Dimethyl maleate 3 + 2 cycloaddition reactions

Earle and coworkers [54] have performed Diels-Alder reactions in neutral ionic liquids. The results of reactions of cyclopentadiene with dimethyl maleate, ethyl acrylate and acrylonitrile are reported in Table 6.10. The cycloadditions proceeded at room temperature in all of the ionic liquids tested, except [BMIMJPF4, and gave almost quantitative yields after 18-24h. The endo/exo selectivity depends on dienophile. No enantioselectivity was observed in the [BMIM] lactate reaction. 

Cycloaddition reaction of nitrone (—)-(394) with dimethyl maleate D14 has been used for the synthesis of two new polyhydroxyl pyrrolizidines (687) and (688) (Schemes 2.293, 2.294). These compounds are analogs of alkaloids ros-marinecine and crotanecine, which were assayed for their inhibitory activities toward 22 commercially available glycosidase enzymes. One of them ((-)- a-epi-crotanecine) (—)-(688) is a potent and selective inhibitor of a-mannosidases (310). The reaction of (—)-(394) with dimethyl maleate gave a 9.6 6 1 mixture of cycloadducts (—)-(680), (+ )-(680), and (—)-(681), which arise from anti-exo,... 

The meso-ionic l,3-dithiol-4-ones (134) participate - in 1,3-dipolar cycloaddition reactions giving adducts of the general type 136. They show a remarkable degree of reactivity toward simple alkenes including tetramethylethylene, cyclopentene, norbomene, and norbor-nadiene as well as toward the more reactive 1,3-dipolarophilic olefins dimethyl maleate, dimethyl fumarate, methyl cinnamate, diben-zoylethylene, A -phenylmaleimide, and acenaphthylene. Alkynes such as dimethyl acetylenedicarboxylate also add to meso-ionic 1,3-dithiol-4-ones (134), but the intermediate cycloadducts are not isolable they eliminate carbonyl sulfide and yield thiophenes (137) directly. - ... 

The meso-ionic l,3>2-oxathiazol-5-ones (169) show an interesting range of reactions with nucleophiles including ammonia, primary amines, and aqueous alkali. They also react with l,3-dipolarophiles, including dimethyl acetylenedicarboxylate and methyl propiolate, yielding isothiazoles (171) and carbon dioxide. 1,3-Dipolar cycloaddition reactions with alkenes such as styrene, dimethyl maleate, and methyl cinnamate also lead to isothiazoles (171) directly. BicycUc intermediates (cf. 136) were not isolable these cycloaddition reactions with alkenes giving isothiazoles involve an additional dehydrogenation step. 

Photochemical cycloaddition reactions between sydnones (1) and 1,3-dipolarophiles take place to give products which are different from, but isomeric with, the thermal 1,3-dipolar cycloaddition products. These results are directly interpreted in terms of reactions between the 1,3-dipolarophiles and Ae nit mine (316). The photochemical reactions between sydnones and the following 1,3-dipolarophiles have been reported dicyclopentadiene, dimethyl acetylene dicarboxylate, dimethyl maleate, dimethyl fumarate, indene, carbon dioxide, and carbon disulfide. ... 

The reaction scope was extended to a range of dipolarophiles (3,4). Ylid generation and cycloaddition with DMAD led to the formation of adduct 16, which can be reconciled by initial generation of the expected adduct followed by a 1,5-H shift. Reaction with either dimethyl furmarate or dimethyl maleate proceeded with complete stereospecihcity, furnishing 17 and 18, respectively (Fig. 3.1). 

Garner et al. (90,320) used aziridines substituted with Oppolzer s sultam as azomethine ylide precursors. The azomethine ylide generated from 206 added to various electron-dehcient alkenes, such as dimethyl maleate, A-phenylmalei-mide, and methyl acrylate, giving the 1,3-dipolar cycloaddition product in good yields and up to 82% de (for A-phenylmaleimide). They also used familiar azomethine ylides formed by imine tautomerization (320). Aziridines such as 207 have also been used as precursors for the chiral azomethine ylides, but in reactions with vinylene carbonates, relatively low de values were obtained (Scheme 12.59) (92). 

Carbonyl ylides possess versatile reactivities, among which the 1,3-dipolar cycloaddition is the most common and important reaction. The reaction sequence of ylide formation and then 1,3-dipolar cycloaddition can occur in either inter- or intramolecular manner. When the reaction occurs intermolecularly, the overall reaction is a one-pot three-eomponent process leading to oxygen-containing five-membered cyclic compounds, as demonstrated by the example shown in Scheme 8. A mixture of diazo ester 64, benzaldehyde, and dimethyl maleate, upon heating to reflux in CH2CI2 in the presence of 1 mol% rhodium(ii) perfluorobutyrate [Rh2(pfb)4], yields tetrahedrofuran derivative 65 in 49% yield as single diastereomer. " ... 

