Keto-esters, reaction with amines

In 2005, Schaus and coworkers found that the natural cinchona alkaloids such as cinchonine (CN) or cinchonidine (CD) themselves can serve as highly enantioselective catalysts (10mol%) for the Mannich reaction of P-keto esters 57 with the various carbamate-protected aryl imines 58 [25]. Using either CN or CD, both enantiomers of the resulting secondary amine products 59 were obtained in excellent yields (up to 99%) and ee values (up to 96% ee) (Scheme 8.19). The extension of this protocol to encompass the use of the 2-substituted-l,3-dicarbonyl nucleophiles 60... 

Another example of organocatalytic AFC alkylation reaction with p,y-unsaturated a-keto esters was reported by Wang and co-workers in 2012. In the presence of 10 mol% rosin-derived tertiary amine-thiourea 96, a variety of p,y-unsaturated a-keto esters reacted with 1-naphthol smoothly to afford the modified chromanes 97 in good yields (79-86%) with up to 96% ee (Scheme 6.39). Again, the hydrogen bonding between substrates and catalyst was proposed to be a key element for the enantioselective control. 

General Conditions for each step and selectivity of m-substituted anilines As previously mentioned, Hauser and Reynolds reported on factors governing the first step of the Conrad-Limpach reaction but they tvere by no means exhaustive. Other than the conditions reported above for the first step, HClAleOH, CHCI3 or CHCI2 (neat or with acid catalyst), PhMe or PhH with removal of water with or without acid catalyst, or EtOH/AcOH/CaS04 were reported to provide the desired enamino-ester from an aryl amine and 3-keto-ester. Hauser and Reynolds also noted that o-nitroaniline and o-nitro-p-methoxyaniline failed to form the desired enamino-ester under conditions which they reported. 

This sequence is equally applicable to keto esters. Thus, condensation of guanidine with ethyl acetoacetate gives the pyrimidone, 134. Elaboration as above gives the pyrimidine, IJ5 acylation with the sulfonyl chloride (88) followed by hydrolysis yields sulfamerazine (107). Reaction of guanidine with beta dicarbonyl compounds gives the pyrimidine directly. Condensation of the base with acetonyl acetone affords the starting amine for sulfadimidine (108). ... 

Some workers avoid delay. Pai)adium-on-carbon was used effectively for the reductive amination of ethyl 2-oxo-4-phenyl butanoate with L-alanyl-L-proline in a synthesis of the antihyperlensive, enalapril maleate. SchifTs base formation and reduction were carried out in a single step as Schiff bases of a-amino acids and esters are known to be susceptible to racemization. To a solution of 4,54 g ethyl 2-oxO 4-phenylbutanoate and 1.86 g L-alanyl-L-proline was added 16 g 4A molecular sieve and 1.0 g 10% Pd-on-C The mixture was hydrogenated for 15 hr at room temperature and 40 psig H2. Excess a-keto ester was required as reduction to the a-hydroxy ester was a serious side reaction. The yield was 77% with a diastereomeric ratio of 62 38 (SSS RSS)((55). 

The conjugate addition of a carbon nucleophile to an a./3-unsiituratcd acceptor is known as the Michael reaction. The best Michael reactions take place between unusually acidic donors (/3-keto esters or /3-diketones) and unhindered n,/3-unsaturated acceptors. Knamines, prepared by reaction of a ketone with a disu Instituted amine, are also good Michael donors. 

Aldol-type reactions of nitrones (303) occur with electron-deficient ketones, such as a-keto esters, a, 3-diketones, and trifluoromethyl ketones. These reactions are catalyzed by secondary amines. The use of chiral cyclic amines A1-A7 leads to a-(2-hydroxyalkyl)nitrones (304) in moderate yields and rather high optical purity (Scheme 2.120) (381). The mechanism of the nitrone-aldol reaction of iV-methyl-C-ethyl nitrone with dimethyl ketomalonate in the absence and presence of L- proline has been studied by using density functional theory (DFT) (544). 

