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Michael addition substitution

With an excess of a highly nucleophilic Michael donor (phenylsulfanate, piperidine, dimeth-ylamine), the addition products can further undergo substitution of the chlorine. In an intramolecular version of this conversion, cyclic skeletons 18 were prepared in a single step engaging a Michael addition-substitution reaction sequence. In a few cases attack at the ester carbonyl functionality of 17 led to lactams 19. ... [Pg.1551]

The addition of large enolate synthons to cyclohexenone derivatives via Michael addition leads to equatorial substitution. If the cyclohexenone conformation is fixed, e.g. as in decalones or steroids, the addition is highly stereoselective. This is also the case with the S-addition to conjugated dienones (Y. Abe, 1956). Large substituents at C-4 of cyclic a -synthons direct incoming carbanions to the /rans-position at C-3 (A.R. Battersby, 1960). The thermodynamically most stable products are formed in these cases, because the addition of 1,3-dioxo compounds to activated double bonds is essentially reversible. [Pg.72]

Oxidative dimerization of various 2-benzyloxy-2-thiazoline-5-ones (222) catalyzed by iodine and triethylamine is another example of the nucleophilic reactivity of the C-4 atom (469) (Scheme 112). Treatment of 212 with pyrrolidinocyclohexene yields the amide (223) (Scheme 113). The mechanism given for the formation of 223 is proposed by analogy with the reactivitx of oxazolones with enamines (4701. 4-Substituted 2-phenylthiazol-5(4Hi-ones react with A -morphoiino-l-cyclohexene in a similar manner (562j. Recently. Barret and Walker have studied the Michael addition products... [Pg.432]

These reversible reactions are cataly2ed by bases or acids, such as 2iac chloride and aluminum isopropoxide, or by anion-exchange resias. Ultrasonic vibrations improve the reaction rate and yield. Reaction of aromatic aldehydes or ketones with nitroparaffins yields either the nitro alcohol or the nitro olefin, depending on the catalyst. Conjugated unsaturated aldehydes or ketones and nitroparaffins (Michael addition) yield nitro-substituted carbonyl compounds rather than nitro alcohols. Condensation with keto esters gives the substituted nitro alcohols (37) keto aldehydes react preferentially at the aldehyde function. [Pg.100]

The most extensive mechanistic studies of quinone Michael addition chemistry involve the arylsufinic acids, which yield reduced product (50,51). The sulfones produced in such reactions have been examined electrochemicaHy (48) and kineticaHy (52). The influence of substitutents in the quinone has... [Pg.410]

Nucleophilic Substitution Reactions. Many of the transformations reali2ed through Michael additions to quiaones can also be achieved usiag nucleophilic substitution chemistry. In some iastances the stereoselectivity can be markedly improved ia this fashion (100), eg, ia the reaction of ben2enethiol with esters (R = CH C O) and ethers (R = 3) 1,4-naphthoquiaones. 2-Bromo-5-acetyloxy-l,4-naphthoquiQone [77189-69-6J, R = Br, yields 75% of 2-thiophenyl-5-acetyloxy-l,4-naphthoquinone [71700-93-1], R = SC H. 3-Bromo-5-methoxy-1,4-naphthoquinone [69833-10-9], R = Br, yields 82% of 3-thiophenyl-5-methoxy-l,4-naphthoquinone [112740-62-2] R = SC H. ... [Pg.416]

A thiol, usually under basic catalysis, can undergo Michael addition to an activated double bond, resulting in protection of the sulfhydryl group as a substituted 5-ethyl derivative. [Pg.295]

A reaction related to the Michael addition reactions of enamines to unsaturated esters, which leads to S-ketoesters, is the reaction with 1-carb-ethoxy-l-cyanocyclopropane (318). This gives access to ketones substituted with the next higher homologous acid chain. [Pg.364]

Michael additions of benzotriazole-stabilized carbanions 98CCC599. Properties and synthetic utility of N-substituted benzotriazoles 98CRV409. [Pg.255]

Finally we have performed the Michael addition reactions of malononitrile and 3-(2-alkenoyl)-2-oxazolidinones in dichloromethane in the presence of the R,R-DBF0X/Ph-Ni(C104)2-31 20 and TMP (10 mol% each). Enantioselectivities were a little lower than 90% ee for acceptors having a variety of / -substituents. The best selectivity was 94% ee in the reaction of t-butyl-substituted acceptor (Scheme 7.50). [Pg.294]

The stereochemical outcome of the Michael addition reaction with substituted starting materials depends on the geometry of the a ,/3-unsaturated carbonyl compound as well as the enolate geometry a stereoselective synthesis is possible. " Diastereoselectivity can be achieved if both reactants contain a stereogenic center. The relations are similar to the aldol reaction, and for... [Pg.202]

Enamines react with acceptor-substituted alkenes (Michael acceptors) in a conjugate addition reaction for example with o ,/3-unsaturated carbonyl compounds or nitriles such as acrylonitrile 8. With respect to the acceptor-substituted alkene the reaction is similar to a Michael addition ... [Pg.268]

The Michael addition of nih oalkanes to alkenes substituted with two elecbon-withdrawing groups at the a- and 3-positions provides a new method for the preparation of functionalized alkenes. Although reactions are not new, Ballini and coworkers have used this sbategy in the synthesis of polyfunctionalized unsaturated carbonyl derivatives by Michael addition of nih oalkanes to enediones as shown in Eqs. 7.124-7.126. Success of this type of reaction depends on the base and solvent. They have found that DBU in acetonihile is the method of choice for this puipose. This base-solvent system has been used widely in Michael additions of nitroalkanes to elechon-deficient alkenes (see Section 4.3, which discusses the Michael addition). ... [Pg.220]

