Lewis acids cyclic acetals

FIGURE 10.22 Oxymercuration begins by attack of the alkene on the Lewis acid mercuric acetate to form a cyclic mercurinium ion. The nucleophilic solvent, water, then adds in Sn2 fashion to give the first product, a mercury-containing alcohol, where R is a simple alkyl group. 

According to mechanistic studies, the hydrogenation of the aldehyde precedes the double-bond isomerization to the cyclic enolether, which is rapidly transformed by a Lewis acid-catalyzed acetalization. In this sequence, the cationic rhodium complexes obviously catalyze four steps. The three last steps all proceed in a domino manner and a rhodium-hydride complex is the presumed catalytically active species. 

The Lewis acid mediated addition of silyl enol ethers or silylketcne acetals to oc-alkoxyaldehydcs is the most versatile and reliable method of providing chelation control in aldol-type additions3. The stereochemical outcome is as predicted by Cram s cyclic model11 ... 

The scope of this reaction is similar to that of 10-21. Though anhydrides are somewhat less reactive than acyl halides, they are often used to prepare carboxylic esters. Acids, Lewis acids, and bases are often used as catalysts—most often, pyridine. Catalysis by pyridine is of the nucleophilic type (see 10-9). 4-(A,A-Dimethylamino)pyridine is a better catalyst than pyridine and can be used in cases where pyridine fails. " Nonbasic catalysts are cobalt(II) chloride " and TaCls—Si02. " Formic anhydride is not a stable compound but esters of formic acid can be prepared by treating alcohols " or phenols " with acetic-formic anhydride. Cyclic anhydrides give monoesterified dicarboxylic acids, for example,... 

Aubele et al. studied the aqueous Prins cyclization using cyclic unsaturated acetals as oxocarbenium ion progenitors and allylsilanes are used as nucleophiles. Cyclizations proceed efficiently inside Lewis acidic micelles (of cerium salt) in water. A variety of vinyl- and aryl-substituted tetrahydropyrans with excellent stereocontrol was obtained (Eq. 3.26).113... 

Acetal handle 78 synthesized from Merrifield resin and 4-hydroxy-benzaldehyde was applied to the solid-phase synthesis of carbohydrates and 1-oxacephams (Scheme 41) [90]. For the latter, a 1,3-diol was initially anchored to the support to form a cyclic acetal. A ring opening reaction with DIBAL generated a resin-bound alcohol which was converted to the corresponding triflate for A-alkylation with 4-vinyl-oxyazetidin-2-one. A Lewis acid catalyzed ring closure released 1-oxa-cephams from the support. 

The simplest nitroalkene, nitroethene, undergoes Lewis acid-promoted [4+2] cycloaddition with chiral vinyl ethers to give cyclic nitronates with high diastereoselectivity. The resulting cyclic nitronates react with deficient alkenes to effect a face-selective [3+2] cycloaddition. A remote acetal center controls the stereochemistry of [3+2] cycloaddition. This strategy is applied to synthesis of the pyrrolizidine alkaloids (+)-macronecine and (+)-petasinecine (Scheme 8.33).165... 

Katsuki et al. have reported that high enantioselectivity can be obtained in the oxidation of nonconjugated cyclic enol ethers by using Mn(salen) (34) as the catalyst.138 The reactions were performed in an alcoholic solvent to obtain a-hydroxy acetals as the products, because a-hydroxy acetals are tolerant to a weak Lewis acid like Mn(salen) and do not racemize during the reaction and the isolation procedure (Scheme 29). 

Cyclization of mixed acetals (13,300).4 This reaction is a particularly useful route to eight-membered cyclic ethers (oxocanes) and provides the first practical route to a natural oxocene, (- )-laurenyne (3), from an optically active mixed acetal 1. Thus cyclization of 1 followed by O-desilylation affords 2 as the only cyclic product. Remaining steps to 3 involved C-desilylation, for which only HF/pyridine is useful, introduction of unsaturation into the C2-side chain, and extension of the C8-side chain. Exploratory studies showed that unsaturation at the p- or y-positions to the cite of cyclization of 1 prevent or retard cyclization with a wide variety of Lewis acids. The cyclization is apparently more tolerant of substitution in the terminator position, C3-Q, of the oxocene. 

