P-Keto esters, derivatives

AEyl chloride reacts with sodamide in Hquid ammonia to produce benzene when sodamide is in excess, hexadiene dimer is the principal product, with some trimer and tetramer (C24, six double bonds). AEylation at carbon atoms alpha to polar groups is used in the preparation of a-aEyl-substituted ketones and nittiles. Preparation of P-diketone derivatives, methionic acid derivatives, and malonic ester, cyanoacetic ester, and P-keto-ester derivatives, etc, involving substitution on an alpha carbon between two polar carbonyl groups, is particularly facEe. 

Seebach, D., Roggo, S., Maetzke, T., Braunschweiger, H., Cercus, J., and Krieger, M. 1987. Diastereo- and enantioselective reduction of P-keto esters derived from... 

The Mukaiyama aldol reaction has also been used in the enantioselective asymmetric synthesis of 5-hydroxy-P-keto ester derivatives. Katsuki and coworkers utilized the chiral Cr(salen) complex 69 for the catalysis of the aldol reaction in the presence of water or alcohol. The presence of alcohol in the reaction greatly increases the enantioselectivity of the aldol addition. In the reaction of the silyl enol ether 92 with the aldehyde 93 in the presence of the catalyst 69, triethylamine, and isopropanol yielded the aldol adduct 94 in high yield (87%) and excellent enantioselectivity (97% ee). 

In the presence of a double bond at a suitable position, the CO insertion is followed by alkene insertion. In the intramolecular reaction of 552, different products, 553 and 554, are obtained by the use of diflerent catalytic spe-cies[408,409]. Pd(dba)2 in the absence of Ph,P affords 554. PdCl2(Ph3P)3 affords the spiro p-keto ester 553. The carbonylation of o-methallylbenzyl chloride (555) produced the benzoannulated enol lactone 556 by CO, alkene. and CO insertions. In addition, the cyclobutanone derivative 558 was obtained as a byproduct via the cycloaddition of the ketene intermediate 557[4I0]. Another type of intramolecular enone formation is used for the formation of the heterocyclic compounds 559[4l I]. The carbonylation of the I-iodo-1,4-diene 560 produces the cyclopentenone 561 by CO. alkene. and CO insertions[409,4l2]. 

The present chapter extends our study of carbanions to the enolate ions derived from esters Ester enolates are important reagents m synthetic organic chemistry The stabilized enolates derived from p keto esters are particularly useful... 

Recognize too that the reaction sequence is one that is characteristic of p keto esters in general and not limited to just ethyl acetoacetate and its derivatives Thus... 

Conra.d-Limpa.ch-KnorrSynthesis. When a P-keto ester is the carbonyl component of these pathways, two products are possible, and the regiochemistry can be optimized. Aniline reacts with ethyl acetoacetate below 100°C to form 3-anilinocrotonate (14), which is converted to 4-hydroxy-2-methylquinoline [607-67-0] by placing it in a preheated environment at 250°C. If the initial reaction takes place at 160°C, acetoacetanilide (15) forms and can be cyclized with concentrated sulfuric acid to 2-hydroxy-4-methylquinoline [607-66-9] (49). This example of kinetic vs thermodynamic control has been employed in the synthesis of many quinoline derivatives. They are useful as intermediates for the synthesis of chemotherapeutic agents (see Chemotherapeuticsanticancer). 

The first reaction can be conducted using various derivatives of methylenemalonic ester, such as malononitriles 7, malonamides 8, P-keto-esters 9 or Meldrum s acid 10. Substitutions of the aryl ring (including fused rings) and within the aryl ring are well tolerated for this reaction. 

Ions of the Type. —CO—CR—CO—. These ions, which are derived by removal of a proton from malonic esters, P-keto esters, P-diketones, and so on, are resonance hybrids ... 

Heating of P-keto esters or of 1 3-diketones with an equivalent amount of phenylhydrazine often yields substituted pyrazolones or p3u-azoles respectively. The latter may serve as derivatives of enols. 

Application of the Ritter reaction conditions on y-hydroxy-a,P-alkynoic esters, 102, produced ethyl 5-oxazoleacetates 103 or y-A-acylamino-P-keto ester 104 by reaction with aryl or alkyl nitriles respectively. The y-A-acylamino-P-keto ester 104 can also be transformed into oxazole derivatives using an additional step involving POCI3 <06TL4385>. 

Alkylation of P-dicarbonyl compounds and p-keto esters occurs preferentially on the carbon atom, whereas acylation produces the 0-acyl derivatives (see Chapter 3). There are indications that C- and 0-alkylated products are produced with simple haloalkanes and benzyl halides, but only C-alkylated derivatives are formed with propargyl and allyl halides [e.g. 90]. Di-C-alkylation frequently occurs and it has been reported that the use of tetra-alkylammonium 2-oxopyrrolidinyl salts are more effective catalysts (in place of aqueous sodium hydroxide and quaternary ammonium salt) for selective (-90%) mono-C-alkylation of p-dicarbonyl compounds [91]. 

