Pyrene as a membrane depth gauge: Wavelength selective fluorescence approach to monitor pyrene localizations in the membrane

Shirley Mazor; Sharon Vanounou; Itzhak Fishov

doi:10.1016/j.chemphyslip.2011.11.009

Pyrene as a membrane depth gauge: Wavelength selective fluorescence approach to monitor pyrene localizations in the membrane

Shirley Mazor, Sharon Vanounou, Itzhak Fishov

Department of Life Sciences

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

9 Scopus citations

Abstract

We take the advantage of pyrene's unique spectral properties as a reliable polarity indicator to monitor pyrene localizations in the membrane depth by using wavelength selective fluorescence approach. We show that fine structure of pyrene fluorescence emission spectra and excimerization rate in model and native phospholipid membranes depend on the excitation wavelength. This phenomenon is not observed in neat solvents. In membranes, the dependence on the excitation wavelength reflects selective excitation of pyrene molecules located close to the membrane-water polar interface, or deep in the hydrophobic core of the membrane, verified with the aid of pyrene derivatives of fatty acids of various lengths.

Original language	English
Pages (from-to)	125-131
Number of pages	7
Journal	Chemistry and Physics of Lipids
Volume	165
Issue number	1
DOIs	https://doi.org/10.1016/j.chemphyslip.2011.11.009
State	Published - 1 Jan 2012

Keywords

Excimerization
Membrane
Py scale
Pyrene
Red-edge effect

ASJC Scopus subject areas

Biochemistry
Molecular Biology
Organic Chemistry
Cell Biology

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10.1016/j.chemphyslip.2011.11.009

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title = "Pyrene as a membrane depth gauge: Wavelength selective fluorescence approach to monitor pyrene localizations in the membrane",

abstract = "We take the advantage of pyrene's unique spectral properties as a reliable polarity indicator to monitor pyrene localizations in the membrane depth by using wavelength selective fluorescence approach. We show that fine structure of pyrene fluorescence emission spectra and excimerization rate in model and native phospholipid membranes depend on the excitation wavelength. This phenomenon is not observed in neat solvents. In membranes, the dependence on the excitation wavelength reflects selective excitation of pyrene molecules located close to the membrane-water polar interface, or deep in the hydrophobic core of the membrane, verified with the aid of pyrene derivatives of fatty acids of various lengths.",

keywords = "Excimerization, Membrane, Py scale, Pyrene, Red-edge effect",

author = "Shirley Mazor and Sharon Vanounou and Itzhak Fishov",

note = "Funding Information: A highly professional technical assistance of Sonia Soreanu is greatly appreciated. This work was supported in part by grant 820/05 from the Israel Science Foundation .",

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AU - Mazor, Shirley

AU - Vanounou, Sharon

AU - Fishov, Itzhak

N1 - Funding Information: A highly professional technical assistance of Sonia Soreanu is greatly appreciated. This work was supported in part by grant 820/05 from the Israel Science Foundation .

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N2 - We take the advantage of pyrene's unique spectral properties as a reliable polarity indicator to monitor pyrene localizations in the membrane depth by using wavelength selective fluorescence approach. We show that fine structure of pyrene fluorescence emission spectra and excimerization rate in model and native phospholipid membranes depend on the excitation wavelength. This phenomenon is not observed in neat solvents. In membranes, the dependence on the excitation wavelength reflects selective excitation of pyrene molecules located close to the membrane-water polar interface, or deep in the hydrophobic core of the membrane, verified with the aid of pyrene derivatives of fatty acids of various lengths.

AB - We take the advantage of pyrene's unique spectral properties as a reliable polarity indicator to monitor pyrene localizations in the membrane depth by using wavelength selective fluorescence approach. We show that fine structure of pyrene fluorescence emission spectra and excimerization rate in model and native phospholipid membranes depend on the excitation wavelength. This phenomenon is not observed in neat solvents. In membranes, the dependence on the excitation wavelength reflects selective excitation of pyrene molecules located close to the membrane-water polar interface, or deep in the hydrophobic core of the membrane, verified with the aid of pyrene derivatives of fatty acids of various lengths.

KW - Excimerization

KW - Membrane

KW - Py scale

KW - Pyrene

KW - Red-edge effect

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SP - 125

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JO - Chemistry and Physics of Lipids

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ER -

Pyrene as a membrane depth gauge: Wavelength selective fluorescence approach to monitor pyrene localizations in the membrane

Abstract

Keywords

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