Nitroalkene acceptors

The bis-prolinol-derived phenol (156) has been designed to facilitate the formation of heterodinuclear complexes based upon the large difference in pKH of the phenolic OH group and the tertiary OH groups. The first examples of its application involve hydroxyacetophenones (157) as donors in the asymmetric Michael addition to nitroalkene acceptors (158) the best stereocontrol was observed with a zinc- magnesium dinuclear complex, where enantiomeric excesses ranged up to 92% for the major anti diastereoisomer (159).212... 

Nitroalkene acceptors A regioselective aminobromination of / -nitrostyrenes ArCH=CHN02 with acetamide and NBS in acetone, catalysed by K3PO4, has been reported to produce the vicinal haloamides. A plausible mechanism involving an initial Michael addition was proposed, which appears to be more likely than that " criticized by this reviewer in the previous paragraph. 

Nitroalkene acceptors in reactions with enamines Dihydrooxazine oxides (406) have now been identified as stable, key intermediates in the Michael addition of aldehydes to nitroalkenes, catalysed by pyrrolidines (405) (Scheme 15). Theoretical calculations suggest that these intermediates are protonated directly (e.g. by p-nitrophenol), without the formation of the zwitterion species. The latter protonation accounts for both the role of the acid cocatalyst and the stereochemistry.257 Theoretical studies of the proline-catalysed Michael addition of aldehydes and ketones to 0-nitrostyrene (MP2/6-311-l-G //M06-2X/6-31G ) suggest that, contrary to the... 

The Barton-Zard (BZ) pyrrole synthesis is similar both to the van Leusen pyrrole synthesis that uses Michael acceptors and TosMlC (Section 6.7) and the Montforts pyrrole synthesis using a,P-unsaturated sulfones and alkyl a-isocyanoacetates." An alternative to the use of the reactive nitroalkenes 1 is their in situ generation from P-acetoxy nitroalkanes, which are readily prepared via the Henry reaction between an aldehyde and a nitroalkane followed by acetylation. Examples are shown later. 

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. 

Hie stereodiemical trendi disaissed above carbonyl compounds otlier Micliael acceptor rated pbospbane oxides display sim dar bebavi-nitroalkene class of Micliael acceptors is show [28]. Hie best results were tlius obtained for were niucli less selective, wbicli severely restri... 

Dehydration of fi-nitro iilcohols provides an important method for the preparation of nitroalkenes. Because lower nitroalkenes such as nitroethylene, Tnitro-Tpropene, and 3-nitro- Tpropene tend to polymerize, they must be prepared careftdly and used immediately after preparation. Dehydration v/ith phthalic anhydride is the most reliable method for such lower nitroiilkenes. Such lower nitroalkenes have been used as important reagents for Michael acceptors or dienophiles in the Diels-Alder reacdon, which v/ill be... 

Hetero Diels-Alder reacdons using nitroalkenes followed by 1,3-dipolar cycloaddidons provide a nsefid strategy for the constnicdon of polycychc heterocycles, which are found in naturM products. Denmark has coined the term tandem [4t-2 /[3t-2 cycloaddidon of nitroalkenes for this type of reacdon. The tandem [4-i-2 /[3-i-2 cycloaddidon can be classified into font famihes as shown in Scheme 8.31, where A and D mean an electron acceptor and electron donor, respecdvely. " In generril, electron-rich alkenes are favored as dienophdes in [4-i-2 cycloaddidons, whereas electron-deficient alkenes are preferred as dipolarophdes in [3-i-2 cycloaddidons. 

Nitroalkenes are shown to be effective Michael acceptor B units In three sequential re fA + B + C couplingi in one reaction vessel. The sequence is initialed by enolate nucleophiles fA and is terminated by aldehydes or acrylate electrophiles fC. The utility of this protocol is for rapid assembly of complex stnictures from simple and readily available components. A short total synthesis of a pyrroLmdine alkaloid is presented in Scheme 10.16. ... 

A high degree of syn selectivity can be obtained from the addition of enamines to nitroalkenes. In this case, the syn selectivity is largely independent of the geometry of the acceptor, as well as the donor, double bond. Next in terms of selectivity, are the addition of enolates. However, whether one obtains syn or anti selectivity is dependent on both the geometry of the acceptor and the enolate double bond, whereas anti selectivity of a modest and unreliable level is obtained by reaction of enol silyl ethers with nitroalkenes under Lewis acid catalysis. 

Nitroalkenes are also reactive Michael acceptors under Lewis acid-catalyzed conditions. Titanium tetrachloride or stannic tetrachloride can induce addition of silyl enol ethers. The initial adduct is trapped in a cyclic form by trimethylsilylation.316 Hydrolysis of this intermediate regenerates the carbonyl group and also converts the ad-nitro group to a carbonyl.317... 

Hassner and coworkers have developed a one-pot tandem consecutive 1,4-addition intramolecular cycloaddition strategy for the construction of five- and six-membered heterocycles and carbocycles. Because nitroalkenes are good Michael acceptors for carbon, sulfur, oxygen, and nitrogen nucleophiles (see Section 4.1 on the Michael reaction), subsequent intramolecular silyl nitronate cycloaddition (ISOC) or intramolecular nitrile oxide cycloaddition (INOC) provides one-pot synthesis of fused isoxazolines (Scheme 8.26). The ISOC route is generally better than INOC route regarding stereoselectivity and generality. 

The thiazolium-catalyzed addition of an aldehyde-derived acyl anion with a Michael acceptor (Stetter reaction) is a well-known synthetic tool leading to the synthesis of highly funtionalized products. Recent developments in this area include the direct nucleophilic addition of acyl anions to nitroalkenes using silyl-protected thiazolium carbinols <06JA4932>. In the presence of a fluoride anion, carbinol 186 is not cleaved to an aldehyde... 

The stereochemical trends discussed above are not limited to a, yS-unsaturated carbonyl compounds other Michael acceptors such as nitroalkenes and unsaturated phosphane oxides display similar behavior. A representative example for the nitroalkene class of Michael acceptors is shown with substrate 70 in Scheme 6.13 [28]. The best results were thus obtained for arylcuprates. Other organocuprates were much less selective, which severely restricts their application in organic synthesis. 

Nitroalkenes are excellent Michael acceptors, and asymmetric 1,4-additions to nitroalkenes (Scheme 7.22) provide access to highly versatile synthons, since the nitro group is readily reduced to the corresponding amine [74]. Seebach, employing a... 

When nitroalkenes were used as Michael acceptors, high yields and enantioselectivities of the desired Michael addition products were also obtained (Scheme 5.22). In these reactions, a well-defined chiral Ru amido complex (Figure 5.9) was an efficient catalyst. The mild reaction conditions and high reactivities and stereoselectivities allowed a large-scale reaction in the presence 1 mol% Ru catalyst. By using a chiral Pd(II) catalyst, an asymmetric allylic arylation was reported by Mikami and coworkers to give the cross-couphng product via the activation of both allylic C H and aryl C H bonds in moderate enantioselectivity (Scheme 5.23). ... 

Mobashery and co-workers also reported the synthesis and inhibitory apph-cation of 2 -N02 derivatives of neamine and kanamycin (Scheme 4.28). Using the metal-chelating method, the 2 -NH2 was selectively unmasked and then oxidized into 2 -N02, which will increase the acidity of 2 -H. Upon phosphorylation at the 3 -0H, elimination of phosphate will lead to the formation of a nitroalkene intermediate, 198, that can function as a Michael acceptor and... 

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