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吡咯并喹啉醌氮杂冠醚配合物作为镧系元素和钙依赖性醇脱氢酶的模拟物*。

Pyrroloquinoline Quinone Aza-Crown Ether Complexes as Biomimetics for Lanthanide and Calcium Dependent Alcohol Dehydrogenases*.

机构信息

Department of Chemistry, Ludwig Maximilian University of Munich, Butenandtstraße 5-13, 81377, Munich, Germany.

Karlsruhe Institute of Technology, Institute of Physical Chemistry, Fritz-Haber-Weg 2, 76128, Karlsruhe, Germany.

出版信息

Chemistry. 2021 Jul 12;27(39):10087-10098. doi: 10.1002/chem.202100346. Epub 2021 May 28.

DOI:10.1002/chem.202100346
PMID:33872420
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8361747/
Abstract

Understanding the role of metal ions in biology can lead to the development of new catalysts for several industrially important transformations. Lanthanides are the most recent group of metal ions that have been shown to be important in biology, that is, in quinone-dependent methanol dehydrogenases (MDH). Here we evaluate a literature-known pyrroloquinoline quinone (PQQ) and 1-aza-15-crown-5 based ligand platform as scaffold for Ca , Ba , La and Lu biomimetics of MDH and we evaluate the importance of ligand design, charge, size, counterions and base for the alcohol oxidation reaction using NMR spectroscopy. In addition, we report a new straightforward synthetic route (3 steps instead of 11 and 33 % instead of 0.6 % yield) for biomimetic ligands based on PQQ. We show that when studying biomimetics for MDH, larger metal ions and those with lower charge in this case promote the dehydrogenation reaction more effectively and that this is likely an effect of the ligand design which must be considered when studying biomimetics. To gain more information on the structures and impact of counterions of the complexes, we performed collision induced dissociation (CID) experiments and observe that the nitrates are more tightly bound than the triflates. To resolve the structure of the complexes in the gas phase we combined DFT-calculations and ion mobility measurements (IMS). Furthermore, we characterized the obtained complexes and reaction mixtures using Electron Paramagnetic Resonance (EPR) spectroscopy and show the presence of a small amount of quinone-based radical.

摘要

了解金属离子在生物学中的作用可以导致为几种重要的工业转化开发新的催化剂。镧系元素是最近一组被证明在生物学中重要的金属离子,即在醌依赖性甲醇脱氢酶(MDH)中。在这里,我们评估了一种文献中已知的吡咯并喹啉醌(PQQ)和 1-氮杂-15-冠-5 基配体平台作为 MDH 的 Ca、Ba、La 和 Lu 模拟物的支架,并使用 NMR 光谱评估了配体设计、电荷、大小、抗衡离子和碱对醇氧化反应的重要性。此外,我们报告了一种新的基于 PQQ 的仿生配体的直接合成途径(3 步而不是 11 步,产率为 33%而不是 0.6%)。我们表明,在研究 MDH 的仿生模拟物时,较大的金属离子和较低电荷的金属离子在这种情况下更有效地促进脱氢反应,这很可能是配体设计的影响,在研究仿生模拟物时必须考虑这一点。为了获得更多关于配合物的结构和抗衡离子影响的信息,我们进行了碰撞诱导解离(CID)实验,观察到硝酸盐比三氟甲磺酸根更紧密地结合。为了在气相中确定配合物的结构,我们结合了密度泛函理论(DFT)计算和离子淌度测量(IMS)。此外,我们使用电子顺磁共振(EPR)光谱对获得的配合物和反应混合物进行了表征,并显示存在少量基于醌的自由基。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d924/8361747/8da62feb459d/CHEM-27-10087-g002.jpg
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本文引用的文献

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The effect of weighted averages when determining the speciation and structure-property relationships of europium(iii) dipicolinate complexes.
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Lanthanide-dependent alcohol dehydrogenases require an essential aspartate residue for metal coordination and enzymatic function.镧系依赖的醇脱氢酶需要一个必需的天冬氨酸残基来进行金属配位和酶功能。
J Biol Chem. 2020 Jun 12;295(24):8272-8284. doi: 10.1074/jbc.RA120.013227. Epub 2020 May 4.
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The Chemistry of Lanthanides in Biology: Recent Discoveries, Emerging Principles, and Technological Applications.生物学中镧系元素的化学:最新发现、新出现的原理及技术应用
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Lanthanide-induced conformational change of methanol dehydrogenase involving coordination change of cofactor pyrroloquinoline quinone.镧系元素诱导甲醇脱氢酶构象变化,涉及辅因子吡咯并喹啉醌的配位变化。
Phys Chem Chem Phys. 2019 Oct 9;21(39):21979-21983. doi: 10.1039/c9cp03953h.
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Studies of Redox Cofactor Pyrroloquinoline Quinone and Its Interaction with Lanthanides(III) and Calcium(II).氧化还原辅因子吡咯并喹啉醌及其与镧系元素(III)和钙(II)相互作用的研究。
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