4- hydroxy-2-isoxazolines

Treatment of 2-bromo aldehydes and ethyl nitroacetate with alumina gives 4-hydroxy-2-isoxazoline-2-oxides with high stereoselectivity (Eq. 8.81).131... 

The present tandem nitro aldol-cyclization process is used for the preparation of the enantiomerically pure 4-hydroxy-2-isoxazoline-2-ones. They are prepared starting from chiral a-mesyloxy aldehydes and ethyl nitroacetate under mild reaction conditions (Eq. 8.85).136... 

Pr, Bu, Ph etc) to benzonitrile oxide are oxidized to trans-4-hydroxy-2-isoxazolines 10 by t-butyl hydroperoxide (94TL7493). A reversal of regiochemistry was observed in the reaction of aromatic nitrile oxides with derivatives of cinnamic acid the methyl ester gave a mixture of the esters 11 and 12 (R = OMe), in which the former predominated, while in the case of M,N-diethylcinnamide the amide 12 (R = NEt2) was the main product (94TL6473). 

In 1888 Claisen (1888CB1149) first recognized a general synthesis of isoxazoles (283) by the condensation-cyclization of 1,3-diketones (280) with hydroxylamine. It is now generally accepted that the monoxime (281) of the 1,3-diketone and the subsequent 5-hydroxy-isoxazoline (282) are the intermediate products of the reaction. The isolation of the monoxime (281) and 5-hydroxyisoxazoline (282), which were both readily converted into the isoxazole (283) by treatment with acid or base, has been reported (62HC(17)l). 

Diacetates of 1,4-butenediol derivatives are useful for double allylation to give cyclic compounds. l,4-Diacetoxy-2-butene (126) reacts with the cyclohexanone enamine 125 to give bicyclo[4.3.1]decenone (127) and vinylbicy-clo[3.2.1]octanone (128)[85,86]. The reaction of the 3-ketoglutarate 130 with cij-cyclopentene-3,5-diacetate (129) affords the furan derivative 131 [87]. The C- and 0-allylations of ambident lithium [(phenylsulfonyl)methylene]nitronate (132) with 129 give isoxazoline-2-oxide 133, which is converted into c -3-hydroxy-4-cyanocyclopentene (134)[S8]. Similarly, chiral m-3-amino-4-hyd-roxycyclopentene was prepared by the cyclization of yV-tosylcarbamate[89]. 

C3NO 0 N 5,5 -Biisoxazole 3-hydroxy-5-phenylisoxazole 3,3 -bi-2-isoxazoline 3-hydroxy-5-phenylisoxazole 3-phenylisoxazolin-5-one ... 

Ketones react with formaldehyde and perchloric acid to produce 2-isoxazolines and also with urea in a-methylnaphthalene at 200 °C (75MIP41600, 75ZOB2090, 79MI41612) with N-hydroxyurea they produce 3-hydroxy-2-carbamoylisoxazolidines or, after acid treatment, 2-isoxazolines are formed (Scheme 123) (75TL2337). 

The first in this series to be reported was 4-oxoisoxazoline-3,5-dicarboxylic acid diethyl ester, which was formed by the reaction of nitrous acid on diethyl acetonedicarboxylate in 1891. Quilico described a number of syntheses in his 1962 review and the most general include the reaction of hydroxylamine and a-hydroxy-(or acetoxy)- 3-diketones and the conversion of 4-isoxazolediazonium salts to the hydroxy moiety (62HC(17)1, p. 3). Additional syntheses reported were the oxygenation of a 4-boric acid derivative (67JOM(9)l9) and peroxide oxidation of a 4-nitro-2-isoxazoline (Scheme 151) (79ZOR2436). 

Isoxazoli dino[2,3-6][A -l,2,5]oxadiazoline synthesis, 6, 997 Isoxazolidone, 5-hydroxy-synthesis, 6, 112 Isoxazoline, 5-hydroxy-synthesis, 6, 61 Isoxazoline, 3-nitro-/V-oxides... 

Hydrogenolytic cleavage of isoxazolines has also proved useful in preparation of -dihydroxy ketones and -hydroxy carboxylic acids (47). The isoxazolines were prepared by a [3 -1- 2] cycloaddition. 

Nitrile oxides are usually prepared via halogenation and dehydrohalogenation of aldoximes [11] or via dehydration of primary nitro alkanes (Scheme 1) [12]. However, it is important to note that nitrile oxides are relatively unstable and are prone to dimerization or polymerization, especially upon heating. 1,3-Dipolar cycioaddition of a nitrile oxide with a suitable olefin generates an isoxazoline ring which is a versatile synthetic intermediate in that it provides easy access to y-amino alcohols, )5-hydroxy ketones, -hydroxy nitriles, unsaturated oximes, and a host of other multifunctional molecules (Scheme 1) [5a]. Particularly for the formation of )5-hydroxy ketones, nitrile oxide-olefin cycioaddition serve as an alternative to the Aldol reaction. 

Optically active 5-(hydroxymethyl)-3-phenyl-2-isoxazoline 13 is a versatile key intermediate for the syntheses of /3-hydroxy ketones, y-amino alcohols,and y-amino acids. However, the Upase-catalyzed kinetic resolution of isoxazoline ( )-13 has not been reported so far probably because of the low enantioselectivity expected for primary alcohols (Scheme 3). The enantioselectivity was found to be very low E value = 4-5 in /-Pr20) at room temperature however, it could be markedly improved up to an value of 249 at —60°C by using lipase PS-C 11 in acetone, which was the best solvent among those tested (THF, /-Pt20) 1 )-... 

