Diels-Alder reaction nitroalkene synthesis

Functionalized nitroalkenes are important chenophiles in the Diels-Alder ri example, fE -methyl fi-nitroactylate is an impottant reagent in organic synthesis The nitre group can be readily eliminated the Diels-Alder reaction of fi-nitroactylate is equivalent to that of ethyl propiolate with an inverse regiochemistry fEq. 8.4. ... 

Node and co-workers have found that the Diels-Alder reaction of nitroalkenes v/ith 1-methoxy-3-trimethylsilyloxy-l,3-butadiene (Danishefsky s dienesi exhibit abnormal exo-se-lecdvity Electrostadc repulsion between the nitro and the silyloxy group of the diene induces this abnormal exc-selecdvity (Tq 8 10 This selecdve reacdon has been used for the asymmetric synthesis of various naniral products as shovm in Scheme 8 6... 

The Diels-Alder reaction of nitroalkenes with Danishefsky s dienes is applied to synthesis of truncated carbocyclic analogues of a potent neuraminidase inhibitor 4-guanidino-NemAc en fsee Scheme 8.5. Carbocyclic analogs are found to retain interesting levels of antiviral activity comparable to those shovm by their oxygen-containing compounds in Scheme 8.5. 

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). 

Diels-Alder reactions are one of the most fundamental and useful reactions in synthetic organic chemistry. Various dienes and dienophiles have been employed for this useful reaction.1 Nitroalkenes take part in a host of Diels-Alder reactions in various ways, as outlined in Scheme 8.1. Various substituted nitroalkenes and dienes have been employed for this reaction without any substantial improvement in the original discovery of Alder and coworkers.2 Nitrodienes can also serve as 4ti-components for reverse electron demand in Diels-Alder reactions. Because the nitro group is converted into various functional groups, as discussed in Chapters 6 and 7, the Diels-Alder reaction of nitroalkenes has been frequently used in synthesis of complex natural products. Recently, Denmark and coworkers have developed [4+2] cycloaddition using nitroalkenes as heterodienes it provides an excellent method for the preparation of heterocyclic compounds, including pyrrolizidine alkaloids. This is discussed in Section 8.3. 

The Diels-Alder reaction of nitroalkenes followed by the Nef reaction is frequently used in natural product synthesis.7 For example, Scheme 8.3 shows an elegant synthesis of rf/-mesem-brane starting from the Diels-Alder reaction of 1-arylnitroethene with l,3-butadiene.7a... 

Node and coworkers have used this aromatization strategy for the synthesis of (-) aphanor-phine.27 The Diels-Alder reaction of chiral nitroalkene, prepared by the asymmetric nitroolefi-nation reaction of a-methyl-8-valerolactone, with the Danishefsky s diene followed by aromatization is used as a key step for this total synthesis, as shown in Scheme 8.6. 

If nitroalkenes are employed as heterodienes in hetero Diels-Alder reactions instead of nitrosoalkenes, cyclic nitrones are formed. These cycloadducts undergo numerous subsequent reactions, and especially the combination of this hetero Diels-Alder reaction with a 1,3-dipolar cycloaddition is an extremely powerful tool for the synthesis of polycyclic alkaloids. This domino [4+ 2]/[3+ 2] cycloaddition chemistry has been comprehensively reviewed by Denmark and Thorarensen very recently, and this review also covers many hetero Diels-Alder reactions of nitroalkenes being not part of this sequential transformation [5]. Therefore the present article will focus on some selected examples which might highlight the advanced state of the art concerning stereocontrol of these reactions. On the other hand, an insight shall be given into the multitude of polycyclic structures accessible by means of nitroalkene cycloaddition chemistry. 

The described sequential transformations involving hetero Diels-Alder reactions of nitroalkenes represent a very mature synthetical tool. Its application to the total synthesis of several alkaloids will be briefly discussed in the Sect. 7 of this article. 

Wada, E. and Yoshinaga, M. 2003. A new methodology of intramolecular hetero-Diels-Alder reaction with (3-alkoxy-snbstituted conjugated nitroalkenes as heterodienes Stereoselective one-pot synthesis of tra -fused bicyclic y-lactones. Tetrahedron letters, 44(43) 7953-6. 

Diels-Alder reactions of enantiomerically enriched 2H-azirine 3-phosphon-ates (281), a new class of chiral iminodienophiles, and dienes stereoselectively furnish optically pure, bicyclic aziridine adducts (282). Hydrogenation of (282) results in a ring opening that affords the first examples of optically pure quaternary piperidine phosphonates. Two step synthesis of an enantiomeric pure cyclic phosphite (283) and its application as a chiral phosphorus nucleophile in the asymmetric Michael addition to nitroalkenes (284) provides an efficient... 

