Imidazoles ketones

The imidazole ketone (470) is produced by the action of benzylamine on the oxime Ac2C=NOH. Toluene-p-sulphonyl-alkyl isocyanides TosylCHRNC (R = Me, Et, or CHaPh) react with benzylideneaniline to form the imidazoles (471). Treatment of the bromo-ketone MeC0CHBrCH20Me with a mixture of formaldehyde, methylamine, and ammonia gives about equal amounts of the ethers (472) and (473). Trimethylsilyl enol ethers Me3SiOCH=CHR (R= H... 

The photochemical addition of azirines to the carbonyl group of aldehydes, ketones, and esters is also completely regiospecific (77H(6)143). Besides the formation of the isomeric oxazolines (50) from (39) and ethyl cyanoformate, there is also formed the imidazole (51) from addition to C=N in the expected regioselective manner. Thioesters lead to thiazolines (52), while isocyanates and ketenes produce heterocycles (53). 

C=N, C=S, C=C, and N N containing substrates. Thus oxa2oles, imidazoles, thiazoles, p rrroles, and 1,2,4-triazoles have been prepared, respectively. Furthermore, p-tolylsulfonylmethyl isocyanide has found use in a one-step conversion of ketones into cyan-idea and in a two-step synthesis of a-hydroxyaldehydes from ketones. ... 

The imidazole nucleus is often found in biologically active molecules,3 and a large variety of methods have been employed for their synthesis.4 We recently needed to develop a more viable process for the preparation of kilogram quantities of 2,4-disubstituted imidazoles. The condensation of amidines, which are readily accessible from nitriles,5 with a-halo ketones has become a widely used method for the synthesis of 2,4-disubstituted imidazoles. A literature survey indicated that chloroform was the most commonly used solvent for this reaction.6 In addition to the use of a toxic solvent, yields of the reaction varied from poor to moderate, and column chromatography was often required for product isolation. Use of other solvents such as alcohols,7 DMF,8 and acetonitrile9 have also been utilized in this reaction, but yields are also frequently been reported as poor. 

We found that the optimal reaction protocol was to add a solution of a-bromo ketone in THF to the amidine in aqueous THF in the presence of potassium bicarbonate under vigorous reflux. Using this procedure, 2,4-disubstituted imidazoles were isolated in excellent yields with >95% purity without column chromatography. Aromatic and aliphatic a-halo ketones participate in this reaction with a variety of aromatic amidines, as indicated in Table 1. Particularly noteworthy is that reactions involving pyridylamidines or chloroacetone are substantially more robust using this process (entries 3 and 4). We have successfully used this protocol on a multi-kilogram scale. 

In conclusion, a scaleable process for the preparation of 2,4-subsituted imidazole from amidines and a-halo ketones is described. This method avoids the use of chloroform as solvent and affords the desired products in consistently good to excellent yields. 

Whereas condensation of a-hydroxy ketones such as benzoin and acetoin on heating with formamide [240] or ureas in acetic acid [239, 242] to form imidazoles such as 769 or 770 is a well known reaction, only two publications have yet discussed the amination of silylated enediols, prepared by Riihlmann-acyloin condensation of diesters [241], by sodium, in toluene, in the presence of TCS 14 [241, 242]. Thus the silylated acyloins 771 and higher homologues, derived from Riihl-... 

Allylation of acyloyl-imidazoles and pyrazoles61 with allyl halide mediated by indium in aqueous media provides a facile regioselective synthesis of P, y-unsaturated ketones (Scheme 11.1), which has been applied to the synthesis of the monoterpene artemesia ketone. The same product can be obtained by indium-mediated allylation of acyl cyanide (Eq. 11.35).62 Samarium, gallium, and bismuth can be used as a mediator for the allylation of nitrones and hydrazones to give homoallylic hydroxylamine and hydrazides in aqueous media in the presence of Bu4NBr (Scheme 11.2).63 The reaction with gallium and bismuth can be increased dramatically under microwave activation. 

Organo copper and lithium enolates of cyclic ketones, lactones, and lactams or acyclic ketones are converted with acylimidazoles or imidazole-N-carboxylates into the corresponding / -diketones or / -ketoesters ... 

Imidazole- and Pyrazole-Transfer Reactions with Ketones,... 

Ketones and aromatic aldehydes undergo facile addition reactions with CDI (A) or better with A -sulfmyldiimidazole (B) to give diimidazolylmethanes and N-alkylene-imidazoles, depending on the presence of hydrogen atoms a to the carbonyl group ... 

The acylation of the carbanions derived from nitroalkanes with acyl imidazoles or alkoxy-carbonylimidazoles takes place at the carbon atom to yield a-nitro ketones or a-nitro esters, respectively (Eq. 5.10).21 The lithium salts of nitroalkanes were isolated and used in THF or DMSO in the original procedure. Later, potassium salts generated in situ on treatment with r-BuOK in DMSO are reactive enough to give a-nitro ketones in good yield (Eq. 5.11).22... 

Phenyl methyl ketone 1 was brominated to give l-phenyl-2-bromoethanone 2. Compound 2 was treated with methylsulfonic acid to yield the corresponding methylsulfonate 3. Etherification of 3 gave the a-benzyloxy derivative 4 and compound 4 was then chlorinated to give the 2,4-dichlorinated derivatives in both aromatic ring systems 5. Compound 5 reacted with imidazole in dimethylformamide to give miconazole 6 [7], which is converted to miconazole nitrate. 

In Latia bioluminescence the ketone 121 was detected as product. Similarly, the chemiluminescence of imidazol-pyridinones 125 represents a model for Cypridina bioluminescence 181>. 

In the presence of Bu OK, (benzotriazole-l-yl)methyl isocyanide (BetMIC) 697 undergoes alkylation on the methylene group to give isocyanide 698. The anion derived from 698, upon its treatment with Bu OK, adds to the electron-deficient double bonds of ajl-unsaturated ketones, esters or nitriles to produce pyrroles 699. A similar reaction of isocyanide 698 with Schiff bases provides imidazoles 700. In both cases, use of unsubstituted isonitriles 697 in the reactions leads to heterocycles 699 and 700 with R1 = H (Scheme 108) <1997H(44)67>. 

Condensation of hydroxyamino-ketones (166) with ketones and ammonium acetate leads to the formation of 2H -imidazole-1 -oxides (167) (Scheme 2.59) (324). 

The hydroxyl group in alcohol 122 is then oxidized. Deprotonation of this ketone with KHMDS (1 eq.), followed by the addition of Davis oxaziridine (see Chapter 4 for a-hydroxylation of ketones)28 (2 eq.) allows the stereo-controlled introduction of the C-10 oxygen from the less hindered enolate face, providing only the (i )-hydroxyketone 123. Subsequent reduction of 123 with excess LAH provides the tetra-ol 124. Treatment of this compound with imidazole and TBSC1 followed by PPTS and 2-methoxypropene provides in one operation the acetonide 125 with 91% yield (Scheme 7-37). 

---