Abstract
The Car S 1 → Chl energy transfer efficiency, Φ Transfer, in xanthophyll-cycle mutants of living plants and LHC II was investigated by selective Car S 1 two-photon excitation. Before high-light illumination Φ Transfer, of the violaxanthin deficient mutant npq2 is ∼30% smaller than the corresponding value for wild type plants. For the zeaxanthin deficient mutant, npq1, Φ Transfer is ∼30% larger. Wild type Arabidopsis thaliana is the only variant which is capable of a light-dependent decrease of up to 40% and complete recovery to the original Φ Transfer values. In contrast, Φ Transfer remains constant during dark adaptation in both mutants. Surprisingly, changes in Φ Transfer of LHC II preparations were less than 5% only, when substituting violaxanthin by zeaxanthin.
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