Acid anhydrides, mixed derivative

The acylation of dibenzofuran is carried out under the usual Friedel-Crafts conditions with an acid chloride or an acid anhydride in the presence of aluminum chloride. Dibenzofuran on treatment with 2-trifluoromethane-sulfonyloxypyridine and benzoic acid in boiling trifluoroacetic acid produces the 2-benzoyl derivative in 75% yield. The species responsible for benzoyla-tion is probably a mixed anhydride of trifluoromethanesulfonic acid and benzoic acid. Dibenzofuran on treatment with 2-benzoyloxypyridine and trifluoroacetic acid also produces the 2-benzoyl compound (21%). The kinetics of the acetylation of dibenzofuran with acetyl chloride and aluminum chloride in nitroethane at 25"C have been studied. Only the 2-acetyl compound was detected by the methods used. The rate obtained is in general agreement with the studies mentioned previously. The rate of acetylation of diphenyl ether relative to toluene was 138 (+ 16), whereas that of dibenzofuran was 5.9 ( 0.3). In contrast, the benzoylation of dibenzofuran with benzoyl chloride in the presence of aluminum chloride in nitrobenzene at... 

Symmetrical acid anhydrides are named by replacing the -acid suffix of the parent carboxylic acids with the word anhydride. Mixed anhydrides that consist of two different acid-derived parts are named using the names of the two individual acids with an alphabetical order. 

Pyrrole- and indole-carboxylic acid chlorides react with dialkyl- and diaryl-cadmium to yield the ketones and it is noteworthy that the reaction of the anhydride of indole-2,3-dicarboxylic acid with diphenylcadmium produces 3-benzoylindole-2-carboxylic acid and not its isomer (53JCS1889). The ability of l-methylindole-2-carboxylic acid to react with nucleophiles is enhanced by conversion into the mixed anhydride with methanesulfonic acid. The mixed anhydride reacts with carbanions derived from diethyl malonate and from methyl acetate to yield the indolyl (3- keto esters (80TL1957). 

Less reactive than acyl halides, but still suitable for difficult couplings, are symmetric or mixed anhydrides (e.g. with pivalic or 2,6-dichlorobenzoic acid) and HOAt-derived active esters. HOBt esters smoothly acylate primary or secondary aliphatic amines, including amino acid esters or amides, without concomitant esterification of alcohols or phenols [34], HOBt esters are the most commonly used type of activated esters in automated solid-phase peptide synthesis. For reasons not yet fully understood, acylations with HOBt esters or halophenyl esters can be effectively catalyzed by HOBt and HOAt [3], and mixtures of BOP (in situ formation of HOBt esters) and HOBt are among the most efficient coupling agents for solid-phase peptide synthesis [2]. In acylations with activated amino acid derivatives, the addition of HOBt or HOAt also retards racemization [4,12,35]. 

Selectivity and reactivity of mixed anhydrides toward primary and secondary aliphatic and aromatic amines has been studied in details [42, 43] (equation 22) Fluorocarboxyhc acids and their derivatives are used as building blocks in condensa non reactions with dinucleophdic species for the synthesis of fluoroalkyl-subsntuted heteroaromahe systems [8 9,40,44,45, 46, 47 48] (equanons 20 21, and 23)... 

Peptide bond formation. The process requires that the derivative (42), a carboxylic acid, should be caused to acylate the free base liberated from the hydrochloride (43). Activation of the carboxyl group is effected by conversion into a type of acid anhydride the mixed carbonic anhydride (44) is used here, and is prepared by reaction of the acid (42) with ethyl chloroformate. 

All other carboxylic acid derivatives in Table 6.1, in which the leaving group is bound to the carboxyl carbon through an O atom, are increasingly better acylating agents than carboxylic acid alkyl esters (entry 3) in the order carboxylic acid phenyl ester (entry 4) < acyl isourea (entry 7) < mixed carboxylic acid/carbonic acid anhydride (entry 8) < carboxylic acid anhydride (entry 9) < mixed carboxylic acid anhydride (entry 10). 

The last of these special examples of SN reactions of heteroatom nucleophiles at the carboxyl carbon of a carboxylic acid derivative is given in Figure 6.21. There, the free carboxyl group of the aspartic acid derivative A is activated according to the in situ procedure of Figure 6.14 as a mixed carbonic acid/carboxylic acid anhydride B that is then treated with N,0-dimethylhydroxyl amine. This reagent is an N nucleophile, which is thus acylated to give the... 

Cleavage of an ester by ammonia (or an amine) to give an amide and an alcohol, (p. 1003) (carboxylic acid anhydride) An activated acid derivative formed from two acid molecules with loss of a molecule of water. A mixed anhydride is an anhydride derived from two different acid molecules, (p. 986)... 

