Chiral auxiliaries nitron addition

Substituted 3-hydroxy-2-pyrrolidinones were synthesised via 1,3-DC reactions of furfuryl nitrones with acrylates and subsequent intramolecular cyclisation after N-0 bond reduction. Addition of iV-acryloyl-(2/()-bomane-10,2-sultam to Z-nitrone 83 gave the endo/exo cycloadducts in 85 15 ratio with complete stereoface discrimination <00JOC1590>. The 1,3-DC of pyrroline A-oxide to chiral pentenoates using (-)-/rans-2-phenylcyclohexanol and (-)-8-phenylmenthol as chiral auxiliaries occurred with moderate stereocontrol (39% de and 57% de, respectively) and opposite sense of diastereoselectivity <00EJO3595>. The... 

Dipolar addition is closely related to the Diels-Alder reaction, but allows the formation of five-membered adducts, including cyclopentane derivatives. Like Diels-Alder reactions, 1,3-dipolar cycloaddition involves [4+2] concerted reaction of a 1,3-dipolar species (the An component and a dipolar In component). Very often, condensation of chiral acrylates with nitrile oxides or nitrones gives only modest diastereoselectivity.82 1,3-Dipolar cycloaddition between nitrones and alkenes is most useful and convenient for the preparation of iso-xazolidine derivatives, which can then be readily converted to 1,3-amino alcohol equivalents under mild conditions.83 The low selectivity of the 1,3-dipolar reaction can be overcome to some extent by introducing a chiral auxiliary to the substrate. As shown in Scheme 5-51, the reaction of 169 with acryloyl chloride connects the chiral sultam to the acrylic acid substrate, and subsequent cycloaddition yields product 170 with a diastereoselectivity of 90 10.84... 

Using a stoichiometric amount of (i ,i )-DIPT as the chiral auxiliary, optically active 2-isoxazolines can be obtained via asymmetric 1,3-dipolar addition of achiral allylic alcohols with nitrile oxides or nitrones bearing an electron-withdrawing group (Scheme 5-53).86a Furthermore, the catalytic 1,3-dipolar cycloaddition of nitrile oxide has been achieved by adding a small amount of 1,4-dioxane (Scheme 5-53, Eq. 3).86b The presence of ethereal compounds such as 1,4-dioxane is crucial for the reproducibly higher stereoselectivity. 

Another, slightly different method, is to use the resin to capture a molecule followed by release of a modified product. This is illustrated by the example shown in Scheme 13 where a nitrone undergoes a 1,3-dipolar cyclo-addition with an immobilized chiral auxiliary followed by a reductive cleavage to yield an isoxazoh-dine (Scheme 2.13) [32]. Here the polymer is acting as both an active reagent and as a purification technique [33]. 

Additions of alkynylzinc compounds to nitrones possessing an easily recoverable mannose-derived chiral auxiliary of type 101 (equation 72) proceed with good steroeselectivity (93-98% dr). ... 

Chiacchio et al. (43,44) investigated the synthesis of isoxazolidinylthymines by the use of various C-functionalized chiral nitrones in order to enforce enantioselec-tion in their cycloaddition reactions with vinyl acetate (Scheme 1.3). They found, as in the work of Merino et al. (40), that asymmetric induction is at best partial with dipoles whose chiral auxiliary does not maintain a fixed geometry and so cannot completely direct the addition to the nitrone. After poor results with menthol ester-and methyl lactate-based nitrones, they were able to prepare and separate isoxazo-lidine 8a and its diastereomer 8b in near quantitative yield using the A-glycosyl... 

Elsewhere, Faita et al. (438) bound the Evans chiral auxiliary to Wang or Merrifield resin for use as a dipolarophile in cycloadditions with C,N-diphenyl-nitrone. Yields on both resins are significantly reduced in comparison to the solution phase reaction (43-20% compared to 95%) but are unaffected by addition of magnesium perchlorate or scandium triflate catalyst. A one-pot process has been reported by Hinzen and Ley (439) that oxidizes secondary hydroxylamines to the... 

Similar facial selectivity has been observed in nitronates derived from chiral vinyl ethers (69), as well as from nitronates prepared with a chiral Lewis acid, which lack any bias from a chiral auxiliary (66). Even in the absence of a substituent at C(4), as in the nitronate 287, there remains a high facial selectivity upon the addition of a dipolarophile (Eq. 2.28) (84). Both RHE and B3LYP calculations for the approach of a dipolarophile to the nitronates 289 and 290 show at least a... 

