天然产物
模块化设计
化学
组合化学
计算机科学
生化工程
立体化学
工程类
程序设计语言
作者
Vunnam Srinivasulu,Gourishetty Srikanth,Monther A. Khanfar,Imad A. Abu‐Yousef,Amin F. Majdalawieh,Ralph Mazitschek,Subbaiah Chennam Setty,Anusha Sebastian,Taleb H. Al‐Tel
标识
DOI:10.1021/acs.joc.1c02698
摘要
The complexity-to-diversity (CtD) strategy has become one of the most powerful tools used to transform complex natural products into diverse skeleta. However, the reactions utilized in this process are often limited by their compatibility with existing functional groups, which in turn restricts access to the desired skeletal diversity. In the course of employing a CtD strategy en route to the synthesis of natural product-inspired compounds, our group has developed several stereodivergent strategies employing indoloquinolizine natural product analogues as starting materials. These transformations led to the rapid and diastereoselective synthesis of diverse classes of natural product-like architectures, including camptothecin-inspired analogues, azecane medium-sized ring systems, arborescidine-inspired systems, etc. This manifestation required a drastic modification of the synthetic design that ultimately led to modular and diastereoselective access to a diverse collection of various classes of biologically significant natural product analogues. The reported strategies provide a unique platform that will be broadly applicable to other late-stage natural product transformation approaches.
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