Keto esters conversion

Replacement of a benzene ring by its isostere, thiophene, is one of the more venerable practices in medicinal chemistry. Application of this stratagem to the NSAID piroxicam, gives tenoxicam, 136, a drug with substantially the same activity, nie synthesis of this compound starts by a multi-step conversion of hydroxy thiophene carboxylic ester 130, to the sulfonyl chloride 133. Reaction of that with N-methylglycinc ethyl ester, gives the sulfonamide 134. Base-catalyzed Claisen type condensation serves to cyclize that intermediate to the p-keto ester 135 (shown as the enol tautomer). The final product tenoxicam (136) is obtained by heating the ester with 2-aminopyridine [22]. 

The recently reported (757) conversion of 5-pyrazolones directly to a,j8-acetylenic esters by treatment with TTN in methanol appears to be an example of thallation of a heterocyclic enamine the suggested mechanism involves initial electrophilic thallation of the 3-pyrazolin-5-one tautomer of the 5-pyrazolone to give an intermediate organothallium compound which undergoes a subsequent oxidation by a second equivalent of TTN to give a diazacyclopentadienone. Solvolysis by methanol, with concomitant elimination of nitrogen and thallium(I), yields the a,)S-acetylenic ester in excellent (78-95%) yield (Scheme 35). Since 5-pyrazolones may be prepared in quantitative yield by the reaction of /3-keto esters with hydrazine (168), this conversion represents in a formal sense the dehydration of /3-keto esters. In fact, the direct conversion of /3-keto esters to a,jS-acetylenic esters without isolation of the intermediate 5-pyrazolones can be achieved by treatment in methanol solution first with hydrazine and then with TTN. 

GL 4] [R 5] [P 5] The rate of the fluorination of y0-keto esters is usually correlated with the enol concentration or the rate of enol formation as this species is actually fluorinated [15, 16]. For the fluorination of ethyl 2-chloroacetoacetate in a micro reactor, much higher yields were found as expected from such relationships and as compared with conventional batch processing which has only low conversion. Obviously, the fluorinated metal surface of the micro channel promotes the enol formation. 

An example of solid-phase microwave synthesis where the use of open-vessel technology is essential is shown in Scheme 4.10. The transesterification of /3-keto esters with a supported alcohol (Wang resin) is carried out in 1,2-dichlorobenzene (DCB) as a solvent under controlled microwave heating conditions [22], The temperature is kept constant at 170 °C, ca. 10 degrees below the boiling point of the solvent, thereby allowing safe processing in the microwave cavity. In order to achieve full conversion to the desired resin-bound /3-keto ester, it is essential that the methanol formed can be removed from the equilibrium [22]. 

The groups of Giacomelli and Taddei have developed a rapid solution-phase protocol for the synthesis of 1,4,5-trisubstituted pyrazole libraries (Scheme 6.194) [356]. The transformations involved the cyclization of a monosubstituted hydrazine with an enamino-/8-ketoester derived from a /8-ketoester and N,N-dimethylformamide dimethyl acetal (DMFDMA). The sites for molecular diversity in this approach are the substituents on the hydrazine (R3) and on the starting j3-keto ester (R1, R2). Subjecting a solution of the /8-keto ester in DMFDMA as solvent to 5 min of microwave irradiation (domestic oven) led to full and clean conversion to the corresponding enamine. After evaporation of the excess DMFDMA, ethanol was added to the crude reaction mixture followed by 1 equivalent of the hydrazine hydrochloride and 1.5 equivalents of triethylamine base. Further microwave irradiation for 8 min provided - after purification by filtration through a short silica gel column - the desired pyrazoles in >90% purity. 

The success of the reaction with sodium triphenylmethide as a catalyst might have been due to the conversion of the keto ester into a sodio... 

Kinetic resolution results of ketone and imine derivatives are indicated in Table 21.19. In the kinetic resolution of cyclic ketones or keto esters, ruthenium atrop-isomeric diphosphine catalysts 25 induced high enantiomer-discriminating ability, and high enantiopurity is realized at near 50% conversion [116, 117]. In the case of a bicyclic keto ester, the presence of hydrogen chloride in methanol served to raise the enantiomer-discriminating ability of the Ru-binap catalyst (entry 1) [116]. 

