MANNICH Aminomethylation

Other reactions that show preference for the acidic N-3—H group include Mannich aminomethylation by treatment with formaldehyde and an amine (38) to yield compound (8), reaction with ethyleneimine (39) to give (9), and Michael-type additions (40) such as the one with acrylonitrile to give (10) ... 

Aldehyde 198 served as a key intermediate in a synthesis of the alkaloid ajmaline. The. Mannich aminomethylation transform triggers disconnection of two bonds in 198 to form dialdehyde 199, which by connective transform application can be converted to cyclopentene 200.58,59 The reduction in functional group reactivity and in structural complexity are both apparent by comparison of 198 and 200. 

The classical Mannich aminomethylation is one of the most important ionic carbon-carbon bond forming reactions in organic chemistry [35]. However, only substituents with electron-withdrawing groups are suitable for the ionic addition. Electron-donating groups directly bonded to the carbon-centered radical favor nucleophilic radical addition to methylene-iminium salts. Thus, the radical-type Mannich reaction provides products which are complementary to those obtained with the classical ionic reaction. 

Although formaldehyde is usually employed in Mannich aminomethylation. other aldehydes may be used, and in this case the reaction should be more generally defined as an aminoalkylatlon. 

The present chapter deals with the application of Mannich aminomethylation or Mannich bases to the synthesis and modification of macromolecular compounds. As summarized in Fig. 150, a remarkable number of different combinations exist, as the Mannich reaction enables us (a) to perform polymerizations by using bifunctional substrate and amine as well as (d) to functionalize polymeric derivatives behaving, alternatively, as substrate or amine components of Mannich synthesis. On the other hand, the manifold reactivity of Mannich bases makes it possible (b) to produce polymers by amino group replacement with bifunctional nucleophiles or to polymerize suitable moieties (e.g., double bonds) present in the base. Furthermore (e), macromolecular compounds can be subjected to amino group replacement as well as to various other reactions given by Mannich bases. Finally (c), crosslinked derivatives are obtained from oligomeric or polymeric products through any of the above mentioned methods. 

Further examples reported in Table 40 arc given by the alkyl ketone moieties deriving from oxidation of polyenes, which arc subjected to Mannich aminomethylation in order to produce compounds 559 having dispersant properties for lubricating oils, by benzotriazoles 557, capable of forming, due to physical adsorption, thin layers over the surfaces subjected to friction, and by S-Mannich bases 558, combining antifriction and antioxidant properties. 

Ferrocene reacts with acetyl chloride and aluminum chloride to afford the acylated product (287) (Scheme 84). The Friedel-Crafts acylation of (284) is about 3.3 x 10 times faster than that of benzene. Use of these conditions it is difficult to avoid the formation of a disubstituted product unless only a stoichiometric amount of AICI3 is used. Thus, while the acyl substituent present in (287) is somewhat deactivating, the relative rate of acylation of (287) is still rapid (1.9 x 10 faster than benzene). Formation of the diacylated product may be avoided by use of acetic anhydride and BF3-Et20. Electrophilic substitution of (284) under Vilsmeyer formylation, Mannich aminomethylation, or acetoxymercuration conditions gives (288), (289), and (290/291), respectively, in good yields.Racemic amine (289) (also available in two steps from (287)) is readily resolved, providing the classic entry to enantiomerically pure ferrocene derivatives that possess central chirality and/or planar chirality. Friedel-Crafts alkylation of (284) proceeds with the formation of a mixture of mono- and polyalkyl-substituted ferrocenes. The reaction of (284) with other... 

This synthetic procedure is to some extent similar to the Mannich aminomethylation of aldehydes and ketones having a labile a-hydrogen atom with primary or secondary amines [10]. 

Whatever the detailed mechanism of the reaction between formaldehyde, secondary or primary amines and a suitably reactive aromatic compound, it is clear that essentially the Mannich aminomethylation is an electrophilic substitution. It is therefore not surprising that pyrrole reacts very readily with formaldehyde and secondary amines to give Mannich bases . If an excess of pyrrole is not maintained during the reaction, more highly substituted products result" 4, 1-Methylpyrrole reacts, if anything, more readily... 

