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引用次数: 0
摘要
含氧光养生物使用叶绿素(Chls)作为光合作用活性色素。在光合真核生物(包括绿色植物、藻类和蓝藻)中发现了多种叶绿素分子。在此,我们回顾了它们的分子结构和立体化学特征、在光收集天线和反应中心中的存在、后期生物合成、化学稳定性以及在二乙醚中的可见吸收最大值。观察到的最大值与二氯甲烷中的半合成螯合态类似物甲基吡咯烷的最大值相当。本文讨论了外围取代基和核心π-共轭对单体态最大值的影响。值得注意的是,在 Chl-a 中,沿分子 x 轴的氧化作用会产生其附属色素 Chls-b/c,而沿与 x 轴垂直的 y 轴引入一个抽电子的甲酰基则会产生吸收远红光的 Chls-d/f。
Oxygenic phototrophs use chlorophylls (Chls) as photosynthetically active pigments. A variety of Chl molecules have been found in photosynthetic eukaryotes including green plants, algae, and cyanobacteria. Here we review their molecular structures with stereochemistry, occurrence in light-harvesting antennas and reaction centers, biosyntheses in the late stage, chemical stabilities, and visible absorption maxima in diethyl ether. The observed maxima are comparable to those of semisynthetic Chl analogs, methyl pyropheophorbides, in dichloromethane. The effects of their peripheral substituents and core π-conjugation on the maxima of the monomeric states are discussed. Notably, the oxidation along the molecular x-axis in Chl-a produces its accessory pigments, Chls-b/c, and introduction of an electron-withdrawing formyl group along the y-axis perpendicular to the x-axis affords far-red light absorbing Chls-d/f.
期刊介绍:
Plant & Cell Physiology (PCP) was established in 1959 and is the official journal of the Japanese Society of Plant Physiologists (JSPP). The title reflects the journal''s original interest and scope to encompass research not just at the whole-organism level but also at the cellular and subcellular levels.
Amongst the broad range of topics covered by this international journal, readers will find the very best original research on plant physiology, biochemistry, cell biology, molecular genetics, epigenetics, biotechnology, bioinformatics and –omics; as well as how plants respond to and interact with their environment (abiotic and biotic factors), and the biology of photosynthetic microorganisms.
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