Carboxylic acid derivatives synthesis amides

A microwave-assisted one-pot approach towards 2,4,5-trisubstituted oxazoles employed a hypervalent iodine (III) catalyst to bring about the reaction of ketones, 1,3-diketones and /3-keto-carboxylic acid derivatives with amides [75]. Microwave dielectric heating was also successfully utilized in a solid-supported, solvent-free synthesis of 2-phenyl-oxazol-5-ones (azlac-tones) [76] as well as in a solution phase synthesis of isomeric 2-phenyl-oxazol-4-ones (oxalactims) [77]. 

Use of the relatively small cyclopropane ring drastically reduces the potential for deleterious steric bulk effects and adds only a relatively small lipophilic increment to the partition coefficient of the drug. One of the clever elements of the rolicyprine synthesis itself is the reaction of d,l tranylcypromine (67) with L-5-pyrrolidone-2-carboxylic acid (derived from glutamic acid) to form a highly crystalline diastereomeric salt, thereby effecting resolution. Addition of dicyclohexylcarbodiimide activates the carboxyl group to nucleophilic attack by the primary amine thus forming the amide rolicyprine (68). 

Disubstituted 2,4-cyclohexadienones (112) undergo photoinduced electrocyclic ring opening to the transient ketene derivatives 113, which can be trapped by nucleophiles to prepare the corresponding carboxylic acid derivatives (114 equation 44)196 197 j le reaction has been employed successfully for the synthesis of various carboxylic acids, esters and amides. 

In the particular case in which the carbonyl group belongs to a carboxylic acid derivative, such as an ester (17) or an amide (18) (or other functional groups which may be converted into it by a FGI), then they may be disconnected according to the "orthoacetate-modification" of the retro-Claisen rearrangement (Schemes 7.7 and 7.8) developed mainly by Eschenmoser [7] and Ziegler [8], independently, in the synthesis of alkaloids, and Johnson in a very simple and yet highly stereoselective synthesis of squalene [9]. 

The present procedure provides a facile and versatile synthesis, on large scale, of a variety of pyrrole-2-carboxylic acid derivatives without necessitating the use of moisture-sensitive organometallic reagents. The use of alcohols other than ethanol in the alcoholysis reaction provides virtually any desired ester. Ammonia or aliphatic amines readily give amides in high yields, and aqueous base can be used to give the free acid. 

Peptides. A new amide or peptide synthesis is based on the formation of iminophosphoranes, R N=PR3, from the reaction of azides with a tertiary phosphine. These phosphoranes react with carboxylic acids to form amides.1 Ethyl diphenylphosphinite is more useful than a triarylphosphine because the by-product is hydrolyzed to diphenylphosphinic acid, which can be readily removed. The iminophosphorane 2, derived from 1 and ethyl azidoacetate, reacts with CboGly-L-Phe-OH to give optically pure 3 in 70% yield.2... 

NH3 or RNH2 or R2NH Amide formation from carboxylic acid derivatives (mild) or from carboxylic acids (A technical synthesis of nylon-6,6) transamidation [capro-lactame —> nylon-6 (perlon)] Peptide synthesis (Section 6.4.3)... 

An amide is one of the more stable carboxylic acid derivatives, and rather vigorous conditions are required to hydrolyze it to regenerate the unprotected amine. Therefore, several special protecting groups that can more readily be removed have been developed. These groups still employ an amide to deactivate the nitrogen, but they all contain some feature that allows them to be removed under milder conditions. They are especially useful in the synthesis of peptides from amino acids, described in Chapter 26. 

Transport peptides can be synthesized using either t-Boc or Fmoc solid phase peptide synthesis strategies with a synthesizer or manually. We routinely synthesize CPPs in a stepwise manner on solid support using an Applied Biosystems Model 431A peptide synthesizer. tert-Butyloxycarbonyl amino acids are coupled as 1-hydroxybenzotriazole (HOBt) esters to a p-methylbenzylhydryl-amine (MBHA) resin (65). C-terminally amidated CPPs are less prone to degradation and show higher internalization efficiency than carboxylic acid derivatives. 

At oxidation level 3, acid chlorides occupy a key position, since they may serve as a nearly universal substrate for an isohypsic transformation into any kind of carboxylic acid derivative. Acid halides are electrophiles that are synthetically equivalent to acyl cations (RCO ). In this capacity they are used for the synthesis of such important compounds as esters, amides (and hence, nitriles), thioesters, etc. (see Scheme 2.57), and for the formation of C-C bonds in the Friedel-Crafts reaction (see above). Acid chlorides may readily lose HCl upon treatment with triethylamine. This isohypsic conversion leads to ketenes, important reagents widely employed in [2 + 2] cycloadditions, as we will see later. 

With regard to asymmetric synthesis, the possibility that a stereogenic center outside the sigmatropic framework can direct the stereochemical outcome of the electrocyclic process has been intensively exploited recentlyOne method for asymmetric induction has been realized with X representing a chiral carboxylic acid derivative. From the various chiral auxiliaries studied, the C2 symmetrical amide (32) seems to be the most effective, giving via its zirconium enolate) essentially 100% diastereoselectivity and erythro selection, thus permitting ready access to optically active a-hydroxycarboxylic acids (equation 40). 

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