Incidental reactions that have been reported include the preparation of derivatives of 5-(hydroxymethyl)-2-furaldehyde by reaction of D-fructose in acetic or propionic acid in the presence of the respective anhydride.158 The condensation of D-glucose with phenol has been effected in acetic acid in the presence of dry hydrogen chloride, prior to resinification,157 and the reaction of sucrose with thionyl chloride in acetic acid-acetic anhydride produced partially acetylated chlorodeoxysucroses.158 Sucrose has been condensed with maleic anhydride in acetic anhydride mixed with acetic acid or formic acid, to give solid products having an undetermined structure.159... 

Chromatography.—Considerable attention is being paid to chromatographic methods for the separation and recognition of bile acids and their derivatives. The analysis (g.l.c.) of mixtures of bile acids and their conjugates is reported to be simplified by direct conversion into heptafluorobutyrate derivatives, which occurs with simultaneous deconjugation.The carboxyl function is apparently converted into its volatile mixed cholanyl-heptafluorobutyryl anhydride. Ethyl-dimethylsilyl ethers of bile acid ethyl esters are also reported to be suitable for... 

Symmetrical anhydrides are named by changing the acid ending of the parent carboxylic acid to the word anhydride. Mixed anhydrides, which are derived from two different carboxylic acids, are named by alphabetizing the names for both acids and replacing the word acid by the word anhydride. 

Although mixed anhydrides are often generated and used in condensation reactions in situ, mixed anhydrides 1 derived from carboxylic acids (Scheme 1) are frequently sufficiently stable for isolation and storage if required.f 1 Mixed carbonic anhydrides 2 (Scheme 1) are generally considered too unstable at room temperature for isolation. 

For an excellent review of this field up to 1966, see Hamilton-Miller [93], The different amide derivatives (68) of penicillin were investigated in the very early period. Their syntheses started from penicillanic acid anhydride, but later different mixed anhydrides were applied for this purpose [94-98]. Moreover, other procedures described in peptide chemistry are also useful, e.g. the DCC method [99], or synthesis through active esters [100],... 

Starches have been chemically modified to improve their solution and gelling characteristics for food applications. Common modifications involve the cross linking of the starch chains, formation of esters and ethers, and partial depolymerization. Chemical modifications that have been approved in the United States for food use, involve esterification with acetic anhydride, succinic anhydride, mixed acid anhydrides of acetic and adipic acids, and 1-octenylsuccinic anhydride to give low degrees of substitution (d.s.), such as 0.09 [31]. Phosphate starch esters have been prepared by reaction with phosphorus oxychloride, sodium trimetaphosphate, and sodium tripolyphosphate the maximum phosphate d.s. permitted in the US is 0.002. Starch ethers, approved for food use, have been prepared by reaction with propylene oxide to give hydroxypropyl derivatives [31]. 

Several other metal salts have been proposed to react with acid halides to give acid anhydrides in good yield. Thus, thallium carboxylates in etheral suspension may be treated with acid halides to lead to acid anhydrides in high yield. The method has the advantage that thallium chloride can be separated by filtration and the product is isolated after evaporation of the solvent. Another synthetic possibility exists in the desulfurization of thioesters with mercury(II) carboxylates. Mercuiy(II) carboxylates can also be reacted with triethyl phosphite or tri-n-butylphosphine to provide acid anhydrides in yields of 60-80%. Another possibility is offered by the reaction of 1 mol of iV,Af-dicyclohexylthiourea and 2 mol of silver or mercury(II) carboxylates. Mixed carboxylatocarbamato anhydrides follow from the room temperature reaction of iV, -dialkylcarbamato metal derivatives with acid chlorides. Either Na, Cu", Ti" or V" are employed. ... 

A conceptual alternative way to the activation of the carboxylic acid function is the reaction of carboxylic acids with amino groups activated as isocyanates - and isothiocyanates (equation 16). Preparation of these derivatives is racemization free. The reaction proceeds via mixed acid anhydrides in aromatic hydrocarbon solvents at elevated temperatures, and decarboxylation leads to the V-substituted amide. Pyridine as solvent enhances the conversion rate but increases also the amount of the urea side product via disproportionation. Application to peptide chemistry is limited, because peptide ester fragments tend to form hydantoins. ... 

Modification of the surface properties by introducing additional hydrophobic residues via mixed carboxylic acid anhydrides of fatty acids and oxa derivatives [43] or amphipathic molecules like polyethylene glycol [44] has been generally used to effect the stability or reaction rates of enzymes in non-polar organic media. In some cases the enzyme became insoluble in aqueous systems [43] or soluble and active in organic solvents [45,46]. 

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