Dicarbonyl condensation

Alternatively, hydrogen sulfide could be produced alongside ammonia and acetaldehyde by the breakdown of the mercaptoimino-enol intermediate of the decarboxylation reaction of the cysteine-dicarbonyl condensation product. Fisher also points out that hydrogen sulfide is forms many odiferous an hence intensely flavoured products.2 Cysteine is important as it is one of the major sources of sulfur. 

A classical way to achieve regioselectivity in an (a -i- d -reaction is to start with a-carbanions of carboxylic acid derivatives and electrophilic ketones. Most successful are condensations with 1,3-dicarbonyl carbanions, e.g. with malonic acid derivatives, since they can be produced at low pH, where ketones do not enolize. Succinic acid derivatives can also be de-protonated and added to ketones (Stobbe condensation). In the first example given below a Dieckmann condensation on a nitrile follows a Stobbe condensation, and selectivity is dictated by the tricyclic educt neither the nitrile group nor the ketone is enolizable (W.S. Johnson, 1945, 1947). 

Aldol condensations of dicarbonyl compounds—even diketones—occur mtramo lecularly when five or six membered rings are possible... 

Because the a-aminoketone is subject to self-condensation, the condensation with a P-dicarbonyl derivative (6) is usually carried out by generating the a-aminoketone in situ through reduction of an oximino derivative (7) 2iac ia glacial acetic acid is used as the reductant. For example, Knorr s pyrrole... 

It is customary to perform the condensation of 1,4-dicarbonyl compounds with hydrazines in the presence of mineral acid to avoid the formation of A-aminopyrroles. Contrary to early claims that 4,5-dihydropyridazines are formed <07CB4598), these compounds are now regarded as 1,4-dihydro derivatives 81CB564). 

Since the structures of the Gabriel-Isay condensation products of 5,6-diaminopyrimidines with unsymmetrical 1,2-dicarbonyl or a-substituted monocarbonyl compounds are always ambiguous, the synthesis of 6- and 7-substituted pteridines by an unambiguous approach was and still is a necessity and an important challenge. 

Synthesis of fused cyciopentanones (bicyciotS 3 0] octachones) or of propeltanes from a-dicarbonyl compounds wa the double aktol condensation with etoesters 2... 

Although nearly all Paal-Knorr condensations produce di-, tri-, or tetrasubstituted furans, it is possible to use this reaction to generate monosubstituted furans. Molander demonstrated the utility of this method with his synthesis of 2-(methyldiphenylsilyl)furan (11) from dicarbonyl 10. ... 

Other less common products of the Paal-Knorr condensation include 2,4-disubstituted furans. An example of such a reaction is Molander s combination of dicarbonyl 42 with hydrochloric acid to furnish 4-methyl-2-(methyldiphenylsilyl)furan (43) in 87% yield.It is important to note that this methodology can also be used to produce 2,5- and 2,3-disubstituted furans. ... 

It is also possible to use the Paal-Knorr condensation to prepare 2,5-dialkyl-3,4-dicarbonyl substituted furans. For example, Zaleska converted diketone 73 into furan 74 in 92%... 

The Gewald aminothiophene synthesis involves the condensation of aldehydes, ketones, or 1,3-dicarbonyl compounds 1 with activated nitriles such as malononitrile or cyanoacetic esters 2 and elemental sulfur in the presence of an amine to afford the corresponding 2-aminothiophene 3. ... 

The Hinsberg thiophene synthesis has seen limited use owing to the potential for regioisomeric mixtures when unsymmetrical 1,2-dicarbonyls are condensed with unsymmetrical thiodiacetates. Thus, symmetrically substituted thiophenes are generally prepared in this manner. 

Finally, the Hinsberg synthesis has been extended to the use of a-aryl-a-carboethoxydimethyl sulfide in conjunction with a series of 1,2-dicarbonyl compounds. Specifically, the 4-nitroaryl substituent provides for sufficient activation of the a-proton to allow condensation and ring closure. These examples appear general and suggest future opportunities for the Hinsberg thiophene protocol. 

