Thiol esters synthesis

The procedure described is essentially that of Shioiri and Yamada. Diphenyl phosphorazidate is a useful and versatile reagent in organic synthesis. It has been used for racemlzatlon-free peptide syntheses, thiol ester synthesis, a modified Curtius reaction, an esterification of a-substituted carboxylic acld, formation of diketoplperazines, alkyl azide synthesis, phosphorylation of alcohols and amines,and polymerization of amino acids and peptides. - Furthermore, diphenyl phosphorazidate acts as a nitrene source and as a 1,3-dipole.An example in the ring contraction of cyclic ketones to form cycloalkanecarboxylic acids is presented in the next procedure, this volume. 

II. Utilization of Phosphate Bond Energy for Thiol-ester Synthesis.. 192... 

Dewar and Turchi described the Comforth rearrangement of 5-alkoxyoxazole-4-thiocarboxylates as a potentially general method for the synthesis of 5-thiooxazole-4-carboxylic esters. Specifically, they found that thiol ester 13 underwent thermal isomerization to the corresponding 5-thiooxazole 14 in 94% yield. 

Several variations and extensions of this HHT method have recently been reported. The mildness of this reaction was exemplified through the synthesis of glyphosate thiol ester derivatives 35. The requisite thioglycinate HHT 34 was prepared in high yield by a novel, methylene-transfer reaction between r-butyl azomethine and the ethyl thioglycinate... 

The addition of Grignard reagents to aldehydes, ketones, and esters is the basis for the synthesis of a wide variety of alcohols, and several examples are given in Scheme 7.3. Primary alcohols can be made from formaldehyde (Entry 1) or, with addition of two carbons, from ethylene oxide (Entry 2). Secondary alcohols are obtained from aldehydes (Entries 3 to 6) or formate esters (Entry 7). Tertiary alcohols can be made from esters (Entries 8 and 9) or ketones (Entry 10). Lactones give diols (Entry 11). Aldehydes can be prepared from trialkyl orthoformate esters (Entries 12 and 13). Ketones can be made from nitriles (Entries 14 and 15), pyridine-2-thiol esters (Entry 16), N-methoxy-A-methyl carboxamides (Entries 17 and 18), or anhydrides (Entry 19). Carboxylic acids are available by reaction with C02 (Entries 20 to 22). Amines can be prepared from imines (Entry 23). Two-step procedures that involve formation and dehydration of alcohols provide routes to certain alkenes (Entries 24 and 25). 

Barrett and coworkers have explored hetero-substituted nitroalkenes in organic synthesis. The Michael addition of nucleophiles to 1-alkoxynitroalkenes or 1-phenylthionitroalkenes followed by oxidative Nef reaction (Section 6.1) using ozone gives a-substituted esters or thiol esters, respectively.41 As an alternative to nucleophilic addition to l-(phenylthio)-nitroalkenes, Jackson and coworkers have used the reaction of nucleophiles with the corresponding epoxides (Scheme 4.4).42 Because the requisite nitroalkenes are readily prepared by the Henry reaction (Chapter 3) of aldehydes with phenylthionitromethane, this process provides a convenient tool for the conversion of aldehydes into ot-substituted esters or thiol esters. 

Synthesis of (3-Lactones and Alkenes via Thiol Esters (E)-2,3-Dimethyl-4-dodecene. 

From a chemical point of view, the El/ubiquitin thiol ester should be competent to donate ubiquitin to a substrate amino group. In fact, aminoacyl-errzyme thiol esters are used in exactly this way in non-ribosomal polypeptide synthesis, a process that was discovered around the same time as ubiquitin-protein conjugation [5]. In spite of the attractive simplicity of this model, however, biochemical reconstitution studies showed that besides El two additional fractions were required to conjugate ubiquitin to a model substrate. They were called ubiquitin carrier protein (E2) and ubiquitin-protein ligase (E3), respectively, since the respective factors seemed to act sequentially [6]. Interestingly, the E2 factor apparently formed a thiol ester with ubiquitin. Based on these results, Hershko and co-workers proposed the ubiquitin conjugation cascade (Figure 5.1). 

Aldehyde synthesis through reduction of thiol esters with EtsSiH in the presence of Pd/C catalyst. 

A few interesting variants of the Pd-catalyzed acylation of organozincs have been developed. In one such variant, thiol esters are employed in place of acyl chlorides214. Another is the Ni-catalyzed reaction of organozincs with cyclic anhydrides215 shown in Scheme 82. this desymmetrization reaction can be made highly enantioselective, it would become a significant tool for asymmetric synthesis. 

Imamoto Kodera Yokoyama Synthesis 1982, 134 Liu Sabesan Can. J. Chem. 1980, 58, 2645. For other methods of converting carboxylic acids to thiol esters, see the references given in these papers. See also Dellaria Nordeen Swett Synth. Commun. 1986,16, 1043. 

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