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Cyclopentanones, -substituted

Cyclopentanones.3 Substituted cyclopentanones are formed on treatment of 1-acyl-l-(alkylthio)cyclobutanes with A1C13, AlBr3, or FeCl3. Yields range from 55 to 90%. A typical synthesis is shown in equation (I). [Pg.26]

Cydopentane reagents used in synthesis are usually derived from cyclopentanone (R.A. Ellison, 1973). Classically they are made by base-catalyzed intramolecular aldol or ester condensations (see also p. 55). An important example is 2-methylcydopentane-l,3-dione. It is synthesized by intramolecular acylation of diethyl propionylsucdnate dianion followed by saponification and decarboxylation. This cyclization only worked with potassium t-butoxide in boiling xylene (R. Bucourt, 1965). Faster routes to this diketone start with succinic acid or its anhydride. A Friedel-Crafts acylation with 2-acetoxy-2-butene in nitrobenzene or with pro-pionyl chloride in nitromethane leads to acylated adducts, which are deacylated in aqueous acids (V.J. Grenda, 1967 L.E. Schick, 1969). A new promising route to substituted cyclopent-2-enones makes use of intermediate 5-nitro-l,3-diones (D. Seebach, 1977). [Pg.81]

The prochiral meso form of 2-cyclopenlen-1,4-diol (101) reacts with the (Z)-alkenyl iodide 102 to give the 3-substituted cyclopentanone 103 with nearly complete diastereoselectivity (98 2)[92], The reaction is used for the synthesis of prostaglandin. The alkenyl iodide 102 must be in the Z form in order to obtain the high diastereoselectivity. The selectivity is low when the corresponding (Z)-alkenyl iodide is used[93]. [Pg.143]

The secondary amines used in the preparation of enamines have been primarily simple dialkylamines or cyclic amines of five- or higher-membered rings. Azetidine (4) yields a stable enamine with cyclopentanone (28). No simple enamines formed by condensation of ethylenimine (5) or a substituted ethylenimine with an aldehyde or ketone have been reported. [Pg.58]

The cyclic /3-keto ester produced in a Dieckmann cyclization can be further alkylated and decarboxylated by a series of reactions analogous to those used in the acetoacetic ester synthesis (Section 22.7). For example, alkylation and subsequent decarboxylation of ethyl 2-oxocyclohexanecarboxylate yields a 2-alkylcvclohexanone. The overall sequence of (1) Dieckmann cyclization, (2) /3-keto ester alkylation, and (3) decarboxylation is a powerful method for preparing 2-substituted cyclohexanones and cyclopentanones. [Pg.892]

The synthetic problem is now reduced to cyclopentanone 16. This substance possesses two stereocenters, one of which is quaternary, and its constitution permits a productive retrosynthetic maneuver. Retrosynthetic disassembly of 16 by cleavage of the indicated bond furnishes compounds 17 and 18 as potential precursors. In the synthetic direction, a diastereoselective alkylation of the thermodynamic (more substituted) enolate derived from 18 with alkyl iodide 17 could afford intermediate 16. While trimethylsilyl enol ether 18 could arise through silylation of the enolate oxygen produced by a Michael addition of a divinyl cuprate reagent to 2-methylcyclopentenone (19), iodide 17 can be traced to the simple and readily available building blocks 7 and 20. The application of this basic plan to a synthesis of racemic estrone [( >1] is described below. [Pg.162]

An important stage in the synthesis has been reached. It was anticipated that cleavage of the trimethylsilyl enol ether in 18 using the procedure of Binkley and Heathcock18 would regiospecifically furnish the thermodynamic (more substituted) cyclopentanone enolate, a nucleophilic species that could then be alkylated with iodo-diyne 17. To secure what is to become the trans CD ring junction of the steroid nucleus, the diastereoisomer in which the vinyl and methyl substituents have a cis relationship must be formed. In the... [Pg.162]

Similar to cyclohexanones, substituted cyclopentanones also adopt a conformation with the substituents in a sterically favorable position. In the case of 2-substituted cyclopentanones 1 the substituent occupies a pseudoequatorial position and the diastereoselectivity of nucleophilic addition reactions to 1 is determined by the relative importance of the interactions leading to predominant fra s(equatorial) or cw(axial) attack of the nucleophile. When the nucleophile approaches from the cis side, steric interaction with the substituent at C-2 is encountered. On the other hand, according to Felkin, significant torsional strain between the pseudoaxial C-2—H bond and the incipient bond occurs if the nucleophile approaches the carbonyl group from the trans side. [Pg.14]

