Thioacetal function

The above reactions in this section have been examples of addition alone or addition followed by elimination. Ligand reactions involving nucleophilic substitution are also known and these are of the dealkylation type. Lewis acids such as aluminum chloride or tin(IV) chloride have been used for many years in the selective demethylation of aromatic methyl ethers, where chelation is involved (Scheme 27). Similar cleavage of thioethers, specially using mercury(II) salts, is commonly used to remove thioacetal functions masking ketones (equation 27).104 In some cases, reactions of metal ions with thioether ligands result in isolation of complexes of the dealkylated organic moiety (equations 28 and 29).105-107... 

An intramolecular Michael addition spontaneously follows the basic hydrolysis of the thioacetate function in the enoate 461 leading to tetrahydrothiopyrans. In protic solvents a high m-selectivity is observed, but in THF a ca. 1 1 mixture of the as and trans isomers is produced (Equation 150) <1995TL2579>. 

O Scheme 25) [150]. The latter acts as an acceptor only because of its good electrophilic and non-nucleophilic character. The a-thioacetal functionality in this enantioselective crosscoupling allows access to highly oxidized, stereo-defined synthons of broad versatility. Moreover, the observed reactivity profile makes them pre-eminent substrates for highly selective cross-aldol reactions with ketone donors. 

The first total synthesis of the nucleoside antibiotic herbicidin B was accomplished in the laboratory of A. Matsuda. The key step was a novel aldol-type C-glycosidation reaction promoted by Sml2 between a 1-phenylthio-2-ulose derivative and a 1- 3-D-xylosyladenine-5 -aldehyde derivative. During the preparation of the phenylthio sugar subunit, the Moffatt oxidation was applied to convert the primary alcohol to the corresponding aldehyde, which was immediately oxidized with PDC in DMF/MeOH to the methyl ester. The reaction conditions were completely compatible with the silyl protecting group as well as the thioacetal functionality. 

Furans. The reagent activates thioacetal function by methylthiolation. It induces cyclization of thioacetals derived from carbonyl compounds (including lactones and lactams) and bis(methylthio)acetaldehyde via aldol reaction and acetylation. 

The dimethylsulphide adduct of thexylchloroborane reduces aliphatic carboxylic acids to aldehydes in 93-99% yields at 25 C. Investigations of the relative merits of dimethyl and diphenyl-bromoborane as reagents lor the cleavage of acetals and ketals have been reported as has a new method for the regioselective introduction of the oxycarbonyl or thioacetal functionalities into alkenes. ... 

When excess ethanethiol is employed, the reaction leads to the unexpected reduction of the thioacetal function and formation of ethylthiomethyl derivative in up to 80% yield (Scheme 2.160) [612]. 

Miscellaneous Curing Reactions. Other functional groups can react with the thiol terminal groups of the polysulfides to cross-link the polymer chains and build molecular weight. For example, aldehydes can form thioacetals and water. Organic and inorganic acids or esters can form thioesters. Active dienes such as diacrylates can add to the thiols (3). Examples of these have been mentioned in the Hterature, but none have achieved... 

The aldehyde function at C-85 in 25 is unmasked by oxidative hydrolysis of the thioacetal group (I2, NaHCOs) (98 % yield), and the resulting aldehyde 26 is coupled to Z-iodoolefin 10 by a NiCh/CrCH-mediated process to afford a ca. 3 2 mixture of diaste-reoisomeric allylic alcohols 27, epimeric at C-85 (90 % yield). The low stereoselectivity of this coupling reaction is, of course, inconsequential, since the next operation involves oxidation [pyridinium dichromate (PDC)] to the corresponding enone and. olefination with methylene triphenylphosphorane to furnish the desired diene system (70-75% overall yield from dithioacetal 9). Deprotection of the C-77 primary hydroxyl group by mild acid hydrolysis (PPTS, MeOH-ClHhCh), followed by Swem oxidation, then leads to the C77-C115 aldehyde 28 in excellent overall yield. 

The big difference between the extent of asymmetric induction on the addition to a prostereogenic carbonyl group of simple carbanions a to a chiral sulfoxide on the one hand and enolates of sulfinyl esters on the other, can be attributed to the capacity of the ester function to chelate magnesium in the transition states and intermediates. The results already described for the addition of chiral thioacetal monosulfoxide to aldehydes (see Section 1.3.6.5.) underscore the importance of other functions, e.g., sulfide, for the extent of asymmetric induction. 

