42-Isoxazoline ring 42-Isoxazolines

A -Pyrazolines and A -isoxazolines (302 Z = NH, O) are cyclic hydrazones and oximes, respectively. 2-Pyrazolines are quaternized at the 2-position (306 307) (64AHC(. ll). 1,3,4-Oxadiazolines (e.g. 308) are very easily ring-opened (66AHCi7 183). 

Irradiation of the fused ring isoxazoline (27) gave the ring expanded product, oxazepine (28), in 80% yield. 

The reaction of 3,5-diphenyl-2-isoxazoline with lithium diisopropylamide produced with 2 equivalents of base a chalcone oxime, while in the presence of 1 equivalent and an alkyl iodide, ring alkylation occurred at the 4-position of the nucleus (Scheme 48) (80LA80, 78TL3129). 

Treatment of 2-isoxazolines with acid usually leads to ring rupture and formation of chalcone products 62HC(l7)l), although 5-methyl-3-phenyl-2-isoxazoline forms a quaternary salt with dimethyl sulfate in the presence of perchloric acid (Scheme 51) (73BSF1390). 

A number of manipulations on isoxazolinone can be performed with the nucleus remaining intact, and a variety of reagents cleave the ring. Isoxazolin-5-ones have also been used as synthons for the production of other heterocycles (76ZC270). 

Base treatment of isoxazolin-5-ones produced the cyano aeids (70JOC3130), while ethoxide treatment of iV-alkyl-A -5-ones gave, after H2O treatment, a malonyl monoamide monoester (69JOC2981) and not an oximoacrylate as was reported earlier (Scheme 61) (23HCA102). The base treatment of a 4-bromoisoxazolin-5-one generated a ring-opened oxime (Scheme 62) (79JOC873). 

The catalytic reduction of 2-methyl-3-phenyl-3-isoxazoline (159) produced /3-hydroxypropiophenone (160) (74CPB70). Ring fission also occurred on base treatment of the 3,5-diaryl-3-isoxazoline (161) to give the a,/3-unsaturated oxime (162) (70CI(L)624). 

The reaction of a dibromochalcone with hydroxylamine hydrochloride in pyridine gave three products with the expected 2-isoxazoline product as the predominate compound. A ring bromination product and an isoxazole were also isolated (70UC796). The reaction of hydroxylamine with /S-thiosulfates of propiophenone at reflux produced 3-phenyl-2-isoxazo-line (455). At room temperature a bis-Michael product (456) was produced. The reaction with N -phenylhydroxylamine yielded a mono-Michael type product (457) (74CPB1990). 

Rahman and Clapp decomposed dinitromethane derivatives in DMF in the presence of alkenes to obtain 2-isoxazolines. Without any alkene present, an acid and KNO2 were obtained. They proposed a mechanism which proceeded via a three-membered ring or a nitrocarbene which rearranged to a nitrile oxide (76JOC122, 75MI41612). 

The 2-isoxazolin-5-ol system is of interest in that many reports indicate that in solution an equilibrium exists between the ring and open-chain forms. The direction of the equilibrium depends on the bulk and/or number of substituents, with increasing either of the above favoring the cyclic form (Scheme 133) (76T1369, 74BSF725). 

In a number of cases the intermediate oxime has been isolated in the reaction of hydroxylamine and /3-keto esters. The reaction of ethyl acetoacetate with hydroxylamine generated an oxime which cyclized on base treatment (Scheme 144) (70MI41600). Likewise, treatment of an analogous amide with hydroxylamine generated a ring opened material which cyclized on treatment with HCl (Scheme 144) (67T831). The presence of a minor contaminant in the standard reaction of ethyl acetoacetate with hydroxylamine was discovered and identified as an isomeric isoxazolin-3-one. The mechanism of product formation has been discussed (70BSF2685). 

Relatively few -unsubstituted isoxazolin-3-ones are known and a brief review was published by Quilico in 1962 the ring system was obtained by the hydrolysis of 3-methoxy-5-phenylisoxazole in 1961 62HC(17)l,p. 3). 

