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Malonate, enolates, reaction with

Diethyl malonate on reaction with sodium metal gives rise to sodium malonic ester which on treatment with ethyl bromide results into the formation of diethyl ester of ethyl malonic acid with the elimination of hydrobromic acid. The resulting ester on further reaction with 2-bromopentane gives the desired eompound, i.e., diethyl ester of ethyl (1-methyl butyl) malonic acid which on subsequent treatment with thiourea forms thiopental with the elimination of two moles of ethanol. Ultimately, the enol-iorm of thiopental when reaeted with a ealeulated amoimt of sodium hydroxide, it gives thiopental sodium. [Pg.188]

The synthesis of barbiturates is relatively simple and relies on reactions that are now familiar enolate alkylations and nucleophilic acyl substitutions. Starting with diethyl malonate, or malonic ester, alkylation of the corresponding enolate ion with simple alkyl halides provides a wealth of different disubstituted malonic esters. Reaction with urea, (H2N)2C=0, then gives the product barbiturates by a twofold nucleophilic acyl substitution reaction of the ester groups with the -NH2 groups of urea (Figure 22.7). Amobarbi-tal (Amytal), pentobarbital (Nembutal), and secobarbital (Seconal) are typical examples. [Pg.891]

Section 21 7 The malonic ester synthesis is related to the acetoacetic ester synthesis Alkyl halides (RX) are converted to carboxylic acids of the type RCH2COOH by reaction with the enolate ion derived from diethyl mal onate followed by saponification and decarboxylation... [Pg.907]

Ethyl 3-oxobutanoate, commonly called ethyl acetoacetate or ace tome tic ester, is much like malonic ester in that its ct hydrogens are flanked by two carbonyl groups. It is therefore readily converted into its enolate ion, which can be alkylated by reaction with an alkyl halide. A second alkylation can also be carried out if desired, since acetoacetic ester has two acidic a hydrogens. [Pg.859]

Stable enolates such as diethyl malonate anions react with allyl sulfones (or acetates) in the presence of nickel complexes to give a mixture of the a- and /-product83. The regioselectivity is generally poor in the nickel-catalyzed reaction, but the molybdenum-catalyzed reaction is selective for alkylation at the more substituted allylic site, thereby creating a quaternary carbon center84. [Pg.878]

The decarboxylation reaction usually proceeds from the dissociated form of a carboxyl group. As a result, the primary reaction intermediate is more or less a carbanion-like species. In one case, the carbanion is stabilized by the adjacent carbonyl group to form an enolate intermediate as seen in the case of decarboxylation of malonic acid and tropic acid derivatives. In the other case, the anion is stabilized by the aid of the thiazolium ring of TPP. This is the case of transketolases. The formation of carbanion equivalents is essentially important in the synthetic chemistry no matter what methods one takes, i.e., enzymatic or ordinary chemical. They undergo C—C bond-forming reactions with carbonyl compounds as well as a number of reactions with electrophiles, such as protonation, Michael-type addition, substitution with pyrophosphate and halides and so on. In this context,... [Pg.337]

In the presence of zinc chloride, stereoselective aldol reactions can be carried out. The aldol reaction with the lithium enolate of /-butyl malonate and various a-alkoxy aldehydes gave anti-l,2-diols in high yields, and 2-trityloxypropanal yielded the syn-l,2-diol under the same conditions.633 Stoichiometric amounts of zinc chloride contribute to the formation of aminoni-tropyridines by direct amination of nitropyridines with methoxyamine under basic conditions.634 Zinc chloride can also be used as a radical initiator.635... [Pg.1202]

The mechanistic considerations of a catalytic asymmetric Michael reaction suggest that the reaction of a alkali metal enolate derived from a malon-ate derivative with an enone should lead to an intermediary aluminum enolate. Is it possible that such an A1 enolate could then be trapped by an... [Pg.114]

The lithium enolate of di-i-butyl malonate undergoes a stereoselective aldol reaction with Qf-alkoxyaldehydes to give anft-l,2-diol derivatives in the case of the highly hindered 2-trityloxypropanal, the stereochemistry is reversed. [Pg.11]

Various transition metals have been used in redox processes. For example, tandem sequences of cyclization have been initiated from malonate enolates by electron-transfer-induced oxidation with ferricenium ion Cp2pe+ (51) followed by cyclization and either radical or cationic termination (Scheme 41). ° Titanium, in the form of Cp2TiPh, has been used to initiate reductive radical cyclizations to give y- and 5-cyano esters in a 5- or 6-exo manner, respectively (Scheme 42). The Ti(III) reagent coordinates both to the C=0 and CN groups and cyclization proceeds irreversibly without formation of iminyl radical intermediates.The oxidation of benzylic and allylic alcohols in a two-phase system in the presence of r-butyl hydroperoxide, a copper catalyst, and a phase-transfer catalyst has been examined. The reactions were shown to proceed via a heterolytic mechanism however, the oxidations of related active methylene compounds (without the alcohol functionality) were determined to be free-radical processes. [Pg.143]

Diethyl malonate can be converted into its enolate anion, which may then be used to participate in an Sn2 reaction with an alkyl halide (see Section 10.7). Ester hydrolysis and mild heating leads to production... [Pg.390]

