Reductive acetylation of ketones

In the presence of an active acyl donor such as isopropenyl acetate, a reductive acetylation of a ketone can be performed in the presence of MPVO catalysts 

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The catalytic alcohol racemization with diruthenium catalyst 1 is based on the reversible transfer hydrogenation mechanism. Meanwhile, the problem of ketone formation in the DKR of secondary alcohols with 1 was identified due to the liberation of molecular hydrogen. Then, we envisioned a novel asymmetric reductive acetylation of ketones to circumvent the problem of ketone formation (Scheme 6). A key factor of this process was the selection of hydrogen donors compatible with the DKR conditions. 2,6-Dimethyl-4-heptanol, which cannot be acylated by lipases, was chosen as a proper hydrogen donor. Asymmetric reductive acetylation of ketones was also possible under 1 atm hydrogen in ethyl acetate, which acted as acyl donor and solvent. Ethanol formation from ethyl acetate did not cause critical problem, and various ketones were successfully transformed into the corresponding chiral acetates (Table 17). However, reaction time (96 h) was unsatisfactory. 

One of the major problems encountered in this synthesis is the difficulty of obtaining the starting materials (either the a-aminocarbonyl compounds or their acylated derivatives). The former may be prepared by Neber rearrangement of ketoxime tosylates with a base such as ethoxide or pyridine.46 a-Acylamino carbonyl compounds can be prepared directly by the reductive acetylation of oximino ketones.28 38 Balaban and his collaborators47-60 have developed an excellent method for the synthesis of a-acylamino ketones (5). They are obtained in yields of 50-90% by the reaction of azlactones (2-aryl-5-oxazolone, 4) with aromatic hydrocarbons in the presence of aluminum chloride under Friedel-Crafts conditions the reaction may proceed either intermolecularly or intramolecularly. 

Derivatives of dibenz[6,/]oxepin-10,l 1-diol can also be obtained from the respective dionc after reduction of one ketone function to the alcohol. The acetylation of dibenz[Z>,/]oxepin-10,11-dione in the presence of zinc affords 10,1 l-diacetoxydibenz[/r,/]oxepin (14).179... 

Ketone bodies are formed in the liver mitochondria by the condensation of three acetyl-CoA units. The mechanism of ketone body formation is one of those pathways that doesn t look like a very good way to do things. Two acetyl-CoAs are condensed to form acetoacetyl-CoA. We could have had an enzyme that just hydrolyzed the acetoacetyl-CoA directly to acetoacetate, but no, it s got to be done in a more complicated fashion. The acetoacetyl-CoA is condensed with another acetyl-CoA to give hydroxymethylglutaryl-CoA (HMG-CoA). This is then split by HMG-CoA lyase to acetyl-CoA and acetoacetate. The hydroxybutyrate arises from acetoacetate by reduction. The overall sum of ketone body formation is the generation of acetoacetate (or hydroxybutyrate) and the freeing-up of the 2 CoAs that were trapped as acetyl-CoA. 

Scheme 20.28) [84, 118]. The first step in this procedure is reduction of the ketone, followed by the acetylation of the formed alkoxide. It may be noted that aluminum(III) isopropoxide and zirconium(IV) isopropoxide do not catalyze the acetylation. With these catalysts, the alcohol is obtained. 

Asymmetric reductive acetylation was also applicable to acetoxyphenyl ketones. In this case the substrate itself acts as an acyl donor. For example, m-acetoxyace-tophenone was transformed to (R)-l-(3-hydroxyphenyl)ethyl acetate under 1 atm H2 in 95% yield [16] (Scheme 1.12). The pathway of this reaction is rather complex. It was confirmed that nine catalytic steps are involved two steps for ruthenium-catalyzed reductions, two steps for ruthenium-catalyzed racemizations, two steps... 

At the outset, an a-dimethylation leads to compound 17. Reduction of the ketone to secondary alcohol 18 and acetylation of the latter provides ester 19 The ester group functions under acidic conditions as a leaving group, and it is replaced by a hydride anion with formation of compound 20. The last step is a Birch reduction These five steps were accomplished with an overall yield of 85%. 

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