Acetyl-dicarboxylic ester

In the electrolysis of cyan-acetic ester the formation of dicyan-succinic ester could not be observed likewise a union of the anions of benzyl-malonic ester, acetyl-malonic ester, and acetyl-dicarboxylic ester did not take place. Electrolysis of acid amides in the... 

Z)-2-butenylene dicarbonate with dimethyl malonate gives a low yield (20—40%) of 2-vinylcyclopropane-l,l-dicarboxylate with up to 70% ee (Scheme 2-38) [54], Reaction with methyl acetoacetate or acetylacetone takes place in a different manner to give a dihydrofuran derivative (59% ee), which results from nucleophilic attack of enolate oxygen at the cyclization step, (c) Asymmetric elimination of an acetyl-acetate ester gives (R)-4-rerr-butyl-l-vinylcyclohexene of up to 44% ee (Scheme 2-39) [55]. (d) Palladium-catalyzed allylic silylation is also applied to asymmetric synthesis... 

The benzoic acid derivative 457 is formed by the carbonylation of iodoben-zene in aqueous DMF (1 1) without using a phosphine ligand at room temperature and 1 atm[311]. As optimum conditions for the technical synthesis of the anthranilic acid derivative 458, it has been found that A-acetyl protection, which has a chelating effect, is important[312]. Phase-transfer catalysis is combined with the Pd-catalyzed carbonylation of halides[3l3]. Carbonylation of 1,1-dibromoalkenes in the presence of a phase-transfer catalyst gives the gem-inal dicarboxylic acid 459. Use of a polar solvent is important[314]. Interestingly, addition of trimethylsilyl chloride (2 equiv.) increased yield of the lactone 460 remarkabiy[3l5]. Formate esters as a CO source and NaOR are used for the carbonylation of aryl iodides under a nitrogen atmosphere without using CO[316]. Chlorobenzene coordinated by Cr(CO)j is carbonylated with ethyl formate[3l7]. 

When l-[diazo(methoxycarbonyl)acetyl]-2-oxopyrrolidine derivative 231 was treated with Rh2(pfm)4 (pfm = per-fluorobutyro amidate) in the presence of W-phenylmaleimide, none of the desired dipolar cycloadduct was formed but instead the acidic proton at C-3 in the isomiinchnone intermediate 232 was transferred, and the fused oxazoli-dinone 3-oxo-2,3,5,6-tetrahydropyrrolo[2,l- ]oxazole-2,7-dicarboxylic acid dimethyl ester 233 was isolated in 77% yield (Scheme 33) <1997JOC6842>. 

Other products are formed when high concentrations of sodium methoxide are present or when magnesium methoxide is used as the base. Dimethyl 5-hydroxytoluene-2,4-dicarboxylate arises from attack at the acetyl carbon atom in an aldol-like condensation, whilst reaction at the ester carbonyl leads through a Claisen condensation to methyl 5-acetyl-2,4-dihydroxybenzoate. 

Syntheses of (2) and flOf were conveniently effected tScheme 4) starting from diethyl succinate (12) (28). The resultant dienolate (13). obtained by the action of two equivalent of lithium di-isopropylamide (29) gave on alkylation with methylenedioxybenzyl bromide in excellent yield a mixture of the ( )-ester (14) and meso-cster (15) which by alkaline hydrolysis yielded the dicarboxylic acid mixture (16) and (17). Without separation, this mixture on heating wih acetic anhydride gave the known /ron.r-dipiperonylsuccinic anhydride (18) (30). Reduction of (18) with lithium aluminium hydride gave ( )-dihydrocubebin Q), acetylation of which yielded ( )-ariensin (10). 

Benzo[c] cinnoline aldehydes are as yet unknown. The 2- and 3-acetyl derivatives have been prepared, but the majority of known compounds relevant to this section are mono- and dicarboxylic acid derivatives. These include the 2-, - - 3-, ° and 4. - o2.J55,i57 monoacids and esters, the lactone of 10-hydroxybenzo[c]cinnoline-l-carboxylic acid, some halogeno- and methyl-substituted 2- and 4. carboxylic acids, and the 2,9-, 3,8-, - - and 4,7- dicarboxylic acids and derivatives. These compounds have been obtained by ring synthesis, or, in the case of 2-methylbenzo[c]dnnoline-9-carboxylic acid, by side-chain oxidation, " rather than by the introduction of substituents into benzo[c] cinnoline. Benzo[c]cinnoline-l-carbonitrile has been prepared, albeit in low... 

Standard methods involving glycosyl halide or ester derivatives in reaction with protected heterocycles have been applied to the synthesis of various glycosyl derivatives of 5-fluoro-uracil and -cytosine, a number of nitro-imidazoles and -pyrazoles, thiadiazines and oxadiazolo-thiadiazines, and 5-methylthio derivatives of -uracil, -4-thiouracil, and -cytosine,/3-D-ribofuranosyl derivatives of 2-thio-6-azauracil, diethyl 4-hydroxypyrazole-3,5-dicarboxylate, 5-acetyl-uraeil, 2,4- and 2,5-thiazolidinediones, 4-thiomethyl-2-azapurine, 2-hydroxypurine, 3-deaza-adenine-8- C, l-deaza-8-azaguanine, imidazo-(l,2- )l,3,5-triazenes, e.g., (5), //n-benzo-guanosine, -inosine, and -xanthosine (6), and a derivative of lV-2-(i3-D-ribopyranosyl)benzotriazoie. Likewise 2-0-... 

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