Alkylation and Substituted Alkylation—Reactions in this group (other than hydroxyalkylations and benzylations effected by carbonyl compounds, dealt with below) are not numerous. Mannich aminomethylations have been carried out with 2- and 4-picoline and 2-ethylpyridine, formaldehyde and a number of amines , but yields are poor . 

The desired pyridylamine was obtained in 69 % overall yield by monomethylation of 2-(aminomethyl)pyridine following a literature procedure (Scheme 4.14). First amine 4.48 was converted into formamide 4.49, through reaction with the in situ prepared mixed anhydride of acetic acid and formic acid. Reduction of 4.49 with borane dimethyl sulfide complex produced diamine 4.50. This compound could be used successfully in the Mannich reaction with 4.39, affording crude 4.51 in 92 % yield (Scheme 4.15). Analogous to 4.44, 4.51 also coordinates to copper(II) in water, as indicated by a shift of the UV-absorption maximum from 296 nm to 308 nm. 

Mannich Reaction. Aminomethylation of polyacrylamide with formaldehyde [50-00-0] and a secondary amine to produce a Mannich polyacrjiamide has been extensively studied (40). 

The yields of this reaction are typically 40—80%. C-nmr studies (41) indicate that the reaction is a second-order process between polyacrylamide and dim ethyl am in om eth an ol, which is one of the equiUbrium products formed in the reaction between formaldehyde and dimethylamine [124-40-3] C2H2N. The Mannich reaction is reversible. Extensive dialysis of Mannich polyacrylamides removes all of the dimethyl aminomethyl substituents (42). 

Conversion of the C-2 amide to a biologically inactive nitrile, which can be further taken via a Ritter reaction (29) to the corresponding alkylated amide, has been accomphshed. When the 6-hydroxyl derivatives are used, dehydration occurs at this step to give the anhydro amide. Substituting an A/-hydroxymethylimide for isobutylene in the Ritter reaction yields the acylaminomethyl derivative (30). Hydrolysis affords an aminomethyl compound. Numerous examples (31—35) have been reported of the conversion of a C-2 amide to active Mannich adducts which are extremely labile and easily undergo hydrolysis to the parent tetracycline. This reverse reaction probably accounts for the antibacterial activity of these tetracyclines. 

An important extension of these reactions is the Mannich reaction, in which aminomethyl-ation is achieved by the combination of formaldehyde, a secondary amine and acetic acid (Scheme 24). The intermediate immonium ion generated from formaldehyde, dimethyl-amine and acetic acid is not sufficiently reactive to aminomethylate furan, but it will form substitution products with alkylfurans. The Mannich reaction appears to be still more limited in its application to thiophene chemistry, although 2-aminomethylthiophene has been prepared by reaction of thiophene with formaldehyde and ammonium chloride. The use of A,iV-dimethyf (methylene) ammonium chloride (Me2N=CH2 CF) has been recommended for the iV,iV-dimethylaminomethylation of thiophenes (83S73). 

N-Unsubstituted pyrazoles and imidazoles add to unsaturated compounds in Michael reactions, for example acetylenecarboxylic esters and acrylonitrile readily form the expected addition products. Styrene oxide gives rise, for example, to 1-styrylimidazoles (76JCS(P1)545). Benzimidazole reacts with formaldehyde and secondary amines in the Mannich reaction to give 1-aminomethyl products. 

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. ... 

A generally applicable reaction scheme naturally cannot be given. The reaction mechanism of one particular carbinolamine with a particular reagent can depend on the reaction conditions in nonpolar solvents, the nondissociated carbinolamine obviously reacts (Sj 2 mechanism). In polar solvents, on the other hand, the mesomeric cation reacts (S l mechanism). Formally all these reactions belong to the general class of aminomethylation. The reaction products can be considered to be Mannich bases. ... 

