Nitronates cycloadditions

In the nitrone cycloaddition reactions catalyzed by the l ,J -DBFOX/Ph transition metal complexes also, the diastereo- and enantioselectivities were found to depend upon the presence of MS 4 A [71]. Thus, both the selectivities were much lowered in the iron(II) or nickel(II) complex-catalyzed reactions without MS 4 A,... 

Accordingly, cyclic nitronates can be a useful synthetic equivalent of functionalized nitrile oxides, while reaction examples are quite limited. Thus, 2-isoxazoline N-oxide and 5,6-dihydro-4H-l,2-oxazine N-oxide, as five- and six-membered cyclic nitronates, were generated in-situ by dehydroiodination of 3-iodo-l-nitropropane and 4-iodo-l-nitrobutane with triethylamine and trapped with monosubstituted alkenes to give 5-substituted 3-(2-hydroxyethyl)isoxazolines and 2-phenylperhydro-l,2-oxazino[2,3-fe]isoxazole, respectively (Scheme 7.26) [72b]. Upon treatment with a catalytic amount of trifluoroacetic acid, the perhydro-l,2-oxazino[2,3-fe]isoxazole was quantitatively converted into the corresponding 2-isoxazoline. Since a method for catalyzed enantioselective nitrone cycloadditions was established and cyclic nitronates should behave like cyclic nitrones in reactivity, there would be a good chance to attain catalyzed enantioselective formation of 2-isoxazolines via nitronate cycloadditions. 

Monodentate dipolarophiles such as acrolein, methacrolein, and a-bromoacrolein could be successfully utilized in the l ,J -DBFOX/Ph-transition metal complex-catalyzed asymmetric nitrone cycloadditions [76]. The reactions of N-benzylideneani-line N-oxide with acrolein in the presence of the nickel(II) aqua complex R,R-DBF0X/Ph-Ni(C104)2 3H20 (10mol%) and MS 4 A produced a mixture of two regioisomers (5-formyl/4-formyl regioisomers ca 3 1). However, enantio-... 

Intramolecular nitrone cycloadditions often require higher temperatures as nitrones react more sluggishly with alkenes than do nitrile oxides and the products contain a substituent on nitrogen which may not be desirable. Conspicuously absent among various nitrones employed earlier have been NH nitrones, which are tautomers of the more stable oximes. However, Grigg et al. [58 a] and Padwa and Norman [58b] have demonstrated that under certain conditions oximes can undergo addition to electron deficient olefins as Michael acceptors, followed by cycloadditions to multiple bonds. We found that intramolecular oxime-olefin cycloaddition (lOOC) can occur thermally via an H-nitrone and lead to stereospecific introduction of two or more stereocenters. This is an excellent procedure for the stereoselective introduction of amino alcohol functionality via N-0 bond cleavage. 

The structure-reactivity relationship between a 19-Me- and 19-nor-5,10-seco-steroid has been investigated using lOOC and intramolecular nitrone cycloaddition taking into account various stereochemical aspects (Schemes 27 and 28) [67]. The E-19-nor-5,10-seco-ketone 255 a, on treatment with hydroxylamine hydrochloride (R = H), undergoes lOOC via 256a to a single isoxazolidine 257... 

Entry 7 is another intramolecular nitrone cycloaddition, but in this case the hydroxyl-amine function is present in the alkene. 

Goti, Brandi and coworkers developed an effective synthesis of (-)-rosmarinecine (4-357) via a domino cycloreversion-intramolecular nitrone cycloaddition of 4-355, which led to 4-356 (Scheme 4.79) [125]. 

Saito and coworkers have used C2-symmetrical alkenes derived from a variety of tartaric acid derivatives, for controller in discriminating 71 faces of dipolarophile in nitrone cycloaddition. Excellent endolexo and diastereofacial selectivity (de) are obtained. Endo transition state assembly shown in Eq. 8.50 could be responsible for the formation of preferred distereoisom-... 

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. 

Nitronates show a similar reactivity to that of nitrones, and nitrones are one of 1,3-dipoles that have been successfully developed to catalyzed asymmetric versions, as discussed in the section on nitrones (Section 8.2.1). However, asymmetric nitronate cycloadditions catalyzed chiral metal catalysts have not been reported. Kanemasa and coworkers have demonstrated that nitronate cycloaddition is catalyzed by Lewis acids (Eq. 8.93).146 This may open a new way to asymmetric nitronate cycloaddition catalyzed by chiral catalysts. 

Fused (5 5 5) heterocycle 28, along with 342, has been synthesized in 34% yield via an intramolecular nitrone cycloaddition, using l-allyl-2-pyrrole carboxaldehyde 340 as a starting material (Scheme 72) <1998JOC9279>. 

As for the regioselectivity of the nitrone cycloaddition to MCP and its alkyl or aryl derivatives, a tendency of the three-membered ring to end up at the 4-position of the final isoxazolidine ring clearly emerges from the experimental findings. This result is particularly noteworthy if compared to regiospecific formation of the 5,5-disubstituted isoxazolidines in the reactions of nitrones, not... 

The formation of enantiopure tricyclic compounds takes place by intramolecular 1,3-dipolar cycloadditions of acyclic nitrones to cyclic olefinic fragments (Scheme 2.214a,b) (706, 707a), or of cyclic nitrones to acyclic olefins (Scheme 2.214c) (116). Recently (707),b intramolecular nitrone cycloaddition reactions (according to Scheme 2.211a) have been applied in the synthesis of... 

Bicyclic cis- and frans-isoxazolidinyldiynes have been prepared by intramolecular nitrone cycloaddition of the two side chains of an acyclic enediyne-nitrone precursor (Scheme 2.233) (731). 

Intermolecular Reactions Intermolecular 1,3-dipolar cycloaddition reactions of nitrones to olefins seem to be the most studied. They are widely used for the synthesis of different enantiomerically pure compounds, including biologically active ones. For example, two new glycosidase inhibitors have been obtained by the nitrone cycloaddition strategy (Fig. 2.32) (733). 

Nitrone cycloaddition reactions with alkynes have been widely used for the synthesis of imidazolidine nitroxides (736) and (737), containing chelating enam-ino ketone groups (821). Different heterocyclic systems were obtained, such as 3-(2-oxygenated alkyl)piperazin-2-ones (738) (822), also compounds containing the isoxazolo[3,2-i]indole ring system (739) (823) and a new class of ene-hydroxylamino ketones- (l )-2-( 1-hydroxy-4,4,5,5-tetraalkylimidazolidin-2-ylidene)ethanones (740) (824) (Fig. 2.46). 

Bis(oxazoline)-type complexes, which have been found useful for asymmetric aldol reactions, Diels-Alder, and hetero Diels-Alder reactions can also be used for inducing 1,3-dipolar reactions. Chiral nickel complex 180, which can be prepared by reacting equimolar amounts of Ni(C10)4 6H20 and the corresponding (J ,J )-4,6-dibenzofurandiyl-2,2 -bis(4-phenyloxazoline) (DBFOX/Ph) in dichloromethane, can be used for highly endo-selective and enantioselective asymmetric nitrone cycloaddition. The presence of 4 A molecular sieves is essential to attain high selectivities.88 In the absence of molecular sieves, both the diastereoselectivity and enantioselectivity will be lower. Representative results are shown in Scheme 5-55. 

Nitrone cycloadditions may also lead to pyrrolidine according to another type of cycloaddition. The power of the method is illustrated by the synthesis of the peripentadenine intermediate 133 en route to Elaeocarpus alkaloids (Scheme 37) (185). 

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