Ketone ketoester

Schiff bases (14), which are formed by reaction between DAMN and appropriate carbonyl reagents, are oxidatively cyclized to give a variety of 2-substituted 4,5-dicyanoimidazoles (15) (Scheme 2.1.5). Although dichlorodicyanoquinone (DDQ) or diaminosuccinonitrilc (DISN) have been used frequently to achieve the oxidative cyclization, long reaction times (17 h to 4 days under reflux) are a disadvantage, and N-chlorosuccinimide (NCS) under basic conditions is more convenient in many cases. The Schiff bases are best formed from aromatic aldehydes, but aliphatic aldehydes and ketones, ketoesters, orthoesters, amides, imidates and cyanogen chloride have all been used [15, 41-49J. 

A first observation regarding the results shown in Table 6.8.1 is that there are only minor differences in the pyrolysis products of the 30/30 and the 50/10 copolymers. The products consist of several small molecules (H2O, CO, C2H4), ketones, ketoesters, and cyclic compounds. Their proportions are given in Table 6.8 2 [4]. 

Kitazume, T. and N. Ishikawa. 1983. Asymmetrical reduction of perfluoroalkylated ketones, ketoesters and vinyl compounds with baker s yeast. Chem. Lett. 237-238. 

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. 

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. 

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 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. 

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]... 

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. 

The Conrad-Limpach reaction is a sequence of the following reactions (a) condensation of an arylamine 1 with the ketone or aldehyde of a 3-ketoester or a-formylester 2 providing enamine 3, and (b) cyclization with loss of alcohol to yield 4-hydroxy-quinoline 4. 

Acetylisothiazoles have been prepared by ketonic hydrolysis of the jS-ketoesters derived from the Claisen condensation on 5-ethoxycar-bonylisothiazoles. 5-Acetyl-3-methylisothiazole is also obtained from the reaction of 5-cyano-3-methylisothiazole with methylmagnesium iodide. ... 

Suitably stabilized end forms also behave as oxygen nueleophiles, e.g., phenyl diphenylmethyl ketone 21, p-diketones 23 (R = = alkyl), or p-ketoesters 23... 

As enolate precursors can be used CH-acidic carbonyl compounds such as malonic esters, cyanoacetic esters, acetoacetic esters and other /3-ketoesters, as well as aldehydes and ketones. Even CH-acidic hydrocarbons such as indene and fluorene can be converted into suitable carbon nucleophiles. 

The familiar alkylation of -ketoesters followed by decarboxylation is still a useful route to a-alkyl ketones, although the alkylation of enamines is frequently the preferred route. Given below are two examples of alkylation of 2-carbethoxycycloalkanones (prepared in Chapter 10, Section I). In the first case, sodium ethoxide is the base employed to generate the enolate ion of 2-carbethoxycyclohexanone. In the second case, the less acidic 2-carbethoxycyclooctanone requires sodium hydride for the generation of the enolate ion. 

Two chiral p-tolylsulphinylmethyl ketones 299 were prepared by decarboxylation of optically active sulphinyl ketoesters 300 which were obtained from (— )-(S)-276 and the... 

Ketoesters, synthesis of 608, 615 Ketones - see also a-Cyanoketones, Hydroxyketones, Sulphinylketones synthesis of 811-814 y-Ketonitriles, synthesis of 322 /3-Ketosulphones... 

Similar transformations have been performed with Danishefsky s diene and glyoxylate esters [85] catalyzed by bis (oxazoHne)-metal complexes to afford the hetero Diels-Alder product in 70% isolated yield and up to 72% ee. Jorgensen [86,87] reported a highly enantioselective, catalytic hetero Diels-Alder reaction of ketones and similar chiral copper(II) complexes leading to enantiomeric excesses up to 99% (Scheme 31, reaction 2). They also described [88] a highly diastereo- and enantioselective catalytic hetero Diels-Alder reaction of /I, y-imsaturated a-ketoesters with electron-rich alkenes... 

