0-ketoester

This synthesis of the pyrrole ring system, due to Knorr, consists in the condensation of an a-aminoketone with a 1,3-diketone or the ester of a p-keto-acid, a-Aminoketones are unstable in the free state, readily undergoing self-condensation consequently they must be prepared, by the reduction of an a-nitroso (or oximino) ketone, in the presence of the 1,3-diketone or p-ketoester, to ensure rapid interaction. 

Some straightforward, efficient cyclopentanellation procedures were developed recently. Addition of a malonic ester anion to a cyclopropane-1,1-dicarboxylic ester followed by a Dieckmann condensation (S. Danishefsky, 1974) or addition of iJ-ketoester anions to a (l-phenylthiocyclopropyl)phosphonium cation followed by intramolecular Wittig reaction (J.P, Marino. 1975) produced cyclopentanones. Another procedure starts with a (2 + 21-cycloaddition of dichloroketene to alkenes followed by regioselective ring expansion with diazomethane. The resulting 2,2-dichlorocyclopentanones can be converted to a large variety of cyclopentane derivatives (A.E. Greene. 1979 J.-P. Deprds, 1980). 

For example, ot-anilino-P-ketoesters photocyclize to indole-2-carboxylate csters[2]. 

The Japp-Klingeraann coupling of aryidiazonium ions with enolates and other nucleophilic alkenes provides an alternative route to arylhydrazones. The reaction has most frequently been applied to P-ketoesters, in which deacylation follow S coupling and the indolization affords an indole-2-carboxylate ester. 

Esters react with 2-aminothiazole and derivatives in the presence of catalysts the reaction between 3-ketoesters and 2-aminothiazole is. for example, realized in acidic medium (278. 279) and yields 2-aceto-acetamidothiazole (114) (Scheme 771. No secondary products are... 

These latter compounds can also be obtained by direct cyclization in a Hantzsch s reaction of the selenosemicarbazone of a /3-ketoester, that is, a l-selenocarbamoyl-3-alkyl-5-pyrazolone (Scheme 21). 

In addition to formation from a ketone, the hydra2ones can be obtained from dicarbonyl compounds by a Japp-Klingemann reaction. This is especially useful for P-ketoesters and P-ketoacids, which undergo either deacylation or decarboxylation. 

Reaction of a P-ketoestei witii gaseous ammonia (/) gives an enamine, which on treatment with methylhydiazine (2) yields an 85 15 mistuie of 3-hydioxy- and 5-hydioxy-l-substituted pyrazoles (36) (eq. 5). Previously P-ketoesters furnished mainly the 5-hydroxy isomer. 

Carbon is alkylated ia the form of enolates or as carbanions. The enolates are ambident ia activity and can react at an oxygen or a carbon. For example, refluxing equimolar amounts of dimethyl sulfate and ethyl acetoacetate with potassium carbonate gives a 36% yield of the 0-methylation product, ie, ethyl 3-methoxy-2-butenoate, and 30% of the C-methylation product, ie, ethyl 2-methyl-3-oxobutanoate (26). Generally, only one alkyl group of the sulfate reacts with beta-diketones, beta-ketoesters, or malonates (27). Factors affecting the 0 C alkylation ratio have been extensively studied (28). Reaction ia the presence of soHd Al O results mosdy ia C-alkylation of ethyl acetoacetate (29). 

Substitution of some of the alkoxy groups on the polytitanoxanes with glycols, P-diketones or P-ketoesters, fatty acids, diester phosphates or pyrophosphates, and sulfonic acids gives a group of products that are very effective surface-treating agents for carbon black, graphite, or fibers (32). 

P-Ketoester Chelates. p-Ketoesters react in a fashion similar to the p-diketones. TYZOR DC [27858-32-8] is the hght-yeUow Hquid from TYZOR TPT and two moles of ethyl acetoacetate (eaa) after removal of the isopropyl alcohol. TYZOR BEAT, the bis-ethylacetoacetate [20753-28-0] derived from the tetra- -butyl titanate, and TYZOR IBAY [83877-91-2] the isobutoxy analogue, perform similarly to TYZOR DC. Both, however, have better cold-storage stabiHty. 

All lation of Garbanions. Concentrated N a OH—hen syl triethyl amm onium chloride is the base/catalyst system normally used for this type of process (20). Classes of compounds alkylated in this way include phenylacetonitriles, ben2ylketones, simple aUphatic ketones, certain aldehydes, aryl sulfones, P-ketosulfones, P-ketoesters, malonic esters and nitriles, phenylacetic esters, indene, and fluorene (see Alkylation). 

The Pechmaim reaction has found extensive appHcations for the synthesis of numerous coumarin derivatives (39). Coumarin derivatives substituted in the pyrone ring can be obtained by condensing phenol with beta-ketoesters. For example, 4-methylcoumarin (3) is obtained with ethyl acetoacetate... 

Coumarin can also be formed by the reaction of phenol with diketene (40). Similarly, diphenols can react with hydroxycarboxyUc acids or beta-ketoesters to give hydroxycoumaria derivatives. The reaction of resorciaol with malic acid produces umbeUiferone (7-hydroxycoumaria) and its reaction with ethyl acetoacetate gives beta-methylumbeUiferone (7-hydroxy-4-methylcoumaria). 

