Reductions acetals, triethylsilane

Reduction of Acetals. Reductions of acetals of 2,4-pentanediol can provide (after removal of the chiral auxiliary by oxidation and 3 elimination) secondary alcohols with good enan-tioselectivity. The choice of reagents dictates the configuration of the final product. Use of Dibromoalane gives products from selective syn cleavage of the acetal while Triethylsilane/Titanium(IV) Chloride gives the more usual anti cleavage products (eq 2). ... 

Reductive Etherifications and Acetal Reductions. Additional applications of triethylsilane in the reduction of C-0 bonds also continue to surface. The Kusanov-Pames dehydrative reduction of hemiacetals and acetals with trifluorosulfonic acid/EtsSiH has proven especially valuable. Under such conditions, 4,6-O-benzyli-dene acetal glucose derivatives can be asymmetrically deprotected to 6-0-benzyl-4-hydroxy derivatives (eq 28) and thioketone derivatives can be converted to syn-2,3-bisaryl (or heteroaryl) di-hydrobenzoxanthins with excellent stereo- and chemoselectivity (eq 29). Triethylsilane is also useful in a number of related acetal reductions, including those used for the formation of C-glycosides. For example, EtsSiH reductively opens 1,3-dioxolan-4-ones to 2-alkoxy carboxylic acids when catalyzed by HCU. Furthermore, functionalized tetrahydrofurans are generated in good yield from 1,2-0-isopropylidenefuranose derivatives with boron trifluoride etherate and EtsSiH (eq 30). These same conditions lead to 1,4- or 1,5-anhydroalditols when applied to methyl furanosides or pyranosides. ... 

Reductive Etherifications and Acetal Reductions. Additional applications of triethylsilane in the reduction of C-0 bonds also continue to surface. The Kusanov-Pames dehydrative reduction of hemiacetals and acetals with trifluorosulfonic acid/Et3SiH has proven especially valuable. Under such conditions, 4,6-O-benzyli-dene acetal glucose derivatives can he asymmetrically deprotected to 6-0-henzyl-4-hydroxy derivatives (eq 28) and thioketone... 

Protection of D-erythrono-1,4-lactone as its 2,3-0-benzylidene acetal, followed by regioselective reductive acetal opening (triethylsilane-titanium tetrachloride), then hydride reduction of the lactone function gave 2-0-benzyl-L-erythritol. In contrast, tributyltin oxide mediated benzylation of the same 1,4-lactone then hydride reduction of the lactone group gave 2-0-benzyl-D-erythritol. L-Erythrulose has been converted into 2-amino-2-deoxy-L-erythritol in six steps and 35% overall yield, the key step being a stereoselective reduction of the ketoxime orthoformate 11 with K-selectride. ... 

On reacting aldehydes such as benzaldehyde or cyclohexanecarboxaldehyde 720 with silylated alcohols such as 718 or 721, or with triethylsilane 84b in the presence of TMSOTf 20 at low temperatures, acetal formation and reduction is achieved in one step to afford ethers 719 and 722 in high yields [215] (Scheme 5.74). 

With TMSOTf 20 as catalyst instead, reduction of acetals or ketals has also been achieved with triethylsilane 84b in the presence of triflic acid/BSA 22a [56] or with triethylsilane 84b/Nafion-H, which can be readily recovered [57]. 

Benzyl Alcohols. Benzyl alcohols of nearly all kinds undergo reduction when treated with acid in the presence of organosilicon hydrides. The most obvious exception to this is the behavior of benzyl alcohol itself. It resists reduction by the action of trifluoroacetic acid and triethylsilane, even after extended reaction times.26 Reducing systems consisting of triethylsilane and sulfuric acid/acetic acid or p-toluenesullonic acid/acetic acid mixtures also fail to reduce benzyl alcohol to toluene.134 As previously mentioned, substitution of boron trifluoride for trifluoroacetic acid results in the formation of modest yields of toluene, but only when a very large excess of the silane is used in order to capture the benzyl cation intermediate and suppress Friedel-Crafts oligomerization processes.129,143... 

Hydrogenation of the carbon-carbon double bond occurs without alteration of the ester function when citronellyl acetate is treated with 2.5 equivalents of trifluoroacetic acid and two equivalents of triethylsilane in 2-nitropropane.205 The reduced product is obtained in 90% yield after 22 hours at room temperature in the presence of one equivalent of added lithium perchlorate (Eq. 82). The yields are lower in the absence of this added salt. Similar reduction of an unsaturated phenolic chroman derivative occurs to give an 85% yield of product with only the carbon-carbon double bond reduced (Eq. 83).205... 

Similar reactivity is realized with 2-acetylthiophene using triethylsilane with aluminum chloride.259 Treatment of the ethylene glycol acetal of 2-thiophenecar-baldehyde with Et3SiH/TFA results in reduction of the ring and oxidation of the side chain to the silylated carboxylic acid (Eq. 119),260 whereas similar treatment of 2-thiophenecarbaldehyde gives 2-methyltetrahydrothiophene and 2-... 

