Hetero-bicyclic substrate

The high chemoselectivity for the Baeyer-Villiger process was utilized in the synthetic elaboration of another hetero-bicyclic substrate. The biooxidation only provides the expected unsaturated lactone in a desymmetrization reaction without compromising the olefin functionality. The biotransformation product was then converted to pivotal intermediates for C-nucleosides like showdomycin, tetrahydro-furan natural products like kumausyne, and goniofufurone analogs in subsequent chemical operations (Scheme 9.17) [161]. 

A -sulfinylacetamide 297 in greater than 90% yield when a catalytic amount of methyltrioxorhenium is employed. Futhermore, the hetero-Diels-Alder adduct is highly soluble in both chlorinated and ethereal solvents. A detailed investigation of the retro-Diels-Alder reaction of 298 by thermogravimetric analysis revealed an onset temperature of 120 °C and complete conversion of bicycle 298 to pentacene 296 at 160 °C, which are temperatures compatible with the polymer supports typically used in electronics applications. The electronic properties of these newly prepared OTFTs are similar to those prepared by traditional methods. Later improvements to this chemistry included the use of A -sulfinyl-/< r/-butylcarbamate 299 as the dienophile <2004JA12740>. The retro-Diels-Alder reaction of substrate 300 proceeds at much lower temperatures (130 °C, 5 min with FlTcatalyst 150 °C, Ih with no catalyst). 

A highly exo-selective asymmetric hetero Diels-Alder reaction was the key step in D.A. Evans total synthesis of (-)-epibatidine. The bicyclic cycloadduct was then subjected to a fluoride-promoted fragmentation that afforded a (f-keto ester, which was isolated exclusively as its enol tautomer. The removal of the ethoxycarbonyl functionality was achieved using the Krapcho decarboxylation. Interestingly, the presence of a metal salt was not necessary in this transformation. Simply heating the substrate in wet DMSO gave rise to the decarboxylated product in quantitative yield. 

A diastereoselective tandem intramolecular hetero-5 + 2-cycloaddition/Claisen rearrangement of vinylic oxirane-alkyne substrates using a rhodium NHC complex to provide regiospecific and diastereoselective access to [3.1.0] bicyclic products has been reported (Scheme 153). ... 

The Rh-catalyzed intramolecular cycloaddition has proven reliable for the construction of polycyclic carbocycles and heterocycles. The cascade processes involving this reaction have also been achieved. A recent example is the cascade intramolecular hetero-[5 + 2] cycloaddition/Claisen rearrangement reaction of vinylic oxirane-aUcyne substrates 73, which uses the rhodium NHC complex as catalyst and provides atom-economical, regiospecific, and diastereoselective access to [3.1.0] bicyclic products 74 (Scheme 5.50) [48]. 

The [5+2] cycloaddition has been included in several domino processes. For example, Feng and Zhang have recentiy developed a novel, regiospecific, and diastereoselective domino intramolecular hetero-[5+2] cycloaddition-Claisen rearrangement of vinylic oxirane-alkyne substrates 90, which employed the rhodium Af-heterocyclic carbene complex, RhCl(/-Pr)(cod), as catalyst [95]. The process provided the corresponding [3.1.0] bicyclic products 91 in moderate to high yields (47-92%), as shown in Scheme 20.39. The authors have demonstrated the complete chirality transfer by performing the reaction with an enantiomerically enriched... 

A rapid synthesis of a series of acetylene-tethered pyrimidines was achieved by intramolecular hetero-Diels-Alder addition under microwave irradiation. The substrates gave moderate to high yields (60-90%) of the fused bicyclic pyridines within shorter reaction time. This method has been applied successfully to the synthesis of both fused lactones and lactam (Shao, 2005). 

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