Reduction Reformatsky reaction

Rearrangement of a,/B-epoxy ketones to ftdicarbonyl isomers, 307 Reductive alkylation, 97 Reductive cleavage of halo ethers, 264 Reductive degradation of 19-substitutional steroids, 277, 278 Reformatsky reaction, 139 Removal of the C-10 substituent in steroids. 272... 

Reductive lithiation, 68 Reductive silylation, 26 Reformatsky reaction, 71 Riihlmann condensation, 134,139... 

Pinacol-pinacolone rearrangement Prileschajew epoxidation reaction Reformatsky reaction Reimer-Tiemann reaction Rosemnund reduction Sandmeyer reaction Schiemann reaction Schmidt reaction or rearrangement Schotten-Baumann reaction Skraup reaction Sommelet reaction. ... 

Highly reactive zinc can be prepared by reduction of anhydrous ZnC with potassium/THF or sodium/DME(l 7,29). This zinc has been shown to undergo rapid oxidative additions with alkyl bromides to produce near quantitative yields of the corresponding dialkylzinc. It also underwent oxidative addition with phenyl iodide and bromide. Moreover, the zinc was found to be useful in the Reformatsky reaction. Reactions could be carried out in diethyl ether at room temperature to generate near quantitative yields of the 3-hydroxyester. 

Nucleophilic additions to (cyclohexadienone)Fe(CO)3 complexes (218) occur in a dia-stereospecific fashion (Scheme 56)197. For example, the Reformatsky reaction of ketone (218a) affords a simple diasteromeric alcohol product19715. The reduction of (1-carbo-methoxycyclohexa-l,3-dien-5-one)Fe(CO)3 (218b) to give 219 has been utilized in the enantioselective synthesis of methyl shikimate. In a similar fashion, cycloadditions of (2-methoxy-5-methylenecyclohexa-l,3-diene)Fe(CO)3 (220) occur in a diastereospecific fashion198. 

A Rh-catalyzed Reformatsky reaction of chiral imine (24) led to the stereoselective preparation of the a,a-difluoro-jS-amino acid (25). 25 was converted to difluor-oalkene (26), and subsequently L-Val-i/r[(Z)CF=CH]Gly derivative (23) in greater than 82% for both steps. The samarium diiodide-mediated reductive transformation of the y,y-difluoro-a, S-enoates proceeded via successive two-electron transfers to form a dienolate species which upon kinetically controlled trapping with fert-BuOH formed 23 (Scheme 6). 

Even more reactive was then found to be Zn/Ag-Gr, prepared by the reduction of a ZnCl2/AgOAc mixture (0.1 molar ratio) with CgK with this powder Reformatsky reactions could be run at —78°C12f 46. 

Electrochemistry offers alternative routes to the preparation of active zinc for the Reformatsky reactions, for instance exploiting the cathodic reduction (—0.8 V v.v SCE) of ZnBr2 in acetonitrile containing Bu4N+BF4 as supporting electrolyte53. 

A new preparation of the C g ketone, an important synthon for the synthesis of vitamin A had also been published by Valla et al. [71]. Hence p-ionone and acetonitrile were condensed in the presence of KOH, to afford the nitrile (80%, E/Z isomers 80/20). A Reformatsky reaction of ethyl bromoacetate with the nitrile provided the ethyl P-ionylideneacetoacetate in 70% yield. Subsequent reduction with NaBH4, followed by esterification (MeSC Cl) and desulfonation of the unstable... 

White et al. developed a stereospecific synthesis of Z-olefins, including isotretinoin [84]. Thus, isotretinoin was obtained by a Reformatsky reaction of p-cyclocitral with the C5 bromoester, followed by DIBAL-H lactone reduction, lactol ring opening, selective olefin bond formation with ethyl 4-diethoxyphosphoryl-3-methyl-2-butenoate and further saponification, Fig. (46). 

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