Your search keyword '"*CELL imaging"' showing total 2 results

1. A benzoindole-based fluorescent probe for nitroreductase imaging in living cells under hypoxia conditions.

Author

Wang, Huizhe, Yang, Min, Ji, Min, and Wang, Peng

Subjects

*FLUORESCENT probes, *CELL imaging, *INDOLE, *HYPOXEMIA, *DRUG activation, *NITROAROMATIC compounds, *NAD (Coenzyme), *COBALT chloride

Abstract

[Display omitted] • A novel fluorescent NTR probe NFP-NTR based on the benzo[ cd ]indol fluorophore was designed for nitroreductase imaging in living cells under hypoxia conditions. • The probe NFP-NTR showed excellent sensitive capability with calculated limit detection of 17 ng/mL. • The probe NFP-NTR displayed high selectivity towards NTR over other analytes. • The probe NFP-NTR was successfully employed as a desirable tool for cellular imaging of endogenous NTR in Hela cells at the condition of hypoxia. Nitroreductase (NTR) plays a vital part in the activation of drugs and the biodegradation of nitroaromatic compounds. With the enhanced expression level of NTR in hypoxic solid tumors, it has been widely used as one of the biomarkers to evaluate the degree of tumor hypoxia. In this work, we reported a benzoindole-based fluorescent probe NFP-NTR for nitroreductase detection. NFP-NTR can react with NTR specifically to cleave the p-nitrobenzyl ether bond when nicotinamide adenine dinucleotide (NADH) is present, showing significant fluorescence augment characteristics. Encouragingly, NFP-NTR exhibited excellent selectivity and satisfactory sensitivity, with a detection limit of 17 ng/mL. In addition, this probe has been successfully used to image live Hela cells under hypoxic conditions with low cytotoxicity, indicating that probe NFP-NTR has great potential to further elucidate more biological applications of NTR. [ABSTRACT FROM AUTHOR]

Published

2022

2. New carbazole fluorescent sensor for ultrasensitive and ratiometric sensing of SO2 derivatives and hydrazine.

Author

Li, Wang, Hu, Yonghong, Song, Yiyi, Gu, Yuanyun, and Yang, Wenge

Subjects

*HYDRAZINE derivatives, *FLUORESCENT probes, *CELL imaging, *HYDRAZINE, *SULFUR dioxide, *CARBAZOLE, *DETECTION limit, *PHTHALAZINE

Abstract

• A novel bifunctional fluorescent probe CBTA was developed. • CBTA showed high sensitivity and selectivity to HSO 3 − and N 2 H 4 in ultrafast time. • CBTA has low detection limits for bisulfite and hydrazine. • CBTA could visualize endogenous HSO 3 − in living cells. The probe CBTA is a novel bifunctional fluorescent probe that can detect bisulfite and hydrazine hydrate in a rational manner. And probe CBTA could specifically detect bisulfite and hydrazine hydrate among different analytes. Moreover, the response time of probe CBTA to SO 2 derivatives and hydrazine is extremely short, and the detection limits for bisulfite and hydrazine are as low as 5.6 nmol and 39 nmol. Cellular experiments also indicated that the probe CBTA was low in cytotoxicity and could be applied to cellular fluorescence imaging. Therefore, the probe CBTA could provide an efficient means for detecting SO 2 derivatives and hydrazine in vitro. [ABSTRACT FROM AUTHOR]

Published

2020