Design of Dual‐responsive ROS/RSS Fluorescent Probes and Their Application in Bioimaging

Huang, Pei; Yue, Yongkang; Yin, Caixia; Huo, Fangjun

doi:10.1002/asia.202200907

Cited by 15 publications

(6 citation statements)

References 108 publications

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“…Fluorescence detection united with small-molecule probes is unceasingly promoted by thriving of fluorescence technology and dexterous molecular designing. − Nowadays, through the unremitting endeavors made by scientists, miscellaneous small-molecule probes based on coumarin, xanthene, flavonoid, hemicyanine, dicyanoisophorone, etc. have been created. − Promisingly, for deep biological applications, a series of fluorescent probes simultaneously reacting with RSS and ROS have also been put forward by researchers. − Nevertheless, seeking for admirable fluorescent probes with higher sensitivity, faster response time, and better brightness is always frustrated by tedious synthetic routes and hard purification processes. , Under such research background, it is desirable to tame easy-to-prepare fluorophores with compact structures and high performance. Concurrently, considering the above-mentioned pivotal functions of HSO 3 – and HClO, they have been tested by a series of small-molecule fluorescent probes owing to the designable reactive sites on the molecular skeletons. − However, fluorescence detection of HSO 3 – and HClO based on small molecules has been impeded by two points.…”

Section: Introductionmentioning

confidence: 99%

Taming Janus-Faced Quinoline-Derived Fluorescent Probes for Dual-Channel Distinguishable Visualization of HSO₃^– and HClO in Dried Foods and Living Cells

Xu,

Wang,

Xiao

et al. 2024

J. Agric. Food Chem.

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With the booming development of food manufacturing, developing ideal analytical tools to precisely quantify food additives is highly sought after in the food science field. Herein, a new series of quinoline-derived multifunctional fluorescent probes has been synthesized. Bearing double reactive sites, these compounds display fluorescence response toward both bisulfite (HSO 3 − ) and hypochlorous acid (HClO). Among these compact structures, compound ethyl-2-cyano-3-(6-(methylthio)quinolin-2-yl)acrylate (QTE) was screened out. Probe QTE not only shows ratiometric variation toward HSO 3 − with little cross talk but also performs turn-off signal toward HClO. In addition, probe QTE has been utilized for bioimaging of HClO in living cells. Furthermore, the HSO 3 − content in dried food samples has been appraised by QTE with satisfactory results. Meanwhile, relying on the apparent chromaticity change, a flexible dark-box device has been elaborated for chromatic analysis, promoting visualization of HSO 3 − in the field.

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Section: Introductionmentioning

confidence: 99%

Taming Janus-Faced Quinoline-Derived Fluorescent Probes for Dual-Channel Distinguishable Visualization of HSO₃^– and HClO in Dried Foods and Living Cells

Xu,

Wang,

Xiao

et al. 2024

J. Agric. Food Chem.

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“…However, the detection of various biomolecules relies on multichannel detectors or the mixed use of multiple probes, which would cause the detection operation to become complicated and increase costs. Also, multiple-responsive fluorescence probes that can respond to many different biomolecules with different signals have yet to be commonly reported. − Therefore, a simple synthesis method is needed to integrate multiple capabilities of detecting substances on one probe.…”

Section: Introductionmentioning

confidence: 99%

A Multiple-Responsive Fluorescence Probe Based on Water-Soluble Fluorescent Conjugated Polymer for Biomolecules Detection

Zhang

Shen

et al. 2023

ACS Appl. Polym. Mater.

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In this paper, we designed a multiresponsive fluorescent probe based on a synthetic water-soluble conjugated fluorescent polymer (PF-DBT-S-S-PDI) consisting of the conjugated fluorescent backbones and the hydrophilic side chains connected by a disulfide bond. Based on its specific structures, according to two different response mechanisms of fluorescence resonance energy transfer (FRET) and heavy atom effect, the polymer shows high sensitivity and selectivity toward reductive species-thiols and oxidizing substances (such as H2O2) in different ways. Owing to the presence of disulfide bonds, the reductive mercaptan in the solution would cause the water-soluble branches in the micellar structure to break off and leave, which causes the hydrophobic framework of the polymer to aggregate and enhance the fluorescence intensity. On the other hand, because the PDIs in branches are ionic polymers with many iodide ions, H2O2 in solution oxidizes iodide ions into iodide so that the heavy atomic effect of iodide would quench the fluorescence. Both mechanisms have high sensitivity; e.g., the detection limits for mercaptan (such as cysteine) were 0.052 mM, 5.26 μM for H2O2, and 1.06 μM for glucose (combined with oxidase). The multiple detection ability of the polymer has been validated by evaluating free thiols and glucose levels in food samples and tissue homogenates. Our work provided a strategy for integrating multiple species detection capabilities on a single probe.

