Malonates, coupling

Arylation or alkenylation of soft carbon nucleophiles such as malonate is carried out by using a copper catalyst, but it is not a smooth reaction. The reaction of malononitrile, cyanoacetate, and phenylsulfonylacetonitrile with aryl iodide is possible by using a Pd catalyst to give the coupling products. 

Diphenylcinnoline can be prepared from benzil monophenylhydrazone in the presence of about 80% sulfuric acid (49MI21200). Synthetically more important, however, is the cyclization of mesoxalyl chloride phenylhydrazones under Frledel-Crafts -conditions (61JCS2828). As outlined in Scheme 67, the starting mesoxalate phenylhydrazones are obtained by coupling dlazotized aromatic amines with diethyl malonate. After conversion... 

Azomalonates carrying an electrophilic side chain, as in 100 and 101, could be cyclized to give the title ring system. They were prepared by coupling of dimethyl 2-(2-chloro-N-methyl or phenylacetamido)malonate... 

Pyrazolotriazine 253 was prepared (88JOC887) by coupling 3-diazopyrazole 250 with isopropylidene malonate 251 via 252. Methylation of253 with methyl iodide in the presence of methanolic potassium hydroxide gave pyrazolotriazines 255 and 256, whereas mono N-methyl derivative 254 was prepared (88JOC887) by the action of dimethyl sulfate on 253 (Scheme 55). 

Barbituric acid can be considered as a cyclized malonic acid diamide (malonyl-urea). It is therefore a cyclic diketone that may be classified, in the sense of the compounds discussed in Section 12.6, as a coupling component with a methylene group activated by two carbonyl groups in the a- and a -positions. The reaction with arenediazonium salts was studied by Nesynov and Besprozvannaya (1971). These authors obtained coupling products (in good yield) that they considered to be arylhydrazones. Coupling with 4-(phenylazo)benzenediazonium chloride was studied by Chandra and Thosh (1991). The lH NMR spectra of these compounds are consistent with the arylhydrazone structure 12.68. 

A large number of trialkylacetic acid esters have been prepared by mixed Kolbe electrolysis of ethyl malonates [164]. Crossed-coupling is also used for chain extension. Extension by two carbon atoms is achieved with benzyl succinates [153, 180-182], whereby the purification of the chain extended fatty acid is simphfied by using the benzyl half ester [181a]. 

The alkylation of activated halogen compounds is one of several reactions of trialkylboranes developed by Brown (see also 15-16,15-25,18-31-18-40, etc.). These compounds are extremely versatile and can be used for the preparation of many types of compounds. In this reaction, for example, an alkene (through the BR3 prepared from it) can be coupled to a ketone, a nitrile, a carboxylic ester, or a sulfonyl derivative. Note that this is still another indirect way to alkylate a ketone (see 10-105) or a carboxylic acid (see 10-106), and provides an additional alternative to the malonic ester and acetoacetic ester syntheses (10-104). 

The biotin-dependent carboxylases that couple the decarboxylation of malonate to acetate in Malonomonas rubra to the transport of Na across the cytoplasmic membrane... 

Palladium-Catalyzed Arylation of Enolates. Very substantial progress has been made in the use of Pd-catalyzed cross coupling for arylation of enolates and enolate equivalents. This reaction provides an important method for arylation of enolates, which is normally a difficult transformation to accomplish.171 A number of phosphine ligands have been found to promote these reactions. Bulky trialkyl phosphines such as /n. v-(/-butyl)phosphinc with a catalytic amount of Pd(OAc)2 results in phenylation of the enolates of aromatic ketones and diethyl malonate.172... 

Allylic chlorides can also be used as coupling partners, as shown by Lu and Liu [137]. In addition, the domino process could be used for the synthesis of benzylidene pyrrolidines, as shown for the reaction of 6/1-285 with benzylidene malonate... 

Oxidative cross-coupling reactions of alkylated derivatives of activated CH compounds, such as malonic esters, acetylacetone, cyanoacetates, and certain ketones, with nitroalkanes promoted by silver nitrate or iodine lead to the formation of the nitroalkylated products.67 This is an alternative way of performing SRN1 reactions using a-halo-nitroalkanes. 

Three-component coupling of methylenecyclopropane 137 with iodoben-zene or 2-bromopropene and malonate anion is catalyzed by a palladium(0)... 

