Reductive, acylation

Radical anions have recently been detected during electrochemical reductions of lumazines (80H(14)1603) and are also assumed to be reactive intermediates in the reductive acylation of 2,4-disubstituted pteridines to the corresponding 5,8-diacyl-5,8-dihydro derivatives. 

Scheme 68 shows the conversion of the phenoxymethylpenicillin-derived disulfide (see Scheme 10) to penem derivative (91) (78JA8214). Of particular interest in this sequence is the reductive acylation step to afford (89) and the Wittig ring closure to give (90). The rate of the latter reaction was found to be greatly infiuenced by the steric and electronic character of both the thiol ester and the carboxyl blocking group. 

Aldehydes and ketones can be converted to ethers by treatment with an alcohol and triethylsilane in the presence of a strong acid or by hydrogenation in alcoholic acid in the presence of platinum oxide. The process can formally be regarded as addition of ROH to give a hemiacetal RR C(OH)OR", followed by reduction of the OH. In this respect, it is similar to 16-14. In a similar reaction, ketones can be converted to carboxylic esters (reductive acylation of ketones) by treatment with an acyl chloride and triphenyltin hydride. " ... 

A more general route to 4-acetoxy-l,3-dioxanes utilizes the reductive acylation of l,3-dioxane-4-ones [46] (Scheme 21). l,3-Dioxane-4-ones 126 are prepared from the corresponding -hydroxy carboxylic acids. Low temperature reduction with DIBALH generates a diisobutylaluminum hemiacetal (127) which undergoes acylation in situ with AC2O in the presence of pyridine and DMAP. This method allows for the preparation of a wide range of 4-acetoxy-l,3-dioxanes, without the problem of a-epimerization. This method also represents a general approach to acylic a-acetoxy ethers, which are themselves useful synthetic intermediates [47,48]. 

After succeeding in the asymmetric reductive acylation of ketones, we ventured to see if enol acetates can be used as acyl donors and precursors of ketones at the same time through deacylation and keto-enol tautomerization (Scheme 8). The overall reaction thus corresponds to the asymmetric reduction of enol acetate. For example, 1-phenylvinyl acetate was transformed to (f )-l-phenylethyl acetate by CALB and diruthenium complex 1 in the presence of 2,6-dimethyl-4-heptanol with 89% yield and 98% ee. Molecular hydrogen (1 atm) was almost equally effective for the transformation. A broad range of enol acetates were prepared from ketones and were successfully transformed into their corresponding (7 )-acetates under 1 atm H2 (Table 19). From unsymmetrical aliphatic ketones, enol acetates were obtained as the mixtures of regio- and geometrical isomers. Notably, however, the efficiency of the process was little affected by the isomeric composition of the enol acetates. 

The strategy for the asymmetric reductive acylation of ketones was extended to ketoximes (Scheme 9). The asymmetric reactions of ketoximes were performed with CALB and Pd/C in the presence of hydrogen, diisopropylethylamine, and ethyl acetate in toluene at 60° C for 5 days (Table 20) In comparison to the direct DKR of amines, the yields of chiral amides increased significantly. Diisopropylethylamine was responsible for the increase in yields. However, the major factor would be the slow generation of amines, which maintains the amine concentration low enough to suppress side reactions including the reductive aminafion. Disappointingly, this process is limited to benzylic amines. Additionally, low turnover frequencies also need to be overcome. 

As in the case of thiazine and oxazine leuco dyes described earlier, the reductive acylation of the phenazine dye 52 results in the acylation of the exocyclic amino group.18 The phenazine leuco obtained 53 retains the exocyclic amide group on oxidation resulting in the acylated phenazine dye 54, the color of which is different from the one intended. 

A cobalt catalysed carbonylation reaction converts A-substituted 1-aza-1,3-dienes into A-allylacetamides by a reductive acylation process [31]. Acetamides are byproducts of the reaction. In contrast, Schiff bases undergo a double A,C-acetylation under the same conditions producing a-acetamido ketones and A,A-disubstituted acetamides [32],... 

BOROHYDRIDE REDUCTION ACYL-SERINE INTERMEDIATE ACTIVE SITE TITRATION Acyl transfer from a peptidyl-tRNA,... 

