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Current Opinion in Chemical Biology
Volumn 7, Issue 5, 2003, Pages 540-550
Mechanisms for photosystems I and II
Author keywords

[No Author keywords available]
Indexed keywords

CHLOROPHYLL; OXYGEN; QUINONE DERIVATIVE;
EID: 0142231010     PISSN: 13675931     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.cbpa.2003.08.011     Document Type: Review
Times cited : (20)
References (58)
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    • y transition indicates that the H-bond lowers the corresponding transition energy, which could be essential for formation of an effective exciton trap at P700.
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    • +· and a discussion on the discrepancies between results obtained by FTIR and EPR methods for the oxidised P700 and its triplet state.
    • +· and a discussion on the discrepancies between results obtained by FTIR and EPR methods for the oxidised P700 and its triplet state.
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    • + charge recombination kinetics. From modelling of the experimental data, a positive shift of 135 mV in the redox potential of the quinone is estimated when it is changed from phylloquinone to plastoquinone.
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    • -· couple.
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    • Evidence for two active branches for electron transfer in Photosystem I
    • -· reoxidation using PSI mutants. The authors conclude that both the A- and the B-branch are active in electron transfer in PSI.
    • -· reoxidation using PSI mutants. The authors conclude that both the A- and the B-branch are active in electron transfer in PSI.
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    • Mutations in both sides of the photosystem I reaction center identify the phylloquinone observed by electron paramagnetic resonance spectroscopy
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    • Photoaccumulation of the PsaB phyllosemiquinone in photosystem I of Chlamydomonas reinhardtii
    • 1 is blocked under certain pH and temperature conditions. ENDOR spectroscopy on wild-type and mutant PSI samples indicates that one of the semiquinones is bound to PsaB.
    • 1 is blocked under certain pH and temperature conditions. ENDOR spectroscopy on wild-type and mutant PSI samples indicates that one of the semiquinones is bound to PsaB.
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    • 1 in photosystem I: Only the slower phase is activated
    • 1 in PSI is temperature dependent. This difference is suggested to be caused by different energetics for the two quinones.
    • 1 in PSI is temperature dependent. This difference is suggested to be caused by different energetics for the two quinones.
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    • Pathways for energy transfer in the core light-harvesting complexes CP43 and CP47 of photosystem II
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    • Time-resolved fluorescence measurements on PSII particles of varying antenna size have been modelled. The results confirm the 'reversible radical pair model' with slow radical pair formation due to a shallow exciton trap.
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* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.