1.3- Dithianes carbonyl group protection

A carbonyl group can be protected as a sulfur derivative—for example, a dithio acetal or ketal, 1,3-dithiane, or 1,3-dithiolane—by reaction of the carbonyl compound in the presence of an acid catalyst with a thiol or dithiol. The derivatives are in general cleaved by reaction with Hg(II) salts or oxidation acidic hydrolysis is unsatisfactory. The acyclic derivatives are formed and hydrolyzed much more readily than their cyclic counterparts. Representative examples of formation and cleavage are shown below. 

Similarly, in another example, alkylation of 111 with diepoxide (—)-115 (1 equiv.) in the presence of HMPA (1.3 equiv.) furnished diol (+)-117. Protection of (+)-117 to form the acetonide, removal of the silyl protecting groups (TBAF), and hydrolysis of the dithiane with Hg(Cl04)2 provided the diketone (+)-118. Hydroxy-directed syn-reduction of both carbonyl groups with NaBI U in the presence of Et2BOMe, and triacetonide formation, followed by hydrogenolysis and monosilylation, afforded the desired Schreiber subtarget (+)-119, which was employed in the synthesis of (+)-mycoticins A and B (Scheme 8.31) [56b]. 

An unexpected reactivity in the functionalization of 2-acyl-l,3-dithianes has been reported by Mioskowski and co-workers. They found that 2-acyl-l,3-dithianes with no further heteroatom at the acyl side chain react with aldehydes to give 2-acyl-2-hydroxyalkyl-l,3-dithianes, whereas a silyl-protected hydroxy group in the side chain of the 2-acyl-l,3-dithiane led to formation of the aldol product at the opposite site of the carbonyl group. Acyl chlorides always react with 2-acyl-l,3-dithianes to give the enol esters (Scheme 81) <2003TL213>. 

A considerable number of electrophiles were used, and the dithiane route found great utility for the syntheses of simple monofunctional compounds as well as for polyfunctional molecules, for which the dithiane moiety affords an invaluable temporary protection of a future carbonyl group. Some experimental procedures published in Organic Syntheses — cyclobutanone [277] and 3-hydroxy-l-cyclohexene-l-carboxaldehyde [278] — are illustrative. A similar route to aldehydes [279] makes use of sym-trithiane as a formyl anion equivalent. 

McHale, W.A. and Kutateladze, A.G. (1998) An efficient photo-SET-induced cleavage of dithiane-carbonyl adducts and its relevance to the development of photoremovable protecting groups for ketones and aldehydes. Journal of Organic Chemistry, 63, 9924—9931. 

RCeCl2. The reagents, prepared in situ from RLi + CeCK, are more reactive than RLi in 1,2-addition to carbonyl groups. An example is the reaction with 2-alkoxypropionoyl-l,3-dithianes (1), prepared from methyl (S)-lactate.2 The dias-tereoselectivity obtains even when the protecting group is incapable of chelation. 

Open chain and cyclic thioacetals 1,3-Dithiolane and 1,3-dithiane derivatives are versatile intermediates in the synthesis and interconversion of monocarbonyl and 1,2-dicarbonyl compounds. Protection of carbonyl groups as their open-chain and cyclic thioacetals is an important method in the synthesis of organic molecules. Thioacetals are stable... 

Reaction of lithiodithianes with acyl chlorides, esters or nitriles leads to the fOTination 1,2-dicarbonyl compounds in which one of the carbonyl groups is protected as the thioacetal. d76043j44 Optically active amino ketones of type (69) are inepared via acylation of dithiane with an oxazoline-protected (5)-serine methyl ester (Scheme 41). Optically active (5)-2-alkoxy-l-(l,3-dithian-2-yl)-l-propanones were prepaid by the reaction of the corresponding methyl (5)-lactate with 2-lithio-l,3-enantioselective synthesis of (-)-trachelanthic acid. Enantioselective synthesis of L-glyceraldehyde involves the acylation of a dithiane glycolic acid derivative followed by bikers yeast mediated reduction. ... 

Two alternative routes to (+)-swainsonine (ent-37S) developed by Chen and Tsai, Hke that used in their synthesis of lentiginosine (c Scheme 47 Section 3.3.2), created the bond to C-8a by means of free radical cycUzations onto an acylsilane. The first approach entailed the creation of the C-l/C-8a bond (Scheme 86). Amide formation between the amine 638 and the acid chloride prepared in situ from the chiral lactone-acid 639 yielded (—)-640, which was cyclized with base to the imide (—)-641 in 91% yield. Chemoselective reduction of the C-2 carbonyl group, acid-catalyzed reaction with thiophenol, and protection of the hydroxyl substituent as the benzoate gave 642 as a mixture of isomers. After hydrolysis of the dithiane to the acylsilane 643 with iodobenzene bis(trifluoroacetate), treatment with tri-butyltin hydride and l,lCazobis(cyclohexane-l-carbonitrile) (ACCN) as radical initiator produced the indohzidin-5-one 644 in 86% yield as a... 

Dithioketals, especially the cyclic dithiolanes and dithianes, are also useful carbonyl-protecting groups. These can be formed from the corresponding dithiols by Lewis acid-catalyzed reactions. The catalysts that are used include BF3, Mg(03SCF3)2, Zn(03SCF3)2, and LaCl3.100 S-Trimethylsilyl ethers of thiols and dithiols also react with ketones to form dithioketals.101... 

Carbon-13 shifts of some 2-substituted 1,3-dithianes as protected carbonyl derivatives and nucleophilic carbonyl equivalents are collected in Table 4.63 [413], Methyl group increments for shift predictions according to eq. (4.1) are available, also taking contributions of the twist in addition to the chair conformation into account [413]. 

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