Lactones magnesium enolate

A magnesium enolate of 99 is susceptible to aldol condensation with 4-pentenal, and the crude product can be directly protected to give its ethyl carbonate 100. a-Hydroxylation of the carbonyl group yields the hydroxyl carbonate 101. Reduction of the carbonyl group generates a triol, and this compound can be simultaneously converted to carbonate 102. Swern oxidation of 102 gives ketone 103, which can be rearranged25 to produce lactone product 104 (Scheme 7-32). 

Reactions presented below show that this method is used frequently to prepare magnesium enolates derived from functionalized carboxylic esters or lactones (equations 18-24, Tables 2 and 3). 

The reaction of alkyl dihalogenoacetate magnesium enolates with 2,3-isopropylidene-D-glyceraldehyde affords the expected /3-hydroxy-a-dihalogenoesters . The erythro isomer is obtained with isopropyl dichloroacetate magnesium enolate. This result is in agreement with theoretical models. 2-Deoxy-pentono-1,4-lactones are obtained after removal of the halogen atom by either Raney nickel or tributyltin hydride reduction (equation 89). 

In the synthesis of L-acosamine, condensation of the predominant isomer 609 with the magnesium enolate of tert-hutyl acetate gives 610 in 54% yield. Acetylation to 611 (77% yield) and subsequent catalytic hydrogenation in an autoclave (70 Kg/cm ) furnishes 612 as a single isomer. Acid hydrolysis of the ketal, benzoylation under Schotten—Baumann conditions, and lactonization affords 613. Reduction of the lactone to a lactol with diisobutyl-aluminum hydride gives N- benzoyl-L-acosamine (614) as an anomeric mixture. 

Derivatives of Y-hydroxyacetylenic acids, which are useful intermediates in the synthesis of butenolides, are prepared from propiolic acid and ester anions. Alk-2-ynoic and 2-allenic esters are prepared by the oxidation of 3,4-disubstituted 2-pyrazolin-5-ones with lead(iv) tetra-acetate in the absence and presence of BF3 respectively. Py-Unsaturated esters are produced in high yield by the palladium-catalysed decarboxylation-carbonylation of allylic carbonates. Magnesium enolates of esters react with nitriles to give (Z)-3-amino-alk-2-enoates. Enol lactones react with diethyl methoxycarbonylmethylphosphonate to give cyclic unsaturated keto-esters (Scheme 66). ... 

New syntheses of enamino-ketones by the ring-opening of isoxazoles with samarium di-iodide and with pentacarbonyliron, by the reaction of 2-alkyl-thiomethyl-3-alkylthioacrylophenones with amines, and by the intramolecular photoarylation of A -[2-(haloaryl)ethyl]-(3-enaminones, of enamino-diketones by the reaction of (3-chlorosulphonic acid chlorides with amines and by amino-methylenation of cyclic (3-dicarbonyl compounds, and of enamino-esters by aminomethylenation of esters and lactones and by the reaction of nitriles with magnesium enolates have been reported. 

C. Reactions of Magnesium Ester Enolates and Magnesium Lactone Enolates with Electrophiles... 

Asymmetric synthesis in aldol-type reaction involving magnesium ester or lactone enolates has also been reported. Enolate of (—)-menthyl or (-l-)-bornyl acetate reacts with substituted benzophenones or a-naphtophenones to yield, upon hydrolysis of the resulting esters, optically active /3-hydroxyacids. Although these results are interpreted in terms of a steric factor. Prelog s rules are not applicable to these reactions (equation 88). 

Chlorophenyl)glutarate monoethyl ester 87 was reduced to hydroxy acid and subsequently cyclized to afford lactone 88. This was further submitted to reduction with diisobutylaluminium hydride to provide lactol followed by Homer-Emmons reaction, which resulted in the formation of hydroxy ester product 89 in good yield. The alcohol was protected as silyl ether and the double bond in 89 was reduced with magnesium powder in methanol to provide methyl ester 90. The hydrolysis to the acid and condensation of the acid chloride with Evans s chiral auxiliary provided product 91, which was further converted to titanium enolate on reaction with TiCI. This was submitted to enolate-imine condensation in the presence of amine to afford 92. The silylation of the 92 with N, O-bis(trimethylsilyl) acetamide followed by treatment with tetrabutylammonium fluoride resulted in cyclization to form the azetidin-2-one ring and subsequently hydrolysis provided 93. This product was converted to bromide analog, which on treatment with LDA underwent intramolecular cyclization to afford the cholesterol absorption inhibitor spiro-(3-lactam (+)-SCH 54016 94. 

Directed lithiations of a,3- and -y.b-unsaturated amides " have been extensively studied. Illustrative examples are shown in Scheme 44. Prior complexation of the alkyllithium base with the amide carbonyl oxygen directs the base to the thermodynamically less acidic -position in a,3-unsaturated amide (31), which adds to benzophenone and subsequently lactonizes. Analysis of the NMR spectrum reveals that the organolithium added the benzophenone in the equatorial position. A Afferent kinetic deprotonation is seen in y,8-unsaturated amide (32), where -lithiation to form an allylic anion predominates over a-lithiadon to form an enolate. > Addition of the lithium anion to acetone affords poor regioselectivity, but transmetalation to magnesium before carbonyl addition yields a species which adds exclusively at the 8-position. ... 

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