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Isoxazolidine alkene

Isoxazolidines sometimes undergo retro 1,3-dipolar cycloaddition to give back alkenes and nitrones (77AHC(2D207). [Pg.80]

The preparation of isoxazolidine derivatives was first reported by Bodforss in 1918 (18CB192). The major synthesis of isoxazolidines involves the cycloaddition of nitrones with alkenes, and isoxazolidines have also enjoyed an increasing use as key intermediates in the synthesis of natural products and other heterocycles (79ACR396, 1892CB1498, 1892CB3291, 1882CB2105). [Pg.3]

Nitrones or aci-nitro esters react with alkenes to give in some cases A/-substituted isoxazolidines and in others 2-isoxazolines. When the intermediate isoxazolidines were observed, a number of procedures transformed them into the 2-isoxazolines. Acrylonitrile and phenyl rzcf-nitrone esters produced an A/-methoxyisoxazolidine. Treatment with acid generated a 2-isoxazole while treatment with base generated an oxazine (Scheme 118) (68ZOR236). When an ethoxycarbonyl nitrone ester was reacted with alkenes, no intermediate isoxazolidine was observed, only A -isoxazolines. Other aci-mtro methyl esters used are shown in Scheme 118 and these generate IV-methoxyisoxazolidines or A -isoxazolines which can be further transformed (72MI41605). [Pg.95]

The trimethylsilyl group has been used to prepare stable aci-nitro esters and these react with alkenes to produce intermediate isoxazolidines which were readily converted into 2-isoxazolines (Scheme 119) (73ZOB1715, 74DOK109, 78ACS(B)ll8>. [Pg.95]

Chiral nitrones react with alkenes to produce 3,5-disubstituted isoxazolidines that are nonracemic diastereomeric mixtures and are oriented predominantly cis (equation 53) (77CC303, 79JOC1212). [Pg.109]

A newer method for the preparation of nitronic esters, namely utilizing the (9-trimethyl-silyl ester, has been reported and these are prepared by the reaction of alkylnitro compounds and (V,(V-bis(trimethylsilyl)acetamide. These nitronic esters also undergo cycloaddition with alkenes to produce isoxazolidines (equation 54) (74MIP41601, 74DOK109, 78ACS(B)ll8). [Pg.110]

Steroidal alkene (531a) reacted with a nitronic ester at 14 000 atmospheres to produce an isoxazolidine (532a) (80IZV1893). [Pg.110]

Tetranitromethane was decomposed in the presence of alkenes to generate isoxazolidines (equation 55) (72ZOR1419). [Pg.111]

Azetidine N-oxides produce isoxazolidines by a thermal ring expansion (77AHC(21)207, 75GEP2365391), and nitrosobenzenes react with alkenes to provide isoxazolidines (77AHC(21)207, 79IZV1059). [Pg.111]

The first, and so far only, metal-catalyzed asymmetric 1,3-dipolar cycloaddition reaction of nitrile oxides with alkenes was reported by Ukaji et al. [76, 77]. Upon treatment of allyl alcohol 45 with diethylzinc and (l ,J )-diisopropyltartrate, followed by the addition of diethylzinc and substituted hydroximoyl chlorides 46, the isoxazolidines 47 are formed with impressive enantioselectivities of up to 96% ee (Scheme 6.33) [76]. [Pg.235]

Nitronates derived from primary nitroalkanes can be regarded as a synthetic equivalent of nitrile oxides since the elimination of an alcohol molecule from nitronates adds one higher oxidation level leading to nitrile oxides. This direct / -elimination of nitronates is known to be facilitated in the presence of a Lewis acid or a base catalyst [66, 72, 73]. On the other hand, cycloaddition reactions of nitronates to alkene dipolarophiles produce N-alkoxy-substituted isoxazolidines as cycloadducts. Under acid-catalyzed conditions, these isoxazolidines can be transformed into 2-isoxazolines through a ready / -elimination, and 2-isoxazolines correspond to the cycloadducts of nitrile oxide cycloadditions to alkenes [74]. [Pg.272]

