焦叶卟啉：缺乏天然叶绿素关键羧基功能的难以捉摸的叶绿素分解代谢物。

Pyro-Phyllobilins: Elusive Chlorophyll Catabolites Lacking a Critical Carboxylate Function of the Natural Chlorophylls.

作者信息

Li Chengjie, Wurst Klaus, Berghold Joachim, Podewitz Maren, Liedl Klaus R, Kräutler Bernhard

机构信息

Institute of Organic Chemistry and Centre of Molecular Biosciences, University of Innsbruck, Innrain 80/82, 6020, Innsbruck, Austria.

Present address: Key Laboratory for Advanced Materials and Institute of, Fine Chemicals, School of Chemistry and Molecular Engineering, East China University of Science and Technology, Meilong Rd. 130, 200237, Shanghai, P.R. China.

出版信息

Chemistry. 2018 Feb 26;24(12):2987-2998. doi: 10.1002/chem.201705331. Epub 2018 Jan 31.

DOI:10.1002/chem.201705331

PMID:29244236

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5861670/

Abstract

A β-keto ester grouping is a characteristic of ring E of the chlorophylls (Chls). Its presence has also reinforced the original identification of nonfluorescent Chl catabolites (NCCs) as colorless, amphiphilic phyllobilins (PBs). Polar NCCs were also detected in higher plants, in which a free carboxyl group replaced the ring E ester group. Such NCCs are surprisingly resistant to loss of this carboxyl unit, and NCCs lacking the latter, that is, pyro-NCCs (pyNCCs), have not been reported. Intrigued by the question of the natural occurrence of pyro-phyllobilins (pyPBs), we have prepared a representative pyNCC by decarboxylation of a natural NCC. We also converted the pyNCC into its yellow oxidation product, a pyro-YCC (pyYCC). The solution structures of pyNCC and of pyYCC, and a crystal structure of the pyYCC methyl ester (pyYCC-Me) were obtained. pyYCC-Me features the same remarkable H-bonded and π-stacked dimer structure as the corresponding natural yellow Chl catabolite (YCC) with the ring E methyl ester group. Indeed, the latter substituent has little effect on the structure, as well as on the unique self-assembly and photoswitch behavior of yellow PBs.

摘要

β-酮酯基团是叶绿素（Chls）E环的一个特征。它的存在也强化了最初将非荧光叶绿素分解代谢物（NCCs）鉴定为无色两亲性叶胆素（PBs）的结论。在高等植物中也检测到了极性NCCs，其中一个游离羧基取代了E环酯基。令人惊讶的是，这类NCCs对该羧基单元的丢失具有抗性，而缺乏该羧基单元的NCCs，即焦NCCs（pyNCCs），尚未见报道。受焦叶胆素（pyPBs）自然存在问题的启发，我们通过一种天然NCC的脱羧反应制备了一种代表性的pyNCC。我们还将pyNCC转化为其黄色氧化产物，即焦-YCC（pyYCC）。获得了pyNCC和pyYCC的溶液结构以及pyYCC甲酯（pyYCC-Me）的晶体结构。pyYCC-Me具有与相应的带有E环甲酯基团的天然黄色叶绿素分解代谢物（YCC）相同显著的氢键和π堆积二聚体结构。实际上，后一种取代基对结构以及黄色PBs独特的自组装和光开关行为影响很小。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/457f/5861670/fa6977c8e10c/CHEM-24-2987-g012.jpg

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焦叶卟啉：缺乏天然叶绿素关键羧基功能的难以捉摸的叶绿素分解代谢物。

Pyro-Phyllobilins: Elusive Chlorophyll Catabolites Lacking a Critical Carboxylate Function of the Natural Chlorophylls.

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