Michael addition allylic substitution

The mechanism involves addition of an a-nitro group carbanion issued from 111 to a jr-allylPd complex generated from allylic acetate 112. This latter intermediate can further undergo ring closure through intramolecular Michael addition delivering substituted cyclohexane 113 which has been transformed into dihydroerythramine in several steps. 

ISOC reaction was employed to synthesize substituted tetrahydrofurans 172 fused to isoxazolines (Scheme 21) [44b]. The silyl nitronates 170 resulted via the nitro ethers 169 from base-mediated Michael addition of allyl alcohols 168 to nitro olefins 167. Cycloaddition of 170 followed by elimination of silanol provided 172. Reactions were conducted in stepwise and one-pot tandem fashion (see Table 16). A terminal olefinic Me substituent increased the rate of cycloaddition (Entry 3), while an internal olefinic Me substituent decreased it (Entry 4). 

Some particular features should be mentioned. Instead of Michael additions, a-nitroolefins are reported to yield allyl sulfones under Pd catalysis (equation 21). Halogenated acceptor-olefins can substitute halogen P to the acceptor by ipso-substitution with sulfinate (equation 22 , equation 23 ) or can lose halogen a to the acceptor in the course of a secondary elimination occurring P to the introduced sulfonyl groups (equation 24). On the other hand, the use of hydrated sodium sulfinates can lead to cleavage at the C=C double bond (equation 25). 

As shown in Scheme 2.20, selective lithiation of substrate 2-87 by treatment with LDA in THF at -78 °C triggers an intramolecular Michael/intermolecular aldol addition process with benzaldehyde to give a mixture of diastereomers 2-90 and 2-91. 2-91 was afterwards transformed into 2-92, which is used as a chiral ligand for Pd-catalyzed asymmetric allylic substitution reactions [29]. 

Another domino cuprate 1,4-addition-initiated threefold anionic domino sequence was developed by Chemla and coworkers (Scheme 2.93) [214]. Michael addition of the a, 3-unsaturated ester 2-387 with PhCu(CN)ZnBr was followed by a carbocyclization to give the zinc species 2-388 which can be intercepted by iodine or an allyl bromide affording substituted pyrrolidines 2-389 and 2-390, respectively. 

A typical second step after the insertion of CO into aryl or alkenyl-Pd(II) compounds is the addition to alkenes [148]. However, allenes can also be used (as shown in the following examples) where a it-allyl-r 3-Pd-complex is formed as an intermediate which undergoes a nucleophilic substitution. Thus, Alper and coworkers [148], as well as Grigg and coworkers [149], described a Pd-catalyzed transformation of o-iodophenols and o-iodoanilines with allenes in the presence of CO. Reaction of 6/1-310 or 6/1-311 with 6/1-312 in the presence of Pd° under a CO atmosphere (1 atm) led to the chromanones 6/1-314 and quinolones 6/1-315, respectively, via the Jt-allyl-r 3-Pd-complex 6/1-313 (Scheme 6/1.82). The enones obtained can be transformed by a Michael addition with amines, followed by reduction to give y-amino alcohols. Quinolones and chromanones are of interest due to their pronounced biological activity as antibacterials [150], antifungals [151] and neurotrophic factors [152]. 

An intramolecular radical cyclization gives the cxo-cyclic compounds, which has been extensively used in the synthesis of cyclic compounds. Michael additions of allyl alcohols or propargy 1 alcohols to nitroalkenes and the subsequent treatment with tin radicals provide a useful method for the preparation of substituted furans (Eqs. 7.83 and 7.84).126... 

Titanium tetrachloride-catalysed Michael additions of trimethylsilyl enol ethers to artemisitene afforded a neat route to 14-substituted artemisinin derivatives of type 125 (eg. R = allyl) and to 9-epiartemisinin derivatives 126 some of these compounds were more active against Plasmodium falciparum than artemisinin <00BMCL1601>. A series of 11-azaartemisinins also have better activity than artemisinin <00BMC1111>. On the other hand, epiartemisinin, prepared by base-catalysed epimerisation of artemisinin, has been shown to have poor antimalarial activity <00HCA1239>. 

