3- isoxazoles, preparations

Starting from 4- or 5-tributylstannanyl isoxazoles, prepared via 1,3-DC with chlorooximes and tributylethynyltin in the presence of base, a series of isoxazolyl tetrahydropyridinyl oxazolidinones 42 were synthesised and their in vitro antibacterial activity evaluated <03BMCL4117>. 

Ring-fused systems have also been prepared using this bond formation approach. Treat-ent of the /3-aminoketone (281) with lead tetraacetate gave the isoxazole system (282 ... 

In theory, three isoxazolines are capable of existence 2-isoxazoline (2), 3-isoxazoline and 4-isoxazoline. The position of the double bond may also be designated by the use of the prefix A with an appropriate numerical superscript. Of these only the 2-isoxazolines have been investigated in any detail. The preparation of the first isoxazoline, 3,5-diphenyl-2-isoxazoline, from the reaction of )3-chloro-)3-phenylpropiophenone with hydroxylamine was reported in 1895 (1895CB957). Two major syntheses of 2-isoxazolines are the cycloaddition of nitrile A-oxides to alkenes and the reaction of a,/3-unsaturated ketones with hydroxylamine. Since 2-isoxazolines are readily oxidized to isoxazoles and possess some of the unique properties of isoxazoles, they also serve as key intermediates for the synthesis of other heterocycles and natural products. 

Isoxazolium salts can be prepared by reaction with alkyl iodides or sulfates, although the low basicity of isoxazoles and their sensitivity to nucleophilic attack may necessitate special care. Isoxazolium salts containing bulky Af-substituents can be prepared by the reaction of isoxazoles with alcohols in the presence of perchloric acid. For example, the reaction of 3,5-dimethylisoxazole (53) with some alcohols in the presence of 70% perchloric acid gave isoxazolium salts, (54a) in 29%, (54b) in 57% and (54c) in 82% yield 79AHC(25)147, 68JOC2397). Attempts to quaternize 3,5-dimethyl-4-nitroisoxazole failed 71JCS(B)2365). 

Alkyl(or 3-aryl)-5-methylisoxazoles (306) were prepared by the regiospecific reaction of phosphonium salts (304) with hydroxylamine, followed by the treatment of the resulting isoxazole-containing phosphonium salts (305) with aqueous sodium hydroxide (80CB2852). 

Hi) Preparation of isoxazoles from nitrile N-oxides The reaction between a nitrile //-oxide and an alkyne is so facile that it is usually sufficient to leave an ether solution of the reactants at room temperature to obtain the desired isoxazole in good yield. The reaction is in general sensitive to the size of the substituent on the alkyne but not on the nitrile -oxide. In the case of poorly reactive alkynes, the difficulty may be overcome by generating the nitrile -oxide in situ and keeping its concentration low. 

Heterocycles which provide the NOC or CNO component synthon Isoxazoles can be prepared by the thermal or photolytic cleavage of a number of heterocycles, such as 1,3,5-dioxazolidone, furazans, furoxans and 1,3,2,4-dioxathiazole 2-oxides, in the presence of a reactive alkene or alkyne. 

Isoxazole-5-carbaldehyde was prepared by the manganese dioxide oxidation of 5-hydroxymethylisoxazole (67T4697), the latter being formed from sodium fulminate and propargyl alcohol in greater than 90% yield. 

Numerous isoxazole ketones have been described (62H(i7)l, p. 79). They have been synthesized by the many different methods available for the preparation of the isoxazole... 

The synthesis of isoxazolecarboxylic acids has been well investigated. They can be prepared either from compounds which already contain an isoxazole nucleus or by isoxazole ring-closure methods using appropriate starting materials containing carboxy or alkoxycar-bonyl groups. 

In contrast to the 3-substituted products above, 4-chloro-, 4-bromo- and 4-iodo-isoxazoles are readily prepared by direct halogenation of the corresponding isoxazoles, from 4-isoxazolediazonium salts by the Sandmeyer reaction, or by reaction of hydroxylamine with a-halo- 8-dicarbonyl compounds (62HC(l7)l, p. 66, 63AHC(2)365). 3,5-Bis(dimethyl-amino)-4-fluoroisoxazole has been synthesized by reaction of (Me2NCO)2CHF with hydroxylamine (78BSB391). 

Chloro- and 5-bromo-isoxazoles have been prepared by reaction of 5-isoxazolones with the appropriate phosphoryl halide (77JMC934). 3-Phenyl-5-trifluoromethylisoxazole has been synthesized by reaction of benzonitrile iV-oxide with 3,3,3-trifluoropropyne (77JMC934). 

Fused isoxazoles (631) were prepared as GABA analogs (75MI41604) and some exhibited CNS depression effects (74JAP(K)7480062) or were effective as minor tranquilizers, muscle relaxants and/or sleep inducers (76USP3966748, 79USP4163057). 

In an attempt to prepare an isothiazolobenzodiazepine, ethyl 5-o-aminoanilino-3-methyl-isothiazole-4-carboxylate was treated with sodium methoxide, but the only reaction was transesterification to the methyl ester 76UC(B)394). Only the 5-ester group of dimethyl 3-methylisothiazole-4,5-dicarboxylate reacts with iV,iV -diphenylguanidine, as with the corresponding isoxazole compound, but the product could not be cyclized, even under drastic conditions. This is in marked constrast to the isoxazole compound which cyclized at room temperature (80JCS(P1)1667). 

Krogsgaard-Larsen and co-workers have protected the P-keto functionality as a ketal as a modification to the traditional conditions so attack of hydroxylamine is directed towards the ester. They prepared hydroxamic acid 10 from ester 9 then cyclized with sulfuric acid to isoxazole 11, in route to 4,5,6,7-tetrahydroisoxazolo[5,4-c]pyridin-3-ol (THIP), a selective GABAa receptor agonist studied clinically for insomnia. 

Krogsgaard-Larsen and co-workers continued to utilize Claisen isoxazole chemistry in the preparation of GABAa receptor antagonists reported in 2000. In the synthesis of protected 3-isoxazolols 17a-f, P-oxoesters 16a-f were cyclized at -30°C followed by heating with concentrated hydrochloric acid at 80°C. 

Isothiazole is the sulfur analogue of isoxazole. No member of the group is known. A necessary condition for the development of this field is the preparation of the unknown thiohydroxylamine. This reasonable assessment of the position in 1947 was not in fact true. 

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