When photoautotrophicChenopodium rubrumL. culture cells were exposed to high photon flux densities for seven consecutive light periods a marked reduction in photochemical efficiency, chlorophyll (Chl) content and Chl a/b ratio occurred. These alterations were accompanied by distinct changes in the pigment and protein composition of the thylakoid membranes. In photosystem II (PSII) a reduction in the relative contents of proteins from the reaction center (D1 protein, D2 protein and Cyt b559) and the inner antenna (CP43 and CP47) was observed. In agreement with the reduction in the Chl a/b ratio an increase in the relative content of the major light-harvesting complex of PSII (LHCII) could be demonstrated. The minor chlorophyll-proteins of PSII were only slightly affected but PSI (quantified as total complex) showed a reduction upon chronic photoinhibition. The changes in protein composition were accompanied by a drastic increase in the contents of lutein and the xanthophyll-cycle pigments and by a reduction in the β-carotene content. The effects on lutein and xanthophyll-cycle pigment content were most pronounced in stroma thylakoids. Here, an increase in LHCII (which harbours these pigments) was clearly detectable. Considering the pigment content of LHCII, the change in its apoprotein content was not large enough to explain the pigment changes
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