Bicyclic systems, Diels-Alder reactions

Since diazaquinones are among the most powerful dienophiles, they undergo [4+2] cycloaddition (Diels-Alder) reactions with a great variety of dienes to give various heterocyclic systems accessible with difficulty by other methods. Diazaquinone reacts with butadiene and substituted butadienes, carbocyclic and heterocyclic dienes, 1-vinylcycloalkenes, polyaromatic compounds and vinylaromatic compounds to afford bicyclic and polycyclic bridgehead diaza systems, including diazasteroids (Scheme 56). 

An expedient and stereoselective synthesis of bicyclic ketone 30 exemplifies the utility and elegance of Corey s new catalytic system (see Scheme 8). Reaction of the (R)-tryptophan-derived oxazaboro-lidine 42 (5 mol %), 5-(benzyloxymethyl)-l,3-cyclopentadiene 26, and 2-bromoacrolein (43) at -78 °C in methylene chloride gives, after eight hours, diastereomeric adducts 44 in a yield of 83 % (95 5 exo.endo diastereoselectivity 96 4 enantioselectivity for the exo isomer). After reaction, the /V-tosyltryptophan can be recovered for reuse. The basic premise is that oxazaborolidine 42 induces the Diels-Alder reaction between intermediates 26 and 43 to proceed through a transition state geometry that maximizes attractive donor-acceptor interactions. Coordination of the dienophile at the face of boron that is cis to the 3-indolylmethyl substituent is thus favored.19d f Treatment of the 95 5 mixture of exo/endo diastereo-mers with 5 mol % aqueous AgNC>3 selectively converts the minor, but more reactive, endo aldehyde diastereomer into water-soluble... 

When the cnolate of an enone is brought into reaction with an enone, usually a carbocyclic system is prepared by two consecutive Michael additions (M1MIRC reactions). Due to the lower temperatures employed and the absence of diene polymerization these reactions are useful alternatives for Diels-Alder reactions and proceed in general with high diastereoselectivities. When neither enolate nor enone is cyclic a monocyclic system is formed 338 which can be converted into a bicyclic system when the Michael addition is followed by an aldol reaction339. When, however, the enolate is cyclic a bicyclic or a tricyclic system is formed340 341. 

In the course of investigation of reactivity of the mesoionic compound 44 (Scheme 2) the question arose if this bicyclic system participates in Diels-Alder reactions as an electron-rich or an electron-poor component <1999T13703>. The energy level of the highest occupied molecular orbital (HOMO) and lowest unoccupied molecular orbital (LUMO) orbitals were calculated by PM3 method. Comparison of these values with those of two different dienophiles (dimethyl acetylenedicarboxylate (DMAD) and 1,1-diethylamino-l-propyne) suggested that a faster cycloaddition can be expected with the electron-rich ynamine, that is, the Diels-Alder reaction of inverse electron demand is preferred. The experimental results seemed to support this assumption. 

The double bond of butenolides reacts under Diels-Alder conditions and the resulting chiral bicycles have served as precursors of prostacycline analogs and chrysanthemic acids (250,251). The butenolide 248 was obtained by the procedure described by Ireland et al. (237). A bicyclo[4.3.0] ring system (254) was prepared by Diels-Alder reaction of 248 with butadiene in the presence of aluminum trichloride. Reduction of 254 (LiBH4) yielded the... 

In this type of hetero-Diels-Alder reaction ethylene-bridged bissulfoximines 55 were also applied as ligands, giving bicyclic products with up to 99% ee [59, 60]. It is noteworthy that these results compared very well with those obtained using the well-established Cu(II)/BOX-based systems, which were investigated by j0r-gensen and afforded cycloaddition products with up to 97% ee [61]. 

At 150 °C, the analogous 2-methylenetricyclo[4.1.0.01,3]heptane (34) equilibrated with 35 and 36 as products of a methylenecyclopropane rearrangement and a subsequent retro-Diels Alder reaction, respectively, until at 180 °C an irreversible rearrangement to bicyclo[4.2.0]octa-l,5-diene and 3,4-dimethylenehexa-l,5-diene (39) via diradical 37 took place.223,224 Increasing pressure favored the formation of the bicyclic system 38 (50% yield at lOOTorr).223... 

Myicene with its conjugated diene system readily undergoes Diels-Alder reactions with a number of dienophiles. For example, reaction with 3-methyl-3-pentene-2-one with a catalytic amount of A1C13 gives an intermediate monocyclic ketone, which when cydized with 85% phosphoric acid produces the bicyclic ketone known as Iso E Super [54464-57-2] (49). The product is useful in providing sandalwood-like and cedarwood-like fragrance ingredients (91). 

This obstacle can be overcome by moving electron withdrawing substituents away from the double bond and increasing the reactivity of double bond by positioning it in a strained ring. This is achieved using bicyclic monomers. The monomers are readily obtained from the Diels-Alder reactions of substituted olefins with cyclopentadiene. This route is effective also for fluorinated monomers. These types of monomers undergo a ROMP with a variety of one component and two-component initiator systems. 

Diels-Alder reactions can be applied to the synthesis of cyclohexane rings by use of carbohydrate-derived dienophiles or dienes, and intramolecular processes allow the controlled elaboration of bicyclic systems. 

Linear tricyclic systems have been obtained from intramolecular photocyclization of l,2-dihydropyridin-2-one to give an olefinic bicyclic product and subsequent Diels-Alder reaction with an acyclic dienophile to give the tricyclic compound. Reactions of this type have been mentioned in Sections 2.04.6.3 and 2.04.7.2. 

A short asymmetric synthesis of the 2-ketocarbacepham (27) involving as the initial step for the preparation of the starting piperidone, a hetero Diels-Alder reaction of the benzylimine derived from the enantiomer of Gamer s aldehyde with Danishesky s diene, has been described <02JOC598>. The key cyclization step to form the bicyclic P-lactam system was achieved from a P-amino acid precursor using the Mukaiyama reagent, 2-chloro-A-methylpyridinium iodide. 

The product of the Diels-Alder reaction of a cyclic 1,3-diene is bicyclic, but the carbon atoms shared by both rings are non-adjacent. Thus, this bicyclic product differs from the fused ring system obtained when the dienophile is cyclic. 

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