Acetoacetic Ester Derivatives

The important methods of hydrolysis of acetoacetic ester derivatives are however ... 

A series of pyrazoles was obtained by azo-coupling of acetoacetic ester derivatives and cyclization of the arylhydrazones formed.219-229 Probably a similar type of reaction occurs with p-nitrophenyldiazo-... 

The Reformatsky reaction with A(-acyloxazolidin-2-ones and -thiazolidin-2-thiones provides a route to /3-keto esters. The electrolysis of a-bromoalkanoic esters in acetonitrile on a zinc anode with ZnBr2 and Bu NBEi as supporting electrolytes gives acetoacetic ester derivatives. The acetonitrile solvent is partially consumed. 

Phenylhydrazine condenses with acetoacetic ester to give a pyrazolone derivative which on methylation gives phenazone. The sulphonic acid similarly gives rise to the tartrazine dyestuffs. It is used to make indole derivatives by the Fischer process. 

Malonic ester, like acetoacetic ester (Section 111,151), when treated with an equivalent of sodium ethoxide, forms a mono-sodium derivative, which is of great value in synthetical work. The simplest formulation of the reaction is to r rd it as an attack of the basic ethoxide ion on a hydrogen atom in the CH, group the hydrogen atoms in the CHj group are activated by the presence of the two adjacent carbethoxyl groups ... 

Diethyl 3-oxoheptanedioate, for example, is clearly derived from giutaryl and acetic acid synthons (e.g. acetoacetic ester M. Guha, 1973 disconnection 1). Disconnection 2 leads to acrylic and acetoacetic esters as reagents. The dianion of acetoacetic ester could, in prin-ciple,be used as described for acetylacetone (p. 9f.), but the reaction with acrylic ester would inevitably yield by-products from aldol-type side-reactions. 

The acetoacetic ester synthesis brings about the overall transformation of an alkyl halide to an alkyl derivative of acetone... 

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... 

Acetoiicetyliition Reactions. The best known and commercially most important reaction of diketene is the aceto acetylation of nucleophiles to give derivatives of acetoacetic acid (Fig. 2) (1,5,6). A wide variety of substances with acidic hydrogens can be acetoacetylated. This includes alcohols, amines, phenols, thiols, carboxyHc acids, amides, ureas, thioureas, urethanes, and sulfonamides. Where more than one functional group is present, ring closure often follows aceto acetylation, giving access to a variety of heterocycHc compounds. These reactions often require catalysts in the form of tertiary amines, acids, and mercury salts. Acetoacetate esters and acetoacetamides are the most important industrial intermediates prepared from diketene. 

Another important reaction of diketene derivatives is the Hant2sch pyridine synthesis (101). This synthesis is the preparation of 1,4-dihydropyridines (14) starting either from two acetoacetic esters, which react with an aldehyde and ammonia or a primary amine or from 3-aminocrotonates and 2-alkyhdene acetoacetic esters, both diketene derivatives. Several such dihydropyridines such as nifedipine [21829-25-4] (102), nimodipine [66085-59-4] and nicardipine [55985-32-5] exhibit interesting pharmaceutical activity as vasodilators (blood vessel dilation) and antihypertensives (see Cardiovascularagents). 

The most important use of diketene is for the preparation of derivatives of acetoacetic acid, such as acetoacetate esters, acetoacetamides, and chloroacetoacetates, which have found many uses in life sciences, dyestuffs, adhesives, and coatings. 

The synthetic capabilities of this compound arc not yet exhausted. Acetoacetic ester and its alk d derivatives undergo decomposition in two wajs, accoidiiig to whether dilute alkalis and acids or, on the other hand, strong alkalis are employed. 

The reaction of enamino ketones with isocyanates and isothiocyanates has not been studied extensively. The enamino ketone (162) has been shown to react with phenyl isothiocyanate to give 163, the product of C acylation 114). Enamino ester derivatives of acetoacetic ester react similarly with isothiocyanates, also giving the C-acylated products 115). 

The addition of isocyanides and azide to aldehyde-derived enamines has led to tetrazoles (533,536). On the other hand the vinylogous amide of acetoacetic ester and related compounds reacted with aldehydes, isocyanides and acids to give a-acylaminoamides (534). Iminopyrrolidones and imino-thiopyrrolidones were obtained from the addition of cyclohexylisocyanide and isocyanates or isothiocyanates to enamines (535). An interesting method for the formation of organophosphorus compounds is found in the reactions of imonium salts with dialkylphosphites (536). 

