Diels-Alder reaction, with nitroso compounds

The regio- and stereo-selective synthesis of inosamines and inosadiamines utilizing Diels-Alder reactions with nitroso compounds has been reviewed. 

The use of acyl nitroso compounds as dienophiles was first described by Kirby. The primary method for generating these highly reactive, unstable species is by periodate oxidation of hydroxamic acids. The acyl nitroso compounds can be trapped in a Diels-Alder reaction with 9,10-dimethylanthracene to give adduct (95) (equation 36) which can act as an alternative source of the dienophile, since retro [4 + 2] cycloaddition occurs under mild thermal conditions. 

Nitrile, azo, and nitroso groups, and even the oxygen molecule, take part in such reactions, and acetylenic triple bonds in particular confer reactivity as philodiene. As for dienes, so for philodienes the reactivity depends on the constitution. Activating groups particularly favor addition. The most reactive components include <%,/ -unsaturated carbonyl compounds such as acrolein, acrylic acid, maleic acid and its anhydride, acetylenedicarboxylic acid, p-benzo-quinone and cinnamaldehyde, as well as saturated nitriles and <%,/ -unsaturated nitro compounds. Tetracyanoethylene also reacts with dienes.41,42 Conjugation of the double bond to an active group is not absolutely essential for a philodiene, for dienes add under certain conditions also to philodienes with isolated double bonds examples of the latter type are vinyl esters and vinyl-acetic acid. Ketenes do not undergo the Diels-Alder reaction with dienes, but instead yield cyclobutanone derivatives 43,44... 

The intramolecular /zetero-Diels-Alder reactions of 4-O-protected acyl-nitroso compounds 81, generated in situ from hydroxamic acids 80 by periodate oxidation, were investigated under various conditions in order to obtain the best endo/exo ratio of adducts 82 and 83 [65h] (Table 4.15). The endo adducts are key intermediates for the synthesis of optically active swainsonine [66a] and pumiliotoxin [66b]. The use of CDs in aqueous medium improves the reaction yield and selectivity with respect to organic solvents. 

The nitroso moiety of the N-acylnitroso function is a powerful dienophile and therefore N-acylnitroso compounds are trapped rapidly, especially in an intramolecular reaction, with a diene allowing the Diels Alder reaction to occur also in water, although N-acylnitroso compounds are short-lived in aqueous medium. 

On transforming the cyclopentenone 1431 into the trimethylsilyloxy diene 1432 the ensuing Diels-Alder cyclization gives rise to 69% tricychc compound 1433 [10] (Scheme 9.8). For Diels-Alder-reactions of thioaldehydes, selenoaldehydes, or unsaturated nitroso compounds with cyclopentadiene, see the reactions of 602 to 603 and of 605 to 606 in Scheme 5.48 and of 1092 to 1093 in Scheme 7.43. For Diels-Alder-reactions of silyloxyazadienes such as 510 with maleic anhydride to give 511, see Scheme 5.29. 

Acyl nitroso compounds react with 1, 3-dienes as N-O heterodienophiles to produce cycloadducts, which have found use in the total synthesis of a number of nitrogen-containing natural products [21]. The cycloadducts of acyl nitroso compounds and 9,10-dimethylanthracene (4, Scheme 7.3) undergo thermal decomposition through retro-Diels-Alder reactions to produce acyl nitroso compounds under non-oxidative conditions and at relatively mild temperatures (40-100°C) [11-14]. Decomposition of these compounds provides a particularly clean method for the formation of acyl nitroso compounds. Photolysis or thermolysis of 3, 5-diphenyl-l, 2, 4-oxadiazole-4-oxide (5) generates the aromatic acyl nitroso compound (6) and ben-zonitrile (Scheme 7.3) [22, 23]. Other reactions that generate acyl nitroso compounds include the treatment of 5 with a nitrile oxide [24], the addition of N-methyl morpholine N-oxide to nitrile oxides and the decomposition of N, O-diacylated or alkylated N-hydroxyarylsulfonamides [25-29]. 

In general, C-acyl nitroso compounds-9,10-dimethylanthracene cycloadducts derived from hydroxamic acids (-R = alkyl, aryl, ti/2 = 4.1 h for -R = -Ph at 60°C) decompose more slowly than those derived from N-hydroxycarbamates or N-hydroxyureas [11, 13, 14]. Further addition of alkyl groups to the N atom of N-hydroxyurea-derived cycloadducts produces a further increase in the rate of the retro-Diels-Alder reaction of these cycloadducts [36]. These general trends suggest the possibility of the development of acyl nitroso compound-9, 10-dimethylanthracene cycloadducts as a general class of HNO or NO donors with varied release profiles. 