Dioxo-l,3-dioxanes ring-open under basic conditions. Cleavage of the 5,5-disubstituted derivatives in the presence of quininium or quinidinium alkoxides produces chiral malonic hemi-esters (ee 30-40%) in high yield [11]. The addition of cetyltrimethylammonium bromide promotes the base-catalysed cleavage of p-keto esters to form ketones under sonication [12]. 

The signal molecule, 30,C6-HSL and number of its analogues, with variations in the acyl chain and the hetero-ring, have been prepared [15,56,57] to investigate the mechanism of induction of carbapenem and luminescence in Erwinia carotovora and V.fischeri respectively. Essentially, the acylation of l-HSL with 3-oxoalkanoic acid by the same method as outlined for the preparation of AT-acyl-L-HSL delivers the desired derivatives. However, as the p-keto acids are thermally labile, these were prepared from the corresponding p-keto ester after the initial protection of the p-keto function as ethylene glycol ketal (route a, Scheme 6). 

Ethyl 3-oxoalkanoates when not commercially available can be prepared by the acylation of tert-butyl ethyl malonate with an appropriate acid chloride by way of the magnesium enolate derivative. Hydrolysis and decarboxylation in acid solution yields the desired 3-oxo esters [59]. 3-Keto esters can also be prepared in excellent yields either from 2-alkanone by condensation with ethyl chloroformate by means of lithium diisopropylamide (LDA) [60] or from ethyl hydrogen malonate and alkanoyl chloride usingbutyllithium [61]. Alternatively P-keto esters have also been prepared by the alcoholysis of 5-acylated Mel-drum s acid (2,2-dimethyl-l,3-dioxane-4,6-dione). The latter are prepared in almost quantitative yield by the condensation of Meldrum s acid either with an appropriate fatty acid in the presence of DCCI and DMAP [62] or with an acid chloride in the presence of pyridine [62] (Scheme 7). 

Scheme 6.81 Transformation of one adduct prepared from the 64-catalyzed asymmetric addition of a-substituted P-keto esters to di-tert-butyl azodicarboxylate (a-hydrazination) into the corresponding oxazolidinone amino acid derivative.

Reactions of propargylic alcohols with 1,3-cydohexanedione gave 4,6,7,8-tetrahy-drochromen-5-ones in excellent yields with complete regioselectivity (Equation 7.5). Reactions with various six-membered or five-membered ring 1,3-diketones and P-keto esters also gave the corresponding 4,6,7,8-tetrahydrochromen-5-ones and pyranone derivatives, respectively (Scheme 7.22). In contrast, reactions with... 

Functionalised 2,3-dihydro-l,4-dioxins can be synthesised in a three step-sequence from P-keto esters. The key step is the insertion of a Rh-carbenoid derived from an a-diazo-p-keto ester into an 0-H bond of a 13-diol <99H(51)1073>. The reaction of 2-(l,4-dioxenyl)alkanols with silyl enol ethers yields 23-disubstituted 1,4-dioxanes. When 13-bis(trimethylsilyloxy)-cyclobut-l-ene is used, the expected cyclobutanone products are accompanied by a spirocyclopropane derivative <99TL863>. 1,4-Dioxane-monochloroborane 57 is a highly reactive hydroborating reagent <990L315>. 

The enzyme-catalyzed regio- and enantioselective reduction of a- and/or y-alkyl-substituted p,5-diketo ester derivatives would enable the simultaneous introduction of up to four stereogenic centers into the molecule by two consecutive reduction steps through dynamic kinetic resolution with a theoretical maximum yield of 100%. Although the dynamic kinetic resolution of a-substituted P-keto esters by chemical [14] or biocatalytic [15] reduction has proven broad applicability in stereoselective synthesis, the corresponding dynamic kinetic resolution of 2-substituted 1,3-diketones is rarely found in the literature [16]. 

Some reactions of acid derivatives are summarized in Table 10.5. p-Keto esters can be prepared by the Claisen condensation, a reaction analogous to the aldol condensation but involving ester enolates as the reactive intermediates. 

The antibiotic ( + )-kjellmanianone (2) has been prepared by asymmetric hydroxylation of the sodium enolate of the P-keto ester 1 with several (camphoryl)oxaziri-dines. The highest enantioselectivity (68.5% ee) was obtained by use of the p-(trifluoromethyl)benzyl derivative 3.3... 

---