Cyclopentanones reduction

That the 17-hydroxyl group was secondary and in a five membered ring was shown by its Oppenauer oxidation to a ketone (infrared spectrum indicative of a cyclopentanone). Reduction of this ketone would have been expected to proceed by addition of the hydrogen on the unhindered face that is the one before the... 

The formation of an enamine from an a,a-disubstituted cyclopentanone and its reaction with methyl acrylate was used in a synthesis of clovene (JOS). In a synthetic route to aspidospermine, a cyclic enamine reacted with methyl acrylate to form an imonium salt, which regenerated a new cyclic enamine and allowed a subsequent internal enamine acylation reaction (309,310). The required cyclic enamine could not be obtained in this instance by base isomerization of the allylic amine precursor, but was obtained by mercuric acetate oxidation of its reduction product. Condensation of a dihydronaphthalene carboxylic ester with an enamine has also been reported (311). 

What alkene would yield a mixture of cyclopentanone and propana) on treatment with ozone followed by reduction with zinc ... 

Compound A, C10H 8O, undergoes reaction with dilute H2S04 at 50 °C to yield a mixture of two alkenes, QpH ir>. The major alkene product, B, gives only cyclopentanone after ozone treatment followed by reduction with zinc in acetic acid. Identify A and B, and write the reactions. 

From intermediate 12, the path to key intermediate 7 is straightforward. Reductive removal of the benzyloxymethyl protecting group in 12 with lithium metal in liquid ammonia provides diol 27 in an overall yield of 70% from 14. Simultaneous protection of the vicinal hydroxyl groups in 27 in the form of a cyclopentanone ketal is accompanied by cleavage of the tert-butyldimethylsilyl ether. Treatment of the resultant primary alcohol with /V-bromosuccini-mide (NBS) arid triphenylphopshine accomplishes the formation of bromide 7, the central fragment of monensin, in 71 % yield from 27. 

The sterically unbiased dienes, 5,5-diarylcyclopentadienes 90, wherein one of the aryl groups is substituted with NO, Cl and NCCHj), were designed and synthesized by Halterman et al. [163] Diels-Alder cycloaddition with dimethyl acetylenedicarbo-xylate at reflux (81 °C) was studied syn addition (with respect to the substituted benzene) was favored in the case of the nitro group (90a, X = NO ) (syrr.anti = 68 32), whereas anti addition (with respect to the substituted benzene) is favored in the case of dimethylamino group (90b, X = N(CH3)2) (syn anti = 38 62). The facial preference is consistent with those observed in the hydride reduction of the relevant 2,2-diaryl-cyclopentanones 8 with sodium borohydride, and in dihydroxylation of 3,3-diarylcy-clopentenes 43 with osmium trioxide. In the present system, the interaction of the diene n orbital with the o bonds at the (3 positions (at the 5 position) is symmetry-forbidden. Thus, the major product results from approach of the dienophile from the face opposite the better n electron donor at the (3 positions, in a similar manner to spiro conjugation. Unsymmetrization of the diene % orbitals is inherent in 90, and this is consistent with the observed facial selectivities (91 for 90a 92 for 90b). 

By complexation of the rac-bicyclic diketone (rac-133) with 10a, R)- -)-l33 was included enantioselectively to give a 1 1 complex of 10a and enantiomerically pure R)-(-)-133. Treatment of the complex with NaBH4 in the solid state gave R,R)- -)-l34 of 100% ee in 54% yield [28]. Not only enantioselective but also regioselective reduction of the cyclopentanone moiety of 133 occurred. X-ray... 

Reaction of phenyl vinyl ketone with cyclopentanone under thermal conditions resulted in a diastereomeric mixture of 1,5,9-triketones 374 via a double Michael reaction. Treatment of this mixture with ammonium formate in polyethyleneglycol-200 under microwave irradiation conditions led to the very fast and efficient formation of a 2 1 diastereomeric mixture of cyclopental flquinolizidines 375 and 376 <2002T2189>. When this reductive amination-cyclization procedure was carried out starting from the purified /ra r-isomer of 374, the result was identical to that obtained from the cis-trans mixture, showing the operation of thermodynamic control (Scheme 86). 

The sequence of chiral 1,4-reduction of a fi-substituted cyclopentenone followed by electrophilic trapping of the intermediate enolate provides an efficient route to chiral 2,3-disubstituted cyclopentanones that generates two chiral centers in the process (Eq. 352)459... 

However, the reactions of mono substituted cyclopentanone sometimes becomes so much stereodirected that a mixture of cis and trans isomers is obtained. For example the reduction of 2-alkyl cyclopentanone by LiAlH4 gives a mixture of cis-trans isomeric alkyl cyclopentanols. 

Friederich and Flick " ° synthesized the tetranitrate ester (67) by condensing cyclopentanone with four equivalents of formaldehyde followed by nitration of the condensation product (66) with mixed acid. Reduction of the ketone group of (66), followed by nitration, yields the pentanitrate ester (69). A similar route was used to synthesize analogous nitrate esters from cyclohexanone. ... 

A further eight steps were required to convert the cyclopentanone 52 into the sulfone 59 that was deprotonated and treated with an allylic bromide (60) to afford the alkylated sulfone 61 (Scheme 7). The sulfone moiety and the benzyl ether protecting group were reductively removed in a one-pot procedure to afford a mono-protected diol (62). 

The reason why the carbonyl group in -santonin remained intact may be that, after the reduction of the less hindered double bond, the ketone was enolized by lithium amide and was thus protected from further reduction. Indeed, treatment of ethyl l-methyl-2-cyclopentanone-l-carboxylate with lithium diisopropylamide in tetrahydrofuran at — 78° enolized the ketone and prevented its reduction with lithium aluminum hydride and with diisobutyl-alane (DIBAL ). Reduction by these two reagents in tetrahydrofuran at — 78° to —40° or —78° to —20°, respectively, afforded keto alcohols from several keto esters in 46-95% yields. Ketones whose enols are unstable failed to give keto alcohols [1092]. 

Both 2-cyanocycIohexanone and 2-cyanocyclopentanone give good yields of the CK-aicohol by reduction at a mercury cathode in aqueous alcohol at pH 8 [63]. Reduction of 2-carbethoxy substituted cyclopentanone and cyclohexanone under the same conditions favours the cfr-alcohol at -6° C but the thermodynamically preferred /ra 4-isomer at 80° C [64]. 

Another synthetic route via the Beckmann rearrangement, which is promoted by organoaluminum reagent along with alkylation, involves a new stereoselective reduction of the imino group. The starting oxime sulfonate (228) was synthesized from cyclopentanone (226) in three steps Reaction of 226 with 1-undecene in the presence of silver oxide produced the a-undecylcyclopentanone (227) which on successive treatment with hydroxylamine and methanesulfonyl chlo-ride-triethylamine gave the mesylate (228). Treatment of the oxime mesylate... 

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