The most important synthetic methods involve condensation of hydrazine, hydroxylamine or hydrogen peroxide with a 1,4-oxygenated carbon chain, and these procedures are particularly useful for the preparation of pyridazines and 1,2-oxazines. Other methods include Diels-Alder reactions of a diene with an azo or nitroso compound. 

Aliphatic nitroso compounds can be prepared from IV-alkylhydroxylamines by oxidation with bromine, chlorine or sodium hypochlorite in weakly acidic solution, by reaction with potassium dichromate in acetic or sulfuric acid, and by oxidation with yellow mercury(II) oxide in suspension in an organic solvent. Silver carbonate on (Telite has also been used to prepare aliphatic nitroso compounds, such as ni-trosocyclohexane, in high yield from the corresponding hydroxylamines. Aqueous sodium periodate and tetraalkylammonium periodates, which are soluble in organic solvents, are the reagents most commonly used for the oxidation of hydroxamic acids and / -acylhydroxylamines to acylnitroso compounds (40). These compounds are rarely isolated, but are useful as highly reactive dienophiles in the Diels-Alder reaction. ... 

A useful trick is based on the reversible preparation of the adducts of nitroso compounds with 9,10-dimelhylanthracene, e.g.. 5 they undergo a retro-Diels Alder reaction on heating, releasing the nitroso moiety which undergoes a rapid inter- or intramolecular Diels-Alder reaction2,4. 

Kresze and cowoikers have used nitroso Diels-Alder reactions in synthesis of a variety of inosamines and related compounds. One example of this work is the synthesis of conduramine-Fl (92) as shown in equation (34). In this case, diene (91) reacted with a-chloro nitroso cyclohexane to afford adduct (91) as the only product. Just why this stereoisomer was formed is not obvious. Compound (91) could be converted to the conduramine in a few steps. 

Nitrosyl cyanide (109) has been briefly examined as a dienophile by Kirby et This intermediate can be generated from nitrosyl chloride and silver cyanide (equation 42) and trapped with 9,10-diinethyl-anthracene to yield adduct (110). As with acyl nitroso compounds, this adduct can be used as a stable source of (109) via a retro Diels-Alder reaction. 

Conjugated nitrosoalkenes are unlike other nitroso compounds in that they act as dienes, rather than as dienophiles, in the Diels-Alder reaction. Even with conjugated dienes such as cyclo-pentadiene, nitrosoalkenes normally act as the 47t components in such reactions <83CSR53>. This Diels-Alder reaction is now the best general method for the preparation of 5,6-dihydro-4//-l,2-oxazines. 

Work has recently appeared on the synthesis and cycloaddition reactions of vinylnitroso compounds. - Although these compounds are capable of acting either as heterodienes or as nitroso dienophiles, their reactivity is critically dependent on their structure. In general, if the vinylnitroso system contains any )8 substituents, the compounds will react as dienophiles if there is no /3 substituent, the system prefers to act as the 4tt component of a Diels-Alder reaction and will react with dienophiles. 

C.iii. Nitroso-Type Compounds. Nitroso compounds (R—N=0) show reactivity as dienophiles in Diels-Alder reactions, giving heterocyclic rings. In Kibayashi s synthesis of fasicularin, " for example, hydroxamic acid 180 was treated with tetrapropylammonium periodate in the presence of 9,10-dimethyl-anthracene to give transient acylnitroso compound 181, and the resultant Diels Alder product 182 was formed in 84% yield. In this particular example, the Diels-Alder adduct essentially "protected" the acyl nitroso unit, which was used in a subsequent reaction. 

A number of examples have been reported of the asymmetric hetero Diels-Alder reaction of heterodienes or heterodienophiles such as imines, nitroso or carbonyl compounds.The chiral auxiliary is commonly attached to the nitrogen atom of the imine or nitroso compound, or a chiral ester or amide substituent may provide the necessary asymmetric induction. As an example, the a-cWoronitroso dienophile 132, bearing a sugar-derived auxiliary, has been found to be effective for the formation of cyclic hydroxylamines with high optical purity (3.95). The initial cycloadduct breaks down readily (see Scheme 3.32), via an iminium ion with subsequent methanolysis to release the chiral auxiliary and the product 133. 

As our first model we chose N-benzoylnortropane (12) to investigate construction of the tropane ring system based on [4 + 2] nitroso cycloaddition with a 1 3-cycloheptadiene. A search of the literature indicated that only one example of a Diels-Alder cycloaddition of a nitroso compound with a seven-membered ring diene has been reported (ref. 8). In view of this the present study of tropane synthesis was initiated by the examination of the nitroso Diels-Alder reaction of 1 3-cycloheptadiene (7) (Fig. 1). Thus reaction of 7 with the acylnitroso compound 8 generated in situ from benzohydroxamic acid by oxidation with tetrapropyl-ammonium metaperiodate (ref. 9) was carried out at room temperature, affording the [4 +2] cycloadduct 9 in 85% yield. Reduc-... 

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