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Silyl enol ethers alcohol synthesis

Silylated cyanohydrins have also been prepared via silylation of cyanohydrins themselves and by the addition of hydrogen cyanide to silyl enol ethers. Silylated cyanohydrins have proved to be quite useful in a variety of synthetic transformations, including the regiospecific protection of p-quinones, as intermediates in an efficient synthesis of a-aminomethyl alcohols, and for the preparation of ketone cyanohydrins themselves.The silylated cyanohydrins of heteroaromatic aldehydes have found extensive use as... [Pg.199]

In a related contribution O Brien described the AA on styrenes and converted the amino alcohols into enantiopure diamines by using a reaction strategy similar to Janda s [83], Further synthetic applications of the AA include a new access to Evans chiral oxazolidinones [84], the enantioselective synthesis of a-amino ketones from silyl enol ethers [85], the stereoselective synthesis of cyclohexyl norstatine [86], and a route towards amino cyclitols by aminohydroxy-lation of dienylsilanes [87]. [Pg.417]

Phenol annotation.1 A key step in a synthesis of the aglycone (4) of pseu-dopterosin A is a reaction of the silyl enol ether 2 with 2-butynal (1) and (CH3)3SiOTf at — 78° followed by PCC oxidation of the resulting propargylic alcohol to give 3 in 61% overall yield. [Pg.66]

Details of the Janda-Chen synthesis were as follows. A tetrahydropyran (THP) linker was attached to the NCPS support enabling attachment of alcohols via THP ether formation. The THP-NCPS resin 1 is derivatized with R-(-F)-4-hydroxy-2-cyclopentanone 2, giving the THP ether-based resin 3, followed by coupling of the C,3 2o fragment by enone-cuprate addition. The cuprate required was generated from the corresponding E-vinyl stannane 4. The resulting enolate was trapped as the silyl enol ether... [Pg.248]

Silyl enol ethers react with aldehydes in the presence of chiral boranes or other additives " to give aldols with good asymmetric induction (see the Mukaiyama aldol reaction in 16-35). Chiral boron enolates have been used. Since both new stereogenic centers are formed enantioselectively, this kind of process is called double asymmetric synthesis Where both the enolate derivative and substrate were achiral, carrying out the reaction in the presence of an optically active boron compound ° or a diamine coordinated with a tin compound ° gives the aldol product with excellent enantioselectivity for one stereoisomer. Formation of the magnesium enolate anion of a chiral amide, adds to aldehydes to give the alcohol enantioselectively. [Pg.1348]

Akiyama, Y, Ishikawa, K, OzaM, S, Asymmetric synthesis of functionalized tertiary alcohols by diastereoselective aldol reaction of silyl enol ether and ketene silyl acetals with a-keto esters bearing an optically active cyclitol as a chiral auxihary, Synlett, 275-276, 1994. [Pg.502]

Alkylation or acylation of ketones, sulfides, and amines. This reagent generally reacts with alcohols or carboxylic acids to form 2,2,2-trifluoroethyl ethers or esters in satisfactory yields, except in the case of alcohols prone to dehydration. The reaction of these ethers provides a simple synthesis of unsymmetrical sulfides (equation I). A similar reaction can be used for preparation of secondary amines or amides (equation II). Enolate anions (generated from silyl enol ethers with KF) can be alkylated or acylated with a or b (equation III). Use of Grignard reagents in this type of coupling results in mediocre yields. [Pg.293]

Synthesis of 7 -amino acid-oxazole fragment 68 of calyculins A and B from D-erythronol-actone 58 has been reported by conversion to 59," which was subjected to oxidation reaction to afford the hemiaminal 60 (Scheme 9) Acetylation of 60 furnished 61, which was converted to ketone 62 in 88% yield. Conversion of 62 to a silyl enol ether, ozonolysis with reductive workup and O-methylation of the resultant alcohol 63 furnished 7 -lactam 64. Treatment of 64 with CAN led to 65 (60%), which was reacted with (CHj)2 A1 derivative of 66 to provide 67 (62%), which upon removal of the silyl group provided 68. [Pg.98]


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See also in sourсe #XX -- [ Pg.6 , Pg.14 ]

See also in sourсe #XX -- [ Pg.14 ]

See also in sourсe #XX -- [ Pg.6 , Pg.14 ]

See also in sourсe #XX -- [ Pg.14 ]




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Alcohols ethers

Alcohols silylation

Alcohols synthesis

Enol ethers synthesis

Enol synthesis

Enolate synthesis

Enolates silylation

Ether synthesis

Silyl enol ethers

Silyl enol ethers synthesis

Silyl enolate

Silyl enolates

Silyl ethers, synthesis

Synthesis enolates

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