Acetyl imidazole, hydrolysis

Fig. 11.6 (A) Spectroscopic detection of acetylimidazole in the imidazole-catalysed hydrolysis of 4-nitro-phenyl acetate at pH 5 (D) and at pH 6 (E) curves are calculated from data in reference [12] and the curve for the acetate ion product (C) is for pH 5. (B) Reaction of imidazole with 4-nitrophenyl acetate (k) and the hydrolysis of acetyl imidazole (k2) curves constructed from data in references [13] and [12].

The catalysis of hydrolysis of carboxylic acid derivatives by weak bases has not been carefully studied until relatively recently. Koshland reported in 1952 the catalysis of acetyl phosphate hydrolysis by pyridine Bafna and Gold (1953) reported the pyridine-catalyzed hydrolysis of acetic anhydride. A short time later the catalysis of aromatic ester hydrolysis by imidazole was demonstrated (Bender and Turnquest, 1957 a, b Bruice and Schmir, 1957). Since that time a large amount of work has been devoted to the understanding of catalyzed ester reactions. Much of the work in this area has been carried out with the purpose of inquiry into the mode of action of hydrolytic enzymes. These enzymes contain on their backbone weak potential catalytic bases or acids, such as imidazole in the form of histidine, carboxylate in the form of aspartate and glutamate, etc. As a result of the enormous effort put into the study of nucleophilic displacements at the carbonyl carbon, a fair understanding of these reactions has resulted. An excellent review is available for work up to 1960 (Bender, 1960). In addition, this subject has been... 

A further interesting series of examples is the hydrolysis of acetyl imidazole which is known to involve a proton transfer from water (attacking) to a base. Hogg and co-workers [28,29] showed that the uncatalysed degradation involved 3 protons which changed their state whereas the imidazole-catalysed reaction had only 1 proton (Eqn. 47). 

The deacylation reaction shows an accelerative deviation from the first-order kinetics. This peculiar behavior is most apparent for the samples 20% or more acylated, and explained best by intramolecular imidazole cataly. Jencks and C riuolo reported that imidazole catal5rzed the hydrolysis of acetyl imidazole (61). A similar mechanism was proposed for the dear lation of polyvinylimidazde and the accelerative deacylation behavior was attributed to the increasing local imidazole concentration along the polymer chain. 

In the group of amide compounds, acetyl imidazole (1740 cm ) has a much greater free energy of hydrolysis (Stadtman, 1954) and a greater carbonyl frequency than ordinary am ides (1627 to 1673 cm ) the correlations between infrared carbonyl frequency and reactivity for the series acetylpyrrole, acetylimidazole, acetyltriazole, and acetyltetrazole and the analogous acetylbenzimidazole series have been presented by Otting (1956) and Staab (1956, 1957). 

Imidazole, acting as a nucleophile, catalyzes the hydrolysis of phenyl acetate by attack on the carbonyl carbon atom of the ester. The imidazole displaces the phenoxide anion and forms acetyl imidazole. In turn, the acetyl imidazole is quite unstable in water and hydrolyzes to form acetic acid, and regenerates the imidazole molecule. Write a suitable mechanism outlining these steps. 

Recent calculations which take into account the corrected value of 0.320 for the Ei value of the DPN-DPNH couplet show that the AFJ for the hydrolysis of the pyrophosphate bond in ATP is —8,640 calories (Anfinsen and Kielley, personal communication). If this value is correct, the AFo for the hydrolysis of thiolesters, acetyl-P and N-acetyl imidazole will be about —8,600, —11,200 and —14,000 calories respectively instead of the higher values which are reported in this paper. 

