Introducing ortho-methoxyl group as a fluorescence-enhancing and bathochromic-shift bi-functional strategy for typical cysteine sensors

A practical strategy of introducing ortho-methoxyl group was explored to achieve the fluorescence-enhancing and bathochromic-shift bi-functional optimization. It was tested in the Cys sensing ISOPH-X series, thus the successful case, ISOPH-2, was obtained. It realized the optimization in a simple an...

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Bibliographic Details
Published in:Talanta (Oxford) 2020-11, Vol.219, p.121217-121217, Article 121217
Main Authors: Yuan, Zeng-Hui, Zhang, Xu-Ping, Guan, Jing, Chen, Li-Li, Li, Shu-Kai, Liu, Ming, Qin, Ya-Juan, Yang, Yu-Shun, Zhu, Hai-Liang
Format: Article
Language:English
Subjects:
Bathochromic-shift
Bi-functional strategy
Biological imaging
Cysteine sensors
Fluorescence-enhancing
Introducing ortho-methoxyl group
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Summary:A practical strategy of introducing ortho-methoxyl group was explored to achieve the fluorescence-enhancing and bathochromic-shift bi-functional optimization. It was tested in the Cys sensing ISOPH-X series, thus the successful case, ISOPH-2, was obtained. It realized the optimization in a simple and compatible way. The corresponding strategy was basically established during the confirmation of checkpoints including applicable steadiness (over 24 h), wide pH range (7.0–9.0), rapid response (20 min), good biocompatibility, high sensitivity (LOD = 0.072 nm), high selectivity and biological monitoring of Cys in living cells as well as C. elegans. In this work, the o-methoxyl introduction strategy led to a 15 nm red shift and a near 4-fold fluorescence enhancement. This strategy could be combined with the double bond-introducing approach. Compared with reported strategies, by breaking the dilemma between red shift and strong fluorescent intensity, this strategy might offer beneficial information for exploiting better sensors with more fluorophores and mechanisms for their targets. [Display omitted]
ISSN:0039-9140
1873-3573
DOI:10.1016/j.talanta.2020.121217