Synthesis and evaluation of self-calibrating ratiometric viscosity sensors

Hyung Jo Yoon; Marianna Dakanali; Darcy Lichlyter; Willy M. Chang; Karen A. Nguyen; Matthew E. Nipper; Mark A. Haidekker; Emmanuel A. Theodorakis

doi:10.1039/c0ob01042a

Synthesis and evaluation of self-calibrating ratiometric viscosity sensors

Hyung Jo Yoon, Marianna Dakanali, Darcy Lichlyter, Willy M. Chang, Karen A. Nguyen, Matthew E. Nipper, Mark A. Haidekker, Emmanuel A. Theodorakis

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

22 Scopus citations

Abstract

We describe the design, synthesis and fluorescent profile of a family of self-calibrating dyes that provide ratiometric measurements of fluid viscosity. The design is based on covalently linking a primary fluorophore (reference) that displays a viscosity-independent fluorescence emission with a secondary fluorophore (sensor) that exhibits a viscosity-sensitive fluorescence emission. Characterization of fluorescent properties was made with separate excitation of the units and through Resonance Energy Transfer from the reference to the sensor dye. The chemical structures of both fluorophores and the linker length have been evaluated in order to optimize the overall brightness and sensitivity of the viscosity measurements. We also present an application of such ratiometric dyes for the detection of membrane viscosity changes in a liposome model.

Original language	English (US)
Pages (from-to)	3530-3540
Number of pages	11
Journal	Organic and Biomolecular Chemistry
Volume	9
Issue number	9
DOIs	https://doi.org/10.1039/c0ob01042a
State	Published - May 7 2011

ASJC Scopus subject areas

Biochemistry
Physical and Theoretical Chemistry
Organic Chemistry

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title = "Synthesis and evaluation of self-calibrating ratiometric viscosity sensors",

abstract = "We describe the design, synthesis and fluorescent profile of a family of self-calibrating dyes that provide ratiometric measurements of fluid viscosity. The design is based on covalently linking a primary fluorophore (reference) that displays a viscosity-independent fluorescence emission with a secondary fluorophore (sensor) that exhibits a viscosity-sensitive fluorescence emission. Characterization of fluorescent properties was made with separate excitation of the units and through Resonance Energy Transfer from the reference to the sensor dye. The chemical structures of both fluorophores and the linker length have been evaluated in order to optimize the overall brightness and sensitivity of the viscosity measurements. We also present an application of such ratiometric dyes for the detection of membrane viscosity changes in a liposome model.",

author = "Yoon, {Hyung Jo} and Marianna Dakanali and Darcy Lichlyter and Chang, {Willy M.} and Nguyen, {Karen A.} and Nipper, {Matthew E.} and Haidekker, {Mark A.} and Theodorakis, {Emmanuel A.}",

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AU - Yoon, Hyung Jo

AU - Dakanali, Marianna

AU - Lichlyter, Darcy

AU - Chang, Willy M.

AU - Nguyen, Karen A.

AU - Nipper, Matthew E.

AU - Haidekker, Mark A.

AU - Theodorakis, Emmanuel A.

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AB - We describe the design, synthesis and fluorescent profile of a family of self-calibrating dyes that provide ratiometric measurements of fluid viscosity. The design is based on covalently linking a primary fluorophore (reference) that displays a viscosity-independent fluorescence emission with a secondary fluorophore (sensor) that exhibits a viscosity-sensitive fluorescence emission. Characterization of fluorescent properties was made with separate excitation of the units and through Resonance Energy Transfer from the reference to the sensor dye. The chemical structures of both fluorophores and the linker length have been evaluated in order to optimize the overall brightness and sensitivity of the viscosity measurements. We also present an application of such ratiometric dyes for the detection of membrane viscosity changes in a liposome model.

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Synthesis and evaluation of self-calibrating ratiometric viscosity sensors

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