Aldehyde dithioacetals

Dithioacetal monoxide anions react with carbonyl compounds in a similar way affording the corresponding a-hydroxy aldehyde dithioacetal oxides 428. Ogura and Tsuchihashi, who performed this reaction for the first time using the anion of methyl methylthiomethyl sulphoxide 324, obtained in this way a series of a-hydroxyaldehydes 429504 (equation 257). 

The anion of an aldehyde dithioacetal 5-oxide is well known to add to a,3-unsaturated carbonyl compounds. " Conjugate addition of formaldehyde di-p-tolyl dithioacetal 5-oxide (114) to open-chain and cyclic enones is achieved by using HMPA as a polar cosolvent in THF (-78 C)." The lithio derivative of (5)-(114) was found to add to 2-cyclopentenone with asymmetric induction. Transformation of the dithioacetal part into a formyl group gives 3-formylcyclopentanone in 39% enantiomeric excess (equation 28)." Interestingly, highly asymmetric induction is observed in the conjugate addition of the... 

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. 

Treatment of selenoacetals 24 with butyllithium at 78 °C leads to the chiral a-seleno lithium compounds 25. Selenoacetals are stable compounds and can be readily prepared by selenoacetal-ization of the corresponding aldehydes25,26. In contrast to the corresponding dithioacetals, no competing deprotonation occurs on treatment with butyllithium, even with selenoacetals derived from aromatic aldehydes. 

The anions of alkyl alkylthiomethyl sulphoxides have found a much broader application. Methyl methylthiomethyl sulphoxide 324 was first introduced by Ogura and Tsuchihashi in 1971412 and ethyl ethylthiomethyl sulphoxide 325 was synthesized by Schlessinger and coworkers in 1973413. Ogura and Tsuchihashi performed alkylation of 324 and obtained a series of substituted dithioacetal monoxides 326 which were then hydrolysed to the corresponding aldehydes (equation 181 Table 17)412. 

Thiols add to aldehydes and ketones to give hemimercaptals and dithioacetals. Hemimercaptals are ordinarily unstable, though they are more stable than the corresponding hemiacetals and can be isolated in certain cases.Dithioacetals, like... 

Another indirect method is conversion of the aldehyde or ketone to a dithioacetal or ketal, and desulfurization of this (14-34). 

Reaction of propargylic dithioacetals 74 with organocopper reagent followed by treatment with an aldehyde and then with acid provides 2,3,5-trisubstituted furans in moderate to good yields <00JA4992>. 

The reaction of methylenesulphones with allyl halides in the presence of quaternary ammonium salts produces the 1-allyl derivatives [52], unlike the corresponding reaction in the absence of the catalyst in which the SN- product is formed (Scheme 6.5). In contrast, alkylation of resonance stabilized anions derived from allyl sulphones produces complex mixtures [51] (Scheme 6.6). Encumbered allyl sulphones (e.g. 2-methylprop-2-enyl sulphones) tend to give the normal monoalkyl-ated products. Methylene groups, which are activated by two benzenesulphonyl substituents, are readily monoalkylated hydride reduction leads to the dithioacetal and subsequent hydrolysis affords the aldehyde [61]. 

Quite recently, the addition of methoxy anion to the optically active styryl sulfoxide 314 was found to give a mixture of diastereo-meric dithioacetal mono-iS-oxides 315, which were converted to the optically active a-methoxy aldehyde 316, having 59.6% optical purity (316). 

These problems were circumvented by protecting the C(4),C(5) diol prior to Wittig olefination step (Figure 3). Thus, treatment of 10b (a mixture of pyranose and furanose anomers prepared by hydrolysis of 8 with aqueous trifluoroacetic acid) with excess EtSH and concentrated HCI (as solvent) at provided dithioacetal 9 in 50% yield, along with 25% of a mixture of thiopyranosides and thiofuranosides that was recycled to 10b in high yield by treatment with HgCIa and CaCOa in aqueous CH3CN. Finally, the diol unit was protected as a cyclohexylidene ketal, and then the thioacetal was hydrolyzed under oxidative conditions to arrive at the key aldehyde intermediate 3. 

Methyl fluoro(diethoxyphosphono)dithioacetate (34) has been prepared from difluorinated precursors [56], Fluorophosphonothioacetamides (35) derived from this dithioester, have been successfully transformed into highly functionalized fluoroalkenes (36). Judicious selection of the aldehyde coupling partner can lead expeditiously to the preparation of fluoroolefin dipeptide isosteres following elaboration of the carboethoxy group and desulfurization (Scheme 11). 

Less is known concerning the partial, acid hydrolysis of alditol polyacetals derived from ketones, compared to those derived from aldehydes. The acid hydrolysis of 1,2 3,4 5,6-tri-O-isopropylidene-D-mannitol to 3,4-O-isopropylidene-D-mannitol55,56 and of l,2 3,4-di-0-isopropylidene-L-rhamnitol to 3,4-O-isopropylidene-L-rhamnitol57 indicates an order of isopropylidene acetal stability of a-threo > a, and this order is supported by the partial hydrolysis of 2,3 4,5-di-O-isopro-pylidene derivatives of dialkyl dithioacetals of D-arabinose58 and D-xylose59 to 2,3-acetals. 

Acid hydrolysis of 2,4 3,5-di-0-isopropylidene-D-xylose diethyl dithioacetal to give63 the 2,4-acetal afforded a rare opportunity to establish that, in isopropylidene acetals, as with acetals derived from aldehydes, f3-erythro rings are more stable than /3 rings. 

The stoichiometric equivalents of halofluorides have been recently applied to transform alkylene dithioacetals into gcm-difluorides.70-71 Dithioacetals such as 1,3-dithiolanes and 1,3-dithianes arc readily obtained from the corresponding carbonyl compounds by the reaction with ethane-1,2-dithiol or propane-1,3-dithiol in the presence of the complexes boron trifluoride-bis(acetic acid) or boron trifluoride-diethyl ether. Using a two-step procedure, a range of aldehydes and ketones can be converted into gem-difluorides under mild conditions. 

Cleavage of styrenes. 2 The double bond of styrenes when substituted in the 15-position by at least one eleetron-withdrawing group (NOz, CN, COOC,H5) is cleaved by a hard Lewis acid and ethanethiol to give dithioacetals of benz-aldehydes. The corresponding aliphatic compounds are cleaved by this system in lower yield. 

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