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Substituted cyclopentenones

The growing importance of cyclopropane derivatives (A. de Meijere, 1979), as synthetic intermediates originates in the unique, olefin-like properties of this carbocycle. Cyclopropane derivatives with one or two activating groups are easily opened (see. p. 69f.). Some of these reactions are highly regio- and stereoselective (E. Wenkert, 1970 A, B E. J. Corey, 1956 A, B, 1975 see p. 70). Many appropriately substituted cyclopropane derivatives yield 1,4-difunctional compounds under mild nucleophilic or reductive reaction conditions. Such compounds are especially useful in syntheses of cyclopentenone derivatives and of heterocycles (see also sections 1.13.3 and 4.6.4). [Pg.76]

Group IV substituted, 1, 609-614 Cyclopentenone, 2-alkyl-4-hydroxy-synthesis, 1, 424... [Pg.591]

In addition to the synthesis of heterocycles, the Corey-Chaykovsky reaction bestows an entry to carbocycles as well. The reaction of (trialkylsilyl)vinylketene 89 with substituted ylide 90 led exclusively to rrans-4,5-dimethyl cyclopentenone 91. The substituted ylide 90 here serves as a nucleophilic carbenoid reagent in the formal [4 +1] annulation reaction. [Pg.12]

An interesting consequence of the base-catalyzed isomerization of unsatu-rated ketones described in Problem 22.37 is that 2-substituted 2-cyclopen tenones can be interconverted with 5-sub tituted 2-cyclopentenones. Propose a mechanism for this isomerization. [Pg.871]

Although 2-substituted 2-cyclopentenones are in a base-catalyzed equilibrium with their 5-substituted 2-cyclopentenone isomers (Problem 22.38). the analogous isomerization is not observed for 2-subslitutcd 2-cyclohexenones. Explain. [Pg.872]

Under similar reaction conditions the 2-substituted 2-cyclopentenone gave an inseparable mixture (52 48) of diastereomeric tra . -adducts in 45% yield. These compounds differed in the configuration at the thiokctal methine14. [Pg.925]

The addition of the anions of racemic cyclic allylic sulfoxides to various substituted 2-cyclopentenones gives y-l,4-adducts as single diastereomeric products22. The modest yields were due to competing proton-transfer reactions between the anion and enone. The stereochemical sense of these reactions is identical to that for the 1,4-addition reaction of (Z)-l-(/erf-butylsulfinyl)-2-methyl-2-butene to 2-cyclopentenone described earlier. [Pg.933]

From studies on the addition of racemic allylic sulfoxide anions of 3-substituted l-(phenyl-sulfinyl)-2-propenes to racemic 4-tcrr-butoxy-2-cyclopentenone, it was found that (El-allylic sulfoxides give. vyw-products, and (Z)-allylic sulfoxides give anti-productsx. [Pg.933]

The reactions of the lithium enolates of substituted 2-cyclohexenones and 2-cyclopentenones with ( )-l-nitropropene give a mixture of syn- and ami-products3. The lithium enolate of 3,5,5-trimethyl-2-cyclohexenone gives a mixture of the syn- and //-3.5,5-trimethyl-6-(l-methyl-2-nitroethyl)-2-cyclohexcnoncs in modest diastereoselection when the reaction mixture is quenched with acetic acid after. 30 minutes at —78 =C. When the reaction mixture is heated to reflux, tricyclic products are obtained resulting from intramolecular Michael addition of the intermediate nitronate ion to the enone moiety. [Pg.1012]

When enantiomerically pure allyl p-tolyl sulfoxide is deprotonated and then treated with electrophilic 2-cyclopentenone, a conjugate addition occurs forming a new carbon-carbon bond with very high control of absolute stereochemistry (equation 25)65. See also Reference 48. Similarly, using more substituted enantiomerically pure allylic sulfoxides leads to virtually complete diastereocontrol, as exemplified by equations 26 and 27 the double bond geometry in the initial allylic sulfoxide governs the stereochemistry at the newly allylic carbon atom (compare equations 26 vs. 27)66. Haynes and associates67 rationalize this stereochemical result in terms of frontier molecular orbital considerations... [Pg.834]