BORN-OPPENHEIMER APPROXiMATION ADIABATIC PHOTOREACTION DIABATIC PHOTOREACTION BORNYL PYROPHOSPHATE SYNTHASE BOROHYDRIDE REDUCTION ACYL-PHOSPHATE INTERMEDIATE BOSE-EINSTEIN CONDENSATE Bound water,... 

Another example showing the utility of 1 is the asymmetric hydrogenation of vinyl esters which usually are used as acyl donors in enzymatic resolution. In this transformation, vinyl esters are converted to ketones which then undergo asymmetric reductive acylation to give chiral esters as described in Scheme 1.13. The overall reaction thus corresponds to the asymmetric hydrogenation of vinyl ester to the corresponding alkyl esters. 

An intramolecular model for the reductive acyl transfer catalysed by a-keto-acid dehydrogenases relies on the presence of PhHgCl to trap the thiolate generated by reduction of the hpoate disulfide bond by enamine.280 This shows a 10-fold increase in loss of enamine UV-visible absorption over background decomposition attributed by the authors to reductive acyl transfer. However, no reaction products were isolated and... 

The essence of the cascade synthesis is depicted in Scheme 2.1. Two procedures, alkylation and reduction, comprised the [a — b — a — b — ] sequence. Thus, treatment of a diamine with acrylonitrile afforded tetranitrile 3. Cobalt-mediated nitrile reduction gave tetraamine 4. Further amine alkylation provided the second generation octanitrile 5. The nonskid-chain-like [2] synthesis is shown in Scheme 2.2. Construction of polycyclic 6 was accomplished by repetitive alkylation, reduction, acylation, and reduction (a — b c— d—>a- b— ...) sequences. Again, repetitive and multiple reaction sequences were employed for the generation of new molecular assemblies. Most notable about these syntheses is that for the first time, generational molecules were prepared and characterized at each stage of the construction process. 

Reductive acylation of enones.1 The lithium enolate generated by reduction of enones with Li/NH, is converted to a (1-keto ester by reaction with this reagent in ether (THF promotes O-acylation). 

Indeed, cyclobutanones constitute challenging synthetic intermediates for a whole host of applications including cyclopentanone, cyclohexanone and cyclooctanone formation, olefin and diene synthesis, geminal alkylation, reductive acylation, among others,... (vide infra). 

A reductive acylation of oximes was developed621. Acylated oximes in the presence of excess acetic anhydride in dimethylformamide are readily reduced to imines using... 

The acid or base elimination of a diastereoisomerically pure p-hydroxysilane, 1, (the Peterson olefination reaction4) provides one of the very best methods for the stereoselective formation of alkenes. Either the E- or Z-isomer may be prepared with excellent geometric selectivity from a single precursor (Scheme 1). The widespread use of the Peterson olefination reaction in synthesis has been limited, however, by the fact that there are few experimentally simple methods available for the formation of diastereoisomerically pure p-hydroxysilanes.56 One reliable route is the Cram controlled addition of nucleophiles to a-silyl ketones,6 but such an approach is complicated by difficulties in the preparation of (a-silylalkyl)lithium species or the corresponding Grignard reagents. These difficulties have been resolved by the development of a simple method for the preparation and reductive acylation of (a-chloroalkyl)silanes.7... 

The pyruvate dehydrogenase El subunit is a tetramer of two classes of subunits. The a-subunit catalyzes the decarboxylation of pyruvate to hydroxy-ethylthiamine diphosphate and the 8-subunit catalyzes the reductive acylation of the lipoamide prosthetic group of the acetyltransferase subunit. In the complete multienzyme complex, there are 20 (kidney) or 30 (heart) dehydrogenase tetramers, 60 acetyltransferase subunits, 10 (kidney) or 12 (heart) dihydroUpoyl dehydrogenase subunits, and 5 each of the kinase and phosphatase regulatory subunits. 

Reductive acylation of alkoxy-substituted allylic acetates, Usual procedures do not permit alkylation of allylic acetates substituted with an alkoxyl group. A new method involves treatment of a substrate such as 1 with isopropyl... 

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