In the 1880s, Pinner found that the amidine derivative 2 reacted with acetoacetic ester (4) to furnish 2-substituted-6-hydroxy-4-methylpyrimidine 5. The condensation of amidine derivative 2 with other (l-keto esters, malonic esters, and (l-diketones proceeded similarly (see the following pages for examples). ... 

A modihed Hantzsch synthesis has been utilized for the preparation of 1,4-dihydropyridines (Scheme 66). Thus, condensation of formylfurazans 116 with an acetoacetic ester and aminocrotonic acid ester in isopropanol at reflux led to 1,4-dihydropyridine derivatives 117 in about 70% yield (92AE921). Both isomeric furoxan aldehydes reacted in a similar way. 

The alkylation of activated halogen compounds is one of several reactions of trialkylboranes developed by Brown (see also 15-16,15-25,18-31-18-40, etc.). These compounds are extremely versatile and can be used for the preparation of many types of compounds. In this reaction, for example, an alkene (through the BR3 prepared from it) can be coupled to a ketone, a nitrile, a carboxylic ester, or a sulfonyl derivative. Note that this is still another indirect way to alkylate a ketone (see 10-105) or a carboxylic acid (see 10-106), and provides an additional alternative to the malonic ester and acetoacetic ester syntheses (10-104). 

Methylcoumarin is prepared by the condensation of phenol and acetoacetic ester. Concentrated sulfuric acid1,2 and 73% sulfuric acid have been used.3 4 The method given here was mentioned by Sethna, Shah, and Shah,6 and the procedure is adapted from that of the same authors 6 for another coumarin derivative. 

Still another possibility in the base-catalyzed reactions of carbonyl compounds is alkylation or similar reaction at the oxygen atom. This is the predominant reaction of phenoxide ion, of course, but for enolates with less resonance stabilization it is exceptional and requires special conditions. Even phenolates react at carbon when the reagent is carbon dioxide, but this may be due merely to the instability of the alternative carbonic half ester. The association of enolate ions with a proton is evidently not very different from the association with metallic cations. Although the equilibrium mixture is about 92 % ketone, the sodium derivative of acetoacetic ester reacts with acetic acid in cold petroleum ether to give the enol. The Perkin ring closure reaction, which depends on C-alkylation, gives the alternative O-alkylation only when it is applied to the synthesis of a four membered ring ... 

Hydroxymethy lene compounds are O-alkylated by potassium carbonate and an alkyl halide in acetone, but these conditions produce only the usual C-alkylation with /J-diketones or keto esters.423 Nitro-compounds have also been reported to give either O- or C-alkylation.424 While acylation of the sodium derivative of acetoacetic ester normally takes place on carbon, O-acylation is the result in pyridine. 

Likewise, heterocyclic coupling components are derived from acetoacetic ester, diketene, or 2-hydroxy-3-naphthoic acid and a heterocyclic amine ... 

Bisacetoacetarylide pigments are considered disazo pigments that are obtained from bifunctional coupling components. The latter are obtained by bisacetoace-tylation of aromatic diamines, especially of 4,4 -diaminodiphenyl or 1,4-di-aminophenyl derivatives with 2 equivalents of diketene or acetoacetic ester ... 

The esters of nitrous acid are characterised by their high velocities of formation and hydrolysis. They are almost instantaneously decomposed by mineral acids and in the method of preparation given this has been taken into account. The slightest excess of hydrochloric acid must be avoided. Advantage is taken of this property of the alkyl nitrites in all cases where it is desired to liberate nitrous acid in organic solvents (in which metallic nitrites are insoluble). Examples addition of N203 to olefines, preparation of solid diazonium salts (p. 286), production of isonitroso-derivatives from ketones by the action of HN02. This synthesis is often also carried out in the manner of the acetoacetic ester synthesis, with ketone, alkyl nitrite, and sodium ethylate the sodium salt of the isonitrosoketone is formed (cf. in this connexion p. 259) ... 

The synthesis of the pyridine ring from ethyl acetoacetate, aldehydes, and ammonia proceeds extraordinarily readily. The mechanism is as follows. In the first phase the aldehydes react with the acetoacetic ester to form alkylidene bis-acetoacetic esters. The 1 5-diketone derivatives so formed undergo ring closure by introduction of a molecule of ammonia and elimination of two molecules of water ... 

The reaction of activated methylene groups with tosyl azide to yield the corresponding diazo derivatives proceeds in high yield [23]. The phase-transfer catalysed reaction is sensitive to the strength of base used the reaction of acetoacetic esters requires relatively mild conditions, otherwise diazoacetic esters are produced (Table 5.41). 

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