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“…The fluorescence imaging microscope is a potent tool for in situ tracing of active species variations in vivo. − It permits imaging fluorescent-labeled target substances within organelles with remarkable clarity, , thanks to its high spatial resolution. − It also allows for millisecond time-dependent image analysis due to its high temporal resolution. − Furthermore, the fluorescent probe, which is responsible for illuminating the target, − is an essential factor supporting the high spatiotemporal resolution of the fluorescence microscope. − However, most of the subcellular organelle probes for ROS were reaction-based, achieving fluorescence modulation based on the oxidative breakage of active-site chemical bonds. − These probes had very high signal-to-noise ratios; however, there were irreversible molecular structural changes following their reaction with ROS, resulting in the inability to continuously study long-term fluctuations of active species during pathological changes. − Therefore, there is an urgent need to develop a real-time, dynamic, and reversible fluorescent probe to detect ER O 2 •– levels.…”

Section: Introductionmentioning

confidence: 99%

Uncovering Endoplasmic Reticulum Superoxide Regulating Hepatic Ischemia-Reperfusion Injury by Dynamic Reversible Fluorescence Imaging

Zhang,

Fan,

Wang

et al. 2023

Anal. Chem.

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Hepatic ischemia-reperfusion injury (HIRI) is a relatively common complication of liver resection and transplantation that is intimately connected to oxidative stress. The superoxide anion radical (O2 •–), as the first reactive oxygen species produced by organisms, is an important marker of HIRI. The endoplasmic reticulum (ER) is an essential site for O2 •– production, especially ER oxidative stress, which is closely linked to HIRI. Thus, dynamic variations in ER O2 •– may accurately indicate the HIRI extent. However, there is still a lack of tools for the dynamic reversible detection of ER O2 •–. Therefore, we designed and prepared an ER-targeted fluorescent reversible probe DPC for real-time tracing of O2 •– fluctuations. We successfully observed a marked increase in ER O2 •– levels in HIRI mice. A potential NADPH oxidase 4–ER O2 •––SERCA2b–caspase 4 signaling pathway in HIRI mice was also revealed. Attractively, DPC was successfully used for precise fluorescent navigation and excision of HIRI sites.

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Design of Dual‐responsive ROS/RSS Fluorescent Probes and Their Application in Bioimaging

Cited by 15 publications

References 108 publications

Taming Janus-Faced Quinoline-Derived Fluorescent Probes for Dual-Channel Distinguishable Visualization of HSO₃^– and HClO in Dried Foods and Living Cells

Taming Janus-Faced Quinoline-Derived Fluorescent Probes for Dual-Channel Distinguishable Visualization of HSO₃^– and HClO in Dried Foods and Living Cells

A Multiple-Responsive Fluorescence Probe Based on Water-Soluble Fluorescent Conjugated Polymer for Biomolecules Detection

Uncovering Endoplasmic Reticulum Superoxide Regulating Hepatic Ischemia-Reperfusion Injury by Dynamic Reversible Fluorescence Imaging

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Design of Dual‐responsive ROS/RSS Fluorescent Probes and Their Application in Bioimaging

Cited by 15 publications

References 108 publications

Taming Janus-Faced Quinoline-Derived Fluorescent Probes for Dual-Channel Distinguishable Visualization of HSO3– and HClO in Dried Foods and Living Cells

Taming Janus-Faced Quinoline-Derived Fluorescent Probes for Dual-Channel Distinguishable Visualization of HSO3– and HClO in Dried Foods and Living Cells

A Multiple-Responsive Fluorescence Probe Based on Water-Soluble Fluorescent Conjugated Polymer for Biomolecules Detection

Uncovering Endoplasmic Reticulum Superoxide Regulating Hepatic Ischemia-Reperfusion Injury by Dynamic Reversible Fluorescence Imaging

Contact Info

Product

Resources

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Taming Janus-Faced Quinoline-Derived Fluorescent Probes for Dual-Channel Distinguishable Visualization of HSO₃^– and HClO in Dried Foods and Living Cells

Taming Janus-Faced Quinoline-Derived Fluorescent Probes for Dual-Channel Distinguishable Visualization of HSO₃^– and HClO in Dried Foods and Living Cells