Hetero Diels-Alder reaction addition

Hetero Diels-Alder reactions of 114 with thioaldehydes and thioketones were also reported to give the syn addition products exclusively [64]. 

Using water as the solvent enhanced the rate of the hetero-Diels-Alder reaction relative to the dimerization of cyclopentadiene. In addition, the reaction is much faster at a low pH, which implies that the reaction is acid catalyzed. The 5,5-fused system generated has been used in the total synthesis of several bioactive compounds, including the anti-HIV agent (—)-carbovir (Eq. 12.51)121 and the hydroxylactone moiety of mevinic acids (Eq. 12.52).122... 

As already described for the all-carbon-Diels-Alder reaction, a hetero-Diels-Alder reaction can also be followed by a retro-hetero-Diels-Alder reaction. This type of process, which has long been known, is especially useful for the synthesis of heterocyclic compounds. Sanchez and coworkers described the synthesis of 2-aminopyridines [48] and 2-glycosylaminopyridines 4-144 [49] by a hetero-Diels-Alder reaction of pyrimidines as 4-143 with dimethyl acetylenedicarboxylate followed by extrusion of methyl isocyanate to give the desired compounds (Scheme 4.30). This approach represents a new method for the synthesis of 2-aminopyridine nucleoside analogues. In addition to the pyridines 4-144, small amounts of pyrimidine derivatives are formed by a Michael-type addition. 

In this process the primary step is the formation of an anion, which is a synonym for a nucleophile, mostly by deprotonation using a base. It follows a reaction with an electrophile to give a new anion which in the anionic-anionic process again reacts with an electrophile The reaction is then completed either by addition of another electrophile as a proton or by elimination of an X group. Besides the anionic-anionic process there are several examples of anionic-pericydic domino reactions as the domino-Knoevenagel-hetero-Diels-Alder reaction in which after the first step an 1-oxa-l,3-butadiene is formed. 

Asymmetric Diels-Alder reactions have also been achieved in the presence of poly(ethylene glycol)-supported chiral imidazohdin-4-one [113] and copper-loaded silica-grafted bis(oxazolines) [114]. Polymer-bound, camphor-based polysiloxane-fixed metal 1,3-diketonates (chirasil-metals) (37) have proven to catalyze the hetero Diels-Alder reaction of benzaldehyde and Danishefsky s diene. Best catalysts were obtained when oxovanadium(lV) and europium(III) where employed as coordinating metals. Despite excellent chemical yields the resulting pyran-4-ones were reported to be formed with only moderate stereoselectivity (Scheme 4.22). The polymeric catalysts are soluble in hexane and could be precipitated by addition of methanol. Interestingly, the polymeric oxovanadium(III)-catalysts invoke opposite enantioselectivities compared with their monomeric counterparts [115]. 

Ab initio calculations on aza-Diels-Alder reactions of electron-deficient imines with buta-l,3-diene show that these reactions are HOMO (diene)-LUMO(dienophile)-controlled and that electron-deficient imines should be more reactive than alkyl-or aryl-imines. The Diels-Alder reaction of r-butyl 2//-azirine-3-carboxylate (80) proceeds with high diastereoselectivity with electron-rich dienes (81) (Scheme 28). The hetero-Diels-Alder additions of imines with sterically demanding dienes yield perhydroquinolines bearing an angular methyl group. The asymmetric hetero-Diels-Alder reaction between alkenyloxazolines and isocyanates produces diastereometri-cally pure oxazolo[3,2-c]pyrimidines. °... 

Reactions where NLE have been discovered include Sharpless asymmetric epoxi-dation of allylic alcohols, enantioselective oxidation of sulfides to sulfoxides, Diels-Alder and hetero-Diels-Alder reactions, carbonyl-ene reactions, addition of MesSiCN or organometallics on aldehydes, conjugated additions of organometal-lics on enones, enantioselective hydrogenations, copolymerization, and the Henry reaction. Because of the diversity of the reactions, it is more convenient to classify the examples according to the types of catalyst involved. 

The enantiopure complex 35 has since been employed as an atropos asymmetric catalyst for a variety of synthetic transformations (Scheme 8.33)." In addition, the hetero Diels-Alder reaction of glyoxylate could also be catalyzed by enantiopure... 

