Perkin condensation with

The anhydride also undergoes a Perkin condensation with aromatic aldehydes in the presence of a base to give l-oxo-3-phenylisochroman-4-carboxylic acids (58JCS2612). 

Simple aliphatic or aromatic ketones are not suitable substrates in the Pericin transformation. Similarly, aliphatic aldehydes are not generally acceptable components in this reaction. This long-known limitation was studied by Crawford and Little. They demonstrated that many aliphatic aldehydes give diacetates and enol acetates when heated with acetic anhydride, with or without sodium acetate, suggesting this side reaction causes the typical Perkin process to fail. Semmeler had previously obtained similar results. They did show, however, that several short chain aldehydes, as well as frowj-citral (16), undergo the Perkin condensation with p-nitrophenylacetic anhydride the p-nitrophenyl substituent activates the anhy-... 

R -.u.. (An azlactone) Hydantoin Draw the structure of the product that would be formed if each underwent the Perkin condensation with p-chlorobenzaldehyde. 6-121. para-Nitrobenzaldehyde reacts at a faster rate than benzaldehyde in the Perkin reaction, while p-N,N- ... 

Basic catalysts other than alkali acetates have been employed in the Perkin reaction thus salicylaldehyde condenses with acetic anhydride in the presence of triethylamine to yield coumarin (tlie lactone of the cis form of o-hydroxy-cinnamio acid) together with some of the acetyl derivative of the trans form (o-acetoxycoumaric acid) ... 

Here the phenylacetic anhydride, possessing more reactive a-hydrogen atoms, condenses with benzaldehyde to give a-phenylcinnamic acid. The preparation of the latter is an example of the Oglialoro modiflcation of the Perkin reaction. 

Furfural condenses with acetic anhydride and potassiuiu acetate to give furylacrylic acid (compare Perkin reaction, Cinnamic Acid, Section IV, 124) ... 

Aldehydes and Ketones. Pyrrole aldehydes and ketones are somewhat less reactive than the corresponding benzenoid derivatives. The aldehydes do not undergo Cannizzaro or Perkin reactions but condense with a variety of compounds that contain active methylene groups. They also react with pyrroles under acidic conditions to form dipyrryhnethenes (26). The aldehydes can be reduced to the methyl or carbinol stmctures. The ketones undergo normal carbonyl reactions. 

In view of its possible interest as the mode of formation of harman, harmine and harmaline in plants, Kermack, Perkin and Robinson investigated the conversion of tryptophan (II) into harman (I) and nor-harman (IV). The latter is produced when tryptophan is condensed with formaldehyde in presence of dilute sulphuric acid and the product (III) oxidised by potassium dichromate. Harman is formed when formaldehyde in this process is replaced by acetaldehyde. 

It is interesting to note that whereas 7-methoxy-l-methyl-l,2,3,4-tetrahydro-jS-carboline condenses with diazobenzenesulfonic acid to give an azo compound (presumably the 6-arylazo derivative) and 7-methoxy-l-methyl-3,4-dihydro-j8-carbohne gives a bisazo compound, none of the fully aromatic j8-carboline derivatives studied by Perkin and Robinson underwent azo-coupling. 

The methylene groups of hippuric acid and malonic acid are much more reactive than that of acetic acid. They may be caused, therefore, to condense with aldehydes under much milder conditions, e.g. by the action of pyridine. The use of malonic acid forms an extension of Perkin s reaction to the aliphatic series (Doebner), e.g. 

Cohare and co-workers reported that aristolactam BU (22) was prepared, following Kupchen s method, by Perkin condensation of 6-bromo-3,4-di-methoxy phenyl acetic acid (119) and o-nitrobenzaldehyde (120) (Scheme 14). The 2-bromo-4,5-dimethoxy-2 -nitro-ds-stilbene-a-carboxylic acid (121) was obtained. The nitro group of 121 was reduced with ferrous sulfate and ammonium hydroxide, and the resulting 2-bromo-4,5-dimethoxy-2 -amino-cw-stilbene-a-carboxylic acid (122) without purification was submitted to the Pschorr phenanthrene synthesis to yield l-bromo-3,4-dimethoxyphen-anthrene-lO-carboxylic acid (123). The phenanthrylamine 124 was prepared from 123 via a Schmidt reaction, and, by treatment with n-butyllithium and CO2, 124, afforded 22 (42). 

When benzaldehyde is condensed with hippuric acid in the presence of acetic anhydride a Perkin s reaction takes place and benzoyl-a-amido-cinnamic acid is formed —... 

Formylfuran behaves in a very similar manner to benzaldehyde and undergoes the usual reactions of an aromatic aldehyde, e.g. (i) the Cannizzaro reaction with cone, sodium hydroxide to give furan-2-ylmethanol and the sodium salt of furoic acid, (ii) the Perkin reaction with acetic anhydride and sodium acetate to yield an aldol product that dehydrates to 3-(furan-2-yl)propenoic acid, and (iii) a condensation with potassium cyanide in alcoholic solution to form furoin (under these conditions, benzaldehyde undergoes the benzoin condensation) (Scheme 6.32). 

Hydrogenation of benzaldehyde yields benzyl alcohol, condensation with aliphatic aldehydes leads to additional fragrance substances or their unsaturated intermediates. Unsaturated araliphatic acids are obtained through the Perkin reaction, for example, the reaction with acetic anhydride to give cinnamic acid. 

A modified Perkin procedure is illustrated in the synthesis of a-phenyl-cinnamic acid in which benzaldehyde is condensed with phenylacetic acid in the presence of acetic anhydride and triethylamine. Presumably equilibria are set up which result in the formation of either a mixed anhydride, phenylacetic acetic anhydride or the symmetrical phenylacetic anhydride. 

A condensation occurs between 5-hydroxymethylfurfural and malonic ester20 and in a similar way, two molecules of malonic ester react with furan 2,5-dialdehyde.88 A condensation product, XXXV, has also been obtained with hydantoin.89 5-Hydroxymethylfurfural and its acetyl derivative undergo the Perkin reaction with sodium acetate and acetic anhydride giving 5-acetoxymethylfuran 2-acrylic acid (XXXVI).70 Similar products of the same reaction are obtained from 5-methyl-furfural71 and 5,5 -diformyl-l,l -furylmethyl ether (XXVII).61,72... 

The base-catalyzed reaction of an aldehyde (having no a hydrogens) with an anhydride is called the Perkin condensation. Propose a mechanism for the following example of the Perkin condensation. (Sodium acetate serves as the base.)... 

Selenophene-2-aldehyde takes part in the Hantzsch synthesis [Eq. (I)]108 and reacts readily with ammonia, aromatic amines and diamines,109 hippuric, barbituric, and malonic acids, malononitrile,70 and rhodanine.109 /3-(Selenien-2-yl)acrylic acid has been obtained from selenophene-2-aldehyde by the Perkin reaction and by Knoevenagel condensation with malonic acid.70 Esters of /9-(selenien-2-yl)acrylic acid are easily formed by condensation of the aldehyde... 

Cinnamic Acid by Perkin s Reaction.—Cinnamic acid has the constitution assigned to it above as is proven by the following synthesis from benzaldehyde by condensation with sodium acetate in the presence of acetic anhydride. 

In the Perkin reaction, acetic anhydride condenses with an aromatic aldehyde to yield a cinnamic acid. The reaction takes place by a mixed carbonyl condensation of the anhydride with the aldehyde to yield an a,/l-unsaturated intermediate that undergoes hydrolysis to yield the cinnamic acid. What is the structure of the unsaturated intermediate ... 

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