Reaction of 2-amino-4/f-pyrido[l,2-n]pyrimidin-4-ones 143 with HNMei -HCl and paraformaldehyde in Dowtherm A afforded a mixture of 3-(A,A-dimethylamino)methyl derivatives 144 and bis-compounds 145 (93FES1225). Mannich reaction of 9-hydroxy-2-methyl-4//-pyri-dor],2-nlpyrimidin-4-one (146) yielded 8-aminomethyl derivatives 147 (94KFZ(10)23). 

The derivative from an isomeric fused system has been described as a sedative-hypnotic compound. The synthesis starts by condensation of the aminopicoline 32 with the haloketone 33. The resulting pyrrolo[l,2-a]pyridine 34 then undergoes a Mannich reaction with formaldehyde and dimethylamine to give the aminomethylated derivative 35. After quatemization of the di-methylamino group in 35 with methyl iodide, the ammonium group is displaced by cyanide to... 

The reaction of enamines with iminium salts provides an alternative route to Mannich bases which are an attractive class of compounds, since they have found many applications (synthesis of drugs, pesticides, synthetic building blocks, etc.). This methodology has several basic advantages compared to the classic aminomethylation procedure15-18-24 ... 

Table 3 Highly substituted 2-pyridones were aminomethylated by utilizing a microwave-assisted Mannich reaction...

Phenols, secondary and tertiary aromatic amines, pyrroles, and indoles can be aminomethylated by treatment with formaldehyde and a secondary amine. Other aldehydes have sometimes been employed. Aminoalkylation is a special case of the Mannich reaction (16-15). When phenols and other activated aromatic compounds are treated withA-hydroxymethylchloroacetamide, amidomethylation takes place " ... 

The Mannich condensation has traditionally been carried out in the presence of water as a three-component condensation involving a carbonyl compound (or related carbon nucleophile), formaldehyde, and a primary or secondary amine. The initial step is a condensation between the latter two reactants to form a mono- or dialkyl(methylene)ammonium ion which subsequently serves as the electrophilic partner in the reaction. With unsymmetrical ketones aminomethylation generally occurs at both positions to give mixtures of isomeric 3-amino ketones. The ratio of the isomers depends strongly on the structure of the ketone, and the more highly branched (3-amino ketone usually predominates. 

The Mannich reaction has been applied to the synthesis of a wide array of iV-aminomethyl-l,2,4-trialozethiones. For example, 1,2,4- triazolo-3-thione 52 reacts with iV-phenylpiperidine in the presence of 40% formalin to give the corresponding N-substituted l,2,4-triazolo-3-thione 53 in 77% yield (Equation 16) <2005PS(180)537, 2000PS(164)67>. 

Vainilavicius and co-workers studied the Mannich reaction of oxadiazolethiones in detail and reported several examples pointing to the importance of starting reagent stmctures and the reaction conditions on the course of the reaction <2002M 173, 2003CHE1364>. For example, aminomethylation and acylation of 5-(4,6-diphenyl-2-pyrimidinyl)-... 

The reaction of 2,5-dimercapto-l,3,4-thiadiazolidine 34 with dialkylamines under Mannich reaction conditions gave N,S-aminomethylated thiadiazoles in 69-70% yields (Equation 24) <1998CHE1431>. With urea, thiourea, semicarbi-zide, or thiosemicarbazide, thiadiazolidine 34 gave N,N-aminomethylated thiadiazoles in 89-98% yields (Equation 25). 

Alkyl-3-hydroxy-4-pyridinones can be converted into analogues containing, e.g., anilino-, phenylthio-, or 2-hydroxyethylthio-substitu-ents by silver(I) oxidation (Ag20 in ethanol) followed by Michael addition (71). In aminomethylation of 3-hydroxy-4- and -2-pyridinones under Mannich conditions the position of substitution can be tailored, by reaction conditions to position C4 or C6, or by converting the OH into OMe, which directs substitution to C5 (72). 

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