Formylation by Claisen condensation

The importance of a-diazo ketones as synthetic intermediates has led to the development of a number of general methods for their preparation.5 Particularly popular approaches include the acylation of diazo alkanes and the base-catalyzed "diazo group transfer" reaction of sulfonyl azides with 8-dicarbonyl compounds.6-7 While direct diazo transfer to ketone enolates is usually not a feasible process,8-9 diazo transfer to simple ketones can be achieved in two steps by employing an indirect deformylative diazo transfer strategy in which the ketone is first formylated under Claisen condensation conditions, and then treated with a sulfonyl azide reagent such as p-toluenesulfonyl azide.6a,6c,9,i0,11... 

A vigorous Claisen condensation ensues when a homophthalic ester and methyl formate are treated with sodium ethoxide and the active methylene group is formylated. Cyclization takes place with ease in acidic media to produce a methyl isocoumarin-4-carboxylate (50JCS3375). Hydrolysis under acid conditions is sometimes accompanied by polymerization, but the use of boron trifluoride in acetic acid overcomes this problem. Decarboxylation may be effected in the conventional manner with copper bronze, though it sometimes accompanies the hydrolysis. 

They are both chrysanthemic acid esters of (5-benzylfuran-3-yl)methanol (Elliott alcohol, 1) [15]. Patented methods [16] for the industrial preparation of Elliotf s alcohol are demanding or such as to be hardly exploited in industrial-scale plants. For instance, in one of these methods [17] (5-benzyl-3-furyl)methanol is obtained by a sequence of Claisen condensation of benzyl cyanide and a dialkyl succinate, hydrolysis, esterification, protection of the ketone group, formylation, cyclization to 5-benzyl-3-furfuryl ester and reduction to alcohol with lithium aluminium hydride. 

In 1887, Claisen and Lowman reported that the condensation of 2 mol of an ester, such as ethyl acetate, in the presence of base gave the p-keto ester, ethyl acetoacetate (ethyl 3-oxobutanoate equation 1). The intramolecular equivalent was recognized by Dieckmann in 1894. He found that heating an adipic acid ester with sodium and a trace of alcohol led to cyclization, with the formation of a cyclopentanone (equation 2). The reaction was, at an early stage, extended to the acylation of ketones. Claisen himself reported the base-catalyzed reaction of acetophenone and ethyl benzoate to give dibenzoylmethane in 1887. This reaction, too, has an intramolecular parallel. The acylation of ketones with esters and other acid derivatives is sometimes called a Claisen condensation, although this usage is criticized by some writers and avoided by others. A widely used example of ketone acylation is the synthesis of a-formyl (hydroxymethylene) ketones (equation 3). Intramolecular variants of this reaction include the classical synthesis of dimedone (Scheme 1). 

In many cases synthesis of the fluorinated 1,3-CCC-bielectrophile precursors is the most difficult part of the syuthetic sequeuce and using classical methods is usually accomplished by the use of highly toxic fluoroacetic add derivatives in Claisen condensation with ethyl formiate [81], ethyl chloroformate [95,96], diethy-loxalate [82, 97], acetyl, benzoyl chlorides [82] or Vilsmeier-type formylation [98, 99] (Scheme 13). The product of Vilsmeier-type formylation is 3-dimethylamino-2-fluoroacrolein 54 which reacts with triethyloxonium tetrafluoroborate and dimeth-ylamine to give the vinamidinium salt 55 [91], which also can be used as 1,3-bielectrophile (see Scheme 19). Also Reformatsky-type synthesis of ethyl a-fluoroacetoacetate 52 starting from ethyl chlorofluoroacetate 56 was described in 20 % yield [82]. 

Depending on the respective reaction partner, acetic acid esters can react either as C-H acidic compounds or as acylating agents. Both are illustrated by the self-condensation of ethyl [ 1 acetate in the presence of 0.5 equivalent of sodium ethoxide or triphenymethyl sodium to give ethyl [1,3- C2]acetoacetate (Claisen condensation). In the first case, however, because of the relatively low radiochemical yields (40-45%) obtained by this procedure, it is of minor importance for the preparation of labeled ethyl acetoacetate. The deprotonation of alkyl acetates with LiHMDS followed by acylation with unlabeled or labeled acyl halides to labeled give /3-keto esters is discussed in Section 6.4. Claisen condensation of alkyl [ CJacetates with esters lacking a-hydrogens (i.e. ethyl formate, diethyl oxalate, aromatic/heteroaromatic carboxylic acid esters) proceed unidirectionally and are valuable pathways in the synthesis of ethyl [ C]formyl acetate (521. diethyl [ C]-oxaloacetate (53) and ethyl 3-oxo-3-pyrid-3-yl[2- C]acetate (54). The last example... 

Pathway A has already been discussed (2-23). In the reaction sequence C, introduction of the formyl group by a Claisen ester condensation with a formic acid ester is followed by treatment with 4-toluenesulfonyl azide, i. e., by a diazo transfer reaction (Regitz and Menz, 1968 see Sect. 2.6). Mn04 is also frequently used for the synthesis of bis- and tetradiazo compounds from the corresponding bis- and tetrahydrazones (Teki et al., 1986 Hannemann et al., 1988 and references therein). 

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