Reduction of the keto group in naphtho derivative 115 with sodium borohydride results in 69% of the alcohol 116 (Scheme 23, Section 2.1.3.3 (1999PHA645)). Further triethylsilane reduction gives 117 in 67% yield. Synthesis of a series of pyrrolo-benzazepine and pyrrolo-benzothiazepine acetic acids (Scheme 77, Section 5.1.1 (1994MI385)) includes reduction of ketoesters 380 into corresponding hydroxyl esters, subsequent deoxygenation with iodine/PPhs and hydrolysis. 

For benzo[Z ]thiophene the heterocycle is rather more resistant to ring opening and oxidation with hydrogen peroxide in acetic acid at 95 C, for example, gives the 1,1-dioxide (Scheme 7.22) reduction with either sodium and ethanol or triethylsilane in trifluoroacetic acid affords 2,3-dihydrobenzo[Z)]thiophene. Electrophiles give mainly 3-substituted benzo[Z ]thiophenes, although these products are often accompanied by smaller amounts of the 2-isomers. 

Dichloro-2,2-difluoroethylene, 105 (Diethylamino)sulfur trifluoride, 110 Reduction reactions (see also Deoxygenation, Reductive. . . ) of acetals and ketals Dibromoalane, 237 Diisobutylaluminum hydride, 237 Triethylsilane-Tin(IV) chloride, 237 of acetates and other esters to alkanes Nickel boride, 197 Triphenylsilane, 334 of acyl halides to alcohols Sodium cyanoborohydride-Tin(II) chloride, 280... 

Olah, G.A., Yamato, T., Iyer, P.S. and Prakash, G.K.S., Catalysis by solid superacids. 20. Nafion-H catalyzed reductive cleavage of acetals and ketals to ethers with triethylsilane, /. Org. Chem., 1986, 51, 2826. 

A neat way of preparing96 the system (215) (useful in bufadienolide synthesis) from (214) is illustrated for compound (216). Bromination to (217) followed by dehydrobromination with lithium bromide in DMF gave the dienone (218), which on triethylsilane reduction produced (219) and thence, by condensation with diethyl oxalate, (220). Methylthiotoluene-p-sulphonate in ethanol-potassium acetate now produced (221) whose oxidation with N-chlorosuccinimide in 2% methanolic sulphuric acid gave (223). A previous route to such compounds was by way of the a-acetoxy-ketones (219) but suffers from a low yield at the acetoxylation step, (219) —> (222). 

Cyclic diene ether 93 underwent oxidative acetalization to produce corresponding 3-substituted acetals 100 and 101 (Scheme 17) <1995TL8263>. Further Lewis acid-catalyzed reduction with triethylsilane afforded corresponding 3-bromo- and 3-hydroxy-oxonenes (102 R = Br (68%) 103 R = OH (49%), respectively) together with 1 1 diastereomeric mixture of acyclic methyl ethers 104 (R = Br (18%) R = OH (13%)). 

The highly substituted indole, ecopladib (82), which shares many structural elements with the phospholipase inhibitor varespladib (37), shows similar biological activity. Alkylation of hydroxy benzoate (72) with the dimethyl acetal from bromoacetaldehyde (73) affords the ether (74). Acid-catalyzed reaction of this intermediate with 2-methyl-5-chloroindole (75) in the presence of triethylsilane leads in effect to condensation of the acetal with the activated 3 position on the indole ring to afford 76. The nature of the reduction of the aldehyde carbon is not immediately apparent. Alkylation of the anion on nitrogen from reaction of the indole with sodium hydride and bromodiphenylmethane then adds the third... 

With strong protic acids, the regiochemistry of the reductive cleavage reverses to give the benzyl ether of the less hindered alcohol. One of the few metal hydrides that can withstand the harshly acidic conditions of the reaction is sodium cyanoborohydride. When used in large excess, it will reduce benzylidene acetals in the presence of anhydrous HG [Scheme 3.61] -or trifluoro-methanesulfonic acid. The excess is required because the sodium cyanoborohydride is consumed under the reaction conditions at an appreciable rate. More convenient reaction conditions were described by DeNinno and co-workers in which the benzylidene acetal is reductively cleaved using triethylsilane in the presence of trifluoroacetic acid [Scheme 3.62]. ... 

Benzyl esters, ethers and carbamates can be deprotected in the presence of other easily reducible groups by treatment of the substrate with palladium(ll) acetate and triethylamine in the presence of triethylsilane. Competing reduction of bromoarenes, cyclopropanes or alkenes is not observed [Scheme 643)... 

Reductive cyclization of 1,6-diynes in the presence of triethylsilane and a catalyst prepared in situ from palladium(O) and acetic acid leads to dialkylidenecyclopentanes. Thus the diester 505 gave compound 506. ... 

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