Methyl 2-phenylsulfmylacetate 96 and -ketosulfoxides have been used for the syntheses of various ketones and derivatives of carboxylic acids ". For example, co-(methylsulfmyl)acetophenone 97 have been converted to the corresponding ketone or to y- and -ketoesters ... 

The first substrate analogue inhibitors of FAAH were reported in 1994. The anandamide analogues prepared represented three elasses of putative transition-state inhibitors a-trifluoromethyl ketones, a-ketoesters and a-ketoamides [62], In the initial sereening studies, it was found that the trifluoromethyl ketone eompounds tested were effeetive inhibitors of AEA hydrolysis. A selected set of a-keto esters also inhibited hydrolysis, while a-keto amides were ineffective. In particular, arachidonyl trifluoromethyl ketone (32), gave almost 100% inhibition of anandamide hydrolysis. A detailed investigation of the structural requirements for FAAH inhibition with a-trifluoromethyl ketones has been carried out by Roger and co-workers [63]. 

Ketones are converted to (3-ketoesters by acylation with diethyl carbonate or diethyl oxalate, as illustrated by Entries 4 and 5 in Scheme 2.16. Alkyl cyanoformate can be used as the acylating reagent under conditions where a ketone enolate has been formed under kinetic control.227... 

Many enantioselective catalysts have been developed for reduction of functional groups, particularly ketones. BINAP complexes of Ru(II)C12 or Ru(II)Br2 give good enantioselectivity in reduction of (3-ketoesters.49 This catalyst system has been shown to be subject to acid catalysis.50 Thus in the presence of 0.1 mol % HC1, reduction proceeds smoothly at 40 psi of H2 at 40° C. 

Organo copper and lithium enolates of cyclic ketones, lactones, and lactams or acyclic ketones are converted with acylimidazoles or imidazole-N-carboxylates into the corresponding / -diketones or / -ketoesters ... 

Scheme 2.23. Domino Michael/aldol reaction of a,(5-unsaturated ketones with (3-ketoesters.

Inspired by the proline-catalyzed Robinson annulation pioneered by Wiechert, Hajos, Parrish and coworkers [39], they were able to construct cyclohexanones of type 2-107 with up to four stereogenic centers with excellent enantio- and di-astereoselectivity from unsaturated ketones 2-104 and acyclic (l-ketoesters 2-105 in the presence of 10 mol% phenylalanine-derived imidazohdine catalyst 2-106. The final products can easily be converted into useful cyclohexanediols, as well as y- and e-lactones. 

In the Diels-Alder reaction with inverse electron demand, the overlap of the LUMO of the 1-oxa-l,3-butadiene with the HOMO of the dienophile is dominant. Since the electron-withdrawing group at the oxabutadiene at the 3-position lowers its LUMO dramatically, the cycloaddition as well as the condensation usually take place at room or slightly elevated temperature. There is actually no restriction for the aldehydes. Thus, aromatic, heteroaromatic, saturated aliphatic and unsaturated aliphatic aldehydes may be used. For example, a-oxocarbocylic esters or 1,2-dike-tones for instance have been employed as ketones. Furthermore, 1,3-dicarbonyl compounds cyclic and acyclic substances such as Meldmm s acid, barbituric acid and derivates, coumarins, any type of cycloalkane-1,3-dione, (1-ketoesters, and 1,3-diones as well as their phosphorus, nitrogen and sulfur analogues, can also be ap-... 

In a similar manner, 2,4,6-trisubstituted 3-pyridinecarboxylic acid esters have been prepared using a mixture of a, 3-ketoesters, propargylic alcohols, ammonium acetate and Mn02. The reaction proceeds by oxidation of the propargylic alcohol to the corresponding ketone, which reacts with the enamine being formed from the like loos lor and ammonium acetate. For this domino process, normal heating at 70 °C was used. 

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