Nitroalkanes enones

In recent years, there has been increased recognition that water is an attractive medium for organic reactions from the environmental point of view. The Michael addition of various nitroalkanes to conjugated enones can be performed in NaOH (0.025 M) and in the presence of cetyltrimethylammonium chloride (CTAC1) as cationic surfactant in the absence of organic solvents (Eq. 4.109).146 The Michael addition of nitromethane to methyl acrylate is carried out in water using NaOH as a base to give the mono adduct (Table 4.2).147... 

The Michael addition of nitroalkanes to a,P-unsaturated ketones followed by the Nef reaction has been extensively used as a method for the conjugated addition of acyl anions to enones (see Section 6.1, Nef Reaction). This strategy is one of the best methods for the preparation of 1,4-dicarbonyl compounds.156a h Various natural products have been prepared via this route.157 For example, r/.v-jasmone is prepared from readily available materials, as shown in Scheme 4.19.156f... 

The synthesis of 2,3,5-trialkylpyrroles can be easily achieved by conjugate addition of nitroalkanes to 2-alken-l,4-dione (prepared by oxidative cleavage of 2,5-dialkylfuran) with DBU in acetonitrile, followed by chemoselective hydrogenation (10% Pd/C as catalyst) of the C-C- double bond of the enones obtained by elimination of HN02 from the Michael adduct. The Paal-Knorr reaction (Chapter 10) gives 2,3,5-trialkylpyrroles (Eq. 4.124).171... 

Catalytic enantioselective nucleophilic addition of nitroalkanes to electron-deficient alke-nes is a challenging area in organic synthesis. The use of cinchona alkaloids as chiral catalysts has been studied for many years. Asymmetric induction in the Michael addition of nitroalkanes to enones has been carried out with various chiral bases. Wynberg and coworkers have used various alkaloids and their derivatives, but the enantiomeric excess (ee) is generally low (up to 20%).199 The Michael addition of methyl vinyl ketone to 2-nitrocycloalkanes catalyzed by the cinchona alkaloid cinchonine affords adducts in high yields in up to 60% ee (Eq. 4.137).200... 

Yamaguchi and coworkers have found that proline rubidium salts catalyze the asymmetric Michael addition of nitroalkanes to prochiral acceptors. When (25)-L-prolines are used, acyclic ( )-enones give (S)-adducts. Cyclic (Z)-enones give (R)-adducts predominantly (Eq. 4.139).203 Recently, Hanessianhas reported that L-proline (3 7% mol equiv) and 2,5-dimethylpiperazine are more effective to induce catalytic asymmetric conjugate addition of nitroalkanes to cycloal-kanones.204... 

The Nef reaction can also be carried out with reducing agents. Aqueous titanium chloride reduces nitro compounds to imines, which are readily hydrolyzed to carbonyl compounds (Eq. 6.17).28 The Michael addition of nitroalkanes to enones followed by reaction with TiCl3 provides an excellent route to 1,4-diketones and hence to cyclopentenones. For example, cw-jasmone is readily obtained,28 as shown in Eq. 6.18. 

Elegant application of the Michael addition of nitroalkanes to enones followed by denitration is demonstrated in the synthesis of (+) dihydromevinol, (see Scheme 7.9).75... 

Alternatively, Ballini devised a new strategy to synthesize tri-alkylated pyrroles from 2,5-dialkylfurans and nitroalkanes <00SL391>. This method involves initial oxidation of 2,5-dimethylfuran with magnesium monoperoxyphthalate to cA-3-hexen-2,5-dione (6). Conjugate addition of the nitronate anion derived from the nitro compound 7 to 6 followed by chemoselective hydrogenation of the C-C double bond of the resulting enones 8 (obtained by elimination of nitrous acid from the Michael adduct) completes the conversion to the alkylated y-diketones 9. Final cyclization to pyrroles 10 featured improved Paal-Knorr reaction conditions involving reaction of the diketones with primary amines in a bed of basic alumina in the absence of solvent. 

Conjugate addition of RN02 to enones. Primary nitroalkanes and a, (3-enones when activated by alumina form conjugate addition products that are oxidized in situ by alkaline hydrogen peroxide to 1,4-diketones. A similar reaction of nitromethane with a vinyl ketone provides 1,4,7-triketones. 

