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通过热释光和闪光诱导叶绿素荧光测量研究海生蓝细菌中光系统II电荷复合的能量学

Energetics of Photosystem II charge recombination in Acaryochloris marina studied by thermoluminescence and flash-induced chlorophyll fluorescence measurements.

作者信息

Cser Krisztián, Deák Zsuzsanna, Telfer Alison, Barber James, Vass Imre

机构信息

Institute of Plant Biology, Biological Resarch Center, Szeged, Hungary.

出版信息

Photosynth Res. 2008 Oct-Dec;98(1-3):131-40. doi: 10.1007/s11120-008-9373-3. Epub 2008 Oct 7.

DOI:10.1007/s11120-008-9373-3
PMID:18839331
Abstract

We studied the charge recombination characteristics of Photosystem II (PSII) redox components in whole cells of the chlorophyll (Chl) d-dominated cyanobacterium, Acaryochloris marina, by flash-induced chlorophyll fluorescence and thermoluminescence measurements. Flash-induced chlorophyll fluorescence decay was retarded in the mus and ms time ranges and accelerated in the s time range in Acaryochloris marina relative to that in the Chl a-containing cyanobacterium, Synechocystis PCC 6803. In the presence of 3-(3,4-dichlorophenyl)-1, 1-dimethylurea, which blocks the Q(B) site, the relaxation of fluorescence decay arising from S(2)Q(A)(-) recombination was somewhat faster in Acaryochloris marina than in Synechocystis PCC 6803. Thermoluminescence intensity of the so called B band, arising from the recombination of the S(2)Q(B)(-) charge separated state, was enhanced significantly (2.5 fold) on the basis of equal amounts of PSII in Acaryochloris marina as compared with Synechocystis 6803. Our data show that the energetics of charge recombination is modified in Acaryochloris marina leading to a approximately 15 meV decrease of the free energy gap between the Q(A) and Q(B) acceptors. In addition, the total free energy gap between the ground state and the excited state of the reaction center chlorophyll is at least approximately 25-30 meV smaller in Acaryochloris marina, suggesting that the primary donor species cannot consist entirely of Chl a in Acaryochloris marina, and there is a contribution from Chl d as well.

摘要

我们通过闪光诱导叶绿素荧光和热释光测量,研究了以叶绿素(Chl)d为主的蓝细菌——滨海栖热菌全细胞中光系统II(PSII)氧化还原成分的电荷复合特性。相对于含Chl a的蓝细菌集胞藻PCC 6803,滨海栖热菌的闪光诱导叶绿素荧光衰减在mus和ms时间范围内延迟,而在s时间范围内加速。在存在阻断Q(B)位点的3-(3,4-二氯苯基)-1,1-二甲基脲的情况下,滨海栖热菌中由S(2)Q(A)(-)复合引起的荧光衰减弛豫比集胞藻PCC 6803稍快。基于等量的PSII,滨海栖热菌中由S(2)Q(B)(-)电荷分离态复合产生的所谓B带热释光强度比集胞藻6803显著增强(2.5倍)。我们的数据表明,滨海栖热菌中电荷复合的能量学发生了改变,导致Q(A)和Q(B)受体之间的自由能隙降低了约15 meV。此外,滨海栖热菌中反应中心叶绿素基态与激发态之间的总自由能隙至少小约25 - 30 meV,这表明滨海栖热菌中的初级供体物种不能完全由Chl a组成,Chl d也有贡献。

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