Mannich condensations

Hydroxyisoquinolines. Hydroxy groups in the 5-, 6-, 7-, and 8-position show phenoHc reactions for example, the Bucherer reaction leads to the corresponding anainoisoquinolines. Other typical reactions include the Mannich condensation, azo-coupling reactions, and nitrosation. Both 0-methyl and /V-methyl derivatives are obtained from the methylation of 1-hydroxyisoquinoline, indicating that both tautomeric forms are present. Distillation of various hydroxy compounds, eg, 1- and 4-hydroxyisoquinoline, with zinc dust removes the oxygen. Treatment of 1-isoquinolinol with phosphoms tribromide yields 1-bromoisoquinoline [1532-71 -4] (178). 

Cartion-cartxin bond formation via tandem Mannich condensation, cationic aza-Cope rearrangement of homoaHylarrunes, leading to pyrolidmes... 

An alternative to the synthesis of arylsulfonylmethylcarbamates by the Mannich condensation as described here, is the Curtius rearrangement of the hydrazides of arylsulfonylacetic acids. 

Mannich condensation of the primary amine corresponding to ephedrine (32) with formaldehyde and m-methoxyacetophenone yields oxyfedrine (33), this agent retains the vasodilating activity of ephedrine and is in fact denoted a coronary vasodilating agent. 

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). ... 

An alternative preparation of benzofurans was carried out via a microwave-assisted Mannich condensation of paraformaldehyde and a secondary amine followed by cyclization with an alkynyl phenol 185 mediated by alumina doped with Cul (Scheme 67). The reaction can be carried out in a single-step... 

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. 

Regioselecttve Mannich Condensation with DiMETim,(MErrHYLENE)AMMONii)M... 

REGIOSELECTIVE MANNICH CONDENSATION WITH DIMETHYL(METHYLENE)AMMONIUM TRIFLUOROACETATE 1-DIMETHYLAMINO-4-METHYL-3-PENTANONE... 

Mannich condensations permit one-step reactions to form the following substances from substantially less complex starting materials. Identify a potential starting material that would give rise to the product shown in a single step under Mannich reaction conditions. 

Entry 6 is analogous to a silyl ketene acetal rearrangement. The reactant in this case is an imide. Entry 7 is an example of PdCl2-catalyzed imidate rearrangement. Entry 8 is an example of an azonia-Cope rearrangement, with the monocylic intermediate then undergoing an intramolecular Mannich condensation. (See Section 2.2.1 for a discussion of the Mannich reaction). Entry 9 shows a thioimidate rearrangement. 

Formal isomerization of the double bond of testosterone to the 1-position and methylation at the 2-position provides yet another anabolic/androgenic agent. Mannich condensation of the fully saturated androstane derivative 93 with formaldehyde and di-methylamine gives aminoketone 94. A/B-trans steroids normally enolize preferentially toward the 2-position, explaining the regiospecificity of this reaction. Catalytic reduction at elevated temperature affords the 2a-methyl isomer 95. It is not at all unlikely that the reaction proceeds via the 2-methylene intermediate. The observed stereochemistry is no doubt attributable to the fact that the product represents the more stable equatorial isomer. The initial product would be expected to be the p-isomer but this would experience a severe 1,3-diaxial non-bonded interaction and epimerize via the enol. Bromination of the ketone proceeds largely at the tertiary carbon adjacent to the carbonyl (96). Dehydrohalogenation... 

Karachine (505) (253), the first natural protoberberine incorporating an acetone unit, was synthesized from berberine (15) (254). Heating of 15 with siloxydiene 503 in dimethyl sulfoxide afforded karachine (505) in 66% yield through Mannich condensation, intramolecular Michael addition, and then further Mannich condensation via 504 (Scheme 106). 

Figure 16.3 Conceptual illustration of two peptides before (left) and after (right) a chemical reaction with formaldehyde. The amino acids are represented as circles. In this particular peptide, a tyrosine (Y) is located within the epitope (shaded circles). An arginine (R) is located elsewhere in the peptide. Formaldehyde results in the formation of a covalent bond between the two residues, due to a Mannich condensation reaction, as shown on the right. The new configuration prevents antibodies from binding to the epitope on the left. 

Tyrosine may be targeted specifically for modification through its phenolate anion by acylation, through electrophilic reactions such as the addition of iodine or diazonium ions, and by Mannich condensation reactions. The electrophilic substitution reactions on tyrosine s ring all occur at the ortho position to the —OH group (Figure 1.11). Most of these reactions proceed effectively only when tyrosine s ring is ionized to the phenolate anion form. 

Figure 1.11 Tyrosine residues are subject to nucleophilic and electrophilic reactions. The unprotonated phe-nolate ion may be alkylated or acylated using a variety of bioconjugate reagents. Its aromatic ring also may undergo electrophilic addition using diazonium chemistry or Mannich condensation, or be halogenated with radioactive isotopes such as 12iI.

The Mannich reaction provides an often-superior alternative to diazonium conjugation (Section 6.1, this chapter), because of the disadvantages inherent in the instability of both the diazonium group and the resultant diazo linkage. By contrast, conjugations done through Mannich condensations result in stable covalent bonds. 

Katritzky offers a general one-pot alternative approach to polysubstituted pyrroles utilizing disubstituted olefins of which a wider variety is commercially available compared to acetylenes . Thus, thioamides 32 were subjected to Mannich condensation with aldehydes and BtH to yield functionalized thioamides 33 which were then treated with base... 

In principle, the synthesis of a consonant molecule or a bifunctional relationship within a more complex polyfunctional molecule, does not offer too many difficulties. In fact, all the classical synthetic methods of carbon-carbon bond formation that utilise reactions which are essentially reversible, lead to consonant relationships. For instance, the book by H.O. House "Modem Synthetic Reactions" [22], after dealing, for almost 500 pages, with functional group manipulations, devotes the last 350 pages to carbon-carbon bond formation, all of which lead to consonant relationships. These methods can, actually, be reduced to the following four classical condensations (and their variants) Claisen condensation, aldol condensation, Mannich condensation and Michael addition (Table 2.5). 

As can be seen, the same four classical condensations which were mentioned before, are again present i. e., Claisen, aldol, and Mannich condensations and the Michael addition. 

In the direct associative approach, which is applied in the case of relatively simple molecules, the chemist directly recognises within the structure of the target molecule a number of readily available structural subunits which can be properly joined, by using standard reactions with which he is very familiar. For instance, it is easy to see that structure 1 can be obtained by bringing together, the fragments a, b and c, in a Mannich condensation ... 

In the synthesis developed by von Baeyer the starting material is also aniline, which is treated with a buffered solution of sodium bisulphite, cyanide and formaldehyde, to give a nitrile, in a reaction which, at least formally, resembles a Mannich condensation ... 

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