An intramolecular version of enolate Michael addition to enantiomerically pure vinylic sulfoxides is represented by reaction of a cyclopentenone sulfoxide with dichloroketene (Scheme 5)90 this type of additive Pummerer rearrangement has been developed by Marino and coworkers91 into a highly effective way of constructing variously substituted lactones in very high enantiomeric purity (equation 43). [Pg.843]

Diastereoselective and enantioselective [3C+2S] carbocyclisations have been recently developed by Barluenga et al. by the reaction of tungsten alkenylcarbene complexes and enamines derived from chiral amines. Interestingly, the regio-chemistry of the final products is different for enamines derived from aldehydes and those derived from ketones. The use of chiral non-racemic enamines allows the asymmetric synthesis of substituted cyclopentenone derivatives [77] (Scheme 30). [Pg.82]

Scheme 2 RCM-based formation of a highly substituted cyclopentenone in Trost s synthesis of the cyclopentenyl core of viridenomycin (12) [22]... Scheme 2 RCM-based formation of a highly substituted cyclopentenone in Trost s synthesis of the cyclopentenyl core of viridenomycin (12) [22]...
Tropone (125) and the 2-substituted tropones showed a different reactivity in the cycloaddition with 2-cyclopentenone (28). Whereas tropone itself (125) and the 2-methoxytropone (126) reacted at lOkbar, giving a mixture of four and three products, respectively (Scheme 5.18), 2-hydroxy- and 2-chloro-tropone failed to react at all [43b]. Compound 127 does not have the expected dihydro-homobarrelenone framework it is probably derived from the cycloaddition of 125 and 1,4-cyclopentadien-l-ol, the enol form of 28. [Pg.226]

Ethyl ethylthiomethyl sulphoxide anion 325 has been found to give better yield of 1,4-adducts compared with its methyl analogue . This anion has been used by Schlessinger and coworkers as a key reagent in the synthesis of 1,4-dicarbonyl precursors of naturally occurring cyclopentenones, e.g. dihydrojasmone 379 (equation 219). Michael addition of the anion of optically active (-l-)-(S)-p-tolyl p-tolylthiomethyl sulphoxide 380 to the properly substituted cyclopentenone constitutes an important step in the asymmetric synthesis of optically active cyclopentenone 381, which is a precursor of 11-deoxy-ent-prostanoids (equation 220). The reaction proceeds with a high and y-asymmetric induction (92%), but with a poor a-stereoselection (52 48). [Pg.321]

More substituted and unactivated dienophiles such as 3-acetoxy-2-methyl-cyclopentenone, did not react with 112 even in the presence of BF3 etherate. 4-Acetylspiro[2.1.2.3]decen-9-one (128) could also be isolated under these con-... [Pg.28]

The intermediate enolate or enol ether from the initial reduction of an enone may be alkylated in situ (Eq. 281).455 / -Substituted cyclopentenones may be asymmetrically reduced and alkylated459 (see section on asymmetric reductions of enones). Enolates may also be trapped with an aldehyde in a reductive aldol condensation of an enone with an aldehyde,455 permitting a regioselective aldol condensation to be carried out as shown in Eq. 282.455 This class of reductive aldol condensation reactions can also occur in a cyclic manner (Eq. 283).460... [Pg.92]

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]

The addition of the 2-substituted 2-cyclopentenone in (4.57) to ethylene affords an intermediate which is converted to tricyclo[4.2.0.01,4]octane 469a). A similar broken window compound was also obtained by an intramolecular photocycloaddition of a 2-cyclopentenone (4.58)469b). [Pg.60]

The relatively low percentage of ring substitution can be attributed to several side reactions 1,4-addition of Li to 2-cyclopentenone, incomplete dehydration of 4 as evidenced by the presence of a small hydroxyl absorption (3425 cm ) in the IR spectrum of 5, and reduction of the polymer-bound cyclopentadiene in its reaction with Co2(C0)8 (26,27,32). [Pg.170]