Serrano, J A, Caceres, L E, Roman, E, As3mimetric Diels-Alder reactions between chiral sugar nitroalkenes and 1-O-substituted buta-l,3-dienes. Synthesis and reactivity of new cyclohexenyl derivatives, J. Chem. Soc. Perkin. Trans 1, 1863-1871, 1995. 

As important hetero Diels-Alder reactions catalyzed by aluminum Lewis acid, two kind of reactions, namely, [4 + 2] cycloaddition of Danishefski s diene with carbonyls and [4 + 2] cycloaddition of nitroalkenes with electronic rich alkenes, have been well known. The former reaction provides highly functionalized pyrones. As the first example of pyrone synthesis through catalytic asymmetric hetero Diels-Alder reaction with chiral aluminum complexes, in 1987, Quimpere and Jankowski reported the reaction of oxomalonate with 1-methyl-1,3-butadiene using Koga s catalyst (48). However, the asymmetric induction and chemical yield were quite poor (Scheme 6.147) [175]. 

Diels-Alder reaction with nitroalkenes as dienophiles. The B(OAc)3-promoted Diels-Alder reaction of juglone (76) with substituted styrenes (77) in the presence of DDQ produced cycloadducts (78). This methodology provides a route to the total synthesis of tetrangulol (79) and anhydrolandomycinone (80) (Scheme 24) ... 

Diels-Alder cyclizations are thermal reactions, and recent significant developments in the use of microwave irradiation to pyridine synthesis have been reported, including a series of pyrazolo[3,4- ]pyridines from nitroalkenes and pyrazolylimines with reaction times of 5-10min (Equation 115) <2000T1569>. This method appears to be general to this bicyclic class for example, replacement of the substituent on the imine allows for a C-2-unsubstituted pyridine. A range of cyclic and acyclic dienes have also been reported. 

Nitro olefins are useful intermediates in organic synthesis. Conjugated nitroalkenes are excellent acceptors (Michael reaction and Diels-Alder cycloaddition) and the nitro group can be further transformed, in situ, into several reactive intermediates. 

Resin-bound nitroalkenes were synthesized via a Knoevenagel condensation of resin-bound nitro acetic acid with aryl and alkyl substituted aldehyde (Scheme 9.29). In this way an extra site of diversity can be introduced into the cycloaddition products of these nitroalkenes. Furthermore, the resin-bound nitroalkenes can serve as activated alkenes in other cycloaddition reactions (Diels-Alder, 1,3-dipolar cycloaddition, [2 + 2] cycloaddition) and therefore lead to the solid phase synthesis of other interesting compoimd classes (see also Scheme 9.3, Sect. 9.2). Formation of the resin-bound nitroalkenes 73a-e was realized in one step via a microwave-assisted condensation of aldehyde 72a-e (10 equiv.) with the resin-bound nitro acetic acid 71, followed by dehydration of the intermediate y -nitroalcohol [6] (Scheme 9.29). THF was used as the solvent in order to obtain optimal diffusion of the aldehyde in the polystyrene resin. 

Michael/Henry/dehydration/aromatisation reaction of 2-(2-oxoethyl) benzal-dehydes and nitroalkenes mediated by pyrrolidine to obtain polysubstituted naphthalene derivatives. DBU catalysed the conjugate additions of alcohols to ot,p-unsaturated nitriles, esters and ketones. Perhaps more important are the aza-Michael addition reactions of amines to a,p-unsaturated ketones, nitriles and esters. Recently, Costa, Vilarrasa and coworkers described the addition of lactams, imides, 2-pyridone, pyrimidine-2,4-diones and inosines to methyl propiolate and other similar compounds, DABCO and DMAP being the best catalysts. As mentioned before, tertiary amines give zwitterionic species with activated allynes. It was as early as 1932 when Diels and Alder used the reaction of pyridine with dimethyl acetylenedicarbojylate (DMAD) for the synthesis of heterocycles. The interception of the corresponding intermediate with Al-tosylimines and activated olefins provided access to l-azadienes ° and highly substituted butadienes (Scheme 2.6). When the quenching species of the zwitterionic intermediate is a 1,2-diketone, dibenzoyl maleates or cyclopentenedione derivatives could be obtained (Scheme 2.6). The interception of the zwitterionic species of N-methyl imidazole (NMI) and DMAD with ketenes to obtain unsaturated esters has also been shown. ... 

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