Alkenes a-nitro

Tertiare a-Nitro-alkene sind durch Michael-Addition von sek. Nitro-alkanen mit elektro-nenarmen Alkinen in Gegenwart von Kaliumfluorid/Tetrabutyl-ammoniumchlorid in Di-methylsulfoxid zuganglich (62-90%)2,3 ... 

Scott Denmark of the University of Illinois reports (J. Org. Chem. 68 8015,2003) a hetero intramolecular Diel-Alder reaction of a nitro alkene 5, followed by intramolecular dipolar cycloaddition of the resulting nitronate 6, to give the tricycle 7. Raney nickel reduction effected cleavage of the N-0 bonds and reductive amination of the liberated aldehyde, to give, after acetylation, the angularly substituted cis-decalin 8. 

Nitro compounds that contain an a hydrogen can be reduced to oximes with zinc dust in HOAc663 or with other reagents, among them Co-Cu(II) salts in alkanediamines.664 CSi-EtjN,665 CrC, 666 and (for a-nitro sulfones) NaNOj.667 a-Nitro alkenes have been converted... 

Scheme 12 Representative results for the conjugate addition of trialkylaluminum to (a) nitro-alkenes and (b) nitro-acrylates using phosphoroamidite ligands...

The cation fragment nature exerts negligible impact on selectivity of the Michael reactions that involve enamine intermediates and commonly the stereochemical outcome remains high. Indeed, pyrrolidine derivatives (Figure 22.6) containing pyridinium 87a,b [98], isoquinolinium 88a,b [99], 1,2,3-triazolium 89a,b [100], benzimidazolium 90 [101], and linear 91 [102] or cyclic 92 [103] quaternary ammonium cations in combination with various anions proved efficient catalysts of asymmetric additions of carbonyl compounds to a-nitro alkenes. Desymmetriza-tion of prochiral 4-substituted cyclohexanones can be achieved by analogy [101]. The reaction efficacy was similar under neat conditions in the presence of acidic additives (catalysts 87, 89, 90, 91) or in the IL medium (commonly in [bmim]BF4) (catalysts 88a,b, 92). 

While we can make the trans nitro-alkene B easily enough, the cis-nitro alkene A would present problems, so let s try route b ... 

Similar workup conditions applied to the nitronate arising from 1,4-addition of unsaturated Grignard or Li reagents 80 (M = MgBr provided better yields) to P Ar or jS-hetero-Ar nitro alkenes 79 provided isoxazolines 82 in a practically one pot reaction sequence (Eq. 8, Table 7) [33]. 

One-pot tandem sequences involving 1,4-addition and ISOC as the key steps have been developed for the construction of N and 0 heterocycles as well as of carbocycles [44]. In this sequence, the nitronate arising from 1,4-addition to an a, -unsaturated nitro alkene is trapped kinetically using trimethyl silyl chloride (TMSCl). The resulting silyl nitronate underwent a facile intramolecular 1,3-dipolar cycloaddition with the unsaturated tether (e.g.. Schemes 20-22). 

Potential precursors to stereoselective INOC and ISOC reactions (e.g., 195 and 196, respectively) have been prepared via stereoselective conjugate additions of several allylic alcohols (e.g., 194,X = 0) and an allylic thiol (e.g., 194,X = S) to a chiral (E)-nitro alkene (e. g., 193) that was derived from (P)-2,3-isopropylidene... 

High levels of diastereocontrol in an ISOC reaction were induced by a stereogenic carbon center that bears a Si substituent (Scheme 23) [55]. For instance, conversion of nitro alkenes (e.g., 199) to j3-siloxyketones (e.g., 203) has been accomplished via a key ISOC reaction-reduction sequence with complete control of 1,5-relative stereochemistry. The generality of the ISOC reaction of a silyl nitronate with a vinylsilane was demonstrated with seven other examples. Corresponding INOC reaction proceeded with lower stereoselectivity. 

A novel one-pot synthesis of a-nitro ketones from alkenes has been observed on treatment with trimethylsilyl nitrate-chromium trioxide or a trimethylsilyl nitrate-DMSO reagent system (Eq. 2.44).86... 

Primary nitro ketones, ethyl nitroacetate, and (phenylsulfony l)nitromethane react with alkenes in the presence of Lewis acids to give nitrile oxide cycloaddition.61a Similarly, the reaction of a-nitro ketones with TeCl4 generates the corresponding nitrile oxides, as shown in Eq. 6.36.61b... 

The reaction tolerated a variety of functionality, including ester and ether groups on the alkyl-substituted alkene at least two carbons away from the double bond, and raefa-nitro or para-methoxy substituents on the styrene. As expected, cross-metathesis occurred selectively at the less hindered monosubsti-tuted double bond of dienes also containing a disubstituted alkene (Eq. 8). 

