Nitroalkenes Michael addition

The mechanism is presumed to involve a pathway related to those proposed for other base-catalyzed reactions of isocyanoacetates with Michael acceptors. Thus base-induced formation of enolate 9 is followed by Michael addition to the nitroalkene and cyclization of nitronate 10 to furnish 11 after protonation. Loss of nitrous acid and aromatization affords pyrrole ester 12. 

The Michael addition of enamines to nitroalkenes proceeds with high Yyn selectivity. The Yyn selectivity is explained by an acyclic synclinal model, in which there is some favorable interaction between the nitro group and the nitrogen lone pair of the enamine group CEq. 4.67i. Both Z- and E-nitrostyrenes afford the same product in over 90% diastereoselecdvity. 

The Michael addition of the copper-zinc reagent derived from ethyl 4-bromobntyrate to the plperonal-derived nitroalkene proceeds cleaniy to give the nitre ester, which is an intermediate for the synthesis of lycoricidine alkaloids fEq. 4.85. ... 

The Michael addition of the carbanions derived from esters to nitroalkenes followed by reductive cycLizadon has been used extensively for the preparation of pyrrondin-3-ones fEq 1076 This strategy is used for synthesis of the carbaaole alkaloid staurosporine aglycon CK-352c ... 

Michael addition of alkyl organometallic reagents to a,/ -disubstituted nitroalkenes followed by protonation of the intermediate nitronate anion generally gives mixtures of syn- and anti-diastereomers with poor diastereoselectivity19. 

Ono and Kamimura have found a very simple method for the stereo-control of the Michael addition of thiols, selenols, or alcohols. The Michael addition of thiolate anions to nitroalkenes followed by protonation at -78 °C gives anti-(J-nitro sulfides (Eq. 4.8).11 This procedure can be extended to the preparation of a/jti-(3-nitro selenides (Eq. 4.9)12 and a/jti-(3-nitro ethers (Eq. 4.10).13 The addition products of benzyl alcohol are converted into P-amino alcohols with the retention of the configuration, which is a useful method for anri-P-amino alcohols. This is an alternative method of stereoselective nitro-aldol reactions (Section 3.3). The anti selectivity of these reactions is explained on the basis of stereoselective protonation to nitronate anion intermediates. The high stereoselectivity requires heteroatom substituents on the P-position of the nitro group. The computational calculation exhibits that the heteroatom covers one site of the plane of the nitronate anion.14... 

The Michael addition of alkoxides to nitroalkenes gives generally a complex mixture of products due to the polymerization of nitroalkenes.16 The effect of cations of alkoxides has been examined carefully, and potassium- or sodium-alkoxides give pure p-nitro-ethers in 78-100% isolated yield (Eqs. 4.12 and 4.13).17 When lithium-alkoxides are employed, the yields are decreased to 20-40%. 

The Michael addition of allyl alcohols to nitroalkenes followed by intramolecular silyl nitronate olefin cycloaddition (Section 8.2) leads to functionalized tetrahydrofurans (Eq. 4.15).20... 

The Michael addition of a nitrogen-centered nucleophile to nitroalkenes affords compounds that may serve as precursors of vicinal diamines, since the nitro group can be reduced to an amino function by reduction. The very convenient method for the preparation of 1,2-diamines is developed by the addition of C-ethylhydroxylamines to nitroalkenes followed by reduction with H2 in the presence of Pd/C (Eq. 4.24).30... 

The Michael addition of phosphine nucleophiles to nitroalkenes provides novel P-nitro phosphonates, as in Eq. 4.32.38 Yamashita and coworkers have shown that the nucleophilic addition of Ph2POH to chiral nitroalkenes derived from sugars proceeds stereoselectively to the S- -isomer (Eq. 4.32) in high diastereoselectivity (ds 11 1). 

