Alkyne derivatives reaction scope

Huisgen and coworkers have also described the cycloaddition behavior of the munchnones , unstable mesoionic A2-oxazolium 5-oxides with azomethine ylide character.166 Their reactions closely parallel those of the related sydnones. These mesoionic dipoles are readily prepared by cyclodehydration of N-acyl amino acids (216) with reagents such as acetic anhydride. The reaction of munchnones with alkynic dipolarophiles constitutes a pyrrole synthesis of broad scope.158-160 1,3-Dipolar cycloaddition of alkynes to the A2-oxazolium 5-oxide (217), followed by cycloreversion of carbon dioxide from the initially formed adduct (218), gives pyrrole derivative (219 Scheme 51) in good yield. Cycloaddition studies of munchnones with other dipolarophiles have resulted in practical, unique syntheses of numerous functionalized monocyclic and ring-annulated heterocycles.167-169... 

The stereochemical requirements for the synthesis were fulfilled starting from enantiomerically pure alkynes 16, whereas the regiocontrol was achieved, when necessary (the [4-1-1] annulation can afford mixtures of quinoline derivatives, see Scheme 6), using ort/ o-(trimethylsilyl)-substituted arylisonitriles 15 (Scheme 7). In conclusion, the authors set up an asymmetric, regioselective, and widely applicable protocol that allowed the synthesis of more than fifty different compounds, proving once more the broad scope and functional-group tolerance of radical reactions. 

Another conjugate addition, to the dehydroalanine derivative 38 on solid-phase, was reported by Yim et al. [19], Radical generation using t-butyl iodide and tribu-tyltin hydride afforded only 8% of the desired product, while better results were obtained with organomercurials (Scheme 8). The intermolecular addition of tosyl radicals to unactivated alkene and alkyne 39 has also been reported [20], and the reaction was found to be quite sensitive to solvent. Optimum results were obtained in toluene, although the scope is difficult to gauge with only two examples disclosed. 

Heterocyclic o-quinodimethanes are unstable and reactive dienes that must be generated in situ. In solution and in the pre.sence of a dienophile the -quinodimethanes can be intercepted in a Diels-Alder reaction, often in high yield. Most of the dienophiles investigated so far have been electron deficient A-phenylmaleiinide. acrylonitrile, methyl vinyl ketone, acrylate, ftimarate and acetylenedicarboxylic esters are typically used. However, since the objective of most of the work was simply to establish that the o-quinodimethane was being formed, the scope of the reaction has not been adequately explored. The pyridine derived o-quinodimethane 12 has recently been shown to undergo cycloaddition to ethyl vinyl ether (Scheme 2) and to dihydroftiran <96T11889>, and it is thus clear that the scope of the Diels-Alder reaction extends beyond electron deficient alkenes and alkynes. Heterodienophiles (azodicarbonyl compounds and nitrosobenzene) have been added to indole-2,3-quinodimethanes <91T192,S> and this type of hetero Diels-Alder reaction is also potentially of wider application. 

An unprecedented cyclopropenation reaction of alkynes catalyzed by ZnCl2 was reported. While Simmons-Smith-type carbenoids failed in the [2 + 1]-cycloaddition with alkynes, the use of enynones as the carbene source enabled the preparation of substituted 2-furyl cyclopropene derivatives with remarkable scope (14OL5780). 

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