A stereocontrolled synthesis of racemic monomorine I (16a) has been accomplished by Stevens and Lee (438). An allyl alcohol obtained by reaction of acrolein with the Grignard reagent of the chloroacetal (367) was oxidized to yield the enone (368). The Michael addition of 1-nitropentane to 368 was catalyzed by tetramethylguanidine to yield the nitroalkane (369). Reductive cyclization of 369... 

Reaction at the C atom of nitronate salts is known with a variety of electrophiles, such as aldehydes (Henry reaction) and epoxides (191-193). Thus the incorporation of the nitro moiety and the cyclization event can be combined into a tandem sequence. Addition of the potassium salt of dinitromethane to an a-haloaldehyde affords a nitro aldol product that can then undergo intramolecular O-alkylation to provide the cyclic nitronate (208, Eq. 2.17) (59). This process also has been expanded to a-nitroacetates and unfunctionalized nitroalkanes. Other electrophiles include functionalized a-haloaldehydes (194,195), a-epoxyaldehydes (196), a-haloenones (60), and a-halosulfonium salts (197), (Chart 2.2). In the case of unsubstituted enones, it is reported that the intermediate nitronate salt can undergo formation of a hemiacetal, which can be acetylated in moderate yield (198). 

Nitroketones are reduced to pyrroles by diphenyl disulfide and triphenylphosphine (86JCS(Pl)2243). Since 7-nitroketones are accessible by Michael additions of nitroalkanes to enones, this is a potentially versatile method (Scheme 40). 

Conjugate addition of nitroalkanes to enones.5 This addition can be effected with basic alumina in the absence of a solvent at 25° in 50-88% yield. 

Use of proline as a catalyst has become an important methodology in the catalytic asymmetric addition of stabilized carbanions to conjugated carbonyl compounds. Hannessian employed L-proline (S)-l in the addition of nitroalkanes to enones (Scheme 1) [5]. In the presence of 3-7 mol % of (S)-l and an excess of trans-2,5-dimethylpiperazine in chloroform, comparable or higher enantiose-lectivities were attained compared to the Yamaguchi s method using L-proline... 

A rubidium salt of proline (5-10 mol%) has been reported to catalyse the asymmetric Michael addition of nitroalkanes to prochiral acceptors. When L-proline was used, acyclic (I )-enones produced (.S )-adducts. whereas cyclic (Z)-enones gave (R )-adducts.88... 

Nef transformation,3 A versatile route to 1,4-diketones involves Michael addition of a nitroalkane to an a,/J-enone, which can be effected in 80% yield when catalyzed by fluoride ion (9, 446-447). The resulting y-nitro ketone is oxidized efficiently by a stoichiometric amount of KMn04 impregnated on silica gel to a 1,4-... 

Pyrrolidin-2-yltetrazole has been found to be a versatile organocatalyst for the asymmetric conjugate addition of nitroalkanes to enones.45 Using this catalyst, this transformation requires short reaction times, tolerates a broad substrate scope, and possibly proceeds via generation of an iminium species. 

Yamaguchi et al. also showed that Rb-L-prolinate catalyzes enantioselective addition of nitroalkanes to several acyclic and cyclic enones [25, 26]. For acyclic enone acceptors the best result, i.e. 74% yield and 68% ee of the S product, was achieved in the addition of 2-nitropropane to -3-penten-2-one (40a, Scheme 4.13) [25]. Screening of several proline derivatives and cyclic amino acids of other ring size resulted in the identification of the O-TBDMS-derivative of 4-hydroxyproline as the best catalyst for addition of nitrocyclohexane to cycloheptenone. In this particular reaction 74% yield and 86% ee were achieved [26]. 

The proline-catalyzed conjugate addition of nitroalkanes was further developed by Hanessian and Pham, resulting in enantiomeric excesses up to 93% in the addition of a variety of nitroalkanes to cyclic enones (Scheme 4.14) [27]. In their catalytic system, L-proline (3-7 mol%) was employed together with equimolar amounts (relative to the substrate enones) of trans-2,5-dimethylpiperazine. The latter addi-... 

