Ketones Mannich reactions

It is clear that these alkylimidazohum ILs containing nonprotic anions present a very low acidity. However, [MIM][Bp4] has been used successfully for esterification of a variety of carboxylic acids with common alcohols. Good yields and high selectivity for the esters are described. The esters are immiscible with the ILs while water is soluble in them, so that liquid esters can be separated by decanting [18]. Another example is the three-component (aldehyde, amine, ketone) Mannich reaction that provides p-aminocarbonyl compounds used in pharmaceutical and biological areas of chemistry. [MIMjlCFjCOj] IL acts as both a solvent and a catalyst for the reaction, which simplifies the reaction procedure [19]. 

Amino-ketones are classically synthesized by theaminomethylation of methyl ketones (Mannich reaction), and a number of modified procedures to effect this transformation have been reported. Thus, the reaction of silyl enol... 

In a second attempt to extend the scope of Lewis-acid catalysis of Diels-Alder reactions in water, we have used the Mannich reaction to convert a ketone-activated monodentate dienophile into a potentially chelating p-amino ketone. The Mannich reaction seemed ideally suited for the purpose of introducing a second coordination site on a temporary basis. This reaction adds a strongly Lewis-basic amino functionality on a position p to the ketone. Moreover, the Mannich reaction is usually a reversible process, which should allow removal of the auxiliary after the reaction. Furthermore, the reaction is compatible with the use of an aqueous medium. Some Mannich reactions have even been reported to benefit from the use of water ". Finally, Lewis-acid catalysis of Mannich-type reactions in mixtures of organic solvents and water has been reported ". Hence, if both addition of the auxiliary and the subsequent Diels-Alder reaction benefit from Lewis-acid catalysis, the possibility arises of merging these steps into a one-pot procedure. 

Finally, in the last step, the chelating auxiliary had to be removed Ideally, one would like to convert 4.54 into ketone 4.55 via a retro Mannich reaction. Unfortunately, repeated attempts to accomplish this failed. These attempts included refluxing in aqueous ethanol under acidic and basic conditions and refluxing in a 1 1 acetone - water mixture in the presence of excess paraformaldehyde under acidic conditions, in order to trap any liberated diamine. Tliese procedures were repeated under neutral conditions in the presence of copper(II)nitrate, but without success. 

Apparently, 4.54 is extremely reluctant to undergo a retro Mannicli reaction. Riviere demonstrated that this behaviour is not unusual for (3-amino ketones. From the study of a large number of Mannich adducts. Riviere concludes that the retro Mannich reaction requires an aromatic group next to the carbonyl functionality. Qearly, 4.54 lacks this arrangement. 

There also exists an acidregioselective condensation of the aldol type, namely the Mannich reaction (B. Reichert, 1959 H. Hellmann, 1960 see also p. 291f.). The condensation of secondary amines with aldehydes yields Immonium salts, which react with ketones to give 3-amino ketones (=Mannich bases). Ketones with two enolizable CHj-groupings may form 1,5-diamino-3-pentanones, but monosubstitution products can always be obtained in high yield. Unsymmetrical ketones react preferentially at the most highly substituted carbon atom. Sterical hindrance can reverse this regioselectivity. Thermal elimination of amines leads to the a,)3-unsaturated ketone. Another efficient pathway to vinyl ketones starts with the addition of terminal alkynes to immonium salts. On mercury(ll) catalyzed hydration the product is converted to the Mannich base (H. Smith, 1964). 

Methyl vinyl ketone can be produced by the reactions of acetone and formaldehyde to form 4-hydroxy-2-butanone, followed by dehydration to the product (267,268). Methyl vinyl ketone can also be produced by the Mannich reaction of acetone, formaldehyde, and diethylamine (269). Preparation via the oxidation of saturated alcohols or ketones such as 2-butanol and methyl ethyl ketone is also known (270), and older patents report the synthesis of methyl vinyl ketone by the hydration of vinylacetylene (271,272). 

The side-chain cyanoethylation of alkyl thienyl ketones with acrylonitrile has been studied " and used for the preparation of 8-oxonitriles and S-oxoacids. Aminomethylation (Mannich reaction) of 2-acetylthiophene followed by steam distillation yielded 50% of 2-thienyl vinyl ketone, and has also been used for the synthesis of compounds of biological interest. ... 

The condensation reaction of a CH-acidic compound—e.g. a ketone 3—with formaldehyde 1 and ammonia 2 is called the Mannich reaction, the reaction products 4 are called Mannich bases. The latter are versatile building blocks in organic synthesis, and of particular importance in natural products synthesis. 

With an unsymmetrical ketone as CH-acidic substrate, two regioisomeric products can be formed. A regioselective reaction may in such cases be achieved by employing a preformed iminium salt instead of formaldehyde and ammonia. An iminium salt reagent—the Eschenmoser salt—has also found application in Mannich reactions. ... 

