High pressure-promoted domino

In contrast to the complete regioselectivity observed in the 1,3-dipolar cycloaddition of nitronate 16b and methyl crotonate 42 or methyl cinnamate 44 shown in Scheme 9.14, the [3 -t 2] cycloaddition of yS-nitrostyrene (15a) and nitronate intermediate 16a was not completely regioselective. Regio-isomers 46 and 47 were formed in 83 % yield, as mixtures of diastereomers, in a 7 3 ratio after the high pressure-promoted domino cycloaddition of enol ether 14 with 2 equiv. fi-nitrostyrene (15a) (15 kbar, RT, 18 h, Scheme 9.15). The formation of regio-isomer 46 as major product was rather unexpected, since comparable 1,3-dipolar cycloadditions of nitrones and nitroalkenes [25] showed the opposite regio-isomer to be formed predominantly. This nitroso acetal (46) was converted to )S-lactam (48) via a base-catalyzed rearrangement (Scheme 9.16). This conversion appeared applicable to different hi- and tricyclic nitroso acetals and led to the formation of a novel class of bi- and tricyclic yS-lactams [26]. 

High Pressure-Promoted Domino [4 -f 2J/[4 4- 2J/[3 -(- 2] Cycioaddition of 2-Methoxy-... 

Scheme 12.72 High-pressure-promoted domino reaction of ethoxyethene.

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