Carboxylic esters-thioethers

The treatment of 2-fluorophenyl-2-iodophenyl ethers, amines, and thioethers with 3.3 equivalents of f-BuLi and further reaction with selected electrophiles gave rise to functionalized carbazoles, dibenzofurans, and dibenzothiophenes in a direct and regioselective manner. A selected example is illustrated below <06JOC6291>. Benzyl 2-halophenyl ethers was treated with f-BuLi, and then reacted with carboxylic esters to give 2,3-disubstituted benzo[t>]furans <06JOC4024>. 

According to the developer, the technology can treat the following organic solvents alcohols, ketones, aromatic hydrocarbons, ethers, esters, aldehydes, carboxylic acids, thioethers, mercaptans, and amines. 

For reviews, see Sinegovskaya Keiko Trofimov Sulfur Rep. 1987, 7, 337-378 (for enol ethers and thioethers) Karabatsos Fenoglio Top. Stereochem. 1970, 5, 167-203 Jones Owen J. Mol. Struct. 1973, 18, 1-32 (for carboxylic esters). See also Schweizer Dunitz Helv. Chim. Acta 1982, 65, 1547 Chakrabarti Dunilz Helv. Chim. Acta 1982, 65. 1555 Coss6-Barbi Massat Dubois Bull. Soc. Chim. Belg. 1985, 94, 919 Dorigo Pratt Houk J. Am. Chem. Soc. 1987, 109. 6591. 

Carboxylic esters, thiol esters, and amides can be made, respectively, by acid-catalyzed hydration of acetylenic ethers, thioethers,162 and ynamines, without a mercuric catalyst 163... 

Polystyrene-bound amides, including peptides, can be reduced to the corresponding amines by treatment with borane in ethereal solvents. Other reagents, such as lithium aluminum hydride, are less convenient for reductions on insoluble supports, because insoluble precipitates can readily form and clog frits. Carbamates, tert-butyl ethers or thioethers, and trityl or benzhydryl amines remain unchanged upon treatment with borane, but carboxylic esters may undergo partial or complete reduction [178],... 

Icmt catalyzes the methyl esterification of the prenylated cysteine residue after Reel has proteolyzed the -CaaX-containing proteins. The first step in identification of the minimal substrate for Icmt was through identification of AFC (Figure 9.2) as described above. Interestingly, farnesylcys-teine (FC), which is devoid of the acetyl substitution, was not a substrate but did possess some activity as an inhibitor [51], suggesting that the free amine of FC requires modification for catalytic turnover. Alterations in the stereochemistry about the FC backbone also appeared to be detrimental to substrate activity. The stereoisomer, d-AFC, was not a substrate for Icmt but was a modest mixed-type inhibitor of the enzyme. AFC-methyl ester (AFC-Me) was also reported to be a mixed-type inhibitor with respect to both l-AFC and -adenosylmethionine (SAM), the methyl donor, with Ki values of 41 and 73 pM, respectively [52,53] The farnesyl homocysteine homolog of AFC is not a substrate for the enzyme however, the racemic DL-homocysteine farnesyl derivative is in fact a weak inhibitor [40]. Similar to the results with racemic prenylcysteine, these data demonstrate that the linker between the carboxylate and thioether moieties is critical for substrate activity. 

The secondary reduction of the terminal radical by Sml2 generates samarium alkyl species which are suitable for classical organometallic reactions, e.g. protonation, acylation, reactions with carbon dioxide, disulfides, diselenides, or the Eschenmoser salt. A broad variety of products is available (hydroxy-substituted alkanes, esters, carboxylic acids, thioethers, selenoethers, tertiary amines) by use of the double-redox four-step (reduction-radical reaction-reduction-anion reaction) route (Scheme 20) [73]. 

Phthalocyanine sulfonic acids, which can be used as direct cotton dyes (1), are obtained by heating the metal phthalocyanines in oleum. One to four sulfo groups can be introduced in the 4-position by varying concentration, temperature, and reaction time (103). Sulfonyl chlorides, which are important intermediates, can be prepared from chlorosulfonic acid and phthalocyanines (104). The positions of the sulfonyl chloride groups are the same as those of the sulfonic acids (103). Other derivatives, eg, chlormethylphthalocyanines (105—107), / /f-butyl (108—111), amino (112), ethers (109,110,113—116), thioethers (117,118), carboxyl acids (119—122), esters (123), cyanides (112,124—127), and nitrocompounds (126), can be synthesized. 

As far as propargyl thioethers are concerned, the substrates in this section follow all the principles discussed for propargyl ethers and propargylamines in the two preceding sections. For alkyl propargyl thioethers typical bases used are sodium amide in liquid ammonia, alcoholate or alkali metal hydroxide [178, 186-189, 191, 287-291], and again some derivatives of carbohydrates have been used successfully [292, 293], If an ester group is also present in the molecule, the reaction can be accompanied by a hydrolysis to the carboxylate [294]. 

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