叶绿素a荧光作为光系统II中光氧化初级供体P-680纳秒级还原的监测手段。

Chlorophyll a fluorescence as a monitor of nanosecond reduction of the photooxidized primary donor P-680 Of photosystem II.

作者信息

Sonneveld A, Rademaker H, Duysens L N

出版信息

Biochim Biophys Acta. 1979 Dec 6;548(3):536-51. doi: 10.1016/0005-2728(79)90063-x.

DOI:10.1016/0005-2728(79)90063-x

PMID:508737

Abstract

Changes in the fluorescence yield of aerobic Chlorella vulgaris have been measured in laser flashes of 15 ns, 30 ns and 350 ns half time. The kinetics after the first flash given after a 3 min dark period could be simulated on a computer using the hypothesis that the oxidized acceptor Q and primary donor P+ are fluorescence quenchers, and Q- is a weak quencher, and that the reduction time for P+ is 20-35 ns. 2. The P+ reduction time for at least an appreciable part of the reaction centers was found to be longer after the second and subsequent flashes. In the first 5 flashes an oscillation was observed. Under steady state conditions, with a pulse separation of 3 s, a reduction time for P+ of about 400 ns for all reaction centers gave the best correspondence between computed and experimental fluorescence kinetics.

摘要

已测量了在半衰期为15纳秒、30纳秒和350纳秒的激光闪光下，需氧普通小球藻荧光产率的变化。在3分钟黑暗期后的第一次闪光后的动力学，可以通过以下假设在计算机上进行模拟：氧化受体Q和初级供体P⁺是荧光猝灭剂，而Q⁻是弱猝灭剂，且P⁺的还原时间为20 - 35纳秒。2. 发现在第二次及后续闪光后，至少相当一部分反应中心的P⁺还原时间更长。在前5次闪光中观察到了振荡。在稳态条件下，脉冲间隔为3秒时，所有反应中心的P⁺还原时间约为400纳秒，这使得计算得到的荧光动力学与实验结果最佳吻合。

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叶绿素a荧光作为光系统II中光氧化初级供体P-680纳秒级还原的监测手段。

Chlorophyll a fluorescence as a monitor of nanosecond reduction of the photooxidized primary donor P-680 Of photosystem II.

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