Cycloaddition, Diels-Alder-type

Malpass, 1977). Diels-Alder type [2 + 4]-cycloadditions are possible with certain hetero-"ene components (J.R. Malpass, 1977 S.F. Martin, 1980) or with highly reactive o-quinodimethanes as diene components (W. Oppoizer, I978A). 

The types of cycloadditions discovered for enamines range through a regular sequence starting with divalent addition to form a cyclopropane ring, followed by 1,2 addition (i) of an alkene or an alkyne to form a cyclo-cyclobutane or a cyclobutene, then 1,3-dipolar addition with the enamine the dipolarophile 4), and finally a Diels-Alder type of reaction (5) with the enamine the dienophile. 

Enamines have been observed to act both as dienophiles (46-48) and dienes (47,49) (dienamines in this case) in one-step, Diels-Alder type of 1,4 cycloadditions with acrylate esters and their vinylogs. This is illustrated by the reaction between l-(N-pyrrolidino)cyclohexene (34) and methyl t/-a i-2,4-pentadienoate (35), where the enamine acts as the dienophile to give the adduct 36 (47). In a competitive type of reaction, however, the... 

Cycloaddition Reactions (Diels-Alder Type Reactions). 271... 

A Diels-Alder type [4+2] cycloadditions of 4,5-dihydropyridazine, prepared in situ from its trimer, with 2-methyl- and 2,3-dimethyl-1,3-butadienes (65, R = H, Me R = Me) afforded a complex reaction mixture, from which 6-methyl- and 6,7-dimethyl-3,4,4n,5-tetrahydro-8//-pyrido[l,2-ftjpyridazines (66, R = H, Me R =Me) could be isolated (97CEJ1588). With 1,3-butadiene (65, R = R =H) only a mixture of endo and exo isomers 67 and 68 (R = R =H) was obtained. 

We have also used poly(propynoic acid) in our studies of the photochemical interaction of PCSs with dienophiles, such as maleic anhydride, tetracyanoethylene, and styrene. This photochemical reaction of Diels-Alder type is accompanied by the breakdown of the conjugation system and the formation of slightly colored adducts266. Together with the cycloaddition reaction, photodegradation of PPA and its adducts takes place. A cycloaddition reaction is always preceded by the formation of a donor-acceptor complex of a PCS with a dienophile. 

The aqueous Diels-Alder reaction has also been used for bioconjugate studies. A Diels-Alder reaction of diene oligonucleotides with maleimide dieneophiles was used to prepare oligonucleotide conjugates in aqueous media under mild conditions (Eq. 12.39).102 A Diels-Alder-type cycloaddition of an electronically matched pair of saccharide-linked conjugated dienes and a dienophile-equipped protein was the... 

Recent study of silenes has clearly established their ability to act as dienophiles in [2 + 4] Diels-Alder-type reactions involving 1,3-dienes. However, it has also been clearly demonstrated that products of the ene reaction commonly accompany the [2 + 4] cycloadducts and may on occasion be the major products. In addition, unlike those in carbon chemistry, [2 + 2] cycloadditions are often observed to occur in competition with the above processes—not only from reactions of silenes with dienes... 

Hetero substituted 2-cyclopropylideneacetates are ring-strain activated acrylates, highly reactive dienophiles in Diels-Alder reactions, but also powerful Michael acceptors. The reactivity of these compounds is enhanced by the same strain release in the Diels-Alder cycloadditions as well as in the 1,4-additions, and indeed the borderline between tandem Michael-cyclization and Diels-Alder-type cycloaddition is not well defined in many cases. 

In addition, it has been discovered that there are naturally occurring enzymes that facilitate Diels-Alder type reactions within certain metabolic pathways and that enzymes are also instrumental in forming polyketides, isoprenoids, phenylpropanoids, and alkaloids (de Araujo et al., 2006). Agresti et al. (2005) identified ribozymes from RNA oligo libraries that catalyzed multiple-turnover Diels-Alder cycloaddition reactions. 

Af-Acyliminium ions are known to serve as electron-deficient 4n components and undergo [4+2] cycloaddition with alkenes and alkynes.15 The reaction has been utilized as a useftil method for the construction of heterocycles and acyclic amino alcohols. The reaction can be explained in terms of an inverse electron demand Diels-Alder type process that involves an electron-deficient hetero-diene with an electron-rich dienophile. Af-Acyliminium ions generated by the cation pool method were also found to undergo [4+2] cycloaddition reaction to give adduct 7 as shown in Scheme 7.16 The reaction with an aliphatic olefin seems to proceed by a concerted mechanism, whereas the reaction with styrene derivatives seems to proceed by a stepwise mechanism. In the latter case, significant amounts of polymeric products were obtained as byproducts. The formation of polymeric byproducts can be suppressed by micromixing. 

