Acetoacetic acid 764 ester

Acetone cyanohydrin nitrate, a reagent prepared from the nitration of acetone cyanohydrin with acetic anhydride-nitric acid, has been used for the alkaline nitration of alkyl-substituted malonate esters. In these reactions sodium hydride is used to form the carbanions of the malonate esters, which on reaction with acetone cyanohydrin nitrate form the corresponding nitromalonates. The use of a 100 % excess of sodium hydride in these reactions causes the nitromalonates to decompose by decarboxylation to the corresponding a-nitroesters. Alkyl-substituted acetoacetic acid esters behave in a similar way and have been used to synthesize a-nitroesters. Yields of a-nitroesters from both methods average 50-55 %. 

Fig. 12.4. Enot titration of acetoacetic acid ester. The mechanism of the acid-catalyzed B iso-B enolization and the mechanism of the electrophilic iso-B -> D bromina-tion is shown.

By substituting (S)-(-)-l-amino-2-(dimethylmethoxymethyl)pyrrolidine (S)-(83) for (S)-(4), Enders has developed an efficient and enantioselective Hantzsch synthesis (Scheme 4). In this synthesis, the more-hindered hydrazone formed from (83) was condensed with an acetoacetic acid ester. Deprotonation of the hydrazone so-formed (the major tautomer present was an enehydrazine) followed by addition of an arylidene malonate derivative yielded (85), which could be closed with mild acid to yield optically active... 

Another path of manufacture of practical catalysts is using immobilized chiral metal complexes. Thus, the complex [Rh-BESIAP] was occluded in an elastomeric t5T)e polydimethylsiloxane membrane, which gave a re-generable active membrane-catalyst with the same enantioselectivity as the homogeneous catalyst in the hydrogenation of acetoacetic acid ester into methyl (7 )-(-)-3-hydroxybutyrate, that can be pol5mierized into polyester (Scheme 7.17.). 

Using the acetoacetic acid ester synthesis as an example reaction for illustration, we have the following balanced chemical equation showing the molecular weights below each structure. 

Clearly related to malonate derivatives are acetoacetic acid esters. In general, P keto-esters are convenient sources of oxo-alkenyl amino acids (as described in... 

Acetoacetic acid esters from diketene OH -> OGOGH2GOGH3... 

This interesting reaction has been reviewed.As is evident, maleates or fumarates can be employed as starting material and in many cases high yields of the product could be obtained. Due to the nature of the functional anion needed, the final product is usually highly functionalized. For instance, malonic acid or acetoacetic acid esters give rise to polycarboxylic acids 84 and 85. These could be potentially useful as detergent builders. Polycarboxy functions are also useful for resins such as in the curing of epoxies. 

By the ketonic hydrolysis of substituted acetoacetic esters this is brought about by the action of dilute alkali in the cold, followed by acidification and boiling. The free substituted acetoacetic acid is produced, which readily undergoes decarboxylation (since it has a carboxyl and a carbonyl group on the same carbon atom) to give a ketone, for example ... 

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. 

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. 

An unusual addition of acetoacetic acid to pyrido[2,3-Z>]pyrazin-2(l//)-one (400) to give (eventually) the 3-acetonyl derivative (401) was postulated (71TH21500) to occur via a cyclic transition state, and the similar addition of oxalacetic ester may occur via a related mechanism. 

A/ -Methoxycarbonyl-2-pyrroline undergoes Vilsmeier formylation and Friedel-Crafts acylation in the 3-position (82TL1201). In an attempt to prepare a chloropyrroline by chlorination of 2-pyrrolidone, the product (234) was obtained in 62% yield (8UOC4076). At pH 7, two molecules of 2,3-dihydropyrrole add together to give (235), thus exemplifying the dual characteristics of 2,3-dihydropyrroles as imines and enamines. The ability of pyrrolines to react with nucleophiles is central to their biosynthetic role. For example, addition of acetoacetic acid (possibly as its coenzyme A ester) to pyrroline is a key step in the biosynthesis of the alkaloid hygrine (236). 

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. 

Acetoacetic acid N-benzyl-N-methyiaminoethyl ester -Aminocrotonic acid methyl ester m-Nitrobenzaldehyde... 

A mixture of 4.98 g of acetoacetic acid N-benzyl-N-methylaminoethyl ester, 2.3 g of aminocrotonic acid methyl ester, and 3 g of m-nitrobenzaldehyde was stirred for 6 hours at 100°C in an oil bath. The reaction mixture was subjected to a silica gel column chromatography (diameter 4 cm and height 25 cm) and then eluted with a 20 1 mixture of chloroform and acetone. The effluent containing the subject product was concentrated and checked by thin layer chromatography. The powdery product thus obtained was dissolved in acetone and after adjusting the solution with an ethanol solution saturated with hydrogen chloride to pH 1 -2, the solution was concentrated to provide 2 g of 2,6-dimethyl-4-(3 -nitrophenyl)-1,4-dihydropyridlne-3,5-dicarboxylic acid 3-methylester-5- -(N-benzyl-N-methylamino)ethyl ester hydrochloride. The product thus obtained was then crystallized from an acetone mixture, melting point 136°Cto 140°C (decomposed). 

Nitrobanzaldehyde Acetoacetic acid methyl ester Ammonia... 

Acetoacetic acid N-benzyl-N-methyl-amino ethyl ester Nicardipine... 

Acetoacetic acid methyl ester Nifedipine Acetoacetic ester Dipyridamole Acetoin... 

C2HjNa02, 127-09-3) see a-Acetyldigoxin Dextrothyroxine Fluazacort Fluprednidene acetate Pioglitazone Pyrrocaine sodium acetoacetic acid ethyl ester (C HyNaO, 19232-39-4) see Pentoxifylline sodium acetylide (Na(C2H))... 

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