The most important synthesis of pyrazolones involves the condensation of a hydrazine with a P-ketoester such as ethyl acetoacetate. Commercially important pyrazolones carry an aryl substituent at the 1-position, mainly because the hydrazine precursors are prepared from readily available and comparatively inexpensive diazonium salts by reduction. In the first step of the synthesis the hydrazine is condensed with the P-ketoester to give a hydrazone heating with sodium carbonate then effects cyclization to the pyrazolone. In practice the condensation and cyclization reactions are usually done in one pot without isolating the hydrazone intermediate. 

The most convenient synthesis of 6-hydroxy-2-pyridones is by the condensation of a P-ketoester, eg, ethyl acetoacetate, with an active methylene compound, eg, malonic ester, cyanoacetic ester, and an amine. The amine can be omitted if an acetamide is used and in some cases this modification results in a higher yield. 

Finally, the activated 3-aminopyridazine AT-oxide (381), mimicking 6-aminouracil, cyclizes with /3-ketoesters to give the pyrido[2,3-c]pyridazin-7-one AC-oxide (382). A reduced fused... 

When the 1-position is substituted, 3- and 5-aminopyrazoles react at the C-4 carbon atom, the reactivity of which is enhanced by the amino group. Thus pyrazolo[3,4-Z ]pyridines (545) are obtained either by the Skraup synthesis or from 1,3-diifunctional compounds. Here also aminopyrazolinones have been used instead of aminopyrazoles to prepare (545 R = OH). If 1,4-ketoesters (succinic acid derivatives) are used instead of /3-ketoesters, pyrazolo[3,4-Z ]azepinones (546) are obtained. 

The following reaction sequence provides a regiospecific route to 3,4-disubstituted 5-isoxazolones (328) (73ACS2802). The /3-ketoesters (325) were heated under reflux with benzylamine in benzene in the presence of molecular sieves (3 A) to give the )3 -benzylamino-a,)3-unsaturated esters (326). The latter reacted first with hydroxylamine hydrochloride in... 

A series of 4-methyleneisoxazolin-5-ones was produced by the reaction of hydroxylamine with iminoether (508) (77ACH(94)403) or with a /3-ketoester and triethyl orthoformate (Scheme 147) (65CI(L)36). 

The reaction of a-hydrazino-/3-ketoesters (509) with hydroxylamine produced 4-hydrazinoisoxazolin-5-ones (510) (71GEP2024393, 70JMC1250). 

Dlmethyl-3-carboxyethyl-5 p-methoxyphenyl)-4,5 dlhydrofuran (3).3 A mixture of syn and anti cyclopropyl-p ketoesters 1 and 2 was left in contact with neutral akjmina activity I in CHCI3 for 24 h The starting materials 1 and 2 disappeared and 3, homogeneous by HPLC and NMR in quantitative yield, was isolated... 

Senzopyranone synthesis from phenols and ketoesters or unsaturated acids... 

S I M O N I S Benzopyrone synthesis Benzopyrene synthesis Irem phenols and p ketoesters... 

Many examples of reactivity effects that are due to the anomeric effect have been identified. For example, Cr03 can oxidize some pyranose acetals, leading eventually to ketoesters. 

The alkylation reactions of enolate anions of both ketones and esters have been extensively utilized in synthesis. Both very stable enolates, such as those derived from (i-ketoesters, / -diketones, and malonate esters, as well as less stable enolates of monofunctional ketones, esters, nitriles, etc., are reactive. Many aspects of the relationships between reactivity, stereochemistry, and mechanism have been clarified. A starting point for the discussion of these reactions is the structure of the enolates. Because of the delocalized nature of enolates, an electrophile can attack either at oxygen or at carbon. 

Fluorine-Containing a-Ketoesters (Russ ) Pashkevich, K I, Saloutin, V I Usp Klum 54, 1997-2026 157... 

Selective fluonnation in polar solvents has proved commercially successful in the synthesis of 5 fluorouracil and its pyrimidine relatives, an extensive subject that will be discussed in another section Selective fluonnation of enolates [47], enols [48], and silyl enol ethers [49] resulted in preparation of a/phn-fluoro ketones, fieto-diketones, heta-ketoesters, and aldehydes The reactions of fluorine with these functionalities is most probably an addition to the ene followed by elimination of fluonde ion or hydrogen fluoride rather than a simple substitution In a similar vein, selective fluonnation of pyridmes to give 2-fluoropyridines was shown to proceed through pyridine difluondes [50]... 

The fluorination of P-diketones and p-ketoesters with N-/luorobis(trifluo-romethanesulfonyl)imide (Table 3a, B) can be controlled to give either mono-fluorination or difluorination. Monofluorination occurs when the strong acid, bis(trifluoromethanesulfonyl)imide, a reaction product, is removed by addition of water, which prevents further enolization and fluormation of the monofluoro adduct [83] (equation 38)... 

A reaction related to the Michael addition reactions of enamines to unsaturated esters, which leads to S-ketoesters, is the reaction with 1-carb-ethoxy-l-cyanocyclopropane (318). This gives access to ketones substituted with the next higher homologous acid chain. 

Enamine addition to an unsaturated ester, followed by an intramolecular alkylation, provided a facile synthesis of an adamantane bis-/3-ketoester 674). Michael addition of pyrrolidinocycloheptene to other acrylic esters 668) and of other enamines to acrylic acids 675), a chloroacrylonitrile 676), and an unsaturated cyanocarboxamide (577) were reported. 

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