Acyl bromides hydrolysis

If a derivative of the a-bromoacid is desired, the a-bromo acyl bromide serves as an activated intermediate (similar to an acid chloride) for the synthesis of an ester, amide, or other derivative. If the a-bromoacid itself is needed, a water hydrolysis completes the synthesis. 

Z75. (a) Dieckmann of dimethyl adipate, alkylation by allyl bromide, hydrolysis and decarboxylation (c) Robinson with CH3CH = CHCOCH3 then reduction (d) form enamine or enolate, acylate with CICOOEt, methylate with CH3I, do aldol with benzaldehyde. 

Hell-Volhard-Zelinsky (HVZ) reaction Reaction of a carboxylic acid with Br2 and PBr3 to give an a-bromo acyl bromide, often hydrolyzed to an a-bromo acid. (p. 1051) malonic ester synthesis Alkylation or acylation of malonic ester (diethyl malonate), followed by hydrolysis and decarboxylation, to give substituted acetic acids, (p. 1076)... 

Schiff s base (j ) derived by reaction of p-chloro-anil ine and borohydride followed by acylation with phenylacetyl chloride produces amide 22,. Selective hydrolysis with HBr followed by alkylation with isopropyl bromide completes the synthesis of lorcainide (20). ... 

An ester of alanine with an arylaliphatic alcohol has shown promise as a non-tricyclic antidepressant. It may be speculated that the hindered milieu of the ester linkage protects the compound from hydrolysis by endogenous esterases. The preparation starts by reaction of pheny-lacctate 83 with methyl magnesium iodide to give tertiary carbinol 84. Acylation with 2-bromo-]>ropionyl bromide leads to ester 85 displacement of halogen with ammonia leads to alaproclate ( 6) [211. 

Stork first demonstrated the utility of protected cyanohydrins as acyl anion equivalents in 1971 [2]. The acetal-protected cyanohydrin 8 was transformed into the corresponding anion with LDA in THF/HMPA, which was then alkylated with a range of alkyl halides, including secondary bromides (Scheme 2). A mild acidic hydrolysis yielded a cyanohydrin, which provided the ketone after treatment with base. The Stork cyanohydrin alkylation and its variants have become important methods in natural product synthesis [3,4]. 

In this series, too, replacement of the N-methyl by a group such as cyclopropylmethyl leads to a compound with reduced abuse potential by virtue of mixed agonist-antagonist action. To accomplish this, reduction of 24 followed by reaction with tertiary butylmagnesium chloride gives the tertiary carbinol 27. The N-methyl group is then removed by the classic von Braun procedure. Thus, reaction with cyanogen bromide leads to the N-cyano derivative (28) hydrolysis affords the secondary amine 29. (One of the more efficient demethylation procedures, such as reaction with ethyl chloroformate would presumably be used today.) Acylation with cyclopropylcarbonyl chloride then leads to the amide 30. Reduction with lithium aluminum hydride (31) followed by demethylation of the phenolic ether affords buprenorphine (32).9... 

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). 

Being aware of the fact that a hetero-substituted carbon-carbon double bond is convertible into a carbonyl group, one can use a-hetero-substituted lithio-alkenes 2 as nucleophilic acylation reagents 142 and 143, which display the umpoled d reactivity, provided that the carbanionic character is effective. Depending on the hetero-snbstitnent X, the conversion of the vinyl moiety into a carbonyl gronp can be effected either by hydrolysis or by ozonolysis. The former procednre has been applied preferentially in the case of lithiated vinyl ethers, whereas the latter has been nsed in particnlar for cleavage of the double bond in such products that result from the reaction of hthiated vinyl bromides with electrophiles (Scheme 17). 

The synthesis of valsartan (2) by Novartis/Ciba-Geigy chemists is highlighted in Scheme 9.5. Biphenylbenzyl bromide 18 is converted to biphenyl acetate 19 in the presence of sodium acetate in acetic acid. Hydrolysis of 19 followed by Swern oxidation delivered the biphenyl aldehyde 20, which underwent reductive amination with (L)-valine methyl ester (21) to give biphenyl amino acid 22. Acylation of 22 with penta-noyl chloride (23) afforded biphenyl nitrile 24, which is reacted with tributyltin azide to form the tetrazole followed by ester hydrolysis and acidihcation to provide valsartan (2). [See Biihlmayer et al. (1994, 1995).]... 