Michael reaction of enamines of u-alkyl- -keto esters. The chiral lithioen-amine (1), prepared from (S)-valine /-butyl ester, does not react with methyl vinyl ketone or ethyl acrylate unless these Michael acceptors are activated by ClSi(CH3)3... 

The reaction of f)-keto esters with primary or secondary amines in the presence of a trace of 4-(dimethylamino)pyridine affords keto amides in good yields. Thus methyl acetoacetate and p-toluidine gave MeCOCT CONHCgTLtMe328. Several selective acylation reactions of amines have been described. Amines are converted into formamides... 

The reactivity of the keto group is not influenced by the substitution the reaction of 3-(trifluoromethylmercapto)-2-butanone with hydroxyl-amine hydrochloride gives the corresponding oxime in good yield. Cyclization of diketones and keto esters to pyrazole derivatives succeeds by the well-known method using phenylhydrazine ... 

Hydroxy-2-pyridones react with diethyl iV,A -dimethylaminomethylenemalonate to give a mixture of isomeric fused pyranones <1996JHC1041>. The three-component domino reaction of /3-keto esters with acrolein and primary amines in presence of 4A molecular sieves gives either [l,6]hydronaphthyridines or aminoazabicyclo[3.3.1]nonanes, depending on the nature of the primary amine, in a one-pot sequence (Scheme 34) <2003SL2301>. 

At the time this work was carried out, the mechanistic basis for the conversion of acyl Meldrum s acid adducts to corresponding P-keto esters/amides such as 25 was not well understood [16] . The IR method used to determine the nature of the protonation state of 24 presented an excellent opportunity to perform kinetic studies. These studies [17] showed that the reaction of 24 with amine nucleophile 3 was pseudo zero order in the anionic form 24. The reaction kobs was almost the same in the one-pot process as when the isolated 24 was used. This was consistent with the rate-determining step being the formation of the a-oxoketene intermediate 26 (Scheme 5.15). 

Pyrrolinones are best obtained by cyclizative condensation of y-keto esters with ammonia or a primary amine (reaction 195). Alternatively, the 2-pyrrolinones may be obtained by cyclization of preformed a-keto amides as shown in reaction (196) (71CC346). Preexisting lactones (2H- or 5H-furanones) also react with amines to give pyrrolinones (reaction 197). Jones and Bean give references to specific examples of these methods as well as to more specialized examples (B-77MI30610). 

In another synthesis using a preformed pyridine derivative a cyanoacetic acid ester is condensed in a Guareschi-type reaction with an a-substituted /3-keto carboxylic acid ester and an amine to give a hydroxypyridone (18 Scheme 3). These compounds are suitable precursors for an acid catalyzed cyclization to furo[2,3-6]pyridine-6-ones (19). N-Substituted derivatives may also be prepared by this route (64AP754). The aqueous solutions of these furopyridines show an intensive blue fluorescence. 

The problems involved are exemplified here by Knorr s pyrrole synthesis (A. Gossauer, 1974). It has been known for almost a century that a-aminoketones (C2N components) react with 1,3-dioxo compounds (C2 components) to form pyrroles (C4N-heterocycles). A side-reaction is the cyclodimerization of the a-aminoketones to yield dihydropyrazines (C4Nj), but this can be minimized by keeping the concentration of the ar-aminoketone low relative to the 1,3-dioxo compound. The first step in Knorr s pyrrole synthesis is the formation of an imine. This depends critically on the pH of the solution. The nucleophilicity of the amine is lost on protonation, whereas the carbonyl groups are activated by protons. An optimum is found around pH 5, where yields of about 60% can be reached. At pH 4 or 6 the yield of the pyrrole may approach zero. The ester groups of /7-keto esters do not react with the amine under these conditions. If a more reactive 1,3-diketone is used, it has to be symmetrical, otherwise mixtures of two different imines are obtained. The imine formed rearranges to an enamine, which cyclizes and dehydrates to yield a 3-acylpyrrole as the normal Knorr product (A. Gossauer, 1974 G.W. Kenner, 1973 B). 

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