Enol esters, preparation

Enolates, lithium salts, aldol condensation with, 54, 49 Enol esters, preparation, 52,... 

Electrolytic reduction, apparatus, 52, 23 Enol acetates, acylation of, 52,1 Enol esters, preparation, 52, 39 Epichlorohydrin, with boron trifluoride diethyl therate and dimethyl ether to give trimethyloxonium tetra-fluoroborate, 51,142 ESTERIFICATION OF HINDERED ALCOHOLS f-BUTYL p-TOLUATE,... 

The stereo-defined enol ester 432 is prepared by the reaction of the vinyl-mercurial 431, obtained by acetoxymercuration of 2-butyne. with mercury(II) carboxylates using a catalytic amount of Pd(OAc)2[392]. 

The acylation of enamino ketones can take place on oxygen or on carbon. While reaction at nitrogen is a possibility, the N-acylated products are themselves acylating agents, and further reaction normally takes place. The first reported acylation of enamino ketones (72) was that of 129, prepared by acylation of the enamine (113), which was shown to have undergone O acylation because on mild hydrolysis the enol ester (130) could be isolated. A similar reaction took place with other aliphatic acid chlorides (80) and with dibasic acid chlorides [e.g., with succinyl chloride to give 118 above]. 

The reaction between acyl halides and alcohols or phenols is the best general method for the preparation of carboxylic esters. It is believed to proceed by a 8 2 mechanism. As with 10-8, the mechanism can be S l or tetrahedral. Pyridine catalyzes the reaction by the nucleophilic catalysis route (see 10-9). The reaction is of wide scope, and many functional groups do not interfere. A base is frequently added to combine with the HX formed. When aqueous alkali is used, this is called the Schotten-Baumann procedure, but pyridine is also frequently used. Both R and R may be primary, secondary, or tertiary alkyl or aryl. Enolic esters can also be prepared by this method, though C-acylation competes in these cases. In difficult cases, especially with hindered acids or tertiary R, the alkoxide can be used instead of the alcohol. Activated alumina has also been used as a catalyst, for tertiary R. Thallium salts of phenols give very high yields of phenolic esters. Phase-transfer catalysis has been used for hindered phenols. Zinc has been used to couple... 

Enol esters can also be prepared in the opposite type of exchange reaction, catalyzed by mercuric acetate or Pd(II) chloride, for example. 

Ketones and carboxylic esters can be a hydroxylated by treatment of their enolate forms (prepared by adding the ketone or ester to LDA) with a molybdenum peroxide reagent (MoOs-pyridine-HMPA) in THF-hexane at -70°C. The enolate forms of amides and estersand the enamine derivatives of ketones can similarly be converted to their a hydroxy derivatives by reaction with molecular oxygen. The M0O5 method can also be applied to certain nitriles. Ketones have also been Qc hydroxylated by treating the corresponding silyl enol ethers with /n-chloroperoxy-... 

Geranyl chloride can be prepared from geraniol by the careful use of triphenylphosphine in carbon tetrachloride. Tris(dimethylamino)phosphine reacts with carbon tetrachloride to form the complex (42) which can be used to form the enol esters (43) from acid anhydrides. Similarly, aldehydes form the alkenes (44), and esters or amides of trichloroacetic acid are converted to glycidic esters. ... 

The magnesium enolates are prepared by treatment of malonic acid half ester either with magnesium ethylate[24],[32] or with isopropylmagnesium bromide[24] or chloride.t26] Ref. [23] describes the synthesis of a 13C-labelled ethyl acetoacetate. Concerning the synthesis of porphyrin / -ketoesters,[3 1 it was noticed that the method via imidazolides is more efficient than the other approach via acid chlorides and sodiomalonic esters. 

This novel resin-bound CHD derivative was then utilized in the preparation of an amide library under microwave irradiation. Reaction of the starting resin-bound CHD with an acyl or aroyl chloride yields an enol ester, which, upon treatment with amines, leads to the corresponding amide, thus regenerating the CHD. This demonstrates the feasibility of using the CHD resin as a capture and release reagent for the synthesis of amides. The resin capture/release methodology [126] aids in the removal of impurities and facilitates product purification. 

Enol esters are distinct from other esters not because of a particular stability or lability toward hydrolases, but due to their hydrolysis releasing a ghost alcohol (an enol), which may immediately tautomerize to the corresponding aldehyde or ketone. A well-studied example is that of vinyl acetate (CH3-C0-0-CH=CH2), a xenobiotic of great industrial importance that, upon hydrolysis, liberates acetic acid (CH3-CO-OH) and acetaldehyde (CH3-CHO), the stable tautomer of vinyl alcohol [25], The results of two studies are compiled in Table 7.1, and demonstrate that vinyl acetate is a very good substrate of carboxylesterase (EC 3.1.1.1) but not of acetylcholinesterase (EC 3.1.1.7) or cholinesterase (EC 3.1.1.8). The presence of carboxylesterase in rat plasma but not in human plasma explains the difference between these two preparations, although the different experimental conditions in the two studies make further interpretation difficult. 

Zinc enolate 4, prepared from acetylene ether pyridine i-oxide, mercuric chloride, and zinc, adds to aldehydes to form a-chloro-3-hydroxy esters 5 in good yields ( ). Subsequent treatment with base gives trans-epoxyesters, one of which 6 is converted to 2-amino-2-deoxy-D-ribose stereoselectively in good yields (O. 

More complex examples exist where the 2-substituent on the furan is a polyhydroxyalkyl or glycosyl moiety <89CAR(l9l)209>. In these cases, the rearrangement products provide useful intermediates for the preparation of heterocycle-substituted sugar derivatives. Sometimes Baeyer-Vil-liger-type products are observed, such as 3-keto enoic esters instead of 3-keto enol esters <81TL1443>. 

Isoxazolium salts, such as the well-known Woodward s Reagent K , have found significant use as reagents in the preparation of activated enol esters suitable for peptide coupling reactions. Since this aspect of isoxazole chemistry has been extensively surveyed, this topic will not be treated in further detail here (B-74MI11601). 

Enantio-enriched enol esters - potential precursors of enantiopure a-arylalkanoic acids - have been prepared by asymmetric coupling of ketenes with aldehydes, using a chiral ferrocene bearing a dimethylaminopyridine function.20... 

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