Ketones nitroalkenes

The thiazolium-catalyzed addition of an aldehyde-derived acyl anion with a receptor is a valuable synthetic tool leading to the synthesis of highly funtionalized products. Acyl anion receptors include Michael acceptor (Stetter reaction), aromatic aldehyde (benzoin reaction), ketone, nitroalkene, aziridine, activated imine. Recently, nucleophilic addition of acyl anions to unactivated imines has been explored <07CC852>. Treatment of aryl aldehydes with imines 146 in the presence of triazolium salt 147 (20 mol%) and triethylamine (20 mol%) provides the a-amino ketones 148 in good yields. However, this methodology does not work for 4-pyridylaldehyde and tert-buty laldehyde. 

Some electron deficient dienophiles are quinones, maleic ahydride, nitroalkenes, a,p-unsaturated ketones, esters and nitriles. 

Cychc nitroalkenes are prepared from cychc ketones via nitradon of vinylstarmanes v/ith tetranitrmnethane in DMSO, as shown in Eq 2 36, where DMSO is a cridcal choice of solvent for replacing dn by nitre at the unsaturated carbon The conversion of ketones to vinylstarmanes... 

Allylic nitro compounds are obtained by the reacdon of cyclic ketones with nitromethane in the presence of 1,2-diaminoethane fl mol% as catalyst. Because exa-cyclic nitroalkenes are rearranged to the fi)iifo-cyclic fi,Y-nitroalkenes, allylic nitro compounds are selecdvely produced fEq. 3.21. ... 

The chiral enamines provide the opportunity for the enandoselecdve Michael addidon to nitroalkenes, as shown in Eq. 4.68, where the ketone is obtained as a single diastereomer with anee>90%. ... 

The reaction of conjugated nitroalkenes v/ith a,fi-unsaturated esters, ketones, nitnles, and sulfones is catalyzed by TMG to give the Michael adduct of allyiic nitro compounds fEq. 4.108. -... 

The direct conversion of nitroalkenes into ketones is especially useful for the preparation of arylacetones. They are readily prepared by the condensation of aromatic aldehydes with nitroethane and by the subsequent Nef reaction. "Typical examples are presented in Eq. 6.22 and Eq. 6.23 the product of Eq. 6.23 is used for total synthesis of perylenequinone, calphosdn D, which is a potent inhibitor of protein kmase C. "... 

The stereochemical outcome of the addition of lithium enolates of aldehydes and ketones to nitroalkenes is dependent upon the geometry of the nitroalkene and the enolate anion. The synjanti selectivity in the reaction of the lithium enolates of propanal, eyelopentanone and cyclohexanone with ( )- and (Z)-l-nitropropene has been reported1. 

The enantiomeric (2/ ,l S)-nitro ketone was obtained starting from the corresponding enantiomeric (f )-enamine. The stereochemical outcome of these reactions was rationalized by assuming a transition state in which steric interactions between the enamine and the nitroalkene are minimized. 

Nitroalkenes prepared from aromatic aldehydes are especially useful for natural product synthesis. For example, the products are directly converted into ketones via the Nef reaction (Section 6.1) or indoles (Section 10.2) via the reduction to phenylethylamines (Section 6.3.2). The application of these transformations are discussed later here, some examples are presented to emphasize their utility. Schemes 3.3 and 3.4 present a synthesis of 5,6-dihydroxyindole66 and asperidophytine indole alkaloid,67 respectively. 

The nitro-aldol approach is impractical for the synthesis of 2,2-disubstituted 1-nitroalkenes due to the reversibility of the reaction when ketones are employed as substrates. Addition-elimination reactions are used for the preparation of such nitroalkenes (see Chapter 4). 

The addition-elimination reaction of hetero-atom-substituted nitroalkenes provides functionalized derivatives of unsaturated nitro compounds.26 Nitroenamines are generally prepared from a-nitro ketones and amines (see Chapter 5 regarding acylation of nitro compounds).26... 

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... 

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). 

The Nef reaction is accelerated by the presence of silicon atom at y-position of nitro functions, as shown in Eq. 6.3. The presence of the y-silicon is essential for such smooth reaction.6 The conversion of 5-nitrobicyclo[2.2.1]heptenes to the corresponding ketones via the Nef reaction is very complicated by the degradation of the product. Thus, (3-trimethylsilyl ketones can be prepared by a one-flask method via the addition of Grignard reagents containing trimethylsilyl groups to nitroalkenes and the subsequent hydrolysis, as shown in Eq. 6.4. 

Iodotrimethylsilane generated in situ from chlorotrimetylsilane and sodium iodide effects the reduction of nitroalkenes into ketones at 0 °C. This method is useful for the conversion of nitro steroids or nitro terpenoids to the corresponding ketones (Eq. 6.24).43... 

The conversion of nitroalkanes to ketoximes can be achieved by the reduction with Zn in acetic acid,112 or Fe in acetic acid.113 Nitroalkenes are direcdy reduced into saturated ketoximes by these reagents, which are precursors for ketones (see Section 6.1.4 Nef reaction). Reduction of 3-O-ace-ty lated sugar 1 -nitro-1 -alkenes with Zn in acetic acid gives the corresponding 2,3-unsaturated sugar oximes in high yield, which is a versatile route to 2,3-unsaturated sugar derivatives (Eq. 6.58).114... 

The tandem Michael and cyclopropanation reaction of lithium enolates with nitroalkenes gives tricyclic ketones in one pot, as shown in Eq. 7.42.43... 

A convenient and general method has been developed for the synthesis of alkylpyrroles starting from ketones and nitroalkenes via reduction of the intermediate acetic nitronic anhydride as shown in Eq. 10.1. Ketone enolates react with a variety of nitroalkenes to yield the Michael adducts, lithium nitronates, which are trapped with acetic anhydride to give the corresponding acetic nitronic anhydrides. The acetic nitronic anhydrides are easily converted into alkylpyrroles by reduction with Zn(Cu).3... 

The condensation of nitroalkenes with enamino- ketones or enamino-esters (Grob-Camenisch reaction) has been widely used for pyrrole synthesis (Eq. 10.4).6a This process is now carried out with resin-bound enamino-ketones for combinatorial syntheses of pyrroles.6b... 

The third cycloaddition substrate explored the feasibility of a vinyl nitro functionality as an activated dipolarophile (98, Scheme 1.9c). Preparation of nitroalkene oxidopyridinium betaine 98 began with silylenol ether 92, which was treated with methoxydioxolane in the presence of Lewis acid catalyst, TrC104, to afford keto dioxolane 93 in 58 % yield [47]. Ketone 93 then underwent a-nitration by treatment with /-BuONCL and KOt-Bu to provide nitro ketone 84 (91 %), which was then converted to the nitroalkene functionality via reduction under Luche conditions to... 

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