As early as the 1960s, some syntheses based on the addition of nucleophilic reagents (vinyl magnesium bromide, HCN, isonitrile) on A-acyl trifluoroacetaldi-mines (fluoral imine) have appeared. The acidic function is further introduced by an appropriate oxidation or hydrolysis. These approaches have allowed preparation of higher fluoroalkylated homologues of trifluoroalanine and of nonracemic trifluor-oalanines (vide infra). However, preparation of the acyl imine of fluoral is rather... 

Other syrupy, benzylated bromides bearing O-acetyl or O-p-nitro-benzoyl groups were also prepared and characterized,86-84 as well as a partially benzylated chloride.85 Acid hydrolysis of 22 gave crystalline 2-O-benzyl-a-L-fucose, which was acylated with p-nitrobenzoyl chloride-pyridine. Treatment84 of the resulting tris(p-nitrobenzoate) with hydrogen bromide-dichloromethane led to precipitation of p-nitrobenzoic acid and formation of syrupy 2-0-benzyl-3,4-di-0-(p-nitro-benzoyl)-a-L-fucopyranosyl bromide (33). 

The reactions of 0-naphthol and 4-methoxyphenol with acetyl, propionyl, butyryl, 0-chloropropionyl and chloracetyl chlorides in acetonitrile produce some striking kinetic results109. The behaviour of acetyl, propionyl and n-butyryl chlorides fit reasonably well into the pattern for acetyl chloride in nitromethane and acetyl bromide in acetonitrile. However, with chloracetyl chloride the mechanism is essentially a synchronous displacement of covalently bound chlorine by the phenol and this process is powerfully catalysed by added salt with bond breaking being kinetically dominant. When no added salt is present the rate of hydrolysis of chloracetyl chloride is ca. 8000 times slower than that of acetyl chloride. Although, normally, in second-order acylation reactions, substituents with the greatest electron demand have been found to have the fastest rates, the reverse is true in this system. Satchell proposes that a route such as... 

Cyclic vinyl ethers have been deprotonated using f-butyllithium in THF (77TL4187). The carbanions formed, which react readily with a variety of electrophiles, constitute a special type of protected acyl anion. Compound (658), available from the metallated pyran (657) and methallyl bromide, gave the /8-vinyl enone (659) on hydrolysis and cyclization (Scheme 152). 

Reaction XLVm. (a) Action of Alkali Cyanides on Alkyl and Acyl Halides. (Bl., [2], 50, 214.)—This reaction is capable of very wide application, all the simple alkyl halogen compounds, the acyl halides, and the halogen fatty acids come within its scope. The nitriles so formed yield acids by hydrolysis, so it is frequently the first step in the synthesis of an acid—the preparation and hydrolysis of the nitrile are often combined. The preparations of malonic, succinic, tricarballylic and other acids (Preparations 60, 61, 62) illustrate this. The extension of this reaction to acyl halides is important, and should be referred to, as should the interaction of silver cyanide, and alkyl iodides, to give isonitriles. Mercuric and silver cyanides, it may be noted, give with acyl chlorides and bromides better yields of normal acyl nitriles than do the alkali cyanides. 

The combination of ortho metallation and meta nucleophilic acylation was used to prepare a key intermediate in a synthesis of deoxyfrenolicin (42), as outlined in Scheme 11. The complex of anisole is orf/io-metallated with n-butyllithium and quenched with chlorotrimethylsilane the resulting [(o-(tri-methylsilyl)anisole)Cr(CO)3] (43) is then metallated again, converted to the arylcuprate, and coupled with ( )-2-hexenyl bromide to give the complex of l-trimethylsilyl-2-methoxy-3-(2-hexenyl)benzene (44). Addition of the carbanion from the cyanohydrin acetal of 4-pentenal, followed by the standard iodine oxidation and subsequent hydrolysis of the cyanohydrin acetal to regenerate the carbonyl group... 

---