From the foregoing it can be seen that the nitro group can be activated for C-C bond formation in various ways. Classically the nitro group facilitates the Henry reaction, Michael addition, and Diels-Alder reaction. Komblum and Russell have introduced a new substitution reaction, which proceeds via a one electron-transfer process The Spj l reactions have... [Pg.225]

Carbonyl condensation reactions are widely used in synthesis. One example of their versatility is the Robinson anuulation reaction, which leads to the formation of an substituted cyclohexenone. Treatment of a /3-diketone or /3-keto ester with an a,/3-unsaturated ketone leads first to a Michael addition, which is followed by intramolecular aldol cyclization. Condensation reactions are also used widely in nature for the biosynthesis of such molecules as fats and steroids. [Pg.905]

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]

The Gabriel-Cromwell aziridine synthesis involves nucleophilic addition of a formal nitrene equivalent to a 2-haloacrylate or similar reagent [29]. Thus, there is an initial Michael addition, followed by protonation and 3-exo-tet ring-closure. Asymmetric variants of the reaction have been reported. N-(2-Bromo)acryloyl camphor-sultam, for example, reacts with a range of amines to give N-substituted (azir-idinyl)acylsultams (Scheme 4.23) [30]. [Pg.128]

In general, the Michael addition of a-substituted amide dienolates to a,/j-unsaturated esters is a method with great future potential for the diastereoselective construction of adjacent tertiary and quaternary stereogenic centers80. [Pg.962]

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 diastereoselective intramolecular Michael addition of /(-substituted cyclohexcnoncs results in an attractive route to ra-octahydro-6//-indcn-6-ones. The stereogenic center in the -/-position of the enone dictates the face selectivity, whereas the trans selectivity at Cl, C7a is the result of an 6-exo-trig cyclization. c7.v-Octahydro-5//-inden-5-ones are formed as the sole product regardless of which base is used, e.g., potassium carbonate in ethanol or sodium hydride in THF, under thermodynamically controlled conditions139 14°. An application is found in the synthesis of gibberellic acid141. [Pg.969]

Using 3-substituted cyclohexanones the /rans-diastereoselective synthesis of decalones and octahydro-1 //-indenones may be achieved 164 169. This method has been applied, for instance, in the synthesis of 19-norsteroids. In a related Michael addition the lithium enolate of (R)-5-trimethylsilyl-2-cyclohexenone reacts with methyl 2-propenoate selectively tram to the trimethylsilyl substituent. Subsequent intramolecular ring closure provides a single enantiomer of the bicyclo[2.2.2]octane170 (see also Section 1.5.2.4.4.). [Pg.971]

The Enders method has also been used as a key step in the synthesis of optically active Ar-heterocycles. The use of cyclic 1,3-diketones for the preparation of the SAMP or RAMP lithium azaenolates is shown by the synthesis of substituted 4,6,7,8-tetrahydro-2,5(l//,3//)-quinolinediones 2. Michael addition of 1 with, for example, benzylidene propanedioates followed by removal of the auxiliary and lactamization gives 2 with > 98% ee201. [Pg.976]

Under thermodynamically controlled conditions, using triethylamine as base for the addition of enones to 5 and sodium methoxide in methanol as base for the addition of a,/ -unsaturated esters, the diastereomeric ratios of 6 range from 95 5 to 97 3. The excellent diasteroselectivities are retained in the Michael addition of 5 to -substituted enones and esters, however, modest synjami selectivities are found212,213. [Pg.982]

The Michael additions of chiral cycloalkanone imines or enamines, derived from (FV l-l-phcnyl-ethanamine or (5)-2-(methoxymethyl)pyrrolidine, are highly diastereofacially selective reactions providing excellent routes to 2-substituted cycloalkanones. This is illustrated by the addition of the enamine of (S)-2-(methoxymethyl)pyrrolidine and cyclohexanone to 2-(aryl-methylene)-l,3-propanedioates to give, after hydrolysis, the (2 5,a.S )-oxodicstcrs in 35-76% yield with d.r. (2 S,aS)/(2 S,a/ ) 94 6- > 97 3 and 80-95% ee214. [Pg.982]

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]

Halogenovinyl sulphoxides 551 react with nucleophiles to give -substituted vinyl sulphoxides 552. The first step in the reaction is a Michael addition, followed by an elimination of a halide anion605,627 (equation 351). [Pg.355]

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]


See other pages where Michael addition substitution is mentioned: [Pg.318]    [Pg.7]    [Pg.482]    [Pg.279]    [Pg.40]    [Pg.665]    [Pg.755]    [Pg.296]    [Pg.148]    [Pg.162]    [Pg.121]    [Pg.12]    [Pg.76]    [Pg.80]    [Pg.162]    [Pg.638]    [Pg.169]    [Pg.173]    [Pg.321]    [Pg.323]    [Pg.409]    [Pg.704]   
See also in sourсe #XX -- [ Pg.417 ]

See also in sourсe #XX -- [ Pg.417 ]

See also in sourсe #XX -- [ Pg.417 ]

See also in sourсe #XX -- [ Pg.97 , Pg.98 , Pg.331 , Pg.332 , Pg.417 ]




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Acceptor-substituted enynes anti-Michael addition

Michael addition Conjugate substitution reaction

Michael addition allylic substitution

Nucleophilic substitutions Tandem Michael additions

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