吡啶的单点活化可实现还原性羟甲基化。

Single point activation of pyridines enables reductive hydroxymethylation.

作者信息

Marinic Bruno, Hepburn Hamish B, Grozavu Alexandru, Dow Mark, Donohoe Timothy J

机构信息

Chemistry Research Laboratory, University of Oxford Mansfield Road Oxford OX1 3TA UK

AstraZeneca Silk Road Macclesfield SK10 2NA UK.

出版信息

Chem Sci. 2020 Nov 16;12(2):742-746. doi: 10.1039/d0sc05656a.

DOI:10.1039/d0sc05656a

PMID:34163807

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8178984/

Abstract

The single point activation of pyridines, using an electron-deficient benzyl group, facilitates the ruthenium-catalysed dearomative functionalisation of a range of electronically diverse pyridine derivatives. This transformation delivers hydroxymethylated piperidines in good yields, allowing rapid access to medicinally relevant small heterocycles. A noteworthy feature of this work is that paraformaldehyde acts as both a hydride donor and an electrophile in the reaction, enabling the use of cheap and readily available feedstock chemicals. Removal of the activating group can be achieved readily, furnishing the free NH compound in only 2 steps. The synthetic utility of the method was illustrated with a synthesis of (±)-Paroxetine.

摘要

使用缺电子苄基对吡啶进行单点活化，有助于一系列电子性质多样的吡啶衍生物的钌催化去芳构化官能团化反应。该转化反应能以良好的产率得到羟甲基化哌啶，从而能够快速获得与药物相关的小杂环化合物。这项工作的一个值得注意的特点是，多聚甲醛在反应中既作为氢化物供体又作为亲电试剂，使得能够使用廉价且容易获得的原料化学品。活化基团的去除可以很容易地实现，只需两步就能得到游离的NH化合物。该方法的合成实用性通过（±）-帕罗西汀的合成得到了说明。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2fa0/8178984/9faac171f29c/d0sc05656a-s1.jpg

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吡啶的单点活化可实现还原性羟甲基化。

Single point activation of pyridines enables reductive hydroxymethylation.

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