连续断裂和重建木质素 β-O-4 模型和聚合物以获得喹喔啉。

Successive Cleavage and Reconstruction of Lignin β-O-4 Models and Polymer to Access Quinoxalines.

机构信息

CAS Key Laboratory of Science and Technology on Applied Catalysis, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, 116023, Dalian, P. R. China.

University of Chinese Academy of Sciences, 100049, Beijing, P. R. China.

出版信息

ChemSusChem. 2022 Nov 8;15(21):e202201401. doi: 10.1002/cssc.202201401. Epub 2022 Sep 23.

DOI:10.1002/cssc.202201401

PMID:36055966

Abstract

The construction of N-heterocyclic compounds from lignin remains a great challenge due to the complex lignin structure and the involvement of multiple steps, including the cleavage of lignin C-O linkages and the formation of heterocyclic aromatic rings. Herein, the first example of KOH mediated sustainable synthesis of quinoxaline derivatives from lignin β-O-4 model compounds in a one-pot fashion under transition-metal-free conditions has been achieved. Mechanistic studies suggested that this transformation includes highly coupled cascade steps of cleavage of C-O bonds, dehydrative condensation, sp C-H bond oxidative activation, and intramolecular dehydrative coupling reaction. With this protocol, a wide range of functionalized quinoxalines, including an important drug compound AG1295, were synthesized from lignin β-O-4 model compounds and β-O-4 polymer, showcasing the application potential of lignin in pharmaceutical synthesis.

摘要

由于木质素结构复杂且涉及多个步骤，包括木质素 C-O 键的断裂和杂环芳环的形成，因此将木质素转化为 N-杂环化合物仍然是一个巨大的挑战。在此，首次在无过渡金属条件下，通过 KOH 介导的一锅法从木质素 β-O-4 模型化合物中可持续合成了喹喔啉衍生物，这是首例报道。机理研究表明，这种转化包括 C-O 键的高度偶联级联断裂、脱水缩合、sp3C-H 键的氧化活化和分子内脱水偶联反应。通过该方案，可从木质素 β-O-4 模型化合物和 β-O-4 聚合物中合成出多种功能化的喹喔啉类化合物，包括重要的药物化合物 AG1295，展示了木质素在药物合成中的应用潜力。

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连续断裂和重建木质素 β-O-4 模型和聚合物以获得喹喔啉。

Successive Cleavage and Reconstruction of Lignin β-O-4 Models and Polymer to Access Quinoxalines.

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