In 2006, Akiyama and coworkers established an asymmetric Brpnsted acid-catalyzed aza-Diels-Alder reaction (Scheme 36) [59]. Chiral BINOL phosphate (R)-3o (5 mol%, R = 2,4,6- Pr3-CgH2) bearing 2,4,6-triisopropylphenyl groups mediated the cycloaddition of aldimines 94 derived from 2-amino-4-methylphenol with Danishefsky s diene 95 in the presence of 1.2 equivalents of acetic acid. Piperidinones 96 were obtained in good yields (72 to >99%) and enantioselectivi-ties (76-91% ee). While the addition of acetic acid (pK= 4.8) improved both the reactivity and the selectivity, the use of benzenesulfonic acid (pK= -6.5) as an additive increased the yield, but decreased the enantioselectivity. A strong achiral Brpnsted acid apparently competes with chiral phosphoric acid 3o for the activation of imine 94 and catalyzes a nonasymmetric hetero-Diels-Alder reaction. The role of acetic acid remains unclear. 

Recently, the first examples of catalytic enantioselective preparations of chiral a-substituted allylic boronates have appeared. Cyclic dihydropyranylboronate 76 (Fig. 6) is prepared in very high enantiomeric purity by an inverse electron-demand hetero-Diels-Alder reaction between 3-boronoacrolein pinacolate (87) and ethyl vinyl ether catalyzed by chiral Cr(lll) complex 88 (Eq. 64). The resulting boronate 76 adds stereoselectively to aldehydes to give 2-hydroxyalkyl dihydropyran products 90 in a one-pot process.The diastereoselectiv-ity of the addition is explained by invoking transition structure 89. Key to this process is the fact that the possible self-allylboration between 76 and 87 does not take place at room temperature. Several applications of this three-component reaction to the synthesis of complex natural products have been described (see section on Applications to the Synthesis of Natural Products ). 

The groups of Rueping [25] and Gong [26] have developed the aza-hetero-Diels-Alder reaction of aryl imines and cyclohexenone to give isoquinuclidines in good endojexo selectivities and high yields and ee s by 1 and la, respectively (Scheme 5.13). In the presence of acid, cyclohexenone enolizes to afford the dienol which subsequently undergoes a Mannich reaction with the protonated aldimine followed by intramolecular aza-Michael addition to produce the formal Diels-Alder adducts. 

Other applications of oxazolines have also been discovered. Anomeric oxazolines have now emerged as useful glycosyl acceptors in the glycosylation of sugars. 2-Alkenyloxazolines have been found to undergo asymmetric Michael addition and hetero-Diels-Alder reactions. Further explorations in these areas of oxazoline chemistry will undoubtedly continue and the list of new applications will grow. 

Inda-box ent-9a has been used recently in the production of the natural product (-)-malyngolide 265. " The key step of the synthesis by Ghosh and Shirai, as shown in Figure 9.80, is the hetero-Diels-Alder reaction of Danishefsky s diene 112 and cx-ketoester 263 to afford the pyranone derivative 264 in 77% yield and 47% ee that was converted into (—)-malyngolide in several additional steps. The preparation of different pyranones was investigated using different ot-ketoesters. 

Reaction of l-azirine-3-methylaciylates (155) with imidazoles and pyrazoles under mild conditions results in the formation of 2-aza-1,3-dienes (156), which are useful as dienes in hetero Diels-Alder reactions with electron-deficient dienophiles <99JOC49>. When the related methyl 2-aryl-2ff-azirine-3-carboxylate (157) was used as fee substrate, reaction with an amine induced a ting opening by addition of the amino group onto fee C=N bond followed by cleavage to provide enediamine 158 <99JCS(P1)1305>. 

One approach to tetrahydropyridinones is the Lewis acid mediated hetero-Diels-Alder reaction of electron-rich dienes with polystyrene-bound imines (Entries 3 and 4, Table 15.23). The Ugi reaction of 5-oxo carboxylic acids and primary amines with support-bound isonitriles has been used to prepare piperidinones on insoluble supports (Entry 5, Table 15.23). Entry 6 in Table 15.23 is an example of the preparation of a 4-piperidinone by amine-induced 3-elimination of a resin-bound sulfinate followed by Michael addition of the amine to the newly generated divinyl ketone. The intramolecular Pauson-Khand reaction of propargyl(3-butenyl)amines, which yields cyclopenta[c]pyridin-6-ones, is depicted in Table 12.4. 

A series of trivalent lanthanoid complexes, scandium, and ytterbium tris-(R)-(-)-1,1 -binaphthyl-2,2 -diyl phosphonate, have been introduced as new chiral and stable Lewis acids for the asymmetric hetero Diels-Alder reaction of Danishefsky s diene and aldehydes. 2,6-Lutidine was found to be an effective additive to improve the enantioselectivity up to 89% ee [66] (Eq. 8A.42). 

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