1.3- Dipolar cycloaddition reactions synthetic equivalents

Trimethylenemethane is a special type of alkene that does not exist as the free compound. Various synthetic equivalents to the synthon 43 shown below have been reported. Trost, in particular, has exploited these compounds in 1,3-dipolar cycloaddition reactions.138 139 A metal-bound, isolated trimethylenemethane species was recently reported by Ando (Scheme 6). It resulted from the complexation of an ero-methylenesila-cyclopropene with group 8 carbonyls (Fe, Ru).140,140a The structure was proved by X-ray crystal structure analysis.29Si NMR data were consistent with the -structure shown. 

Recently, Denmark and coworkers have developed a new strategy for the construction of complex molecules using tandem [4+2]/[3+2]cycloaddition of nitroalkenes.149 In the review by Denmark, the definition of tandem reaction is described and tandem cascade cycloadditions, tandem consecutive cycloadditions, and tandem sequential cycloadditions are also defined. The use of nitroalkenes as heterodienes leads to the development of a general, high-yielding, and stereoselective method for the synthesis of cyclic nitronates (see Section 5.2). These dipoles undergo 1,3-dipolar cycloadditions. However, synthetic applications of this process are rare in contrast to the functionally equivalent cycloadditions of nitrile oxides. This is due to the lack of general methods for the preparation of nitronates and their instability. Thus, as illustrated in Scheme 8.29, the potential for a tandem process is formulated in the combination of [4+2] cycloaddition of a donor dienophile with [3+2]cycload-... 

Alkyl and silyl nitronates are, in principle, /V-alkoxy and /V-silyloxynitrones, and they can react with alkenes in 1,3-dipolar cycloadditions to form /V-alkoxy- or /V-silyloxyisoxaz.olidine (see Scheme 8.25). The alkoxy and silyloxy groups can be eliminated from the adduct on heating or by acid treatment to form 2-isoxazolines. It should be noticed that isoxazolines are also obtained by the reaction of nitrile oxides with alkenes thus, nitronates can be considered as synthetic equivalents of nitrile oxides. Since the pioneering work by Torssell et al. on the development of silyl nitronates, this type of reaction has become a useful synthetic tool. Recent development for generation of cyclic nitronates by hetero Diels-Alder reactions of nitroalkenes is discussed in Section 8.3. 

Amino-l,2,4-thiadiazoles 191 are obtained when ether is used (249), while 5-alkylthio-1,2,3-triazoles 192 result when the reaction is carried out in THF (250). Reaction of 3 with carbon disulfide leads to 5-alkylthio-l,2,3-thiadiazoles 193 (251). While 3 can act as a synthetic equivalent of the RC—N—N synthon (R = H, SiMea) in all these reactions, it should be emphasized that it does not react by a concerted 1,3-dipolar cycloaddition but rather by a stepwise polar mechanism. The highly nucleophilic character of 3 can account for why diazomethane and... 

Gribble and coworkers [90, 91] have shown that munchnones 220 undergo dipolar cycloadditions with 2- or 3-nitro-substituted A -protected indoles 219 to give, after loss of carbon dioxide from the initial cycloadduct 221, the corresponding pyrroloindoles 222. These products are synthetic equivalents of indole 2,3-quino-dimethanes and in turn have been used as dienes in subsequent Diels-Alder reactions (see the following chapter). For munchnones that provide unsymmetrically substituted pyrroles (i.e.. Re and R7 are not same), good regioselectivity is observed in the cycloaddition reactions (Scheme 60). 

Ethyl 5-trifluoromethylpyrazole-3-carboxylate was quantitatively prepared in a 1,3-dipolar cycloaddition between ethyl diazoacetate and sulphur (or bromo) derivatives of 3,3,3-trifluoropropene that act as easier to handle synthetic equivalents of 3,3,3-trifluoropropyne [35]. On top of all these studies, the most common strategy for the preparation of 3- and 5-trifluoromethylpyrazoles entails the [3 + 2] heterocy-clization of trifluoromethyl building blocks derived from p-(amino/aIkoxy/thioxy) vinylketones and 1,3-dicarbonyl with monosubstituted hydrazines. Mixtures of regioisomers are often obtained depending on the substrate, the substituent of the hydrazine, and the reaction conditions [36]. 

Developments in the field of stereoselective 1,3-dipolar cycloadditions and their synthetic applications are outlined in Sections 18.2 to 18.4 [22, 23, 28-34]. Subsequently, related [2-i-3]-cycloadditions with 1,3-diradicals and trimethylenemethane equivalents that furnish the corresponding five-membered carbocycles are covered (Section 18.5) [38—41]. The chapter closes with a collection of [2-i-2]-cycloadditions involving ketenes (Section 18.6) [19, 35, 36], photochemical olefin cycloadditions, and Paterno-Biichi reactions (Section 18.7) [36, 37],... 

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