When acrylonitrile or ethyl acrylate was used as the dipolarophile, the azomethine adducts (134) and (135) were formed no thiocarbonyl ylide addition products were isolable in refluxing toluene or xylene, although the isoindoles (136a) and (136b) derived from them were isolated. In contrast to the reactions with fumaronitrile or AT-phenylmaleimide, the azomethine adducts (134) and (135) were still present at higher reaction temperatures — almost 50% in toluene and 4-5% in xylene. Under the same reaction conditions other electron-deficient dipolarophiles like dimethyl fumarate, norbornene, dimethyl maleate, phenyl isocyanate, phenyl isothiocyanate, benzoyl isothiocyanate, p-tosyl isocyanate and diphenylcyclopropenone failed to undergo cycloaddition to thienopyrrole (13), presumably due to steric interactions (77HC(30)317). 

I he cycloaddition reactions generally give exo adducts with 1 -unsubstituted pyrroles, but 1 -methyl and 1 -trimethylsilyl substituents favor the endo stereoisomers. Cycloaddition has been achieved with. V-phenylmaleimide, methyl acrylate, methyl crotonate, dimethyl maleate, acrylonitrile and crotonitrile. The rate of cycloaddition is increased by 2,5-dimethyl substitution and this is attributed to the affect on the equilibrium between the 2,3 and 3,4-complexes. The isolation of azanorbornenes from the adducts by oxidative demetallation frequently leads to cycloreversion but azanorbornanes can be isolated by hydrogenation immediately after oxidation. <95JA3405>... 

The tandem reaction of carbenoids with simple imines to form azomethine ylides which then undergo 1,3-dipolar cycloaddition with various dipolarophiles was first reported in 1972.81 Treatment of phenyldiazomethane with copper bronze in the presence of excess N-benzylidenemethylamine resulted in the isolation of imidazoline 170. Formation of this product was rationalized by carbenoid addition onto the imine nitrogen to give azomethine ylide 169 which then underwent a 1,3-dipolar cycloaddition with another molecule of imine to produce the observed product. Bartnik and Mloston subsequently extended this observation by using other dipolarophiles.82 For example, catalytic decomposition of phenyldiazomethane and A-benzylidenemethylamine in the presence of dimethyl maleate or benzaldehyde gave pyrrolidine 171... 

In the area of [3 + 2]-cycloadditions (1,3-dipolar cycloadditions), chiral silver catalysts have been utilized extensively for the enantioselective formation of five-membered rings from prochiral substrates. For example, Zhang and co-workers360 have reported the highly enantioselective Ag(i)-catalyzed [3 + 2]-cycloaddition of azomethine ylides to electron-deficient alkenes. Thus, reaction of ct-imino esters 442 with dimethyl maleate in the presence of catalytic amounts of silver(i) acetate and the chiral bisferrocenyl amide phosphine 443 provided the chiral pyrrolidines 444 with high stereoselectivities and chemical yields (Scheme 131). Only the endo-products were isolated in all cases. 

The Stereoselectivity of 1,3-Dipolar Cycloadditions. There is no endo mle for 1,3-dipolar cycloadditions like that for Diels-Alder reactions. Stereoselectivity, more often than not, is low, as shown by the reactions of C,/V-diphenylnitrone—both regioisomers 6.238 and 6.239 (R=C02Et) from the reaction with ethyl acrylate are mixtures of exo and endo isomers, only a little in favour of the exo product. Similarly, the reactions of methyl crotonate with nitrones favour the exo product 6.242 over the endo 6.243. In contrast, other reactions are endo selective, as in the cycloaddition 6.244 of an azomethine ylid to dimethyl maleate giving largely the endo adduct 6.245. 

A representative 1,3-dipolar cycloaddition process occurs with yV-aryl-C-(trifiuoromethyl)-nitrilimines, generated from the corresponding hydrazonoyl bromides, c.g. 4. under basic conditions. which can react with dimethyl fumarate and maleate,bicyclic olefins. and dipolarophiles containing cumulative double bonds. With sodium isocyanates as the dipolarophilc the cycloaddition reaction occurs across the C = N bond, while with potassium isothiocyanate it occurs through the C = S bond. ... 

The carbonyl ylides are trapped in a [2-1-3]-cycloaddition with activated alkenes or alkynes. For example, the reaction of the a-chloro ether 3.56 with cesium fluoride (CsF) in the presence of dimethyl fumarate gives only the trans cycloaddition product 3.57, while the reaction with dimethyl maleate gives exclusively the cis-isomer 3.58 (Scheme 3.24). 

Synthetically useful amounts of endo selectivity have been observed in the intermolecular cycloaddition reactions of some acyclic nitrones. For example, the reaction between C,A/-diphenyl nitrone and dimethyl maleate leads to a 9 1 mixture of products, the major arising via the (Z)-nitrone and endo transition state (equation 17). The endo but not the exo transition state experiences an energy-lowering... 

In contrast to the purely thermal cycloaddition which occurs in a nonstereospecific manner with respect to alkenes in low yield, nickel(0) catalysis results in a highly stereospecific cycloaddition, as demonstrated by the reactions between (11 equation 4) and dimethyl fumarate or dimethyl maleate. 

N-Benzyl-N-methoxyraethyl-N-(triraethylsily1jmethylamine undergoes stereo-specific cycloaddition with dimethyl maleate and fumarate. The cycloaddition behavior of an unsymnetrically substituted a-methoxysilylamine has also been examined and found to occur with high overall regioselectivity. The stereospecificity and regioselectivity of the reaction is consistent with a concerted 1,3-dipolar cycloaddition reaction. 

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