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Physiology and biochemistry of leaf bleaching in prematurely aging maple (Acer saccharinum L.) trees. II. Functional and molecular adjustment of PSII

2011; De Gruyter Open; Volume: 70; Issue: 2 Linguagem: Inglês

10.2478/v10184-010-0010-9

1847-8476

Hrvoje Lepeduš, Lidija Begović, Selma Mlinarić, Domagoj Šimić, Ivna Štolfa, Nada Parađiković, Zvonimir Užarević, Vlatka Jurković, Cesar V. Borlongan,

Plant responses to elevated CO2

Physiology and biochemistry of leaf bleaching in prematurely aging maple ( Acer saccharinum L.) trees. II. Functional and molecular adjustment of PSII In the present study we aimed to investigate physiological and molecular mechanisms of photosynthetic performance decline in prematurely aged bleached leaves of silver maple ( Acer saccharinum L.) trees. We used in vivo chlorophyll a fluorescence measurement to analyze changes in PSII photochemistry, relative abundance of photosynthetic proteins (D1, LHCII, Cyt f and Rubisco LSU), relations between chlorophylls and their precursor protochlorophyllide as well as elemental composition of the leaves. Decreases in Al, Cr, Cu, Fe, K, Zn and an increase in S concentrations were found in bleached leaves in comparison to healthy green ones. The bleached leaves were visually expressing symptoms characteristic of Fe deficiency. Further, they had considerably decreased chlorophyll contents and protochlorophyllide contents, overall photosynthetic activity and relative abundance of major photosynthetic proteins. All the results indicate that modifications in the molecular organization of photosynthetic electron-transport chain components in bleached leaves led to functional adaptation of the PSII achieved by modifications of some reaction centres (RCs), turning them from active to dissipative. This provided efficient adaptation of bleached leaves to high-light induced oxidative damage during summer.