The Michael addition of nitroalkanes to a,B-unsaturated enones catalyze0 "y... 

The Michael addition of nitroalkanes to a,f -unsaturated enones, catalysed by the novel chiral imidazolidine-2-yltetrazole (151), has been investigated. The new, more soluble organocatalyst decreases reaction times and improves enantioselectivities com- pared with other catalysts. The Michael addition adducts were obtained with up to 92% ee.179... 

General Procedure for Conjugate Addition of Nitroalkanes to a,) -Unsaturated Enones [26a-c] (p. 109)... 

The desired nitroalkane (1 mL) was placed in an ordinary test tube equipped with a magnetic stirring bar. Enone (0.5 mmol) and catalyst (20 mol%) were then added, and the tube was closed with a robber stopper. The mixture was stirred at r.t. until completion of the reaction. After evaporation of excess nitroalkane, the crude reaction mixture was purified by FC to afford title compound. 

Nitroalkanes can be added to the enone moiety of enaminones to give, e.g., nitroalkyl-substituted cyclohexanone derivatives by a base-catalysed Michael addition318 (equation 236). 

Halland N, Hazell RG, Jprgensen KA (2002) Organocatalytic asymmetric conjugate addition of nitroalkanes to alpha,beta-unsaturated enones using novel imidazoline catalysts. J Qrg Chem 67 8331-8338... 

Unsaturated acetals undergo a < added." The reaction of enone coordinated to 59." Rubidium prc involving nitroalkanes, and an <... 

Unsaturated acetals undergo a similar process when NiClj and a chiral phosphine 58 are added." The reaction of enones with diethylzinc is catalyzed by CuCOTf) which is coordinated to 59. Rubidium prolinate acts both as a base and chirality elicitor in reactions involving nitroalkanes, and an azacrown ether constructed out of sugar also induces the... 

In 2008, Ye and coworkers also developed a new type of multifunctional cinch-onidine-based catalyst, such as 119 having an additional primary amine moiety, for the Michael addition of nitroalkane to cydic enones [32], In the presence of an acid cocatalyst, the primary amine moiety of 119 can act as a Lewis base to activate the Michael acceptor via iminium formation. The catalysts 119a and 119b (5 mol%) provided quite excellent enantioselectivity (up to 98% ee) for the Michael addition of nitroalkanes to cyclohexenone (Scheme 9.40). The observed retardation of the reaction rate and the opposite sense of enantioselectivity obtained with the catalyst 119b indicated the importance of the configuration of the cydohexane... 

As described in Sections 2.3.1.2 and 2.2.3, Choudary et al. recently revealed nanocrystalline magnesium oxide (NAP-MgO) as a recyclable heterogeneous catalyst [40, 45]. These authors extended the use of this new type of heterogeneous catalyst for the asymmetric Michael reaction of different acyclic enones with nitromethane and 2-nitropropane [69a]. In a Michael reaction of chalcone with nitromethane in THF solvent at -20°C, NAP-MgO/(lR,2R)-(-)-diaminocyclohexane (DAC) was found to be an excellent catalyst system (96% ee, 95% yield) (Scheme 2.32). This Michael reaction proceeds via the dual activation of both substrates (nucleophiles and electrophiles) by NAP-MgO. The Lewis basic site (O /O ) of the NAP-MgO activates the nitroalkanes, while the Lewis acid moiety (Mg /Mg )... 

Noteworthy was the increase of the selectivity in water toward the 1 1 adduct when using nitromethane. Under slightly alkaline conditions, cetyltrimethylam-monium chloride was shown to catalyze the addition of various nitroalkanes onto conjugated enones [176]. Amines also reacted in aqueous Michael additions, especially with a, -unsaturated nitriles [177]. The lack of apparent reactivity of a, -unsaturated esters comes from the reverse reaction which is particularly accelerated in water. In these amine additions, water activation was compared with high pressure giving support to the implication of the hydrophobic effect. A related reaction is the Baylis-Hillman reaction which proceeds readily in water with a good rate enhancement (Scheme 34) [178]. 

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