Asymmetric reaction nitrone addition

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. 

Asymmetric one-pot addition/cyclization reaction using alkynylzincs and nitrones... 

Asymmetric One-Pot Addition/Cydization Reaction Using Alkynylzincs and Nitrones... 

The above described approach was extended to include the 1,3-dipolar cycloaddition reaction of nitrones with allyl alcohol (Scheme 6.35) [78]. The zinc catalyst which is used in a stoichiometric amount is generated from allyl alcohol 45, Et2Zn, (R,J )-diisopropyltartrate (DIPT) and EtZnCl. Addition of the nitrone 52a leads to primarily tmns-53a which is obtained in a moderate yield, however, with high ee of up to 95%. Application of 52b as the nitrone in the reaction leads to higher yields of 53b (47-68%), high trans selectivities and up to 93% ee. Compared to other metal-catalyzed asymmetric 1,3-dipolar cycloaddition reactions of... 

Various kinds of chiral acyclic nitrones have been devised, and they have been used extensively in 1,3-dipolar cycloaddition reactions, which are documented in recent reviews.63 Typical chiral acyclic nitrones that have been used in asymmetric cycloadditions are illustrated in Scheme 8.15. Several recent applications of these chiral nitrones to organic synthesis are presented here. For example, the addition of the sodium enolate of methyl acetate to IV-benzyl nitrone derived from D-glyceraldehyde affords the 3-substituted isoxazolin-5-one with a high syn selectivity. Further elaboration leads to the preparation of the isoxazolidine nucleoside analog in enantiomerically pure form (Eq. 8.52).78... 

In addition to this, asymmetric 1,3-dipolar cyclization reactions of nitrones with olefins,40 41 catalytic enantioselective cyanation of aldehydes,42 catalytic enantioselective animation,43 and aza-Michael reactions44 have been reported, and high enantioselectivities are observed. 

Nitrones have a more reactive C=N bond toward nucleophilic addition compared to imines. In spite of this fact, there have been only a limited number of studies on the nucleophilic addition reactions of nitrones, particularly organometallic reagents.352-355 During the last decade, research related to reactions of nitrones with zinc-containing reagents was essentially focused on (i) dialkylzinc-assisted alkynylations356-358 and vinylations359 of nitrones, (ii) catalytic asymmetric nucleophilic additions to the C=N bond,360-364 and (iii) nitrone allylations by allylzinc halides.365,366... 

Asymmetric additions of Reformatsky-type reagents to nitrones 258a and 258b have also been reported (Scheme 139). The reagents were prepared in situ from ZnEt2 and the corresponding iodoacetic acid ester. Diisopropyl (R,R)-tartrate 262 was employed as a chiral inductor. Enantioselectivities varied significantly the best results were obtained at 0 °C when a nitrone was added to the reaction mixture over a 2 h period. 

Asymmetric syntheses of (3- amino acids result from the addition of chiral enolates (399) to nitrone (400) via A-acyloxyiminium ion formation (642, 643). Regioselective convergence is obtained in the reactions of chiral boron- and titanium- enolates (399a,b), (401), and (402). This methodology was used in preparing four stereoisomers of a-methyl- 3-phenylalanine (403) in enantiomeric pure form (Scheme 2.179) (644). 

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... 

In addition to [4+2]-cycloadditions, the asymmetric [3+2]-cycloaddition reaction of a nitrone, 31, with an a,/I-unsaturated carbonyl compound, 32, is of wide interest [13]. The resulting isoxazolidine products of type 33 are intermediates in the prep-... 

The efficient homogeneous catalysis of chiral ammonium bifluorides of type 15 has been further utilized for achieving an asymmetric Michael addition of silyl nitronates to a,/ -unsaturated aldehydes. Here, chiral ammonium bifluoride 15b bearing a 3,5-di-tert-butylphenyl group was found to be the catalyst of choice, and the reaction of 16a with trans-cinnamaldehyde under the influence of (R,R)- 15b (2 mol%) in THF at —78 °C produced the 1,4-addition product 18 predominantly (18/19 = 24 1) as a diastereomeric mixture (syn/anti = 78 22) with 85% ee of the major syn isomer (Scheme 4.9). Further, use of toluene as solvent led to almost exclusive formation of the 1,4-adduct (18/19 = 32 1) with similar diastereoselec-tivity (syn/anti = 81 19), and critical enhancement of the enantioselectivity was attained (97% ee) [15]. 

These results indicate that the sulfinyl group seems to be much more efficient in the control of the stereoselectivity of 1,3-dipolar cycloadditions (endo or exo adducts are exclusively obtained in de> 80%) than in Diels-Alder processes (mixtures of all four possible adducts were formed). Additionally, complete control of the regioselectivity of the reaction was observed. Despite these clearly excellent results, the following paper concerning asymmetric cycloaddition of cyclic nitrones and optically pure vinyl sulfoxides was reported nine years later [154]. (Meanwhile, only one paper [155], related to the synthesis of /1-nicotyri-nes, described the use of reaction of nitrones with racemic vinyl sulfoxides, but these substrates were merely used as a masked equivalent of acetylene dipolaro-phile). In 1991, Koizumi et al. described the reaction of one of the best dipolarophiles, the sulfinyl maleimide 109, with 3,4,5,6-tetrahydropyridine 1-oxide 194 [154]. It proceeded in CH2C12 at -78 °C to afford a 60 20 10 6 mixture of four products in ca. 90 % yield (Scheme 92). 

With the complex [(indenyl)Ru(acetone)(Me4BIPHOP-F)]SbF6 as catalyst [22], the reaction afforded the exo cycloadduct as the major product for the reaction of acrolein with cyclopentadiene, whereas this noncatalyzed reaction is known to give the endo derivative as the major product. Analogously the catalyst 41 performed the asymmetric 1,3-dipolar addition of nitrones with enals [24]. 

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