Chiral Auxiliary for Asymmetric Induction. Numerous derivatives of (—)-8-phenylmenthol have been utilized for asymmetric induction studies. These include inter- and intramolecular Diels-Alder reactions, dihydroxylations, and intramolecular ene reactions of a,p-unsaturated 8-phenylmenthol esters. These reactions usually proceed in moderate to good yield with high diastereofacial selectivity. a-Keto esters of 8-phenylmenthol (see 8-Phenylmenthyl Pyruvate) have been used for asymmetric addition to the keto group, as well as for asymmetric [2 -F 2] photoadditions and nucleophilic alkylation. Ene reactions of a-imino esters of 8-phenylmenthol with alkenes provide a direct route to a-amino acids of high optical purity. Vinyl and butadienyl ethers of 8-phenylmenthol have been prepared and the diastereofacial selectivity of nitrone and Diels-Alder cycloadditions, respectively, have been evaluated. a-Anions of 8-phenylmenthol esters also show significant diastereofacial selectivity in aldol condensations and enantiose-lective alkene formation by reaction of achiral ketones with 8-phenylmenthyl phosphonoacetate gives de up to 90%. ... 

Stereoselective syntheses of 5-isoxazolidinones were also achieved through addition of lithiated chiral oxazolidines to nitrones. In solution, the spiro-fused isoxazolidine 554 was in equilibrium with its open hydroxylamino form 553. Acidic hydrolysis of the chiral auxiliary afforded the highly enantioenriched isoxazolidinone 555 in good yield (Scheme 134) <2003OL2723, 2003JOC9861>. 

New asymmetric reactions utilizing tartaric acid esters as chiral auxiliaries (formation of N- and A,0-heteroeyeles by nucleophilic addition of iminoderivatives or 1,3-dipolar cycloaddition of nitrile oxides and nitrones) 03SL1075. 

The Denmark laboratory has developed an elegant tandem [4 + 2]/[3 + 2]-cyclo-addition strategy for the synthesis of a variety of alkaloid natural products (96CR137). Nitroethylene (166) readily undergoes a Lewis acid promoted cycloaddition with vinyl ethers that contain a chiral auxiliary group to give nitronates 168... 

Recent advances have been made in the enantioselective cycloaddition of nitrones and alkenes. By using a chiral auxiliary attached to the nitrone or the alkene, moderate to good levels of asymmetric induction have been reported. A number of metal complexes with chiral ligands catalyse the cycloaddition reaction of nitrones, particularly for dipolarophiles containing two carbonyl groups for biden-tate co-ordination to the metal. An alternative approach, using a,p-unsaturated aldehydes and chiral secondary amines has been successful (3.138). The endo product is the major stereoisomer in these cycloaddition reactions and the catalysis is thought to proceed via the reactive intermediate iminium ion 210, with addition of the nitrone to the face of the alkene opposite the benzyl substituent. 

The amino acid derived chiral oxazolidinone 188 is a very commonly used auxiliary in Diels-Alder and aldol reactions. However, its use in diastereoselective 1,3-dipolar cycloadditions is less widespread. It has, however, been used with nitrile oxides, nitrones, and azomethine ylides. In reactions of 188 (R = Bn, R =Me, R = Me) with nitrile oxides, up to 92% de have been obtained when the reaction was performed in the presence of 1 equiv of MgBr2 (303). In the absence of a metal salt, much lower selectivities were obtained. The same observation was made for reactions of 188 (R = Bn, R = H, R = Me) with cyclic nitrones in an early study by Murahashi et al. (277). In the presence of Znl2, endo/exo selectivity of 89 11 and up to 92% de was observed, whereas in the absence of additives, low selectivities resulted. In more recent studies, it has been shown for 188 (R =/-Pr, R = H, R =Me) that, in the presence of catalytic amounts of Mgl2-phenanthroline (10%) (16) or Yb(OTf)3(20%) (304), the reaction with acyclic nitrones proceeded with high yields and stereoselectivity. Once again, the presence of the metal salt was crucial for the reaction no reaction was observed in their absence. Various derivatives of 188 were used in reactions with an unsubstituted azomethine ylide (305). This reaction proceeded in the absence of metal salts with up to 60% de. The presence of metal salts led to decomposition of the azomethine ylide. 

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