Isoxazolines are valuable substrates in organic synthesis as they can be transformed into useful building blocks such as y-amino alcohols, 3-hydroxy ketones,... 

Primary nitro compounds are good precursors for preparing nitriles and nitrile oxides (Eq. 6.31). The conversion of nitro compounds into nitrile oxides affords an important tool for the synthesis of complex natural products. Nitrile oxides are reactive 1,3-dipoles that form isoxazolines or isoxazoles by the reaction with alkenes or alky nes, respectively. The products are also important precursors for various substrates such as P-amino alcohols, P-hydroxy ketones, P-hydroxy nitriles, and P-hydroxy acids (Scheme 6.3). Many good reviews concerning nitrile oxides in organic synthesis exist some of them are listed here.50-56 Applications of organic synthesis using nitrile oxides are discussed in Section 8.2.2. 

The conversion of isoxazolines to P-hydroxy ketones can be carried out by H2 in the presence of Raney Ni under various conditions 91 The reaction proceeds cleanly with complete stereospecificity (Eq. 8.62). 

Thus, isoxazolines are converted into y-amino alcohols and (3-hydroxy ketones stereoselec-tively. However, the intermolecular cycloaddition involving 1,2-unsymmetrically substituted alkenes such as trans-cinnamyl alcohol proceeds nonregioselectively to give a mixture of the two regioisomers (Eq. 8.63).98... 

Treatment of isoxazoline-fiised [60]fullerene 48 with NaOMe in the presence of MeOH gave the p-hydroxy nitrile derivative 49 in good yield <00SL361>. The synthesis of the enantiomerically pure cyclopropane amino acid 51 covalently attached to a fulleroisoxazoline has been achieved . 

Dipolar cycloadditions of ( -phenyl-/V-methylnitrone (585) to Baylis-Hillman adducts such as ( 3-hydroxy-a-methylene esters) (608-610) proceed with complete regioselectivity in good yields to afford the corresponding diastere-omeric 3,5,5-trisubstituted isoxazolines (611-613) (Scheme 2.269). Attack by the dipole in (585) from the less sterically hindered side of dipolarophiles (608-610) affords C-3/C-5 cis isoxazolidines (611a,b-613a,b) as the major products (780). 

The products of nitrone-alkene cycloadditions are isoxazolines, and the oxygen-nitrogen bond can be cleaved by reduction, leaving both an amino and a hydroxy function in place. 

The elimination proceeds rapidly at room temperature with a catalytic amount of acid or fluoride, however, it has also been observed to occur upon distillation of the isoxazolidine (16,18). Because of the facile elimination, several procedures have been developed in which the reaction is quenched with an acidic agents, and the isoxazoline is isolated directly (108). Isoxazolines are useful in the preparation of p-hydroxy ketones and amino alcohols (138). 

Cleavage of the isoxazolidine ring can also be effected directly to give similar products as the isoxazoline. Upon the addition of methoxide to an isoxazolidine bearing a hydrogen at C(3), fragmentation reveals a p-hydroxy oxime, which can be further hydrolyzed to the corresponding ketone (16,20,34,108). The P-hydroxy... 

The cycloaddition of some nitrile oxides to trani-l,2-disubstituted alkenebor-onates afforded the respective isoxazoline-4-boronates with high regioselectivity. These products were then used to prepare the 4-hydroxy derivatives (139) complementing earlier approaches that took advantage of 4-modification (140,141) of furan cycloaddition products (20,21) (see Section 6.4.4). 

A great deal of the interest in isoxazolines stems from their use in the synthesis of acyclic compounds (19). The approach to (3-hydroxy carbonyl compounds via... 

Talaromycin B is a spiro-acetal produced by the fungus Talaromyces stipitatus, the toxicity of which may be due to its ability to block outward potassium fluxes. In an elegant synthesis, the requisite open-chain polyol with hydroxy groups in the y-and y -positions was assembled from nitrile oxide and olefin building blocks 50 and 51, both of which carry a f>w(hydroxyethyl) moiety protected as a cyclohexanone acetal (284). Hydrogenolysis of the N O bond of isoxazoline 52 using Raney nickel, followed by treatment with aqueous acid, gave the spiroketal 53, which was further transformed into racemic talaromycin B (54) (Scheme 6.54) (284). 

In another variation, the intermediate aldol product 64, with an extra hydroxy group in the y-position, was used to construct the furan ring of rosefuran (65), a trace component of rose oil (Scheme 6.56) (285). Here, the reaction of the nitropentene derivative 61 with crotyl acetate (62) afforded the 3,4,5-trisubstituted isoxazoline (63) in moderate yield. Removal of the acetyl group by saponification of the cycloadduct, subsequent demasking of the aldol moiety using Mo(CO)6, and exposure of the ketodiol (64) to acid gave the target compound 65 (285). 

Isoxazolines can be transformed into a,p-enones by several methods from the initial aldol product. This strategy was applied by Barco et al. (285) toward the synthesis of ( )-pyrenophorin (98), a macrocychc fow(enone-lactone) with antifungal properties. The hydroxy group was introduced from the nitrile oxide component (95), while the carboxy function was derived from the acrylate dipo-larophile. Thus, cycloaddition of the optically active nitropentyl acetate 94 to methyl acrylate 95 afforded isoxazoline 96 as a mixture of optically active diastereomers. Reductive hydrolysis using Raney nickel/acetic acid gave p-hydro-xyketone (97), which was subsequently utilized for the synthesis of (—)-pyreno-phorin (98) (Scheme 6.63) (285). 

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