Methyl vinyl ketone 2 tends to polymerize, especially in the presence of a strong base the yield of annulation product is therefore often low. A methyl vinyl ketone precursor, e.g. 6, is often employed, from which the Michael acceptor 2 is generated in situ, upon treatment with a base. The quaternary ammonium salt 6 can be obtained by reaction of the tertiary amine 5, which in turn is prepared from acetone, formaldehyde and diethylamine in a Mannich reaction. 

An a-amino acid 3 can be prepared by treating aldehyde 1 with ammonia and hydrogen cyanide and a subsequent hydrolysis of the intermediate a-amino nitrile 2. This so-called Strecker synthesis - is a special case of the Mannich reaction-, it has found application for the synthesis of a-amino acids on an industrial scale. The reaction also works with ketones to yield a, a -disubstituted a-amino acids. 

Substitution of an alicyclic ring for one of the aromatic rings in the amino alcohols such as 32 or 39 produces a series of useful antispasmodic agents that have found some use in the treatment of the symptoms of Parkinson s disease. Mannich reaction of acetophenone with formaldehyde and piperidine affords the amino-ketone, 44a. Reaction of the ketone with cyclohexylmagnesium... 

The presence of unsaturation in the side chain is also compatible with antihistaminic activity. Mannich condensation of p-chloroacetophenone with formaldehyde and pyrollidine affords the amino ketone, 109. Reaction with an organometallic reagent from 2-bromopyridine gives 110. Dehydration leads to triproli-dine (111). ... 

A particularly useful variation of this reaction uses cyanide rather than HCN. a-Amino nitriles can be prepared in one step by the treatment of an aldehyde or ketone with NaCN and NH4CI. This is called the Strecker synthesisand it is a special case of the Mannich reaction (16-15). Since the CN is easily hydrolyzed to the acid, this is a convenient method for the preparation of a-amino acids. The reaction has also been carried out with NH3-I-HCN and with NH4CN. Salts of primary and secondary amines can be used instead of NH to obtain N-substituted and N,N-disubstituted a-amino nitriles. Unlike 16-51, the Strecker synthesis is useful for aromatic as well as aliphatic ketones. As in 16-51, the Me3SiCN method has been used 64 is converted to the product with ammonia or an amine. ... 

This is not the only route to compounds such as (38). The Mannich reaction (p T 158) provides aldehydes and ketones (39) which can be reduced to (38) and its analogues or can be alkylated by the chloro-... 

The starting material for both halves of the molecule is cyclohexanone. The Mannich reaction presented no problems and the NR group was retained until the end of the synthesis to avoid releasing the sensitive exomethylene ketone (43),... 

Scheme 2.12 shows some representative Mannich reactions. Entries 1 and 2 show the preparation of typical Mannich bases from a ketone, formaldehyde, and a dialkylamine following the classical procedure. Alternatively, formaldehyde equivalents may be used, such as l>is-(di methyl ami no)methane in Entry 3. On treatment with trifluoroacetic acid, this aminal generates the iminium trifluoroacetate as a reactive electrophile. lV,A-(Dimethyl)methylene ammonium iodide is commercially available and is known as Eschenmoser s salt.192 This compound is sufficiently electrophilic to react directly with silyl enol ethers in neutral solution.183 The reagent can be added to a solution of an enolate or enolate precursor, which permits the reaction to be carried out under nonacidic conditions. Entries 4 and 5 illustrate the preparation of Mannich bases using Eschenmoser s salt in reactions with preformed enolates. 

The dialkylaminomethyl ketones formed in the Mannich reaction are useful synthetic intermediates.184 Thermal elimination of the amines or the derived quaternary salts provides a-methylene carbonyl compounds. 

A propoxyphene-like analgesic which obeys the empirical morphine rule is pyrroliphene (101). A Mannich reaction involving pyrrolidine, formaldehyde and propiophenone gave amino ketone 99, which was converted to tertiary carbinol 100 by reaction with benzyl magnesium chloride reaction with acetyl... 

The addition product of ethyl acetoacetate and methyl a-methoxyacrylate was hydrolyzed, and the resulting dicarboxylic acid was treated with dimethylamine hydrochloride and aqueous formaldehyde. The product of the Mannich reaction was decarboxylated, reesterifed, and finally treated with methyl iodide to supply quaternary salt 469 as the main product. During the above one-pot process, elimination also took place, yielding unsaturated ketone 470, which was later utilized as its hydrogen bromide adduct 471. Reaction of 3,4-dihydro- 3-car-boline either with 469 or 471 furnished the desired indolo[2,3-a]quinolizine derivative 467 as a mixture of two diastereomeric racemates. 

The reaction of different substituted hydrazines (or hydroxylamines) with the a,/3-unsaturated ketones 210 gives pyrazolines 211 (or isoxazolines 212), as the result of a Michael addition reaction followed by an intramolecular Mannich reaction (Scheme 12) <2001FAR32>. 

This MCR chemistry began in 1850 when the Strecker reaction S-3CR of ammonia, aldehydes, and hydrogen cyanide was introduced. Since 1912 the Mannich reaction M-3CR of secondary amines, formaldehyde, and (3-protonated ketones is used. 

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