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叶绿素 d 光物理的磷光研究。测定光激发三重态的能量和寿命。单线态氧敏化的证据。

Phosphorescence study of chlorophyll d photophysics. Determination of the energy and lifetime of the photo-excited triplet state. Evidence of singlet oxygen photosensitization.

机构信息

A.N. Bach Institute of Biochemistry, Russian Academy of Science, Leninskii pr., 33, Moscow, 119071, Russian Federation.

出版信息

Photosynth Res. 2011 Sep;108(2-3):101-6. doi: 10.1007/s11120-011-9657-x. Epub 2011 May 15.

DOI:10.1007/s11120-011-9657-x
PMID:21573948
Abstract

Chlorophyll d (Chl d) is the major pigment in both photosystems (PSI and II) of the cyanobacterium Acaryochloris marina, whose pigment composition represents an interesting alternative in oxygenic photosynthesis. While abundant information is available relative to photophysical properties of Chl a , the understanding of Chl d photophysics is still incomplete. In this paper, we present for the first time a characterization of Chl d phosphorescence, which accompanies radiative deactivation of the photoexcited triplet state of this pigment. Reliable information was obtained on the energy and lifetime of the Chl d triplet state in frozen solutions at 77 K using diethyl ether and aqueous dispersions of Triton X100 as solvents. It is shown that triplet Chl d is effectively populated upon photoexcitation of pigment molecules and efficiently sensitizes singlet oxygen phosphorescence in aerobic solutions under ambient conditions. The data obtained are compared with the previous results of the phosphorescence studies of Chl a and Pheo a, and their possible biological implications are discussed.

摘要

叶绿素 d(Chl d)是海洋鱼腥藻的两个光系统(PSI 和 II)中的主要色素,其色素组成代表了产氧光合作用中的一个有趣选择。虽然相对于 Chl a 的光物理性质已经有了丰富的信息,但对 Chl d 光物理的理解仍然不完整。在本文中,我们首次对 Chl d 磷光进行了表征,该磷光伴随着该色素光激发三重态的辐射去活化。在 77 K 下使用二乙醚和 Triton X100 的水性分散体作为溶剂,在冷冻溶液中可靠地获得了 Chl d 三重态的能量和寿命的信息。结果表明,在有氧条件下,三重态 Chl d 可以有效地在光激发色素分子后被填充,并有效地敏化单线态氧磷光。所得数据与以前对 Chl a 和 Pheo a 磷光研究的结果进行了比较,并讨论了它们可能的生物学意义。

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本文引用的文献

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Both chlorophylls a and d are essential for the photochemistry in photosystem II of the cyanobacteria, Acaryochloris marina.叶绿素a和叶绿素d对于蓝细菌海栖热袍菌光系统II中的光化学过程均至关重要。
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