Barrett and coworkers have explored hetero-substituted nitroalkenes in organic synthesis. The Michael addition of nucleophiles to 1-alkoxynitroalkenes or 1-phenylthionitroalkenes followed by oxidative Nef reaction (Section 6.1) using ozone gives a-substituted esters or thiol esters, respectively.41 As an alternative to nucleophilic addition to l-(phenylthio)-nitroalkenes, Jackson and coworkers have used the reaction of nucleophiles with the corresponding epoxides (Scheme 4.4).42 Because the requisite nitroalkenes are readily prepared by the Henry reaction (Chapter 3) of aldehydes with phenylthionitromethane, this process provides a convenient tool for the conversion of aldehydes into ot-substituted esters or thiol esters. 

The Michael addition of nitroalkanes to nitroalkenes is catalyzed by triethylamine to give 1,3-dinitro compounds (Eq. 4.45).60 In some cases, the intramolecular displacement of the nitro group takes place to give cyclic nitronates (Eq. 4.46).61... 

Nitroalkenes react with lithium dianions of carboxylic acids or with hthium enolates at -100 °C, and subsequent treatment of the Michael adducts with aqueous acid gives y-keto acids or esters in a one-pot operation, respectively (Eq. 4.52).66 The sequence of Michael addition to nitroalkenes and Nef reaction (Section 6.1) provides a useful tool for organic synthesis. For example, the addition of carbanions derived from sulfones to nitroalkenes followed by the Nef reaction and elimination of the sulfonyl group gives a,P-unsaturated ketones (Eq. 4.53).67... 

Asymmetric Michael addition of chiral enolates to nitroalkenes provides a useful method for the preparation of biologically important compounds. The Michael addition of doubly deprotonated, optically active P-hydroxycarboxylates to nitroalkenes proceeds with high dias-tereoselectivity to give erythro-hydroxynitroesters (Eq. 4.58).76... 

The titanated bislactim ethers of cyclo(L-Val-Gly-) are added to nitroalkenes with high diastereo-selectivity (Eq. 4.60).SOa Michael addition of lactam bearing (S)-2-( 1-ethyl-1-methoxypropyl) pyrrolidine as auxiliary on the lactam nitrogen to nitroalkenes proceeds with high selectivity (de >96%, ee >96%).80b... 

The reaction of enaminones with nitroalkenes gives a pentalenone system via the Michael addition and aldol reaction (Eq. 4.66).85a Linear a-keto enamines react with nitroalkenes to afford [3 + 2] carbocyclized products.8515... 

The chiral enamines provide the opportunity for the enantioselective Michael addition to nitroalkenes, as shown in Eq. 4.68, where the ketone is obtained as a single diastereomer with... 

The Michael addition of formaldehyde hydrazone of (S)-1 -amino-2-(methoxymethyl)pyr-rolidine to nitroalkenes gives P-nitrohydrazones in good chemical yield and stereoselectivity (Eq. 4.70).89... 

Interesting intramolecular cyclization of 1-nitroalkyl radicals generated by one-electron oxidation of aci-nitro anions with CAN is reported. As shown in Eq. 5.44, stereoselective formation of 3,4-functionalized tetrahydrofurans is observed.62 l-Nitro-6-heptenyl radicals generated by one electron oxidation of aci-nitroanions with CAN afford 2,3,4-trisubstituted tetrahydropyrans.63 The requisite nitro compounds are prepared by the Michael addition of 3-buten-l-al to nitroalkenes. 

The conversion of primary or secondary nitro compounds into aldehydes or ketones is normally accomplished by use of the Nef reaction, which is one of the most important transformations of nitro compounds. Various methods have been introduced forthis transformation (1) treatment of nitronates with acid, (2) oxidation of nitronates, and (3) reduction of nitroalkenes. Although a comprehensive review is available,3 important procedures and improved methods published after this review are presented in this chapter. The Nef reaction after the nitro-aldol (Henry reaction), Michael addition, or Diels-Alder reaction using nitroalkanes or nitroalkenes has been used extensively in organic synthesis of various substrates, including complicated natural products. Some of them are presented in this chapter other examples are presented in the chapters discussing the Henry reaction (Chapter 3), Michael addition (Chapter 4), and Diels-Alder reaction (Chapter 8). 

