Enolates C-acylation

If the enol ester is treated with an excess of the sodium enolate, C-acylation occurs. Give a mechanism for this reaction. Why does the C-acylated product predominate ... 

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... 

In summary, reactions of nitronates with acid anhydrides or acyl chlorides give the O-acylated products, and reactions with acyl imidazoles, phenyl esters, acyl nitriles, and enol-lactones gives the C-acylated products, (see Eq. 5.13).25 The C/O selectivity of nitronate acylation by RCOX is qualitatively correlated with strength (pKJ of the acid HX conjugated to the leaving group X .25... 

An example of this displacement between a pyridine nitrogen atom and an aryl halide is shown in Scheme 21. When 2-pyridyl acetates 138 were C-acylated with 2-halobenzoyl chlorides, the enolized products 139 resulting from the reaction suffered an intramolecular nucleophilic attack of the pyridine nitrogen atom onto the ipso-position to give benzo[c]quinolizinium salts 140 as intermediates. Loss of HC1 gas from 140 afforded benzo[c]quinolizine derivatives 141 <2002JOC2082>. 

Acylbenzotriazoles 162 are efficient C-acylation reagents for the regioselective conversion of ketone enolates into P-diketones . Diethyl(l-benzotriazolmethyl)phosphinate (163) was found to be a convenient reagent for the stereoselective preparation of (E)-l-(l-alkenyl)benzotriazoles <00SC1413>. The novel three-carbon synthon 1-(1//-133-... 

As shown in previous sections, NHCs promote acyl transfer in transesterification reactions. In a similar manner, O C acyl transfer can be achieved with substrates such as 351 in the presence of 0.9 mol% of triazolium pre-catalyst 353 and KHMDS (Scheme 53). Moderate yields are obtained by varying substitution of the oxazole from R = Me, Ph, t-Bu, and t-Pr [171], Deprotonation of the triazolium salt followed by nucleophilic addition to the carbonate moiety of the oxazole results in enolate intermediate LXXXIII and activated carboxylate LXXXIV. Enolate addition and regeneration of the active catalyst provides quaternary stereocenters 352. 

Synthesis of p-Ketoesters by C-Acylation of Preformed Enolates with Methyl Cyanoformate Preparation of (la,4ag,8ao)Methyl 2-Oxo-decahydro-l-naphthoate... 

Magnesium enolates play an important role in C-acylation reactions. The magnesium enolate of diethyl malonate, for example, can be prepared by reaction with magnesium metal in ethanol. It is soluble in ether and undergoes C-acylation by acid anhydrides and acyl chlorides (entries 1 and 3 in Scheme 2.14). Monoalkyl esters of malonic acid react with Grignard reagents to give a chelated enolate of the malonate monoanion. 

Undesirable intermolecular reactions can be avoided during certain synthetic conversions. Thus it is often useful to carry out C-alkylation and C-acylation of compounds that form enolate anions, for example, esters with a-hydrogens. Such reactions are often complicated by self-condensation since the enolate anion can attack the carbonyl group of a second ester molecule. Attachment of the enolizable ester to a polymer support at low loading levels allows the alkylation and acylation reactions (Eq. 9-79) to be performed under... 

Thus, magnesium maionate enolates are useful tools for C-acylation reactions in the synthesis of / -ketoesters. Two reagents could be used for such purposes magnesium maionate derived from hydrogen methyhnalonate, and magnesium maionate derived from dialky Imalonate. 

The enolate ions of acetoacetic ester and other active methylene compounds react with 0-propiolactone to give the ethoxycarbonyl derivative, but the yields are generally not high. Application of this reaction to 2-ethoxycarbonyldodecanone (equation 53) has been recently patented, with the product reported to be a useful perfume intermediate (77JAP(K)77133952). The reaction is used quite widely with diketene, which gives C-acylation rather than alkylation of the enolate ion, followed by cyclization (72CPB1574). 

A novel base-catalyzed Fries-like rearrangement of a 3-acetoxythiophene has been reported (Scheme 149) (79JOC3292). This has been explained as the result of iodide-induced deacylation and subsequent C-acylation of the intermediate enolate anion. Some transformations of 4-hydroxy-2-methylthiophene-3-carboxylic ester are shown in Scheme 150 (69KGS567,75KGS914,71KGS759). 

C-Acylation of the lithium enolates derived from 4-methoxybut-3-en-2-ones is achieved with acid chlorides without any significant O-acylation. A general route to pyranones results which avoids the acidic conditions frequently associated with other synthetic methods (80TL1197). Cyclization of these products, which exist in an enolic form, occurs at room temperature in benzene in the presence of a trace of trifluoroacetic acid (Scheme 135). 

C-Acylations of C,H-acidic compounds have also been realized on insoluble supports. The few examples that have been reported include the C-acylation of support-bound ester enolates with acyl halides [9], Claisen condensations of polystyrene-bound ketones with benzoic acid esters, the C-acylation of nitriles with acyl nitriles or anhydrides, and the C-acylation of phosphonates with acyl halides (Entries 5-9, Table... 

Diketones. Silyl enol ethers are C-acylated by acetyl tetrafluoroborate to give 1,3-diketones. Yields are generally higher if the reagent is generated in situ from CH3COF and BF3.2 Examples ... 

Diketones.1 Trimethylsilyl enol ethers are C-acylated by acid chlorides in the presence of zinc chloride or antimony(III) chloride. No other Lewis acids are useful. The reaction provides a convenient route to 1,3-diketones in good to excellent yield. Addition of diethyl ether before quenching of the reaction catalyzed by ZnCl2 improves the yield but has no effect on the SbCl3-promoted reaction. 

Diazolium and triazohum salts have been used in O- to C-acyl transfer reactions.101 The reaction works well (67-82% yield) in the presence of <1.5 mol% catalyst. The mechanism involves acyl transfer from the oxygen atom of an enol ether to the... 

All three isomerizations discussed above seem to occur by analogous mechanistic pathways similar to the mechanism formulated for the Dakin-West reaction [82]. Deacylation of the starting material H by catalyst G affords, in a fast and reversible step (Scheme 13.47, step I), an acylpyridinium/enolate ion-pair I. From this ion pair, enantioselective C-acylation proceeds in the rate-determining and irreversible second step, furnishing the C-acylated product J (Scheme 13.47, step II). 

The combination of fluoride ions and enol silyl ethers provides a useful method for the generation of enolate anions [9]. Watts, Haswell and coworkers applied a borosilicate glass microreactor, having channel dimensions of 100 pm x 50 pm and equipped with an electrosmotic flow (EOF) pumping system, to the C-acylation of enolate anions, which leads to 1,3-diketones [10,11]. A THF solution of tetrabutyl-ammonium fluoride (TBAF) was placed in reservoir A, a THF solution of benzoyl... 

Silyl enolates react with acyl cation equivalents to give the C- and/or O-acylated products (Equation (90)).333 Fluoride-catalyzed reaction using acyl fluorides is valuable for O-acylation of silyl enolates derived from aldehydes and ketones.334 CuCl also promotes the 0-acylation with acyl chlorides.335 The CuCl-promoted reaction of ester silyl enolates results in exclusive (7-acylation. Combined use of BiCfl and Znl2 (or Nal) effects catalytic (7-acylation of ketone silyl enolates with acyl chlorides. 

Hydrolysis and decarboxylation in the usual way lead to keto-esters or keto-acids. Of the more common metals used to form enolates, lithium is the most likely to give good C-acylation as it> like magnesium, forms a strong O-Li bond. It is possible to acylate simple lithium enolates with enoliz-able acid chlorides,... 

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