Chlorophyll fluorescence excitation techniques have been used in plant science for more than one decade to non-destructively estimate phenolic compounds in the epidermal cell layer. These techniques have been used here to evacuate the effect of different light intensities and spectral quality on the accumulation of ortho-dihydroxylated flavonoids in Phyllirea latifolia L., Myrtus communis L. and Ligustrum vulgare L. In a first experiment, chlorophyll fluorescence excitation spectra were measured(with a double arm optical fiber bundle connected to a spectrofluorimeter) on the adaxial and abaxial leaf surfaces of container-grown P. latifolia and M. communis exposed to 20% or 100% full sunlight. Differences in epidermal absorption spectra (referred to as epidermal absorption spectra throughout the paper) were then calculated from the relative chlorophyll fluorescence excitation spectra. This allowed comparing the content of UV-absorbing compounds between differentially irradiated leaves as well as between adaxial and abaxial epidermal layers. The absorption spectra were characterized by a band centered at 360–380nm,which was greater in sun than in shade leaves and in the adaxial than in the abaxial surfaces, irrespective of species. Based upon HPLC-DAD and HPLC–MS analyses of leaf extracts and UV-spectral features of individual flavonoids, we conclude that quercetin luteolin and myricetin derivatives were responsible for the observed light-induced changes in the spectral features of examined tissues. In a second experiment, we grew L. vulgare potted plants at 30% or85% full sunlight in the presence or in the absence of UV radiation. We measured the absorbance characteristics at 370nm of three leaf-pairs located in the apical portion of each shoot, using a portable fluorimetric sensor, the Multiplex®. This allowed estimating, non-destructively, an index closely related to the concentration of epidermal flavonols and flavones having an ortho-dihydroxyl substitution in theB-ring. This index was greater in leaves growing at 85% than at 30% sunlight, irrespective of UV irradiance. When plants acclimated for 3 weeks to 30% sunlight, in the presence or in the absence of UV irradiance ,were transferred to 85% sunlight, the flavonoid index exponentially increased, reaching a maximum within 10days. On the whole, our experiments conclusively show that light-responsive flavonoids are mostly the dihydroxy B-ring-substituted structures. These flavonoids are the most effective, among the wide array of flavonoid structures, in preventing the generation and scavenging reactive oxygen species. As a consequence, we suggest that flavonoids do not merely serve as UV-screening agents, but behave as ROS-detoxifying agents in the mechanisms of photoprotection

Light-induced accumulation of ortho-dihydroxylated flavonoids as non-destructively monitored by chlorophyll fluorescence excitation techniques

Agati G;Tattini M
2011

Abstract

Chlorophyll fluorescence excitation techniques have been used in plant science for more than one decade to non-destructively estimate phenolic compounds in the epidermal cell layer. These techniques have been used here to evacuate the effect of different light intensities and spectral quality on the accumulation of ortho-dihydroxylated flavonoids in Phyllirea latifolia L., Myrtus communis L. and Ligustrum vulgare L. In a first experiment, chlorophyll fluorescence excitation spectra were measured(with a double arm optical fiber bundle connected to a spectrofluorimeter) on the adaxial and abaxial leaf surfaces of container-grown P. latifolia and M. communis exposed to 20% or 100% full sunlight. Differences in epidermal absorption spectra (referred to as epidermal absorption spectra throughout the paper) were then calculated from the relative chlorophyll fluorescence excitation spectra. This allowed comparing the content of UV-absorbing compounds between differentially irradiated leaves as well as between adaxial and abaxial epidermal layers. The absorption spectra were characterized by a band centered at 360–380nm,which was greater in sun than in shade leaves and in the adaxial than in the abaxial surfaces, irrespective of species. Based upon HPLC-DAD and HPLC–MS analyses of leaf extracts and UV-spectral features of individual flavonoids, we conclude that quercetin luteolin and myricetin derivatives were responsible for the observed light-induced changes in the spectral features of examined tissues. In a second experiment, we grew L. vulgare potted plants at 30% or85% full sunlight in the presence or in the absence of UV radiation. We measured the absorbance characteristics at 370nm of three leaf-pairs located in the apical portion of each shoot, using a portable fluorimetric sensor, the Multiplex®. This allowed estimating, non-destructively, an index closely related to the concentration of epidermal flavonols and flavones having an ortho-dihydroxyl substitution in theB-ring. This index was greater in leaves growing at 85% than at 30% sunlight, irrespective of UV irradiance. When plants acclimated for 3 weeks to 30% sunlight, in the presence or in the absence of UV irradiance ,were transferred to 85% sunlight, the flavonoid index exponentially increased, reaching a maximum within 10days. On the whole, our experiments conclusively show that light-responsive flavonoids are mostly the dihydroxy B-ring-substituted structures. These flavonoids are the most effective, among the wide array of flavonoid structures, in preventing the generation and scavenging reactive oxygen species. As a consequence, we suggest that flavonoids do not merely serve as UV-screening agents, but behave as ROS-detoxifying agents in the mechanisms of photoprotection
2011
Istituto di Fisica Applicata - IFAC
PROTEZIONE DELLE PIANTE
Chlorophyll fluorescence
Flavonols
Flavones
Excitation spectra
Non-invasive sensors
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/146592
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