A 2-step route to oxygenated bicyclo[n.3.0]alkanes via bicyclic 4-pyrones such as 133 has been reported (equation 2)62. Irradiation in hydroxy lie solvents caused ring contraction to the zwitterion, followed by solvent incorporation to give fused bicyclic cyclopentenone 134. Good regioselectivity in favor of solvent capture at the more substituted oxyallyl terminus was seen in differentially substituted examples, presumably due to increased... [Pg.289]

The acid-catalysed ring-closure of divinyl ketones to cyclopentenones (equation 6), the Nazarov reaction6-8, represents a conrotatory electrocyclization of 4jr-cyclopentadienyl cations. The conrotatory course of the reaction was confirmed for the case of the dicyclo-hexenyl ketone 7, which yielded solely the tricyclic ketone 8 on treatment with phosphoric acid (equation 7)3b. Cycloalkanocyclopentenones 10 with c/s-fused rings are obtained from the trimethylsilyl-substituted ketones 9 (n = 1, 2 or 3) and iron(III) chloride and... [Pg.508]

Addition of carbon nucleophiles to furfural tosylhydrazone provides 5-substituted 2E,4E-pentadienyls in good yields <00TL2667>. The ab initio calculations at the RHF/3-21G level have been utilized to study the origins of diastereoselectivity of the vinylogous Mannich reaction of 2-methylfuran with pyrrolinium ion . A simple procedure for isomerization of 2-furylcarbinols to cyclopentenones under neutral condition was reported and a new mechanism was proposed <00H(52)185>. [Pg.138]

Castagnino, E., Corsano, S., and Strappavecchia, G.P., The preparation of a novel oxo-cyclopenten-2-phosphonate derivative, useful intermediate for 2-alkyl-substituted cyclopentenones synthesis, Tetrahedron Lett., 93, 1985. [Pg.97]

The first catalytic 1,4-addition of diethylzinc to 2-cyclopentenone with over 90% ee was described by Pfaltz and Escher, who used phosphite 54 with biaryl groups at the 3,3 -positions of the BINOL backbone.46 Chan and co-workers achieved high enantioselectivity in the same reaction (up to 94% ee) by using chiral copper diphosphite catalyst (R,R,R)-41 48,48a 48d Hoveyda and co-workers used ligand 46 to realize excellent enantiocontrol (97% ee) in the 1,4-additions of 2-cyclopentenones,52 which may be used in the practical asymmetric synthesis of some substituted cyclopentanes (including prostaglandins). [Pg.379]

Cyclopentenones. Some time ago, Martin et al.1 reported that a,(3-unsaturated acid chlorides react with acetylene in the presence of 1 equiv. of A1C1, to give 5-chlorocyclopentenones. More recent research2 shows that this reaction is a convenient route to 4- and 5-substituted cyclopentenones after zinc reduction (equation... [Pg.21]

The groups of Liebeskind and Moore independently explored the ring expansion of allenyl-substituted cyclobutenol derivatives. This allows either the preparation of 5-alkylidene-2-cyclopentenones, which are substructures of naturally occurring bioactive compounds [59], or the generation of o-quinone methides, which are very attractive intermediates in the synthesis of hexahydrocannabinols [109]. As shown in Scheme 8.42, the ring expansion of the tetrasubstituted methoxyallene derivative 170 furnished the vinylhydroquinone 172 in high yield [109]. [Pg.454]


See other pages where Substituted cyclopentenones is mentioned: [Pg.201]    [Pg.75]    [Pg.189]    [Pg.189]    [Pg.521]    [Pg.241]    [Pg.87]    [Pg.983]    [Pg.321]    [Pg.22]    [Pg.32]    [Pg.174]    [Pg.252]    [Pg.546]    [Pg.695]    [Pg.6]    [Pg.122]    [Pg.120]    [Pg.169]    [Pg.38]    [Pg.76]   


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Cyclopentenone 4-substituted

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