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光合系统中的多重激发

Multiple excitations in photosynthetic systems.

作者信息

Mauzerall D

出版信息

Biophys J. 1976 Jan;16(1):87-91. doi: 10.1016/S0006-3495(76)85665-2.

DOI:10.1016/S0006-3495(76)85665-2
PMID:1244892
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1334816/
Abstract

The yield of fluorescence in Chlorella from a 7 ns pulse of light is found to decrease gradually as a function of the number of hits in the photosynthetic units. The fivefold decrease in yield is spread over some three orders of magnitude of pulse energy and strongly suggests another random process in addition to that of photon absorption. Evidence supports the view that this random process is not in the time but in the spatial domain. The model used to fit the data is that of a unit with multiple traps for the singlet excitation. An excitation is captured by an open trap or destroyed by a filled trap with equal probability. These studies give evidence for the connectivity of the photosynthetic energy transfer apparatus on the short time scale. The short fluorescence lifetimes following picosecond pulse excitation of photosynthetic systems reported by several laboratories may be explained by the effect of multiple excitations.

摘要

小球藻中荧光的产率在受到7纳秒光脉冲照射时,被发现会随着光合单位中受击次数的增加而逐渐降低。产率下降五倍的情况分布在脉冲能量的大约三个数量级范围内,这有力地表明除了光子吸收过程之外,还存在另一个随机过程。有证据支持这样一种观点,即这个随机过程不是在时间域,而是在空间域。用于拟合数据的模型是一个具有多个单重态激发陷阱的单元模型。激发被一个开放陷阱捕获或被一个已满的陷阱破坏的概率相等。这些研究为光合作用能量转移装置在短时间尺度上的连通性提供了证据。几个实验室报道的光合系统在皮秒脉冲激发后短荧光寿命可能可以用多重激发的效应来解释。

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