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A Fast-Response Red Shifted Fluorescent Probe for Detection of H2S in Living Cells.


ABSTRACT: Near-infrared (NIR) fluorescent probes are attractive tools for bioimaging applications because of their low auto-fluorescence interference, minimal damage to living samples, and deep tissue penetration. H2S is a gaseous signaling molecule that is involved in redox homeostasis and numerous biological processes in vivo. To this end, we have developed a new red shifted fluorescent probe 1 to detect physiological H2S in live cells. The probe 1 is based on a rhodamine derivative as the red shifted fluorophore and the thiolysis of 7-nitro 1,2,3-benzoxadiazole (NBD) amine as the H2S receptor. The probe 1 displays fast fluorescent enhancement at 660 nm (about 10-fold turn-ons, k2 = 29.8 M-1s-1) after reacting with H2S in buffer (pH 7.4), and the fluorescence quantum yield of the activated red shifted product can reach 0.29. The probe 1 also exhibits high selectivity and sensitivity towards H2S. Moreover, 1 is cell-membrane-permeable and mitochondria-targeting, and can be used for imaging of endogenous H2S in living cells. We believe that this red shifted fluorescent probe can be a useful tool for studies of H2S biology.

SUBMITTER: Ismail I 

PROVIDER: S-EPMC7036821 | biostudies-literature | 2020 Jan

REPOSITORIES: biostudies-literature

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A Fast-Response Red Shifted Fluorescent Probe for Detection of H<sub>2</sub>S in Living Cells.

Ismail Ismail I   Chen Zhuoyue Z   Ji Xiuru X   Sun Lu L   Yi Long L   Xi Zhen Z  

Molecules (Basel, Switzerland) 20200121 3


Near-infrared (NIR) fluorescent probes are attractive tools for bioimaging applications because of their low auto-fluorescence interference, minimal damage to living samples, and deep tissue penetration. H<sub>2</sub>S is a gaseous signaling molecule that is involved in redox homeostasis and numerous biological processes in vivo. To this end, we have developed a new red shifted fluorescent probe <b>1</b> to detect physiological H<sub>2</sub>S in live cells. The probe <b>1</b> is based on a rhoda  ...[more]

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