通过组合化学催化和生物催化 C-H 功能化反应实现 Tambromycin 的全合成。
Total Synthesis of Tambromycin by Combining Chemocatalytic and Biocatalytic C-H Functionalization.
机构信息
Department of Chemistry, The Scripps Research Institute, 130 Scripps Way, Jupiter, FL, 33458, USA.
出版信息
Angew Chem Int Ed Engl. 2018 Apr 23;57(18):5037-5041. doi: 10.1002/anie.201801165. Epub 2018 Mar 23.
A combination of genomic and metabolomic approaches recently resulted in the identification of a nonribosomal tetrapeptide tambromycin, which possesses promising antiproliferative activity and several unusual structural features, including a densely substituted indole, a methyloxazoline ring, and an unusual pyrrolidine-containing amino acid called tambroline. In this work, we identify a concise synthetic route to access tambromycin, which relies on the strategic use of biocatalytic and chemocatalytic C-H functionalization methods to prepare two key precursors to the natural product in an efficient and scalable manner. The success of our study highlights the benefits of applying the principles of biocatalytic retrosynthesis as well as C-H functionalization logic to the synthesis of complex molecular scaffolds.
最近,基因组学和代谢组学方法的结合导致了一种非核糖体四肽 tambromycin 的鉴定,它具有有前途的抗增殖活性和几个不寻常的结构特征,包括一个密集取代的吲哚、一个甲氧基恶唑啉环和一个不寻常的含有吡咯烷的氨基酸称为 tambroline。在这项工作中,我们确定了一种简洁的合成路线来获得 tambromycin,该路线依赖于生物催化和化学催化 C-H 功能化方法的战略应用,以高效和可扩展的方式制备天然产物的两个关键前体。我们研究的成功突出了应用生物催化反合成原理以及 C-H 功能化逻辑来合成复杂分子支架的好处。
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