Attack on Unsaturated Carbon. The annual addition of phosphites to every variety of activated double bond continues. These include nitro-alkenes,9 a/S-unsaturated carboxylic acid derivatives,10 maleimides,11 fulvenes,12 and pyridinium salts.13 The reaction of diethyl phosphite with keten 0,N-, S,N, and Al,AT-acetals has been used to prepare the enamine phosphonates (19).14... 

Warsinsky R, Steckhan E (1995) Oxidative free radical additions of a-nitro amides to alkenes and alkynes mediated by electrochemically regenerable manganew (HI) acetate. In Torii S (ed) Novel trends in electroorganic synthesis, Kodansha, Tokyo, pg 135 J. Chem. Soc. Perkin Trans 1 (1994) 1994 2027... 

More specifically, 3,5-di-ferf-butylphenyl substitution on the 3,3 -position of the binaphthol backbone (260) provided overall best yields and selectivities. Using catalyst 260, the authors expanded the scope of substrates to include aliphatic and aromatic nitro-alkenes, and a-substituted P-ketoesters, while maintaining good yields and enantiomeric ratios (Scheme 71). 

Tetraalkylammonium bromide was found to be a good catalyst for the conjugate addition of thiols to a,p-unsaturated nitriles, carboxylic esters, ketones, aldehydes, and nitro alkenes. The reactions proceeded rapidly and gave high yields of products (typically, 90%) (160). 

A few years later, Hass reported an alternative synthesis of racemic amphetamine, which exemplifies the use of a nitroalkane as the source of the nitrogen atom (Scheme 17.4) (Hass et al., 1950). In this route, calcium-hydroxide-promoted Henry reaction of nitroethane and benzaldehyde (12) afforded an 86% yield of the nitro alkene 13. Simultaneous hydrogenation... 

A previous review has highlighted the following methods of ring synthesis intramolecular cyclization of oximes, nitro alkenes, and nitrones, and [4+2] cycloaddition reactions <1996CHEC-II(6)279>. In addition to that, this review includes the intramolecular cyclization of hydroxylamines, hydroxamates, hetero-Diels-Alder [4+2], 1,3-dipolar cycloaddition of nitrile oxides to alkenes, and [3+3] cycloaddition reactions. This review does not cover cycloaddition reactions of the [4+2] [3+2] and [4+2] [3+2] [3+2] types which primarily led to heterocycle-fused oxazine ring systems. 

The interaction of trinitromethide salts with alkenes has also been investigated (174). In aprotic solvents, trinitromethide anions undergo extrusion of a nitro group to produce a dinitrocarbene (Scheme 2.18). In the presence of monsubstituted alkenes a formal [3 + 2] cycloaddition produces a nitronate that then further reacts... 

Cyclization of nitro-stabilized radicals provides another method for the generation of cyclic nitronates (221). Oxidation of the aci-foim of nitroalkanes with ceric ammonium nitrate generates the ot-carbon centered radical, which in the presence of an alkene, leads to the homologation of the a-radical. In the case of a tethered alkene of appropriate length, radical addition leads to a cyclic nitronate (Scheme 2.20). 

It is interesting to note that the oxa-analogous Michael addition was reported for the first time in 1878 by Loydl et al. [19] in their work on the synthesis of artificial malic acid, which was five years ahead of the discovery of the actual Michael reaction described first by Komnenos [20], Claisen [21], and later Michael in 1887 [22] as one of the most important methods for C—C bond formation. In continuation of the early work on the oxa-Michael addition [23], the inter- and intramolecular additions of alkoxides to enantiopure Michael acceptors has been investigated, leading to the diastereo- and enantioselective synthesis of the corresponding Michael adducts [24]. The intramolecular reaction has often been used as a key step in natural product synthesis, for example as by Nicolaou et al. in the synthesis of Brevetoxin B in 1989 [25]. The addition of oxygen nucleophiles to nitro-alkenes was described by Barrett et al. [26], Kamimura et al. [27], and Brade and Vasella [28]. 

Four-membered rings are not obtained during reduction of a-nitro-/ -keto alkenes the oxygen of the hydroxylamine intermediate attacks the electrophilic center1,71 with formation of isoxazole derivatives. 

Macro carbocyclic rings can be constructed by cyclization of nitrile oxides derived from oj-nitro-l-al-kenes (Scheme 22). If the intervening bridge is not longer than seven atoms, only fused bicyclic products are obtained. Thus, the nitrile oxide derived from nitro compound (75a) is cyclized in 44% yield to the 5,9-fused bicyclic isoxazoline (76a).38 10-Nitro-l-decene (75b) also cyclized to (76b) in unspecified yield.39 It should be noted that these results go counter to the usual regiochemistry of an intermolecular nitrile oxide cycloaddition where the five-substituted isoxazoline is usually,27 although not always,40 heavily preferred from reaction of a terminal alkene. Thus, geometric constraints have won out over the normal electronic control. 

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