The same catalyst was used in the asymmetric hydrogenation of / -keto esters in [BMIM][PF6], [BMIM][BF4] and [MMPIM][(CF3S02)2N] with complete conversions and ee-values of up to 99.3% [108]. 

Interest in the uses of HMPT has also been maintained, but a warning has been issued (by the E. I. du Pont de Nemours Company and the U.S. National Institute for Occupational Safety and Health) about its potential acute toxicity. HMPT has been used in the synthesis of 2,4-bis(dimethylamino)qui nolines,9 8 as a solvent for reactions between carbonyl compounds and sulphur," for the conversion of iV-benzylcarbox-amides into 3-phenylpropionitriles,100 in reactions between metals or organometallic compounds with a variety of organic substrates,101 and as a solvent for alkylation reactions of /J-keto-esters and related compounds in which the alkylation reaction is accompanied by de(alkoxycarbonylation) (Scheme 7).102... 

The diastereomerically related keto esters 53 and 55, activated for removal of the chiral auxiliary, were obtained from 5 and 9. The requisite nitrogen atom was introduced by an azide displacement of chloride and at an opportune stage of the synthesis an intramolecular aminolysis of the carboxylic ester provided the enantiomerically related keto lactams 54 and 56. Although shorter routes to these popular synthetic targets have been reported in recent years, the conversion of 9 to (—)-iso-nitramine (ten steps, 50% overall yield) clearly illustrates the efficiency of the asymmetric Birch reduction-alkylation strategy for construction of the azaspiroundecane ring system. 

This procedure is a modification of the previously-published procedure by Boeckman and Thomas. The acetone diketene adduct serves as a versatile, activated g-keto ester equivalent Conversion of this material to the phosphonate by the procedure described above affords an even more versatile synthon which is useful for the preparation of protected analogues of the... 

The treatment of the mercurio ketone with palladium (II) in the presence of carbon monoxide and methanol, Eq. (27) results in the formation of a y-keto ester with incorporation of one molecule of carbon monoxide [8], The overall conversion of a siloxycyclopropane to the keto ester may be performed without isolation of the mercurio ketone. 

Next the (S)-phenylglycitiamide chiral auxihary (PGA) was evaluated (Scheme 5,6). Keto ester 10 was condensed in methanol to afford enamine 15 with 85-90% conversion, and pure Z-enamine isomer was crystallized from the reaction mixture and isolated in 80% yield. ... 

At the time this work was carried out, the mechanistic basis for the conversion of acyl Meldrum s acid adducts to corresponding P-keto esters/amides such as 25 was not well understood [16] . The IR method used to determine the nature of the protonation state of 24 presented an excellent opportunity to perform kinetic studies. These studies [17] showed that the reaction of 24 with amine nucleophile 3 was pseudo zero order in the anionic form 24. The reaction kobs was almost the same in the one-pot process as when the isolated 24 was used. This was consistent with the rate-determining step being the formation of the a-oxoketene intermediate 26 (Scheme 5.15). 

Pyrrole- and indole-carboxylic acid chlorides react with dialkyl- and diaryl-cadmium to yield the ketones and it is noteworthy that the reaction of the anhydride of indole-2,3-dicarboxylic acid with diphenylcadmium produces 3-benzoylindole-2-carboxylic acid and not its isomer (53JCS1889). The ability of l-methylindole-2-carboxylic acid to react with nucleophiles is enhanced by conversion into the mixed anhydride with methanesulfonic acid. The mixed anhydride reacts with carbanions derived from diethyl malonate and from methyl acetate to yield the indolyl (3- keto esters (80TL1957). 

Substituted coumarins arise from the use of 2-substituted 1,3-dicarbonyl compounds. The synthesis of a number of such keto esters has been described together with their conversion into the coumarin (65JOC4114). The use of hydrogen fluoride in place of sulfuric acid as condensing agent was found to be very advantageous. 

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