Secondary amino ketone

Zhang and colleagues [26] synthesized the Duanphos enantiomers 57 and 58, and reported on the Rh-Duanphos-catalyzed highly efficient hydrogenation of a series of /9-secondary-amino ketones with ee-values of up to >99%, and with turnover numbers (TONs) of more than 4500 (Table 33.7). This hydrogenation provides a potentially practical synthesis for key pharmaceutical intermediates. The y-secondary amino alcohols are of particular interest to synthetic chemists as they are key intermediates for the synthesis of an important class of antidepressants, 59-62 [32]. 

Table 33.7 Hydrogenation of a series of -secondary-amino ketones with...

The preparation of iV-nitroso-/5-alkylaminoisobutyl ketones is of particular interest as a method for preparing the intermediates for the diazoalkane synthesis. The preparation of these compounds is based on the addition of a primary amine to mesityl oxide to give a secondary amino ketone which is then nitrosated (see Volume I, Chapter 15, Section 2A,g). This preparation uses an... 

Shang, G. Liu, D. AUen, S. E. Yang, Q. Zhang, X. Asymmetric hydrogenation of a-primary and secondary amino ketones Efficient asymmetric syntheses of (-)-Arbutamine and (-)-Denopamine. Chem. 2007,13, 7780-7784. 

Chiral amino alcohols are common structures in drug molecules for example, y-secondaiy aminoalcohols are key intermediates in the synthesis of several pharmaceuticals, examples of which are shown in Scheme 14.12. Zhang has shown that Rh-DuanPhos catalysts can be used to synthesise these key intermediates directly via asymmetric hydrogenation of the p-secondary amino ketone. Application to the synthesis of the antidepressant duloxetine is shown in Scheme 14.12. It should be noted that, to date, ruthenium catalysis has not been successfully applied to the reduction of secondary amino substrates a tertiary amino group is required resulting in a less efficient synthesis requiring extra S3mthetic steps. ... 

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). 

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. 

Lutz, R. E., J. A. Freek, and R. S. Miirphey Secondary and tertiary amino ketones and alcohols derived from desoxybenzoin and 1,2-di-phenylethanol. Ring-chain tautomerism of the a-(p-hydroxyethyl-amino)-ketones. J. Amer. chem. Soc. 70, 2015 (1948). 

In summary, the direct insertion of zinc dust to organic halides is an excellent method for preparing a broad range of polyfunctional organozinc halides bearing various functional groups like an ester" , an ether, an acetate" , a ketone, cyano", halide" , N,N-bis(trimethylsilyl)amino °, primary and secondary amino, amide, phthalimide , sulfide, sulfoxide and sulfone , boronic ester , enone " or a phosphonate . An alternative method is based on transmetalation reactions. 

There are many electrophiles which not only terminate living polymer chains but also produce end-group substitution. For example, macromolecules with hydroxyl, carboxyl, thiol, or chlorine termini can be prepared by reacting living polymers with such compounds as epoxides, aldehydes, ketones, carbon dioxide, anhydrides, cyclic sulfides, disulfides, or chlorine (15-23). However, primary and secondary amino-substituted polymers are not available by terminations with 1° or 2° amines because living polymers react with such functionalities (1.). Yet, tert-amines can be introduced to chain ends by use of -N-N-di-methylamino-benzaldehyde as the terminating agent (24). 

Scheme 5.41 Transformation ofy-amino ketones into enantiomerically pure secondary amines.

Turner has applied this deracemization process to a very interesting tandem transformation where y-amino ketones are transformed into enantiopure secondary amines via intramolecular reductive animation followed by deracemization (Scheme 5.41) [80]. 

The procedure reported here provides a convenient method for the a-hydroxylation of ketones which form enolates under the reaction conditions. The reaction has been applied successfully to a series of para-substituted acetophenones, 1-phenyl-1-propanone, 3-pentanone, cyclopentanone, cyclohexanone, cycloheptanone, cyclododecanone, 2-methyl cyclohexanone, 2-norbornanone and benzalacetone. In the case of a steroidal example it was shown that a carbon-carbon double bond and a secondary hydroxyl group are not oxidized. A primary amino function, as in the case of p-aminoacetophenone, is not affected.5 Similarly, a tertiary amino ketone such as tropinone undergoes the a-hydroxy at ion reaction.5... 

Pyrrolizidine alcohols are readily oxidized. Stereoisomeric 1-hydroxymethylpyrrolizidines when oxidized with chromic acid afford stereoisomeric pyrrolizidine-1-carboxylic acids (see Section III, C).81,90 Secondary alcohols, when subjected to Oppenauer oxidation or chromic acid treatment, yield amino-ketones (cf. refs. 72, 77, and 81). 

Secondary amino compounds of the type R2N—H add to aldehyde and ketone carbonyl groups in an acid-catalyzed reaction in much the same way as do RNH2 compounds—with one important difference. The product contains the structural unit C=C—N rather than C—C—N and because there is a carbon-carbon double bond, such a substance is called an enamine (alkene + amine). An example is ... 

Exercise 17-21 a. A useful modification of aldol addition to methanal, known as the Mannich reaction, uses a secondary amine (usually as its hydrochloride salt) to selectively introduce one carbon atom at the alpha position of an aldehyde or ketone. The actual product is the salt of an amino ketone. For example,... 

We need a formaldehyde equivalent that is less electrophilic than formaldehyde itself and will therefore add only once to enol(ate)s. The solution is the Mannich reaction.7 Formaldehyde is combined with a secondary amine to give an iminium salt that adds 47 to the enol of the aldehyde or ketone in slightly acidic conditions to give the amino ketone (or Mannich base ) 48. If the product of the aldol reaction 50 is wanted, alkylation on nitrogen provides a good leaving group and ElcB elimination does the trick. 

If the amino group forms part of the ketone, as it does with y-87, 88 and 8-amino-ketones,89,90 heterocyclic enamines are obtained. 1,2-Dialkyl-J2-pyrrolines and 1,2-dialkyl-J2-piperideines (15) are formed from secondary amino groups, whereas primary amino groups 91 lead to 2-alkyl-J pyrrolines and 2-alkyl-J -piperideines. Gabriel90 used the suitably substituted phthalimidoketone for the synthesis of the alkaloid y-coniceine (15 R = H, R = n-Pr, n = 2). 

The reduction of 2-imino ketones is performed with Bu2SnClH-HMPA to give 2-amino ketones where no reduction of the carbonyl group takes place.84 The reductive amination of carbonyl compounds is one of the most convenient routes to various secondary amines. The high imine selectivity of Bu2SnClH-HMPA can be applied to... 

But a more general solution is to use the Mannich reaction, A typical example is shown here the reaction involves an enolizable aldehyde or ketone (here we use cyclohexanone), a secondary amine (here dimethylamine), the Mannich reaction formaldehyde as its aqueous 0 solution, and catalytic HC1. The II product is an amino-ketone p from the addition of one mole- I cule each of formaldehyde and the amine to the ketone. 

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