The 1,3-dipolar cycloaddition reaction of nitrones with alkenes gives isoxazolidines is a fundamental reaction in organic chemistry and the available literature on this topic of organic chemistry is vast. In this reaction until three contiguous asymmetric centers can be formed in the isoxazolidine 17 as outlined for the reaction between a nitrone and an 1,2-disubstituted alkene. The relative stereochemistry at C-4 and C-5 is always controlled by the geometric relationship of the substituents on the alkene (Scheme 8.6). [Pg.321]

Nitrones, reactive 1,3-dipoles, react with alkenes and alkynes to form isoxazolidines and isoxazolines, respectively. With monosubstituted olefinic dipolarophiles, 5-substituted isoxazolidines are generally formed predominantly however, with olefins bearing strongly electron-withdrawing groups, 4-substituted derivatives may also be formed.631... [Pg.250]

The mechanism of 1,3-dipolar cycloaddition can be found in Ref. 63 and the references within. The reaction of nitrone with 1,2-disubstituted alkenes creates three contiguous asymmetric centers, in which the geometric relationship of the substituents of alkenes is retained. The synthetic utility of nitrone adducts is mainly due to their conversion into various important compounds. For instance, P-amino alcohols can be obtained from isoxazolidines by reduction with H2-Pd or Raney Ni with retention of configuration at the chiral center (Eq. 8.44). [Pg.250]

Cycloaddition of the cyclic nitrone derived from proline benzyl ester with alkenes proceeds readily to give isoxazolidines with good regio-and stereoselectivity (Eq. 8.47).68 The reaction favors exo-mode addition. However, certain cycloadditions are reversible and therefore the product distribution may reflect thermodynamic rather than kinetic control. [Pg.251]

Asymmetric 1,3-dipolar cycloaddition of cyclic nitrones to crotonic acid derivatives bearing chiral auxiliaries in the presence of zinc iodide gives bicyclic isoxazolidines with high stereoselectivity (Eq. 8.51). The products are good precursors of (3-amino acids such as (+)sedridine.73 Many papers concerning 1,3-dipolar cycloaddition of nitrones to chiral alkenes have been reported, and they are well documented (see Ref. 63). [Pg.252]

Catalytic enantioselective 1,3-dipolar cycloaddition between nitrones with alkenes using a novel heterochiral ytterbium(III) catalyst is reported (Eq. 8.58).91 The desired isoxazolidine derivatives are obtained in excellent yields with excellent diastereo- and enantioselectivities. [Pg.257]

Nitroisoxazolines were prepared from ALalkoxy-3,3-dinitroisoxazolidines by thermally induced P-elimination. For example, isoxazolidines 42 synthesized by a three-component reaction of tetranitromethane with two equivalents of alkenes 41, were converted into isoxazolines 43 by heating in boiling chlorobenzene <06S706>. [Pg.293]

Related to the nitrile oxide cycloadditions presented in Scheme 6.206 are 1,3-dipolar cycloaddition reactions of nitrones with alkenes leading to isoxazolidines. The group of Comes-Franchini has described cycloadditions of (Z)-a-phenyl-N-methylnitrone with allylic fluorides leading to enantiopure fluorine-containing isoxazolidines, and ultimately to amino polyols (Scheme 6.207) [374]. The reactions were carried out under solvent-free conditions in the presence of 5 mol% of either scandium(III) or indium(III) triflate. In the racemic series, an optimized 74% yield of an exo/endo mixture of cycloadducts was obtained within 15 min at 100 °C. In the case of the enantiopure allyl fluoride, a similar product distribution was achieved after 25 min at 100 °C. Reduction of the isoxazolidine cycloadducts with lithium aluminum hydride provided fluorinated enantiopure polyols of pharmaceutical interest possessing four stereocenters. [Pg.238]

Cycloaddition of N-substituted C -phosphorylated nitrones (496) to terminal alkenes leads to C-5 substituted isoxazolidines (497) and (498) with moderate (20%) to high (up to 90%) trans to cis diastereoselectivities (Scheme 2.241) (Table 2.20). In ZnCl2-catalyzed cycloadditions, mixtures enriched in cis diastere-omers were produced (263). [Pg.321]

