Fangjun Huo scite author profile

Because of the biological importance of thiols, the development of probes for thiols has been an active research area in recent years. In this review, we summarize the results of recent exciting reports regarding thiol-addition reactions and their applications in thiol recognition. The examples reported can be classified into four reaction types including 1,1, 1,2, 1,3, 1,4 addition reactions, according to their addition mechanisms, based on different Michael acceptors. In all cases, the reactions are coupled to color and/or emission changes, although some examples dealing with electrochemical recognition have also been included. The use of thiol-addition reactions is a very simple and straightforward procedure for the preparation of thiol-sensing probes.

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Fluorescent Probes with Multiple Binding Sites for the Discrimination of Cys, Hcy, and GSH

Yin

et al. 2017

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Biothiols such as cysteine (Cys), homocysteine (Hcy), and glutathione (GSH) play crucial roles in maintaining redox homeostasis in biological systems. This Minireview summarizes the most significant current challenges in the field of thiol-reactive probes for biomedical research and diagnostics, emphasizing the needs and opportunities that have been under-investigated by chemists in the selective probe and sensor field. Progress on multiple binding site probes to distinguish Cys, Hcy, and GSH is highlighted as a creative new direction in the field that can enable simultaneous, accurate ratiometric monitoring. New probe design strategies and researcher priorities can better help address current challenges, including the monitoring of disease states such as autism and chronic diseases involving oxidative stress that are characterized by divergent levels of GSH, Cys, and Hcy.

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Dual-Site Fluorescent Probe for Visualizing the Metabolism of Cys in Living Cells

et al. 2017

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Fluorescent probes, as noninvasive tools for visualizing the metabolism of biomolecules, hold great potential to explore their physiological and pathological processes. For cysteine (Cys), however, none of the reported fluorescent probes could image the metabolic processes in living cells. To achieve this goal, we developed a coumarin derivative based on rational design of the dual recognition sites for Cys and its metabolite, SO. The probe displayed distinct two channels with turn-on fluorescent emission toward Cys and SO, which were successfully applied for imaging both A549 cells and zebrafish. Further, with reversible fluorescent responses toward Cys, the probe could image the enzymatic conversion of Cys to SO in living A549 cells in a ratiometric manner. The present work reports the first probe to image the endogenous generated SO without incubation of the SO donors.

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Functional synthetic probes for selective targeting and multi-analyte detection and imaging

et al. 2019

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A review: the trend of progress about pH probes in cell application in recent years

Yue

Huo

Lee

et al. 2017

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179

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Intracellular pH values are some of the most important factors that govern biological processes and the acid-base homeostasis in cells, body fluids and organs sustains the normal operations of the body. Subcellular organelles including the acidic lysosomes and the alkalescent mitochondria undergo various processes such as intracellular digestion, ATP production and apoptosis. Due to their precise imaging capabilities, fluorescent probes have attracted great attention for the illustration of pH modulated processes. Furthermore, based on the unique acidic extracellular environment of acidic lysosomes, fluorescent probes can specifically be activated in cancer cells or tumors. In this review, recently reported lysosome and mitochondria specific pH imaging probes as well as pH-activatable cancer cell-targetable probes have been discussed.

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Fangjun Huo

Thiol-addition reactions and their applications in thiol recognition

Fluorescent Probes with Multiple Binding Sites for the Discrimination of Cys, Hcy, and GSH

Dual-Site Fluorescent Probe for Visualizing the Metabolism of Cys in Living Cells

Functional synthetic probes for selective targeting and multi-analyte detection and imaging

A review: the trend of progress about pH probes in cell application in recent years

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