Aza-[4 + 3] cycloadditions of putative aza-oxyallyl cationic intermediates and cyclic dienes are reported. The intermediate is generated by the dehydrohalogenation of α-haloamides. The reaction is general to a variety of α-haloamides and is diastereoselective. Computational and experimental data suggest that an N-alkoxy substituent stabilizes the aza-oxyallyl cationic intermediate.
The main objective of this review is to provide a comprehensive survey of methods used for stereoselective construction of carbon-nitrogen bonds during the total synthesis of nitrogen-containing natural products that have appeared in the literature since 2000. The material is organized by specific reaction in order of decreasing number of applications in natural product synthesis. About 800 total syntheses of natural products with stereogenic carbon-nitrogen bonds described since 2000 have been reviewed.
Michael
addition is a premier synthetic method for carbon–carbon
and carbon–heteroatom bond formation. Using chiral dilithium
amides as traceless auxiliaries, we report the direct enantioselective
Michael addition of carboxylic acids. A free carboxyl group in the
product provides versatility for further functionalization, and the
chiral reagent can be readily recovered by extraction with aqueous
acid. The method has been applied in the enantioselective total synthesis
of the purported structure of pulveraven B.
The intramolecular aza-(4 + 3) cycloaddition reactions of in situ generated aza-oxyallylic cations and furans have been reported for the construction of medium sized hydroxamate macrocycles.
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