Add to ORKGArcutinidine and other arcutinidine-type diterpenoid alkaloids feature an intricate polycyclic, bridged framework with unusual connectivity. A chemical network analysis approach to the arcutane skeleton enabled the identification of highly simplifying retrosynthetic disconnections, which indicated that the caged structure could arise from a simpler fused ring system. On this basis, a total synthesis of arcutinidine is reported herein, featuring an unprecedented oxopyrrolium Diels-Alder cycloaddition which furnishes a key tetracyclic intermediate. In addition, the synthesis utilizes a diastereoselective oxidative dearomatization/cycloaddition sequence and a SmI2-mediated C-C coupling to forge the bridged framework of the natural products. Th...
(DIAGRAM, TABLE OR GRAPHIC OMITTED...PLEASE SEE DAI)Acutiphycin was isolated in 1984 by Moore and co...
A unified, convergent fragment coupling approach to the C₁₉- and C₂₀-diterpenoid alkaloid natural pr...
The secondary metabolites that comprise the diterpenoid alkaloids are categorized into C<sub>18</sub...
This dissertation describes our approaches toward a variety of natural products, including the arcut...
Retrosynthetic analysis is a cornerstone of modern natural product synthesis, providing an array of ...
Compounds isolated from natural sources serve as an inspiration for current drug design and developm...
A possible biosynthetic link between atropurpuran, the hetidine diterpenoid alkaloids and the alkalo...
General strategies for the chemical synthesis of organic compounds, especially of architecturally co...
This thesis highlights a multitude of projects all with the goal of synthesizing complex molecules, ...
In this two-part dissertation, several different strategies are developed to attempt concise synthes...
Diterpenoid alkaloid natural products, isolated from plants in the Aconitum, Delphinium, Consolida, ...
A key challenge in the synthesis of diterpenoid alkaloids lies in identifying strategies that rapidl...
Chapter 1 of this dissertation lays the foundation for understanding the role diterpenoid alkaloid n...
The secondary metabolites that comprise the diterpenoid alkaloids are categorized into C18, C19, and...
Synthesis inspired by natural products has a long tradition in drug development. Because the structu...
(DIAGRAM, TABLE OR GRAPHIC OMITTED...PLEASE SEE DAI)Acutiphycin was isolated in 1984 by Moore and co...
A unified, convergent fragment coupling approach to the C₁₉- and C₂₀-diterpenoid alkaloid natural pr...
The secondary metabolites that comprise the diterpenoid alkaloids are categorized into C<sub>18</sub...
This dissertation describes our approaches toward a variety of natural products, including the arcut...
Retrosynthetic analysis is a cornerstone of modern natural product synthesis, providing an array of ...
Compounds isolated from natural sources serve as an inspiration for current drug design and developm...
A possible biosynthetic link between atropurpuran, the hetidine diterpenoid alkaloids and the alkalo...
General strategies for the chemical synthesis of organic compounds, especially of architecturally co...
This thesis highlights a multitude of projects all with the goal of synthesizing complex molecules, ...
In this two-part dissertation, several different strategies are developed to attempt concise synthes...
Diterpenoid alkaloid natural products, isolated from plants in the Aconitum, Delphinium, Consolida, ...
A key challenge in the synthesis of diterpenoid alkaloids lies in identifying strategies that rapidl...
Chapter 1 of this dissertation lays the foundation for understanding the role diterpenoid alkaloid n...
The secondary metabolites that comprise the diterpenoid alkaloids are categorized into C18, C19, and...
Synthesis inspired by natural products has a long tradition in drug development. Because the structu...
(DIAGRAM, TABLE OR GRAPHIC OMITTED...PLEASE SEE DAI)Acutiphycin was isolated in 1984 by Moore and co...
A unified, convergent fragment coupling approach to the C₁₉- and C₂₀-diterpenoid alkaloid natural pr...
The secondary metabolites that comprise the diterpenoid alkaloids are categorized into C<sub>18</sub...