Considerable efforts have been devoted to the stereoselective introduction of a /(-methyl function in intermediates for the synthesis of 1 jS-methylcarbapenems. While the trimethylsilyl trifluoromethanesulfonate catalyzed reaction of a 4-acetoxyazetidinone derivative with ketene acetals shows no selectivity, ketene thioacetals lead to stereoselective formation of the a-methyl isomer108. The zirconium enolate, however, shows high /(-methyl selectivity. 

The keto function is frequently deoxygenated via Ra-Ni-mediated desulfurization of thioacetals 412 14 That is, the ketone group can be removed from compound (36) by thioketalization followed by desulfurization with Ra-Ni (81 mmol Ni/mmol) in MeOH for 20 minutes (Scheme 4.118).415... 

Diphenylcyclopropene thione (156) was prepared11S-12°) from 3,3-dichloro-1,2-diphenyl cyclopropene (154) by reaction with thioacetic acid, since transformation of the carbonyl function of diphenyl cyclopropenone with P4S10121 was complicated by ring expansion to the trithione 155122 In a useful recent thioketone synthesis123) 156 was obtained directly from diphenyl cyclopropenone in a quantitative yield by simultaneous treatment with HC1 and H2S. 

Likewise thioacetals have been prepared in yields between 60 to >99% by treatment of aldehydes or ketones with 1,2-ethanethiol in the presence of Zeolite HSZ-360, a dealuminated Y-Zeolite [101]. Many other functional groups like al-kenes, tetrahydropyranyl and nitriles are tolerated under the mild reaction conditions. 

In addition, iodine snccessfnlly catalyzed the electrophilic snbstitntion reaction of indoles with aldehydes and ketones to bis(indonyl)methanes [225], the deprotection of aromatic acetates [226], esterifications [227], transesterifications [227], the chemoselective thioacetalization of carbon functions [228], the addition of mercaptans to a,P-nnsatnrated carboxylic acids [229], the imino-Diels-Alder reaction [230], the synthesis of iV-Boc protected amines [231], the preparation of alkynyl sngars from D-glycals [232], the preparation of methyl bisnlfate [233], and the synthesis of P-acetamido ketones from aromatic aldehydes, enolizable ketones or ketoesters and acetonitrile [234],... 

Chinese researchers reported a synthetic route to photochrome 16 (Scheme 7), in which the aldehyde functions are then transformed into cyclic acetals and thioacetals, methylol and dicyanoethylene groups (07T5437, 08T2576). Scheme 7 also gives (at the bottom) symmetrical photochrome 17 (where R are ferrocenyl substituents), which does not exhibit fluorescence in the initial state, but shows fluorescence in the cyclic form and which is also synthesized starting from dialdehyde 16 (08AFM302). 

To facilitate accesses to suitably functionalized sialic acid derivatives and complex sialyloligosaccharides for other usehil neoglycoconjugates, phase transfer catalysis (PTC) has been exploited extensively [for reviews see 42]. This process provided a wide range of carbohydrate derivatives under essentially clean Sn2 transformations. In the case of acetochloroneuraminic acid 1, the PTC reactions always provided inverted a-sialic acid derivatives [43]. para-Formylphenyl sialoside 7 [44], together with many other sialoside derivatives such as 8-10 [43], including thioacetate 12 [45] and azide 14 [46], were thus obtained (Scheme 1). Aldehyde 7 and similar glycosides are of particular interest since they could be directly conjugated to protein by reductive amina-tion after suitable deprotection [44]. 

The search for compounds that had improved oral activity led initially to the 7a-thioacetyl derivative (51-2) [48]. Dehydrogenation of the enone function in (50-5) using the now-familiar quinone, chloranU, leads to the dienone (51-1). This undergoes 1,6 conjugate addition on treatment with the sodium salt from thioacetic acid to give the la derivative (51-2) this compound, under the name spironolactone, was the first clinical aldosterone antagonist. Studies on the metabolic disposition of... 

The Michael type of addition, in the presence of acids, has been extended successfully to cyclopropyl ketones347 (reaction 86). Of course, the functional group can also undergo subsequently a transformation202,346,347,349, compatible with the phosphonium structure (acetalization, thioacetalization, imination, etc.). 

A single, functionalized resin can be designed to capture more than one reactant. For instance, resin 3 has been used to sequester excess alde-hydes/ketones and thioacetic acids.28 Specifically, the polyamine resin 3 did this by forming the resin-bound thiazolidinones 11 and salts from the excess reagents, leaving the desired thiazolidinones in solution. 

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