Novel nonplanar and rigid fluorophores with intensive emission in water and the application in two-photon imaging of live cells

Jingwen Zhang; Chao Wang; Lei Zhang; Huijing Wu; Yi Xiao; Yufang Xu; Xuhong Qian; Weiping Zhu

doi:10.1039/c6ra13226j

Novel nonplanar and rigid fluorophores with intensive emission in water and the application in two-photon imaging of live cells

Jingwen Zhang
, Chao Wang
, Lei Zhang
, Huijing Wu
, Yi Xiao^*
, Yufang Xu
, Xuhong Qian
, Weiping Zhu

^*Corresponding author for this work

East China University of Science and Technology
Dalian University of Technology

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

4 Scopus citations

Abstract

Bright and photostable fluorophores play a key role in the imaging of specific intracellular molecules. Here we report a facile approach to improve the brightness of naphthalimide fluorophores in water. We synthesized a series of nonplanar and rigid compounds (FM1, FM2, and FM3) by fusing a seven-membered heterocycle onto a naphthalimide skeleton. Compared with classic naphthalimide (FM0), these novel fluorophores exhibited much higher quantum yield values (Φ = 0.60-0.66), and higher molar extinction coefficients in aqueous solution, which elicited superior brightness to FM0. They also showed good photostability, pH-independence, and two-photon microscope (TPM) imaging ability. This new strategy of structural nonplanarity and rigidification provides an efficient way to improve the quantum efficiencies of traditional dyes.

Original language	English
Pages (from-to)	71324-71627
Number of pages	304
Journal	RSC Advances
Volume	6
Issue number	75
DOIs	https://doi.org/10.1039/c6ra13226j
State	Published - 2016
Externally published	Yes

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title = "Novel nonplanar and rigid fluorophores with intensive emission in water and the application in two-photon imaging of live cells",

abstract = "Bright and photostable fluorophores play a key role in the imaging of specific intracellular molecules. Here we report a facile approach to improve the brightness of naphthalimide fluorophores in water. We synthesized a series of nonplanar and rigid compounds (FM1, FM2, and FM3) by fusing a seven-membered heterocycle onto a naphthalimide skeleton. Compared with classic naphthalimide (FM0), these novel fluorophores exhibited much higher quantum yield values (Φ = 0.60-0.66), and higher molar extinction coefficients in aqueous solution, which elicited superior brightness to FM0. They also showed good photostability, pH-independence, and two-photon microscope (TPM) imaging ability. This new strategy of structural nonplanarity and rigidification provides an efficient way to improve the quantum efficiencies of traditional dyes.",

author = "Jingwen Zhang and Chao Wang and Lei Zhang and Huijing Wu and Yi Xiao and Yufang Xu and Xuhong Qian and Weiping Zhu",

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doi = "10.1039/c6ra13226j",

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T1 - Novel nonplanar and rigid fluorophores with intensive emission in water and the application in two-photon imaging of live cells

AU - Zhang, Jingwen

AU - Wang, Chao

AU - Zhang, Lei

AU - Wu, Huijing

AU - Xiao, Yi

AU - Xu, Yufang

AU - Qian, Xuhong

AU - Zhu, Weiping

PY - 2016

Y1 - 2016

N2 - Bright and photostable fluorophores play a key role in the imaging of specific intracellular molecules. Here we report a facile approach to improve the brightness of naphthalimide fluorophores in water. We synthesized a series of nonplanar and rigid compounds (FM1, FM2, and FM3) by fusing a seven-membered heterocycle onto a naphthalimide skeleton. Compared with classic naphthalimide (FM0), these novel fluorophores exhibited much higher quantum yield values (Φ = 0.60-0.66), and higher molar extinction coefficients in aqueous solution, which elicited superior brightness to FM0. They also showed good photostability, pH-independence, and two-photon microscope (TPM) imaging ability. This new strategy of structural nonplanarity and rigidification provides an efficient way to improve the quantum efficiencies of traditional dyes.

AB - Bright and photostable fluorophores play a key role in the imaging of specific intracellular molecules. Here we report a facile approach to improve the brightness of naphthalimide fluorophores in water. We synthesized a series of nonplanar and rigid compounds (FM1, FM2, and FM3) by fusing a seven-membered heterocycle onto a naphthalimide skeleton. Compared with classic naphthalimide (FM0), these novel fluorophores exhibited much higher quantum yield values (Φ = 0.60-0.66), and higher molar extinction coefficients in aqueous solution, which elicited superior brightness to FM0. They also showed good photostability, pH-independence, and two-photon microscope (TPM) imaging ability. This new strategy of structural nonplanarity and rigidification provides an efficient way to improve the quantum efficiencies of traditional dyes.

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U2 - 10.1039/c6ra13226j

DO - 10.1039/c6ra13226j

M3 - 文章

AN - SCOPUS:84979947884

SN - 2046-2069

VL - 6

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EP - 71627

JO - RSC Advances

JF - RSC Advances

IS - 75

ER -

Novel nonplanar and rigid fluorophores with intensive emission in water and the application in two-photon imaging of live cells

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