Imidazole, 4-acetyl-5-methyl-2-phenyl-synthesis, 5, 475 Imidazole, 1-acyl-reactions, 5, 452 rearrangement, 5, 379 Imidazole, 2-acyl-synthesis, 5, 392, 402, 408 Imidazole, 4-acyl-synthesis, 5, 468 Imidazole, C-acyl-UV spectra, 5, 356 Imidazole, N-acyl-hydrolysis rate constant, 5, 350 reactions, 5, 451-453 synthesis, 5, 54, 390-393 Imidazole, alkenyl-oxidation, 5, 437 polymerization, 5, 437 Imidazole, 1-alkoxycarbonyl-decarboxylation, 5, 453 Imidazole, 2-alkoxy-l-methyl-reactions, 5, 102 thermal rearrangement, 5, 443 Imidazole, 4-alkoxymethyl-synthesis, 5, 480 Imidazole, alkyl-oxidation, 5, 430 synthesis, 5, 484 UV spectra, 5, 355 Imidazole, 1-alkyl-alkylation, 5, 73 bromination, 5, 398, 399 HNMR, 5, 353 synthesis, 5, 383 thermal rearrangement, 5, 363 Imidazole, 2-alkyl-reactions, 5, 88 synthesis, 5, 469... 

Acetylation of the hydroxymethyl imidazole 63 affords the corresponding ester (64), nitration (65) followed by hydrolysis gives intermediate 66, and reaction of this alcohol with potassium cyanate in hydrogen fluoride gives the carbamate ronidazole (67).16... 

Hunter and Nelson (41 Mil) attempted the preparation of 4(5)-aminoimidazole (25 R = H) from its acetyl derivative (28 R = H, R1 = Me), which they obtained by reduction of 4(5)-nitroimidazole (27 R = H) with tin(II) chloride in acetic anhydride. The authors noted that hydrolysis of compound (28 R = H, R = Me) with aqueous acids resulted in fission of the imidazole ring and formation of acetic acid, formic acid, ammonia, and glycine. Base hydrolysis gave similar results (41 Mil), although a trace of 4(5)-aminoimidazole (25 R = H) was detected. 

In the reaction with PNPA, myristoylhistidine [29] in a cationic micelle rapidly forms acetylimidazole as a fairly stable intermediate which is readily observable at 245 nm. On the other hand, a mixed micelle of [29] and N,N-dimethyl-N-2-hydroxyethylstearylammonium bromide [30] leads to the formation and decay of the intermediate, indicating that the acetyl group is transferred from imidazole to hydroxyl groups (Tagaki et al., 1977 Tagaki et al., 1979). This can be a model of cr-chymotrypsin which catalyses hydrolysis of PNPA (non-specific substrate) by initial acylation of the histidyl imidazole followed by acyl transfer to the seryl hydroxyl group (Kirsh and Hubbard, 1972), as indicated schematically in (12). 

Intramolecular general base catalysis of hycholysis (21a) was unexpected since the ester has a phenolic leaving group. Felton and Bruice (1968, 1969) reasoned that, if nucleophilic attack occurred, the leaving phenolate ion group would be properly positioned to attack the intermediate acylimidazole and thereby reverse the reaction. The normally less efficient general base reaction then becomes the favoured pathway, as in hydrolysis of acetyl salicylate (see Section 4). Likewise, Fife and McMahon (1970) explained bimolecular general base catalysis by imidazole (21b) in hydrolysis of o-(4-nitrophenylene) carbonate 3 49) by reversibility... 

Serine itself would be insufficiently nucleophilic to attack the ester carbonyl, so the reaction is facilitated by participation of the imidazole ring of histidine. The basic nitrogen in this residue is oriented so that it can remove a proton from the serine hydroxyl, increasing nucleophilicity and allowing attack on the ester carbonyl. This leads to formation of the transient acetylated enzyme, and release of choline. Hydrolysis of the acetylated enzyme utilizes water as nucleophile, but again involves the imidazole ring, and regenerates the free enzyme. 

V-Acetyl-a-methyl-a-amino Acids 6 by Hydrolysis of 5-Alkyl-3,5-dihydro-5-methyl-3- (.S )-l-phenylethyl -4A/-imidazol-4-ones 4, Followed by Acetylation General Procedure4 ... 

