Asymmetric Total Synthesis of Norzoanthamine

We report herein the asymmetric total synthesis of norzoanthamine using radical reactions as key steps for rapid access to the congested carbocyclic core, which is the major synthetic challenge for most zoanthamine alkaloids. (1) The Ueno–Stork radical cyclization was applied to construct the adjace...

Full description

Saved in:
Bibliographic Details
Published in:Angewandte Chemie 2021-06, Vol.133 (23), p.12917-12922
Main Authors: Xin, Zhengyuan, Wang, Hui, He, Haibing, Zhao, Xiaoli, Gao, Shuanhu
Format: Article
Language:English
Subjects:
Aquatic birds
Asymmetry
Chemistry
metal-catalyzed HAT reaction
norzoanthamine
quaternary centers
radical reactions
Stereochemistry
total synthesis
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:We report herein the asymmetric total synthesis of norzoanthamine using radical reactions as key steps for rapid access to the congested carbocyclic core, which is the major synthetic challenge for most zoanthamine alkaloids. (1) The Ueno–Stork radical cyclization was applied to construct the adjacent quaternary centers at the C‐9 and C‐22 positions; (2) a Co‐catalyzed HAT radical reaction was successfully applied to construct the quaternary center at C‐12 via Csp3‐Csp2 bond formation; (3) a Mn‐catalyzed HAT radical reaction was used to stereospecifically reduce the tetra‐substituted olefin (C13=C18) and install the contiguous stereocenters in proximity to the quaternary center. A one‐pot bio‐inspired cyclization step was finally applied to forge the unstable bis‐amino acetal skeleton. Our approach can precisely control the stereochemistry of seven vicinal stereocenters and effectively construct the highly congested heptacyclic skeleton. We report herein an asymmetric total synthesis of norzoanthamine, a complex marine zoanthamine alkaloid, via radical and bio‐inspired cyclizations comprising the following key steps: 1) the Ueno–Stork radical cyclization; 2) a unique Co‐catalyzed HAT radical reaction; 3) a Mn‐catalyzed HAT radical reaction; and 4) a one‐pot bio‐inspired bis‐aminoacetalization
ISSN:0044-8249
1521-3757
DOI:10.1002/ange.202102643