化学
脱氨基
酚类
脱羧
区域选择性
氨
苯酚
有机化学
环境友好型
衍生工具(金融)
生物转化
组合化学
催化作用
酶
生态学
金融经济学
经济
生物
作者
Eduardo Busto,Robert C. Simon,Wolfgang Kroutil
标识
DOI:10.1002/anie.201505696
摘要
Readily available substituted phenols were coupled with pyruvate in buffer solution under atmospheric conditions to afford the corresponding para-vinylphenol derivatives while releasing only one molecule of CO2 and water as the by-products. This transformation was achieved by designing a biocatalytic system that combines three biocatalytic steps, namely the C-C coupling of phenol and pyruvate in the presence of ammonia, which leads to the corresponding tyrosine derivative, followed by deamination and decarboxylation. The biocatalytic transformation proceeded with high regioselectivity and afforded exclusively the desired para products. This method thus represents an environmentally friendly approach for the direct vinylation of readily available 2-, 3-, or 2,3-disubstituted phenols on preparative scale (0.5 mmol) that provides vinylphenols in high yields (65-83 %).
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