Allenes participate in the Diels-Alder-type [4+2]-cycloaddition mostly as an electron-deficient dienophile. The LUMO energy level of an allene is lowered by the introduction of an electron-withdrawing unsaturated substituent. The largest LUMO coefficient locates on the central carbon (C2) and the next largest on the substituted carbon (Cl). Thus, [4 + 2]-cycloadditions of activated allenes take place at the internal C=C bond of the allene. 

Vinylallenes and bisallenes participate in the Diels-Alder-type cycloaddition as the diene component, providing a powerful tool for the construction of complex ring systems. They also undergo thermal electrocydic ring closure to form methylenecy-clobutene derivatives. 

Scheme 33 Diels-Alder-type cycloadditions involving an allenylidene ligand...

Scheme 41 Mechanism of the aza-Diels-Alder-type reaction of cyclohexenone 2.3.12 1,3-Dipolar Cycloaddition...

The cobalt catalyzed cocyclization of alkynes with heterofunctional substrates is not limited to nitriles. cpCo-core complexes are capable of co-oligomerizing alkynes with a number of C,C, C,N or C,0 double bonds in a Diels-Alder-type reaction. Chen, in our laboratories, has observed that these cycloadditions are best performed with the help of stabilizers such as ketones or acetic esters that are weakly coordinated to the cobalt and prevent the alkynes from being cyclotrimerized at the metal center... 

As a result of its reduced aromaticity, relative to pyrrole, furan undergoes [4 + 2] cycloaddition reactions much more readily. It combines as a diene with electron-poor dienophiles to yield Diels-Alder-type adducts. Maleic [(Z)-butenedioic acid] anhydride, for example, reacts at room temperature, and the only isolated adduct is the exo isomer (the more thermodynamically favoured adduct) (Scheme 6.27a). 

By far the most important property of benzo[c] furans is their capacity to act as 471-components in cycloaddition reactions. Whereas the reactions described before 1969 were almost always of the Diels-Alder type, more recent investigations have shown that they can also participate in [7 4 + 714]-and [714 + TCgj-addition (Section IV,C). In this chapter Diels-Alder reactions will be discussed. Benzo[c]furans have been used for two main purposes. First, Diels-Alder adducts with olefinic compounds can conveniently be dehydrated to naphthalene derivatives or higher condensed hydrocarbons not easily accessible by other methods second, benzo[c]furans are excellent... 

Hi. [2+4] Cycloaddition reactions. Conlin and Namavari have demonstrated that 1-silabuta-1,3-dienes may undergo a stereospecific [4 + 2] and non-stereospecific [2 + 2] cycloaddition with alkenes54. Isomerization of 1,1-dimethylsilacyclobutene 80 in the presence of 20-fold excess of ethylene at 350 °C leads cleanly to a mixture of the isomeric silacyclohexenes 82 and 83 in nearly quantitative yields. Formation of the silacyclohex-2-ene 82 might be anticipated from a Diels-Alder-type reaction between ethylene and sila-1,3-diene 81 (equation 185). 

In accord with their unusually high reactivity, cyclopropanones may undergo various types of cycloaddition reactions. In addition to Diels-Alder type addition with conjugated dienes (4+3- 7 cycloadditions), substituted cyclopropanones also react with aldehydes forming dioxo-lanes (3 +2->-5), and with ketenes yielding (3-lactones (2 +2- 4).118>... 

In view of the preference of the tetrasilabuta-1,3-diene 139 for the s-cis form, it seemed worthwhile to examine its behavior in [4 + 2] cycloadditions of the Diels-Alder type. Since 139, like many disilenes, should behave as an electron-rich diene, we attempted to react it with various electron-poor and also with some electron-rich olefins. No reaction was detected in any case. Only in the presence of water did 139 react with quinones to furnish the unsymmetrically substituted disilenes 36 and 37 (see Section III.A). The effective shielding of the double bonds by the bulky aryl groups and, above all, the 1, 4-separation of the terminal silicon atoms of about 5.40 A appear to be responsible for these failures. Thus, it was surprising that treatment of 139 with the heavier chalcogens afforded five-membered ring compounds in a formal [4 + 1] cycloaddition (see below). 

Only a few examples of a Diels-Alder type reaction of the valence tautomeric ketene of mesoionic 1,3-dithiolones are known. Thus the reactions of differently substituted mesoionic compounds (2) with o-chloranil give the unusual adducts (142), derived via [4 + 2] cycloaddition to the non-detectable valence tautomeric ketene (141) which is in equilibrium with (2). The reaction rate depends upon the nature of the substituents, for example substituents with —I and/or —M effects lower the reaction rates (81ZN(B)609). 

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