C of the acetal and the Lewis acid. Enantiomerically pure cyclic acetals 49 deriving from chiral diols open a route to adducts 50, which can be successively elaborated to chiral /9-hydroxyesters upon oxidation of the alcoholic group followed by alkaline elimination (equation 33). 

Acetalation. As polyhydroxy compounds, carbohydrates react with aldehydes and ketones to form cyclic acetals (1,13). Examples are the reaction of D-glucose with acetone and a protic or Lewis acid catalyst to form l,2 5,6-di-0-isopropylidene-a-D-glucofuranose [582-52-5] and its reaction with benzaldehyde to form 4,6-O-benzylidene-D-glucopyranose [25152-90-3]. The 4,6-0-(l-carboxyethylidine) group (related to pyruvic acid) occurs naturally in some polysaccharides. 

Because of the special structural requirements of the resin-bound substrate, this type of cleavage reaction lacks general applicability. Some of the few examples that have been reported are listed in Table 3.19. Lactones have also been obtained by acid-catalyzed lactonization of resin-bound 4-hydroxy or 3-oxiranyl carboxylic acids [399]. Treatment of polystyrene-bound cyclic acetals with Jones reagent also leads to the release of lactones into solution (Entry 5, Table 3.19). Resin-bound benzylic aryl or alkyl carbonates have been converted into esters by treatment with acyl halides and Lewis acids (Entry 6, Table 3.19). Similarly, alcohols bound to insoluble supports as benzyl ethers can be cleaved from the support and simultaneously converted into esters by treatment with acyl halides [400]. Esters have also been prepared by treatment of carboxylic acids with an excess of polystyrene-bound triazenes here, diazo-nium salts are released into solution, which serve to O-alkylate the acid (Entry 7, Table 3.19). This strategy can also be used to prepare sulfonates [401]. 

Significantly better results in addition of non-stabilized nucleophiles have come from hydrogenolysis reactions using formate as a hydride donor as shown in Scheme 8E.46. The racemic cyclic acetate and prochiral linear carbonates were reduced in good enantioselectivities by monophosphine ligands (/ )-MOP (16) and (Zf)-MOP-phen (17), respectively [195]. The chirality of the allylsilane can be efficiently transferred to the carbinol center of the homoallylic alcohol by the subsequent Lewis acid catalyzed carbonyl addition reaction 1196], The analogous... 

Cyclization to a morpholinolactone (59) occurs in the hydrolysis reaction of the di-A-hydroxylethylated compound (60). Compound (59) is rapidly hydrolysed by water to (61) but in file presence of equimolar amounts of amines (RNH2) or ammo acid derivatives (62) forms.56 A novel reaction of cyclic 2-diazo-l,3-dicarbonyl compounds (63) with lactones (64) affords the products (65) in the presence of rhodium acetate, Rh2(OAc)4.57 Lewis acid-promoted intramolecular additions of allylsilanes to lilac tones gave substituted cyclopentanes.58 A proposed transition state guided efforts to improve the stereoselectivity of the reaction. The reaction of a series of /1-lactone derivatives, such as (66)-(68), has been studied and they have been ling cleaved the reaction outcome is both Lewis acid and structure dependent.59... 

The best solvent, temperature, and Lewis acid conditions for the Sn reactions of CRS)-l-(2-mtrobenzenesulfonyl)- and (7 5 )-l-(4-nitrobenzenesulfonyl)-3-methoxy-l,2,3,5-tetrahydro-4,l-benzoxazepines with silylated 5-fluorouracil and uracil129 proved to be SnCL at 50 °C in MeCN. The more nucleophilic silylated uracil reacts faster at its N(3) atom giving mainly the cyclic 0,N-acetal (by C-OMe cleavage). The silylated 5-fluorouracil, on the other hand, reacts at its less sterically hindered N(l) atom and gives mainly an acyclic product (by ring C-0 cleavage). Calculations at the HF/6-31G level of theory support the experimental observations. 

The use of a catalytic amount of iodine in acetone was found to effect the addition of isopropylidene cyclic acetals to a wide variety of mono-199 and disaccharides.200 In the case of disaccharides, some cleavage of the glycosidic link was also observed. The proposed rationale for this acetalation is that iodine, acting as a Lewis acid, polarizes the carbon-oxygen bond (Scheme 42), increasing the electrophilicity of the carbon, leading to dehydration. In this instance, the iodine acts in the same manner as a proton in the acid-catalyzed introduction of a cyclic acetal. Hydroiodic... 

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