Cuprates addition

Conjugate additions. Cuprate addition to ynoate esters and trapping with aldehydes (in the presence of EtjAlCl) provide special analogs of Baylis-Hillman reaction products. Trapping with phosphonoacetatic esters is another synthetically valuable variation. Silyl ketene acetals derived from 1,6-addition to allyl alk-4-yn-2-enoates undergo Claisen... 

The methodology used in the preparation of RU 486 (84) and other ll -steroids is shown. Conjugate addition of a cuprate reagent to the a,P-unsaturated epoxide (85) provides the liP-substituted steroid (86) stereospecificaHy (131). Subsequent steps lead to the synthesis of RU 486 (84). 

A further improvement in the cuprate-based methodology for producing PGs utilizes a one-pot procedure (203). The CO-chain precursor (67) was first functionalized with zirconocene chloride hydride ia THF. The vinyl zirconium iatermediate was transmetalated direcdy by treatment with two equivalents of / -butyUithium or methyUithium at —30 to —70° C. Sequential addition of copper cyanide and methyUithium eUcited the /V situ generation of the higher order cyanocuprate which was then reacted with the protected enone to give the PG. 

After the addition is complete, stirring is continued at -30°C for 10 min to produce a grey-blue or dark blue solution of the cuprate (Note 51. 

A number of alternative multi-step procedures for the synthesis of a-tert-alkyl ketones are known, none of which possess wide generality. A previous synthesis of 2-tert-penty1cyclopentanone involved reaction of N-1-cyclopentenylpyrrol 1 dine with 3-chloro-3-methy1-l-butyne and reduction of the resulting acetylene (overall yield 46 ). However, all other enamines tested afford much lower yields. Cuprate addition to unsaturated ketones may be useful in certain cases. Other indirect methods have been briefly reviewed. ... 

Although ethereal solutions of methyl lithium may be prepared by the reaction of lithium wire with either methyl iodide or methyl bromide in ether solution, the molar equivalent of lithium iodide or lithium bromide formed in these reactions remains in solution and forms, in part, a complex with the methyllithium. Certain of the ethereal solutions of methyl 1ithium currently marketed by several suppliers including Alfa Products, Morton/Thiokol, Inc., Aldrich Chemical Company, and Lithium Corporation of America, Inc., have been prepared from methyl bromide and contain a full molar equivalent of lithium bromide. In several applications such as the use of methyllithium to prepare lithium dimethyl cuprate or the use of methyllithium in 1,2-dimethyoxyethane to prepare lithium enolates from enol acetates or triraethyl silyl enol ethers, the presence of this lithium salt interferes with the titration and use of methyllithium. There is also evidence which indicates that the stereochemistry observed during addition of methyllithium to carbonyl compounds may be influenced significantly by the presence of a lithium salt in the reaction solution. For these reasons it is often desirable to have ethereal solutions... 

Michael addition of dialkyl cuprate reagents to optically active 4-phenyl-l,3,4,6,7,8-hexahydropyrido[2,l-c][l,4]oxazin-l-one afforded stereoselec-tively 9-alkylperhydro derivatives 228 in a mixture Et20 and THF at -40 °C in the presence of Cul in good yields (99TL3699). 

Mukaiyama reported tlie conjugate addition of a-ditliioalkylcuprates to 2-enones i73-9496 yields) for tlie syntliesis of 1,4-diketones, and tlie reaction was exploited in a syntliesis of t )-diliydtojasmone [ 141]. Few reports on a-tliioalkylcuprates have appeared since tlien. Cuprates formed from litliiated ketene ditliioacetals and... 

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