The Hantzsch pyridine synthesis involves the condensation of two equivalents of a 3-dicarbonyl compound, one equivalent of an aldehyde and one equivalent of ammonia. The immediate result from this three-component coupling, 1,4-dihydropyridine 1, is easily oxidized to fully substituted pyridine 2. Saponification and decarboxylation of the 3,5-ester substituents leads to 2,4,6-trisubstituted pyridine 3. 

Subsequent to Hantzsch s communication for the construction of pyridine derivatives, a number of other groups have reported their efforts towards the synthesis of the pyridine heterocyclic framework. Initially, the protocol was modified by Beyer and later by Knoevenagel to allow preparation of unsymmetrical 1,4-dihydropyridines by condensation of an alkylidene or arylidene P-dicarbonyl compound with a P-amino-a,P-unsaturated carbonyl compound. Following these initial reports, additional modifications were communicated and since these other methods fall under the condensation approach, they will be presented as variations, although each of them has attained the status of named reaction . 

The Pictet-Spengler reaction is one of the key methods for construction of the isoquinoline skeleton, an important heterocyclic motif found in numerous bioactive natural products. This reaction involves the condensation of a P-arylethyl amine 1 with an aldehyde, ketone, or 1,2-dicarbonyl compound 2 to give the corresponding tetrahydroisoquinoline 3. These reactions are generally catalyzed by protic or Lewis acids, although numerous thermally-mediated examples are found in the literature. Aromatic compounds containing electron-donating substituents are the most reactive substrates for this reaction. 

Model studies directed toward the synthesis of Ecteinascidin 743 employed an elegant Pictet-Spengler cyclization of phenethylamine 54 and the 1,2-dicarbonyl compound 55 to assemble the spiro tetrahydroisoquinoline 56 in a stereospecific fashion. " The silica-catalyzed condensation reaction provided 56 in excellent yield. 

Quinoxaline 1,4-dioxides have also been prepared by condensation reactions carried out on the surface of solid catalysts such as silica gel, " molecular sieves, " or alumina. " As a representative example, " BFO 1 and the P-dicarbonyl compound 16 were combined with silica gel in methanol. The excess methanol was removed by evaporation and the silica gel with adsorbed reagents was allowed to stand for two weeks without drying. The quinoxaline 1,4-dioxide 17 was obtained in 90% yield after elution from a silica gel column. 

The Biginelli reaction involves an one-pot reaction between aldehyde 1, 1,3-dicarbonyl 2, and urea 3a or thiourea 3b in the presence of an acidic catalyst to afford 3,4-dihydropyrimidin-2(l//)-one (DHPM) 4. This reaction is also referred to as the Biginelli condensation and Biginelli dihydropyrimidine synthesis. It belongs to a class of transformations called multi-component reactions (MCRs). 

The condensation of 1,3-dicarbonyl compounds 1 with amidines 2 catalyzed by acids or bases to give pyrimidine derivatives 3 is regarded as the Pinner pyrimidine synthesis. ... 

The 1,3-dicarbonyl components can be replaced by an enol ether, which can be prepared by Claisen condensation from an ortho ester and a reactive methylene compound. ... 

Ghosh et al reported a modified procedure for the preparation of highly substituted pyrimidines by condensation of a 1,3-dicarbonyl compound 22 with tri-(trimethylsilyl)amidine (23) in good yield as compared to the lesser yield obtained from employing a classical Pinner procedure. ... 

The result of condensation of (3-dicarbonyl compounds with 3,4-diaminofurazan depends on the reaction conditions. With metal ions as templates, 14-membered rings 188 were formed exclusively (91MI2), whereas in the absence of these ions, only fused diazepines 189 were formed (Scheme 122) (89UKZ1064). 

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