The retrosynthesis involves the following transformations i) isomerisation of the endocyclic doble bond to the exo position ii) substitution of the terminal methylene group by a more stable carbonyl group (retro-Wittig reaction) iii) nucleophilic retro-Michael addition iv) reductive allylic rearrangement v) dealkylation of tertiary alcohol vi) homolytic cleavage and functionalisation vii) dehydroiodination viii) conversion of ethynyl ketone to carboxylic acid derivative ix) homolytic cleavage and functionalisation x) 3-bromo-debutylation xi) conversion of vinyl trimethylstannane to methyl 2-oxocyclopentanecarboxylate (67). 

Substituted allyl alcohols can be prepared on insoluble supports under mild conditions using the Baylis-Hillman reaction (Figure 7.2). In this reaction, an acrylate is treated with a nucleophilic tertiary amine (typically DABCO) or a phosphine in the presence of an aldehyde. Reversible Michael addition of the amine to the acrylate leads to an ester enolate, which then reacts with the aldehyde. The resulting allyl alcohols are valuable intermediates for the preparation of substituted carboxylic acids [43,44],... 

Ethyl-2-(sulfonylmethyl)- and 2-(cyanomethyl)-allyl carbonates133 as well as (methoxycarbo-nyl)methylallyl carbonates136 serve as substrates for the [3 + 2] cycloaddition. Oxidative addition into the allylic C—O bond of the carbonate, followed by decarboxylation, gives a 2-substituted allylpalladium al-koxide. The alkoxide then deprotonates the C—H a to the electron-withdrawing substituent at the 2-position of the allyl. This anion then undergoes a Michael addition to an a,(3-unsaturated ketone or ester, followed by intramolecular allylation of the anion of the Michael product (Scheme 2). 

One potential problem in the reactions of stabilized allylic or propargylic carb-anions is the dimerization of the starting material if the carbanions are not formed stoichiometrically. Alkenes substituted with electron-withdrawing groups are good Michael acceptors, to which nucleophiles will undergo conjugate addition. For instance, the Baylis-Hillman reaction of allyl cyanide with benzaldehyde requires careful optimization of the reaction conditions to avoid dimerization of the nitrile (Scheme 5.12). This problem is related to a common side reaction of Michael additions reaction of the product with the Michael acceptor (Scheme 10.21). 

The reaction of vinylic phenyliodium salts (57) with cyanide anions could be mistaken for a simple substitution reaction.59 However, the presence of both allylic (58) and vinylic (59) nitrile products suggests a more complex picture. Deuterium labelling experiments show that the allylic product is formed via the Michael addition of cyanide to the vinylic iodonium salt, followed by elimination of iodobenzene and a 1,2-hydrogen shift in the 2-cyanocycloalkylidene intermediate (60). H-shift occurs from the methylene carbon in preference to the methine carbon. The effects of substitution and different nucleophiles were examined. 

In the catalytic presence of tetrabutylammonium fluoride, a trimethylsilyl group is cleaved from AKtrimethylsilyl)rnethylbenzylimine to form the resonance-stabilized 2-aza-allyl anion which undergoes a Michael addition reaction with, for example, methyl acrylate, giving y-aminoesters.333 These types of aminoesters serve as a starting material for the elaboration of diversely substituted pyrrolidones.334... 

A stereoselective synthesis of substituted pyrrolidines has been achieved by a sequential domino Michael addition and intramolecular carbozincation. The intermediate zinc-copper reagent obtained after cyclization can be trapped with an electrophile such as allyl bromide (Scheme 18).180 Addition of zincated hydrazones 52 on alkenyl boronates, followed by a trapping with an electrophile, provides adduct of type 53 with good yield and high diastereoselectivity (Scheme 19).181 By this addition/trapping sequence, several contiguous stereogenic centers are created in one step. 

Indium-mediated allylation of a nitro group is achieved in aqueous media to give A,A-diallylamine and 7V,0-diallylhydroxylamine (Equation (81)) 316 In situ generated sulfonium salts derived from a,/3-enones undergo a nucleophilic substitution with allylindium reagents to give the corresponding Michael addition products (Scheme 83).317... 

Furthermore, following an analogous methodology, combining the Morita-Baylis-Hillman reaction and the Trost-Tsuji reaction, Krische and co-workers have obtained allyl-substituted cyclopentenones 94 [84], Reaction was initiated by Michael addition of tributyl phosphine to an enone moiety 92, generating a latent enolate 93 which reacts intramolecularly with a jr-allylPd complex as the electrophile partner. A final -elimination step of trib-utylphosphine, favored by the presence of the methoxide ion, delivered the substituted cyclopentenones 94 (Scheme 36). 

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