IntroductionPhenolic compounds are a chemically diverse group of plant secondary metabolites with important roles both in plant stress defence and human nutrition.
ObjectiveTo explore structure-function relations potentiating phenolic compounds to promote leaf acclimation to light stress by excess photosynthetically active radiation (photoinhibition) and by solar ultraviolet (UV) radiation.
MethodologyWe report singlet oxygen and hydrogen peroxide antioxidant capacities and UV-absorbing properties of 27 flavonoids and 11 phenolic acids. Correlations of these characteristics in the whole data set and related activity-structure relationships in flavonoid data were investigated using simple statistical methods.
ResultsIn comparison to flavonoids, phenolic acids are relatively ineffective reactive oxygen neutralising antioxidants; and - with the exception of gallic acid - have poor reactivity to hydrogen peroxide. Singlet oxygen and hydrogen peroxide detoxifying capacities of flavonoids are positively correlated, largely due to the strong positive effect of the hydroxylation of the C-ring in position-3. 3-O-Glycosylation halves reactive oxygen species (ROS) reactivities of quercetin and myricetin but eradicates the hydrogen peroxide reactivity of kaemferol. B-ring polyhydroxylation (cathecol structure) increases the hydrogen peroxide antioxidant function but decreases UV-B (280-315 nm) absorption. UV-A (315-400 nm) absorption is increased by the B-ring C2-C3 double bond either in itself or in combination with the C4 oxo-group.
ConclusionAmong the studied compounds, anthocyanins and flavonols were the strongest singlet oxygen and hydrogen peroxide scavengers, and are thus capable of supporting defence against both photoinhibition by visible light and UV stress in leaves, while flavanols may only be effective against the latter. Copyright (c) 2017 John Wiley & Sons, Ltd.
A two-year study explored metabolic and phenotypic plasticity of sun acclimated grapevine leaves collected from twelve locations across a 1500 km long latitudinal gradient in Europe. Leaf morphological and biochemical parameters were analysed in the context of meteorological parameters and the latitudinal gradient. Solar radiation, especially cumulative UV radiation, was identified as the strongest correlator with physiological parameters. This study emphasises the physiological component of plant responses to latitudinal gradients, and reveals the plasticity that acts to complement genetic adaptations.

• 出版日期2018-4