The use of /i-ketocstcrs and malonic ester enolates has largely been supplanted by the development of the newer procedures based on selective enolate formation that permit direct alkylation of ketone and ester enolates and avoid the hydrolysis and decarboxylation of ketoesters intermediates. Most enolate alkylations are carried out by deprotonating the ketone under conditions that are appropriate for kinetic or thermodynamic control. Enolates can also be prepared from silyl enol ethers and by reduction of enones (see Section 1.3). Alkylation also can be carried out using silyl enol ethers by reaction with fluoride ion.31 Tetraalkylammonium fluoride salts in anhydrous solvents are normally the... [Pg.14]

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. [Pg.105]

The previously described lanthanide triflate promoted ring opening of indoles 115 with 1,1-cyclopropanediesters 116 has been extended to provide an annulation reaction of indoles, wherein nucleophilic ring opening by the indole C-3 followed by attack of the intermediate malonic enolate 117 on the iminium moiety to afford the annulated products 118 <99TL5671>. [Pg.126]

With diketene, intermediates of type (III) were isolated and subsequently cyclized under basic conditions following step (b). In the case of 3-oxo-carboxylic acid esters or 3-acyl Meldrum s acids, cyclization step (b) immediately follows reaction step (a), if a slight excess of amine is employed (85TH1 87TH1). Note that conversion of (III) to (V) involves the (IH)-enol (Table I cf. 75BSF2731). The relatively low yield in the case of malonic acid ester, as well as the failure of the reaction with the non-enolizable diphenyl phosphinylacetic ester and cyanoacetate, points to the participation of an enol structure of (III). [Pg.145]

Reactions with stabilized enolate species such as malonate ions also lead to alkylation, but because of the requisite basic conditions, the initial alkylation products are subsequently converted to secondary products [289]. [Pg.149]

Attempts to react enol(ate)s of esters with aliphatic aldehydes are doomed as the aldehyde will simply condense with itself. If the ester is replaced by a malonate 60, there is so much enol(ate) from the (5-dicarbonyl compound that the reaction is good. This style of aldol reaction is often called a Knoevenagel reaction10 and needs only a buffered mixture of amine and carboxylic acid. The enol reacts with the aldehyde 61 in the usual way and enolisation of the product 62 usually means that dehydration occurs under the conditions of the reaction. [Pg.144]

Gramme is a common precursor for indol-3-ylmethylation of enolates and other nucleophiles. Such reactions normally occur by an elimination-addition mechanism. Following development of procedures for 4-substitution via directed lithiation with l-(tri-/w-propylsilyl)-gramine, Iwao and Motoi have developed conditions for tandem nucleophilic substitution of the dimethylamino group. Quatemization followed by reaction with a nucleophile in the presence of TBAF leads to alkylation. <95TL5929> The carbon nucleophiles which were successfully used include nitromethane, methyl acetoacetate, diethyl malonate and diethyl 2-(acetamido)malonate. Phthalimide, thiophenol, TMS-CN and TMS-Nj were also used as sources of nucleophiles. [Pg.110]

Fig. 12.11. Mechanism of the tert-butylation of malonic acid diethyl ester. From the point of view of tert-butyl chloride it is an SN1 reaction with the malonic ester enol (B) acting as the nucleophile. Fig. 12.11. Mechanism of the tert-butylation of malonic acid diethyl ester. From the point of view of tert-butyl chloride it is an SN1 reaction with the malonic ester enol (B) acting as the nucleophile.
The reactions of the lithium enolate of diethyl 2-[(diphenylmethylene)amino]malonate with several alkynyliodonium triflates are rare examples of enolate alkynylations with iodonium species other than the ethynyl(phenyl)- and (phenylethynyl)phenyliodonium ions (equation 125)16. Two experimental protocols were followed, i.e. addition of the enolates to the iodonium salts and vice versa, the former procedure giving higher yields of alkynylmalonates. As with other enolate alkynylations, these reactions are thought to involve alkylidenecarbene intermediates. It has been proposed, however, that the carbenes rearrange with migration of the diethyl 2-[(diphenyl) amino] malonate anion 16. [Pg.1216]

In both the acetoacetic ester synthesis and the malonic ester synthesis, it is possible to add two different alkyl groups to the a-carbon in sequential steps. First the enolate ion is generated by reaction with sodium ethoxide and alkylated. Then the enolate ion of the alkylated product is generated by reaction with a second equivalent of sodium ethoxide, and that anion is alkylated with another alkyl halide. An example is provided by the following equation ... [Pg.870]


See other pages where Malonate, enolates, reaction with is mentioned: [Pg.121]    [Pg.162]    [Pg.931]    [Pg.385]    [Pg.856]    [Pg.336]    [Pg.152]    [Pg.219]    [Pg.11]    [Pg.462]    [Pg.581]    [Pg.480]    [Pg.467]    [Pg.571]    [Pg.558]    [Pg.258]    [Pg.152]    [Pg.353]    [Pg.65]    [Pg.147]    [Pg.500]    [Pg.944]    [Pg.89]    [Pg.204]   


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Acid chlorides, reaction with malonate enolates

Enolate anions, malonate, reaction with

Enolate anions, malonate, reaction with halides

Enolate anions, malonate, reaction with ketones

Enolate anions, malonic acid, reaction with

Enolate anions, malonic acid, reaction with aldehydes

Enols reactions with

Halides, alkyl, reaction with malonate enolates

Imines, reaction with malonic acid enolates

Ketones, reaction with malonate enolates

Malonate enolates

Malonate, enolates, reaction with halides

Malonate, enolates, reaction with palladium, acetates

Malonic acid, enolate, reaction with

Malonic acid, enolate, reaction with aldehydes

Reaction with malonates

Reactions, with enolates

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