Precomplexation of 2-butylcyclopentanone with methylaluminum bis(2,6-di-hrt-butyI-4-methylphenoxide) (MAD), prior to the addition of methyllithium, leads to the exclusive formation of the equatorial alcohol via cis attack3 4. However, this methodology is apparently not applicable to 3-substituted cyclopentanones. Thus, addition of propylmagnesium bromide to... [Pg.15]

Generally, in contrast to 2-substituted cyclopentanones, the diastereoselectivity of addition reactions to 3-substituted cyclopentanones is nearly independent of the nucleophile and the substituent in the 3-position. Thus, addition of various Grignard reagents, including ethynyl reagents, to 3-methyl- and 3-ferf-butylcyclopentanone leads to almost the same ratio of diastereomers (Table 3)3,4 6, 27,2s... [Pg.15]

Exclusive trims attack of the nucleophile is also observed with 2,3-epoxycyclopentanones 1559. In contrast to 2-alkyl- and 2-methoxy-substituted cyclopentanones, preferential trans attack to 2,3-epoxycyclopenlanones occurs with alkyl, ethenyl, and ethynyl nucleophiles. Thus, there is no assistance by the epoxidic oxygen for cis attack. Due to the geometry of the molecule, chelation-controlled cis attack is not possible39 60. [Pg.19]

The intramolecular Michael addition of acyclic systems is often hampered by competing reactions, i.e., aldol condensations. With the proper choice of Michael donor and acceptor, the intramolecular addition provides a route to tram-substituted cyclopentanones, and cyclopentane and cyclohexane derivatives. Representative examples are the cyclizations of /3-oxo ester substituted enones and a,/J-unsaturated esters. [Pg.968]

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). [Pg.166]

Although cyclopentanone 2 is a rather simple looking small molecule, the 3,4-trans-substituted architecture in a cyclopentanone ring provides significant complexity to this molecule. We devised two alternative routes for the preparation of 2. [Pg.47]

Knolker and coworkers also used a domino [3+2] cycloaddition for the clever formation of a bridged tetracyclic compound 4-172, starting from a cyclopentanone 4-168 and containing two exocydic double bonds in the a-positions (Scheme 4.36) [57]. The reaction of 4-168 with an excess of allylsilane 4-169 in the presence of the Lewis acid TiCLj led to the spiro compound 4-170 in a syn fashion. It follows a Wag-ner-Meerwein rearrangement to give a tertiary carbocation 4-171, which acts as an electrophile in an electrophilic aromatic substitution process. The final step is the... [Pg.303]

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... [Pg.108]

Intramolecular C-H insertion reactions of metal carbenoids have been widely used for the stereoselective construction of substituted lactams, lactones, cyclopentanones, benzofurans, and benzopyrans. Several excellent reviews have been published covering the general aspects of intramolecular C-H insertion by metal carbenoids.46,47 62 71 99-104 The following section highlights the major advances made since 1994, especially in asymmetric intramolecular C-H insertion. [Pg.181]

In the case of 3-substituted cyclopentanones or cycloheptanones, derivatization with diamine is slower, and the reaction time ranges from a few minutes to several hours. This method is not applicable to acyclic ketones and enones. [Pg.26]

An interesting example of a facile anionic multi-step one-pot reaction is the condensation of 2-ethylpropenal with substituted cyclopentanones using DBU as base to give functionalized cyclohep-... [Pg.45]

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. [Pg.179]

Condensation of [3- or "y-amino alcohols with aldehydes or ketones RR CO gives the product 27. In solution the position of the equilibrium varies with R and R, and with the solvent (73). When the carbonyl reactant is a substituted benzaldehyde, the solid is found (IR, KBr) to comprise molecules of the open-chain structure 27a, whereas aliphatic aldehydes and ketones give crystals of dihydro- 1,3-benzoxazines, 27b. An interesting case is that of the condensation product of o-hydroxybenzylamine with cyclopentanone, for which McDonagh and Smith (73) suggest that ring and chain tautomers coexist in the solid. [Pg.151]


See other pages where Cyclopentanones, -substituted is mentioned: [Pg.201]    [Pg.299]    [Pg.74]    [Pg.349]    [Pg.126]    [Pg.306]    [Pg.14]    [Pg.15]    [Pg.249]    [Pg.178]    [Pg.147]    [Pg.56]    [Pg.226]    [Pg.131]    [Pg.169]    [Pg.53]    [Pg.61]    [Pg.76]    [Pg.77]    [Pg.335]    [Pg.868]    [Pg.104]    [Pg.272]    [Pg.10]   
See also in sourсe #XX -- [ Pg.465 ]




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Cyclopentanones, -substituted synthesis

Substituted cyclopentanone

Substituted cyclopentanone

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