One of the most recent developments in the field of Ni-catalyzed reactions of alkyl halides with organozinc derivatives is a study of Terao et al.411 They reported the use of three additives in the couplings 1,3-butadiene, N,N-bis(penta-2,4-dienyl)benzylamine 308a, and 2,2-bis(penta-2,4-dienyl)malonic acid dimethyl ester 308b. Addition of tetraene 308b to the reaction mixtures significantly increased the product yields (Scheme 157). The remarkable effect of these additives was explained by the formation of the bis-7r-allylic complex 309 as the key intermediate (Scheme 158). 

Scheme 6.18 Palladium-catalyzed cross-coupling of/J-chloroalkylidene/arylidene malonates.

Intramolecular C,C-Coupling Reactions of Bis-N,N-(trimethylsiloxy) Iminium Cations Here we consider one of the mechanistic schemes of intramolecular C,C-coupling reactions of bis-/V,/V-(siloxy)iminium cations generated by silylation of P-nitroalkylated derivatives of malonic ester (382) (Scheme 3.216). 

The synthesis of ethyl ester derivatives of imidazo[5,l-4][l,2,4]triazole-3-carboxylic acid 64 has been reported (Scheme 25) <1999CHE1349>. Starting from the known substituted 5-diazoimidazoles 276, their coupling with malonic acid derivatives afforded the azo compounds 277, which on treatment with triethylamine in DMF, upon prolonged heating time, gave products 64 in moderate yield. 

Once assignments of polysaccharide signals are known, they may be used as a basis in determination of the position of substitution by such groups as acetate, malonate, phosphate, and sulfate, whose a- and /3-shifts may be estimated by referral to suitable monosaccharide models. For phosphate, the phosphated carbon atoms and adjacent resonances may be identified, as they give coupled signals and are subject to lanthanide-induced shifts. These data are described in Section VI, 8. 

The Belousov-Zhabotinsky (BZ) reaction involves the oxidation of an organic species such as malonic acid (MA) by an acidified aqueous bromate solution in the presence of a metal ion catalyst such as the Ce(m)/Ce(IV) couple. At excess [MA] the stoichiometiy of the net reaction is... 

Cathodic reduction of retinal leads to a regioselective coupling in the presence of malonic ester to produce the corresponding pinacol (Fig. 26) [129]. Chromium(III) ions facilitate the reduction and favor the regioselective coupling of conjugated dienones to pinacols. A Cr(III)-carbonyl compound complex is evidenced as the reason for the selectivity [130]. 

Finally, Nikishin and coworkers have reported that the mediated oxidations of doubly activated methylene compounds can be used to synthesize cyclopropane derivatives (Scheme 17) [30]. Reactions using dimethyl malonate, ethyl cyanoacetate, and malononitrile were studied. Metal halides were used as mediators. When the activated methylene compound was oxidized in the absence of a carbonyl compound, three of the substrate molecules were coupled together to form the hexasubstituted product. Interestingly, when the ethyl cyanoacetate substrate was used the product was formed in a stereoselective fashion (18b). In an analogous reaction, oxidation of the activated methylene compounds in the presence of ketones and aldehydes led to the formation of cyclopropane products that had incorporated the ketone or aldehyde (20). In the case of 19a, the reactions typically led to a mixture of stereoisomers. 

The enzymatic reaction was performed at 30 °C for 2 hours in a volume of 1 ml of 250 mM phosphate buffer (pH 6.5) containing 50 mM of KOH, 32 U/ml of the enzyme, and [1- C]-substrate. The product was isolated as the methyl ester. When the (S)-enantiomer was employed as the substrate, C remained completely in the product, as confirmed by C NMR and HRMS. In addition, spin-spin coupling between and was observed in the product, and the frequency of the C-O bond-stretching vibration was down-shifted to 1690 cm" (cf. 1740 cm for C-O). On the contrary, reaction of the (R)-enantiomer resulted in the formation of (R)-monoacid containing C only within natural abundance. These results clearly indicate that the pro-R carboxyl group of malonic acid is ehminated to form (R)-phenylpropionate with inversion of configuration [28]. This is in sharp contrast to the known decarboxylation reaction by malonyl CoA decarboxylase [1] and serine hydroxymethyl transferase [2], which proceeds with retention of configuration. 

It has been demonstrated that Mn is the preferred substrate for MnP (13-17). The enzyme oxidizes Mn to Mn and the Mn produced, complexed with a suitable carboxylic acid ligand (12-16), diffuses from the enzyme and in turn oxidizes the organic substrates (6,8,13-17). Thus the Mn ion participates in the reaction as a diffusible redox couple (Fig. 1) rather than as an enzyme-binding activator. In support of this concept, we have demonstrated that chemically prepared Mn complexed with a carboxylic acid ligand such as malonate or lactate mimics the reactivity of the enzyme (6,8,14,15). 

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