Cycloadditions of cyclic (a) and acyclic (b) nitrones to achiral (535a) and chiral a-diphenylphosphinyl alkenes (535b,c) have been reported (752). In each case, addition to allyldiphenylphosphine oxide (535a) gave a single isoxazolidine... [Pg.329]

The influence of electronic factors on the regioselective cycloadditions of nitrones (551), and (583) to (585) to acrylates has been demonstrated by using dipolarophiles with electrophilic substituents at the P-carbon of the alkene in y-bromo a, 3-unsaturated esters and lactones (774) and in ethyl 2-hydroperfluoro-2-alkenoates (586) (775). The reactions of enoates (586) with nitrones are regio-specific and afford isoxazolidines with the CC>2Et and R/, groups in C-4 and C-5... [Pg.338]

The 1,3-dipolar cycloaddition of nitrones to vinyl ethers is accelerated by Ti(IV) species. The efficiency of the catalyst depends on its complexation capacity. The use of Ti( PrO)2Cl2 favors the formation of trans cycloadducts, presumably, via an endo bidentate complex, in which the metal atom is simultaneously coordinated to the vinyl ether and to the cyclic nitrone or to the Z-isomer of the acyclic nitrones (800a). Highly diastereo- and enantioselective 1,3-dipolar cycloaddition reactions of nitrones with alkenes, catalyzed by chiral polybi-naphtyl Lewis acids, have been developed. Isoxazolidines with up to 99% ee were obtained. The chiral polymer ligand influences the stereoselectivity to the same extent as its monomeric version, but has the advantage of easy recovery and reuse (800b). [Pg.358]

Cycloaddition of 3-methylenephthalide with ot./V-diphenylnitrone gave two diastereoisomers of 2,3-diphenyl-2,3-dihydrospiro 1,3-oxazole-5(47/ )l (3 H)-2-benzoluran]-3 -one (805). The 1,3-dipolar cycloaddition reaction of /V-benzyl-C-(2-furyl)nitrones with electron-rich alkenes gave preferentially trans-3,5-disubstituted isoxazolidines (endo approach). These experimental results are in good qualitative agreement with those predicted from semiempirical (AMI and PM3) and ab initio (HF/3-21G) calculations (806). [Pg.361]

Over the last years, one of the most studied DCR has been the asymmetric version of the cycloaddition of nitrones with alkenes. This reaction leads to the construction of up to three contiguous asymmetric carbon centers (Scheme 4). The resulting five-membered isoxazolidine derivatives may be converted into amino alcohols, alkaloids, or p-lactams. Several chiral metal complexes have been used as catalysts for this process [13-15, 18-22]. However, the employment of iridium derivatives is very scarce. [Pg.212]

Starting material which, upon oxidation with PSP, gave aldehydes. These were in turn condensed with primary hydroxylamines, promoted by polymer-bound acetate, to produce nitrones. The nitrones assembled using either method then underwent 1,3-dipolar cyclo-addition reactions with various alkenes to give the corresponding isoxazolidines (Scheme 2.46 and 2.47). [Pg.91]

Nitrones also undergo 1,3-dipolar cycloadditions with alkenes to furnish the corresponding isoxazolidines in a diastereo- and enantioselective manner when the... [Pg.223]


See other pages where Isoxazolidine alkene is mentioned: [Pg.2470]    [Pg.2470]    [Pg.2470]    [Pg.2470]    [Pg.108]    [Pg.109]    [Pg.110]    [Pg.110]    [Pg.111]    [Pg.216]    [Pg.250]    [Pg.250]    [Pg.28]    [Pg.221]    [Pg.223]    [Pg.443]    [Pg.546]    [Pg.95]    [Pg.2]    [Pg.20]    [Pg.28]    [Pg.32]    [Pg.43]    [Pg.46]   
See also in sourсe #XX -- [ Pg.773 , Pg.777 ]




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