For the isoxazolines 284 substituted at position 3, ring-chain tautomerism is depicted by the equilibrium 284 and 285-287 (Scheme 103). In general the cyclic tautomers 284 are strongly preferred. The ring-opened forms exist in equilibrium with 284 in rare cases [95ZOB705 96AHC(66)1, p. 21]. The equilibrium of the oxazolidinones 288 [78MI1, p. 107] is affected by the nature of the solvent. 

Few reactions of sulfonylfuroxans with olefins have been reported. Depending on the substituents at the furoxan ring, nature of dipolarophile, and temperature, different types of products may be obtained. It is relatively simple to cyclore-vert disulfonylfuroxans to a-sulfonyl nitrile oxides on thermolysis (81TL3371, 85T727). These nitrile oxides were trapped by dipolarophiles to yield sulfonyl-substituted isoxazole derivatives. For example, 3,4-bis(phenylsulfonyl)furoxan reacts with an excess of styrene in xylene under reflux to afford the corresponding isoxazoline 290 (Scheme 189). 

One of the most important routes to isoxazole and isoxazoline rings involving the formation of the 1—5 and 2—3 bonds involves the condensation of hydroxylamine with a,/8-unsaturated carbonyl compounds. This method was previously widely used, but it is now of no preparative value, though it has been recently applied to determine the configuration of oximes. " The only new modification of this synthesis is the use of the acetals (27) of a,/8-acetylenic aldehydes for preparation of 5-substituted isoxazoles (28)... 

As already mentioned, on passing from the aromatic system of isoxazoles to the nonaromatic ones of isoxazolines and isoxazolidines, the N—O bond becomes more labile. In these compounds the ring is extremely readily cleaved. Many such reactions are useful to determine the structure of reduced isoxazole derivatives and are also of preparative value. 

The isoxazoline ring is also readily cleaved by such reducing agents as do not affect the isoxazole ring. Thus, for example, the treatment of isoxazolines (186) with LiAlHj proceeds with a smooth cleavage of the heterocyclic ring to form substituted 3-amino-propan->l-ols... 

Boiling hydriodic acid also degrades the isoxazoline ring - but does not affect that of isoxazole. ... 

The stability of the heterocyclic ring toward oxidation by permanganate depends on the experimental conditions. In acid media the ring is not cleaved, and acetylisoxazoles are readily prepared from isopropenyl derivatives.2-Isoxazolines are dehydrogenated into isoxazoles (cf. 192 193). The stability of the heterocyclic ring is also observed when this oxidation is carried out in acetone solution. It is of interest that this method allows the preparation both of... 

A formal total synthesis of the prostaglandin involved unmasking of an isoxazoline ring by hydrogenation over W-2 Raney Ni/BCl3/MeOH, H2O to reveal a -hydroxyketone. It was necessary in this case to deactivate the Raney... 

The intramolecular cycloaddition of a nitrile oxide (a 1,3-dipole) to an alkene is ideally suited for the regio- and stereocontrolled synthesis of fused polycyclic isoxazolines.16 The simultaneous creation of two new rings and the synthetic versatility of the isoxa-zoline substructure contribute significantly to the popularity of this cycloaddition process in organic synthesis. In spite of its high degree of functionalization, aldoxime 32 was regarded as a viable substrate for an intramolecular 1,3-dipolar cycloaddition reaction. Indeed, treatment of 32 (see Scheme 17) with sodium hypochlorite... 

The synthesis of novel heterocycle-fused furo[3,4-d]isoxazoles via ring transformation of 2-isoxazoline-2-oxides by Lewis acids was reported <96H(42)289>. A practical application of the... 

The base-catalysed reaction of a-bromo-a,P-unsaturated ketones with aliphatic nitro compounds leads to 2-isoxazoline A-oxides by tandem conjugate addition-ring closure (Scheme 5) <95JOC6624>. A -Acyl-3-isoxazolin-5-ones are transformed into oxazoles by photolysis or by flash vacuum pyrolysis (Scheme 6) <96TL675>. 

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