Furthermore, a neighboring group participation of a phenylthio function is observed in the Lewis acid-catalyzed nucleophilic substitution reaction of various P-nitrosulfides. Because the P-nitrosulfides are readily available, by the Michael addition of thiols to nitroalkenes (see Michael addition Chapter 4), this reaction is very useful. The P-nitrosulfides are prepared stereoselectively, and the reaction proceeds in a stereo-specific way (retention of configuration) as shown in Eqs. 31-34.35... 

Yosikoshi reported the synthesis of furan derivatives by the reaction of 1,3-diketones with nitroalkenes, in which the Michael addition of the anions of 1,3-diketones and the subsequent intramolecular displacement of the nitro group by enolate oxygen are involved as key steps (Eq. 7.40).42... 

Sequential Michael additions are versatile methods for the construction of cyclic compounds. Although a variety of these reactions have been developed, the use of alcohols as nucleophiles for the Michael addition to nitroalkenes has been little studied. Recently, Ikeda and coworkers have reported an elegant synthesis of octahydrobenzo[b]furans via the sequential Michael addition of 1-nitro-cyclohexene with methyl 4-hydroxy-2-butynoate in the presence of t-BuOK followed by radical denitration (Eq. 7.74).94... 

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... 

Ono and coworkers have extended the radical elimination of v/c-dinitro compounds to P-nitro sulfones151 and P-nitro sulfides.138,152 As P-nitro sulfides are readily prepared by the Michael addition of thiols to nitroalkenes, radical elimination of P-nitrosulfides provides a useful method for olefin synthesis. For example, cyclohexanone is converted into allyl alcohol by the reaction shown in Eq. 7.110. Treatment of cyclohexanone with a mixture of nitromethane, PhSH, 35%-HCHO, TMG (0.1 equiv) in acetonitrile gives ahydroxymethylated-P-nitro sulfide in 68% yield, which is converted into the corresponding allyl alcohol in 86% yield by the reaction with Bu3SnH.138 Nitro-aldol and the Michael addition reactions take place sequentially to give the required P-nitro sulfides in one pot. 

Michael additions of secondary allylamines to nitroalkenes followed by treatment with Me3SiCl and Et3N afford highly functionalized pyrrolidines via the stereoselective ISOC reaction (Eq. 8.86).137... 

The powerful nucleophilicity of enamines allows the addition of nitroalkenes to take place without the presence of Lewis acids. The isolation of secondary products, which can be explained by an initial Michael addition, suggests the participation of zwitterionic intermediates in the mechanism of the reaction (Eq. 8.97).154... 

The use of oxygen-containing dienophiles such as enol ethers, silyl enol ethers, or ketene acetals has received considerable attention. Yoshikoshi and coworkers have developed the simple addition of silyl enol ethers to nitroalkenes. Many Lewis acids are effective in promoting the reaction, and the products are converted into 1,4-dicarbonyl compounds after hydrolysis of the adducts (see Section 4.1.3 Michael addition).156 The trimethylsilyl enol ether of cyclohexanone reacts with nitrostyrenes in the presence of titanium dichloride diisopropoxide [Ti(Oi-Pr)2Cl2], as shown in Eq. 8.99.157 Endo approach (with respect to the carbocyclic ring) is favored in the presence of Ti(Oi-Pr)2Cl2. Titanium tetrachloride affords the nitronates nonselectively. 

Another pyrrole synthesis based on intramolecular substitution of the nitro group by amino function is presented in Eq. 10.7, in which the Michael addition of enamines to nitroalkenes is used.9... 

The Michael addition to nitroalkenes followed by cyclization provides a general method for the synthesis of various pyrroles. The reaction of nitroalkenes with acetoacetate followed by reduction with Zn in acetic acid provides another route to 2-methyl-3-pyrrolecarboxylates (Eq. 10.8).10... 

The Michael addition of lithium enolates to nitroalkenes followed by reaction with acetic anhydride gives acetic nitronic anhydrides, which are good precursors for 1,4-diketones, pyrroles, and pyrrolidines (Eq. 10.73).113... 

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