The hydrolysis of acetyl- (150 R = MeCO) and benzoyl-imidazoles (150 R = PhCO) involves the reversible addition of water to the imidazole to give the T=. At low acidities the decomposition of this is the slow step but, as the acidity increases and water activity decreases, its formation becomes rate determining.128 By contrast, the hydrolysis reactions of the (V-acyl derivatives of 2,4,5-triphenylimidazole proceed in a concerted maimer and do not involve tetrahedral intermediates.129... 

A clear-cut molecular relay system is materialized with the combination of two nucleophile moieties such as hydroxamic acid and imidazole introduced in a polymer (38, 40, 82). Hydroxamate anion has a high nucleophilicity but deacylation of the acylhydroxamate is very slow. The significance of the deacylation step in the hydrolysis in polymer catalyst is pointed out in several works, for example, the deacylation of acetylated poly(4(5)-vinylimidazole) (83,84) and the aminolysis of nitrophenyl ester of poly(styrene-co-acrylic acid) (85—87). To promote the deacylation velosity of the acylated hydroxamic acid imidazole moiety is introduced in the hydroxamic acid-containing polymer. The polymers are shown in tire following page. 

Considerable effort has been applied to studies of ester hydrolysis catalyzed by imidazoles (76MI40700, 80AHC(27)241). Certainly, 1-acetylimidazole can be made enzymically, probably by the sequence acetyl phosphate + coenzyme A acetylcoenzyme A+phosphate, acetyl-coenzyme A + imidazole l-acetylimidazole+coenzyme A. In addition, the imidazolyl group of histidine appears to be implicated in the mode of action of such hydrolytic enzymes as trypsin and chymotrypsin, thereby engendering further interest in the process of imidazole catalysis. The two pathways which have been found to be involved are general base catalysis and nucleophilic catalysis. In the former (Scheme 26) a basic imidazole molecule can activate a water molecule to attack the ester at the carbonyl carbon, this being followed by the usual sequence of steps as in simple hydroxide ion hydrolysis. At high imidazole concentrations the imidazole molecules may be involved directly. 

Considerable effort has been applied to studies of ester hydrolysis catalyzed by imidazoles (76MI40700, 80AHC(27)241). Certainly, 1-acetylimidazole can be made enzymically, probably by the sequence acetyl phosphate + coenzyme A acetylcoenzyme A + phosphate, acetyl-coenzyme A + imidazole 1-acetylimidazole-I-coenzyme A. In addition, the imidazolyl... 

A nonlinear structure-reactivity correlation for the imidazole-catalyzed hydrolysis of a series of acetyl esters is shown in Kg. 10 (Kirsch and Jencks, 1964a). The cataljdic coefficient for the imidazole-catalyzed hydrolysis is plotted against the hydroxide term. In this way steric factors cancel out so that Aqh be used as a measure of the... 

The reaction of acylimidazoles with imidazole is subject to both imidazole and imidazolium ion catalysis (Fife, 1965). The latter reaction is no doubt due to the imidazole-catalyzed hydration of acetylimidazolium ion, as in 18, and fully analogous to the N-methylimidazole-catalyzed hydrolysis of N-acetyl,N -methylimidazolium ion. The mechanism of the former reaction is undefined at the present time, since no 0 exchange studies have been performed with acylimidazoles in more alkaline solution where imidazole catalysis occurs. The leaving group, the imidazole anion, is quite basic (piC = 14-5) therefore it is possible that general base-catalyzed decomposition of the neutral tetrahedral intermediate (24) or general acid-assisted decomposition of the anionic tetrahedral intermediate (25) may occur. The general base-catalyzed alkaline hydrolysis of amides most probably occurs by the... 

Treatment of the a-aminoaldehyde (125) with potassium thiocyanate gave 3i/-imidazole-2-thione (126) (Marckwald synthesis), which produced the 5-acetyl derivative of (127) hydrolysis gave (127) itself (54JCS3283). 

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