Cleavage Yielding Carboxylic Acids

Especially in the last few years variations of the acidic method have been developed. Kappe et al. cleaved ester tinkers with TFA/CH2CI2 supported by microwave irradiation [33] and GavrUuk et al. used a solution of 20% hexafluoro-2-propanol in CH2CI2 to release peptidic structures from 2-chlorotrityl ester resins [32]. Other types of ester linkers like the fluorine-derived linkers of Albericio et aL can be cleaved with morpholine/DMF or piperidine/DMF mixtures [60,61] and there exist also silyl-derived linker 

Beyond those often-used hnkage strategies, some more seldom carboxyhc acid-forming variations should be mentioned. A quinoline linker system cleavable via two mild reactions was developed for peptide synthesis in 1999. 

The approach of Wang et al. [78] uses the redox-sensitive nature of quinoline structures that form dihydro quinolines in the presence of mild reducing agents and cyclize after treatment with TEAR Another special linker type is the class of allylic linkers because they can be cleaved by Pd-catalysis via allyl transfer to give carboxylic acids [79]. 

---

Terminal alkynes can be converted by a process of hydrosilylation followed by oxidative cleavage into carboxylic acids (10). An alternative basic" cleavage yields the corresponding aldehydes. 

Terminal alkynes are prone to undergo facile oxidative cleavage to yield carboxylic acids with loss of the terminal carbon atom. In fact, most of the oxidizing agents that can be used in the selective oxidation of internal alkenes to 1,2-diketones [Ru04,711 PhIO with Ru catalysts,712 KMn04,713 T1(N03)3,716 0s04718] convert terminal alkynes to carboxylic acids. 

The most common procedure is ozonolysis at -78 °C (P.S. Bailey, 1978) in methanol or methylene chloride in the presence of dimethyl sulfide or pyridine, which reduce the intermediate ozonides to aldehydes. Unsubstituted cydohexene derivatives give 1,6-dialdehydes, enol ethers or esters yield carboxylic acid derivatives. Oxygen-substituted C—C bonds in cyclohexene derivatives, which may also be obtained by Birch reduction of alkoxyarenes (see p. 103f.), are often more rapidly oxidized than non-substituted bonds (E.J. Corey, 1968 D G. Stork, 1968 A,B). Catechol derivatives may also be directly cleaved to afford conjugated hexa-dienedioic acid derivatives (R.B. Woodward, 1963). Highly regioselective cleavage of the more electron-rich double bond is achieved in the ozonization of dienes (W. KnOll, 1975). 

CLEAVAGE OF DOUBLE BONDS TO YIELD CARBOXYLIC ACIDS, ESTERS OR LACTONES... 

Under different reaction conditions, vicinal diol production [70] or C=C double bond oxidative cleavage to carboxylic acids occurs [59, 71], Dialdehydes are produced from cycloolefins, by tungstic acid as catalyst in t-butanol [72], Secondary alcohols yield ketones, while primary alcohols produce aldehydes or carboxylic acids [59, 68-69, 73-74], Different products are obtained from glycols, under different reaction conditions, 1,2-Diols are cleaved to ketocarboxylic acids and dicarboxylic acids [58, 75], or oxidised to a-hydroxy ketones [76], The latter can be obtained directly from the olefins, with lower selectivity [77], Lactones are formed by 1,4-diols and other a,o)-diols [78], Internal alkynes predominantly yield a,p-epoxyketones [79], or 1,2-diketones and carboxylic acids if HgfAcO) is added as the cocatalyst [80], Terminal alkynes yield a-ketoaldehydes and carboxylic acids. 

The cleavage of the chiral auxiliary requires an oxidative decomplexation with bromine, chlorine, iodine, or cerium(IV) salts and others in the presence of water, alcohols, and amines yielding carboxylic acids, esters, and amides, respectively. In all cases, the stereochemical integrity of the newly created stereocenter is maintained, whereas the iron-based chirality is "sacrificed upon the decomplexation. For example, the decomplexation with bromine leads to a substitution of the acyl group by bromide under retention at the iron atom. However, the complex [(PPh3)(CO)(Cp)FeBr] is susceptible to racemization in solution [61]. 

Photolytic cleavage reactions (e.g., of o-nitrobenzyl, phenacyl, nitrophenylsul-fenyl derivatives) take place in high yield on irradiation of the protected compound for a few hours at 254-350 nm. For example, the o-nitrobenzyl group, used to protect alcohols, amines, and carboxylic acids,has been removed by irradiation. Protective groups that have been removed by photolysis are described at the appropriate places in this book in addition, the reader may wish to consult five review articles. 

DMSO, NaCN, 125-180°, 5-48 h, 65-90% yield.This cleavage reaction is successful for aromatic systems containing ketones, amides, and carboxylic acids mixtures are obtained from nitro-substituted aromatic compounds there is no reaction with 5-methoxyindole (180°, 48 h). 

According to Quinkert, photoexcited cyclic ketones may be transformed to open-chain unsaturated carboxylic acids in the presence of molecular oxygen. This reaction may compete efficiently with a-cleavage and secondary transformations thereof. Thus, both stereo iso meric 17-ketones (109) and (110) yield as much as 20% of the unsaturated acid (111) when irradiated in benzene under a stream of oxygen. This photolytic autoxidation has been used notably for partial syntheses of naturally occurring unsaturated 3,4-seco-acids from 3-oxo triterpenes (for references, see ref. 72). 

Chiral oxazolines developed by Albert I. Meyers and coworkers have been employed as activating groups and/or chiral auxiliaries in nucleophilic addition and substitution reactions that lead to the asymmetric construction of carbon-carbon bonds. For example, metalation of chiral oxazoline 1 followed by alkylation and hydrolysis affords enantioenriched carboxylic acid 2. Enantioenriched dihydronaphthalenes are produced via addition of alkyllithium reagents to 1-naphthyloxazoline 3 followed by alkylation of the resulting anion with an alkyl halide to give 4, which is subjected to reductive cleavage of the oxazoline moiety to yield aldehyde 5. Chiral oxazolines have also found numerous applications as ligands in asymmetric catalysis these applications have been recently reviewed, and are not discussed in this chapter. ... 

Ring cleavage of l-oxo-l,2,3,4-tetrahydro-jS-carboline derivatives (374) may be accomplished by base-catalyzed hydrolysis to yield tryptamine-2-carboxylic acids (375). In the case of the 1,9-dimethyl derivative decarboxylation accompanied acid-catalyzed ring-opening, and the corresponding tryptamine (376) was obtained directly. 

Decarboxylation of isoxazole-3-carboxylic acids is related to the nucleophilic cleavage of the isoxazole ring as far as the nature of the reaction products is concerned. It occurs at temperatures above 200°C and is accompanied by the cleavage of the nitrogen-oxygen bond of the heterocyclic ring to yield a j8-ketonitrile. It was first reported by Claisen with 5-methyl- and 5-phenyl-isoxazole-3-carboxylic acids (153- 154).Under the reaction conditions, j8-ketonitriles condense... 

---