Ratiometric fluorescence imaging of endogenous selenocysteine in cancer cell matrix

Yong Tian; Fangyun Xin; Congcong Gao; Jing Jing; Xiaoling Zhang

doi:10.1039/c7tb01558e

Ratiometric fluorescence imaging of endogenous selenocysteine in cancer cell matrix

Yong Tian, Fangyun Xin, Congcong Gao, Jing Jing, Xiaoling Zhang^*

^*Corresponding author for this work

School of Chemistry and Chemical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

31 Citations (Scopus)

Abstract

Monitoring intracellular selenocysteine (Sec) is of significant interest for studying Sec metabolism and disease-relevant changes in Sec homeostasis. Herein, we rationally designed an ICT-based ratiometric probe (Rat-Sec) for selectively discriminating endogenous Sec in a live cell matrix. By utilizing an acrylate moiety, Rat-Sec manifested significantly ratiometric and red-shifted (∼117 nm) fluorescence signals within 1 min, and concomitantly demonstrated apparent color alteration from colorless to faint yellow in the presence of Sec. When applied to quantitatively detect Sec under physiological conditions, Rat-Sec gives a detection limit of 12 nM. Offering great advantages due to its ratiometric nature and high specificity and selectivity, Rat-Sec provides reliable fluorescence quantification and rapid tracking of exogenous and endogenous Sec in living cells.

Original language	English
Pages (from-to)	6890-6896
Number of pages	7
Journal	Journal of Materials Chemistry B
Volume	5
Issue number	33
DOIs	https://doi.org/10.1039/c7tb01558e
Publication status	Published - 2017

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title = "Ratiometric fluorescence imaging of endogenous selenocysteine in cancer cell matrix",

abstract = "Monitoring intracellular selenocysteine (Sec) is of significant interest for studying Sec metabolism and disease-relevant changes in Sec homeostasis. Herein, we rationally designed an ICT-based ratiometric probe (Rat-Sec) for selectively discriminating endogenous Sec in a live cell matrix. By utilizing an acrylate moiety, Rat-Sec manifested significantly ratiometric and red-shifted (∼117 nm) fluorescence signals within 1 min, and concomitantly demonstrated apparent color alteration from colorless to faint yellow in the presence of Sec. When applied to quantitatively detect Sec under physiological conditions, Rat-Sec gives a detection limit of 12 nM. Offering great advantages due to its ratiometric nature and high specificity and selectivity, Rat-Sec provides reliable fluorescence quantification and rapid tracking of exogenous and endogenous Sec in living cells.",

author = "Yong Tian and Fangyun Xin and Congcong Gao and Jing Jing and Xiaoling Zhang",

note = "Publisher Copyright: {\textcopyright} 2017 The Royal Society of Chemistry.",

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T1 - Ratiometric fluorescence imaging of endogenous selenocysteine in cancer cell matrix

AU - Tian, Yong

AU - Xin, Fangyun

AU - Gao, Congcong

AU - Jing, Jing

AU - Zhang, Xiaoling

PY - 2017

Y1 - 2017

N2 - Monitoring intracellular selenocysteine (Sec) is of significant interest for studying Sec metabolism and disease-relevant changes in Sec homeostasis. Herein, we rationally designed an ICT-based ratiometric probe (Rat-Sec) for selectively discriminating endogenous Sec in a live cell matrix. By utilizing an acrylate moiety, Rat-Sec manifested significantly ratiometric and red-shifted (∼117 nm) fluorescence signals within 1 min, and concomitantly demonstrated apparent color alteration from colorless to faint yellow in the presence of Sec. When applied to quantitatively detect Sec under physiological conditions, Rat-Sec gives a detection limit of 12 nM. Offering great advantages due to its ratiometric nature and high specificity and selectivity, Rat-Sec provides reliable fluorescence quantification and rapid tracking of exogenous and endogenous Sec in living cells.

AB - Monitoring intracellular selenocysteine (Sec) is of significant interest for studying Sec metabolism and disease-relevant changes in Sec homeostasis. Herein, we rationally designed an ICT-based ratiometric probe (Rat-Sec) for selectively discriminating endogenous Sec in a live cell matrix. By utilizing an acrylate moiety, Rat-Sec manifested significantly ratiometric and red-shifted (∼117 nm) fluorescence signals within 1 min, and concomitantly demonstrated apparent color alteration from colorless to faint yellow in the presence of Sec. When applied to quantitatively detect Sec under physiological conditions, Rat-Sec gives a detection limit of 12 nM. Offering great advantages due to its ratiometric nature and high specificity and selectivity, Rat-Sec provides reliable fluorescence quantification and rapid tracking of exogenous and endogenous Sec in living cells.

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DO - 10.1039/c7tb01558e

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AN - SCOPUS:85028359987

SN - 2050-7518

VL - 5

SP - 6890

EP - 6896

JO - Journal of Materials Chemistry B

JF - Journal of Materials Chemistry B

IS - 33

ER -

Ratiometric fluorescence imaging of endogenous selenocysteine in cancer cell matrix

Abstract

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