水相条件下受生物启发的氮杂环卡宾有机催化施陶丁格反应

Bio-inspired NHC-organocatalyzed Stetter reaction in aqueous conditions.

作者信息

Debiais Mégane, Hamoud Aladin, Drain Reihana, Barthélémy Philippe, Desvergnes Valérie

机构信息

Univ. Bordeaux, CNRS, INSERM, ARNA, UMR 5320, U1212 F-33000 Bordeaux France

ChemBioPharm Team 146 Rue Leo Saignat, UFR Pharmacie, 3ième Tranche, 4ième étage 33076 Bordeaux Cedex France.

出版信息

RSC Adv. 2020 Nov 9;10(67):40709-40718. doi: 10.1039/d0ra08326g.

DOI:10.1039/d0ra08326g

PMID:35519190

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9057722/

Abstract

The first bio-inspired N-Heterocyclic Carbene (NHC)-catalyzed Stetter reaction in aqueous medium is reported with benzaldehyde and chalcone as model substrates. A screening of azolium salts as precatalysts revealed the remarkable efficiency of synthetic thiazolium salt 8 (up to 90% conversion in pure water at 75 °C). The reaction was successfully extended to various simple aldehyde substrates. The effect of temperature was also investigated in order to extend the reaction to lower temperature allowing a potential application to sensitive biomolecules. This study highlighted the influence of both solvent and temperature on the 1,4-diketone 3/benzoin 4 ratio. New precatalysts 26 and 27 were designed and synthesized to explore a possible compartmentalization of the reaction in aqueous conditions. Owing to the use of inexpensive metal-free N-Heterocyclic Carbene (NHC) as a bioinspired catalyst, we anticipate that this green strategy in aqueous conditions will be attractive for bioconjugation of many biomolecule-type aldehydes and enone derivatives.

摘要

报道了在水介质中以苯甲醛和查尔酮为模型底物的首例受生物启发的N-杂环卡宾（NHC）催化的施陶丁格反应。对作为预催化剂的唑盐进行筛选后发现，合成噻唑盐8具有显著的催化效率（在75℃的纯水中转化率高达90%）。该反应成功扩展到各种简单的醛底物。还研究了温度的影响，以便将反应扩展到更低温度，从而有可能应用于敏感的生物分子。这项研究突出了溶剂和温度对1,4-二酮3/苯偶姻4比例的影响。设计并合成了新的预催化剂26和27，以探索在水相条件下反应的可能分隔。由于使用了廉价的无金属N-杂环卡宾（NHC）作为受生物启发的催化剂，我们预计这种水相条件下的绿色策略对于许多生物分子类型的醛和烯酮衍生物的生物共轭将具有吸引力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/79e6/9057722/0d29e8f2b3ed/d0ra08326g-s1.jpg

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水相条件下受生物启发的氮杂环卡宾有机催化施陶丁格反应

Bio-inspired NHC-organocatalyzed Stetter reaction in aqueous conditions.

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