design and application of small-molecule probes are formulated. Due to the absence of a "gold standard" among the HOCl chemosensors, which is associated with the commercial unavailability or complex methods of synthesis of new sensors as well, some recommendations are given regarding the field of the chemosensor application. Trends in the development of fluorescent chemosensors for HOCl visualization in living cells are outlined.

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“…2 However, its uncontrolled production can cause cardiological diseases, cancer and tissue damage, 3,4 while hypochlorite residue in water gets converted into highly toxic constituents. 5,6 On a similar note, H 2 O 2 is also a reactive oxygen generator that serves as a signaling agent in cellular activities, helps in the removal of organic impurities from wastewater, 2,7–10 and acts as a common preservative. Nevertheless, excessive accumulation of H 2 O 2 results in intracellular oxidative stress and can cause pathological defects that lead to fatal diseases like cancer, genetic instability and diabetes.…”

Section: Introductionmentioning

confidence: 99%

In situ fabricated MOF–cellulose composite as an advanced ROS deactivator-convertor: fluoroswitchable bi-phasic tweezers for free chlorine detoxification and size-exclusive catalytic insertion of aqueous H₂O₂

et al. 2022

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Two highly sensitive and selective coumarin-based fluorometric probes for the detection of ClO⁻ and cell imaging

Abstract: Two new coumarin-based fluorescent probes were synthesized and successfully applied for the efficient detection of ClO− as turn-on fluorescence chemosensors by the oxidative cleavage of C–O and CN, the detection limits (LOD) for the two probes are 154 nM and 32 nM, respectively.

Cited by 10 publications

References 48 publications

A Fluorescent Probe with a Significant Selective Turn‐On Response for HClO Detection and Bioimaging in Living Cells

A Fluorescent Probe with a Significant Selective Turn‐On Response for HClO Detection and Bioimaging in Living Cells

Fluorescent Probes for HOCl Detection in Living Cells

In situ fabricated MOF–cellulose composite as an advanced ROS deactivator-convertor: fluoroswitchable bi-phasic tweezers for free chlorine detoxification and size-exclusive catalytic insertion of aqueous H₂O₂

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Two highly sensitive and selective coumarin-based fluorometric probes for the detection of ClO− and cell imaging

Abstract: Two new coumarin-based fluorescent probes were synthesized and successfully applied for the efficient detection of ClO− as turn-on fluorescence chemosensors by the oxidative cleavage of C–O and CN, the detection limits (LOD) for the two probes are 154 nM and 32 nM, respectively.

Cited by 10 publications

References 48 publications

A Fluorescent Probe with a Significant Selective Turn‐On Response for HClO Detection and Bioimaging in Living Cells

A Fluorescent Probe with a Significant Selective Turn‐On Response for HClO Detection and Bioimaging in Living Cells

Fluorescent Probes for HOCl Detection in Living Cells

In situ fabricated MOF–cellulose composite as an advanced ROS deactivator-convertor: fluoroswitchable bi-phasic tweezers for free chlorine detoxification and size-exclusive catalytic insertion of aqueous H2O2

Contact Info

Product

Resources

About

Two highly sensitive and selective coumarin-based fluorometric probes for the detection of ClO⁻ and cell imaging

In situ fabricated MOF–cellulose composite as an advanced ROS deactivator-convertor: fluoroswitchable bi-phasic tweezers for free chlorine detoxification and size-exclusive catalytic insertion of aqueous H₂O₂