With dienophiles

The diene undergoes Diels-Alder cycloaddition with dienophiles. Polyimides have been synthesized from various imide-containing benzocyclobutenes and dienophiles (83—85). 

Oxa2oles react with dienophiles to give pyridines after dehydration or other aromatization reactions (69,70). A commercially important example is the reaction of a 5-aLkoxy-4-methyloxa2ole with 1,4-butenediol to yield pyridoxine (55), which is vitamin... 

The reactions of pyrroles with dienophiles generally follow two different pathways involving either a [4 + 2] cycloaddition or a Michael-type addition to a free a-position of the pyrrole ring. Pyrrole itself gives a complex mixture of products with maleic anhydride or maleic acid and with benzyne reacts to give 2-phenylpyrrole rather than a product of cycloaddition (Scheme 47). 

Aminomethylindoles are particularly important synthetic intermediates. 3-Dimethyl-aminomethylindole (gramine) (153) and especially its quaternary salts readily undergo displacement reactions with nucleophiles (Scheme 60). Indole-2,3-quinodimethanes, generated from 2-methylgramine as shown in Scheme 61, undergo intermolecular cycloaddition reactions with dienophiles to yield carbazole derivatives (82T2745). 

Dihydropyridines 8 react with dienophiles such as A -phenyl maleimide (2) and l,2,4-triazoline-3,5-dione 9 to give the Diels-Alder adducts 10 and 11, respectively (76JHC481). Fowler observed that when a mixture of 1,2- and 1,4-dihydropyridines was treated with maleic anhydride (12), only 1,2-dihydro-pyridines yielded the Diels-Alder adducts 13, whereas the 1,4-dihydropyridines showed no reactivity with 12 (72JOC1321) (Scheme 1). 

The ability of 1,2 (or l,6)-dihydropyridines to undergo a Diels-Alder reaction with dienophiles such as methyl vinyl ketone, methyl acrylate, and acrylonitrile has been utilized in the synthesis of polyfunctional isoquinuclidine as a key intermediate in the synthesis of aspidosperma- and iboga-type alkaloids (66JA3099). 

Dihydropyridines 28 behave as enamines and undergo [2 - - 2] cycloaddition reactions with dienophiles such as acrylonitrile (29) and dimethyl acetylenedicar-boxylate (32). For instance, A -alkyl-l,4-dihydropyridine 28 reacts with 29 to give... 

Acylation of 3-arylamino-4-arylimino-4//-pyrido[l,2-u]pyrazines (373) with acyl chlorides afforded mixtures of mono- and bisacylated derivatives 374 and 375 (99JPR332). Acetyl chloride gave only monoacylated product 374 (R = 4-MePh, R =Me). Bis-acylated derivative 375 (R = 4-MePh, r = Me) was obtained in 68% yield in boiling toluene. Reaction of 373 with dienophiles 376 and 377 gave 4-thiono and 4-seleno derivatives of 4//-pyrido[l,2-u]pyrazines 378 (Y==S, Se) and 4-imino-4//-pyrido[l,2-u]pyrazines 379, respectively (99JPR332). 

In the presence of 10 mol% chiral Cu(II) catalyst 25, 2-azadienes 26 reacted with dienophiles 27 to afford the corresponding piperidone derivatives in high yields... 

Treatment of 10-bromodibenz[fe,/]oxepin with potassium rm-butoxide at 100 C in dioxane results in elimination of hydrogen bromide to give 10,11-didehydrodibenz[6,/ oxepin. This highly strained alkyne intermediate can be trapped with dienophiles, for example, with 2,5-dimethylfuran to give 4.160... 

In 1-benzoxepins the benzene oxide form is energetically unfavorable. Thus, the adducts 5 formed with dienophiles such as ethenetetracarbonitrile arise from the oxepin structure with the nonaromatic double bonds as diene fragment.233 The yields of these reactions arc almost quantitative. 

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. 

All attempts to prepare other [2 + 4] cycloadducts of sulfoxides 115 with dienophiles such as maleic anhydride, ethyl azodicarboxylate, etc., have failed60. A method for preparing ordinary alkyl-substituted thiirene oxides (e.g. 18 R1 = R2 = alkyl) is still lacking. 

Reactivity of 1-azadienes 87 and the regioselectivity and stereoselectivity of the cycloadditions with dienophiles 88 are strongly dependent on the type of... 

A novel and versatile method for preparing polymer-supported reactive dienes was recently developed by Smith [26]. PS-DES (polystyrene diethyl-silane) resin 28 treated with trifluoromethanesulfonic acid was converted to a polymer-supported silyl triflate 29 and then functionalized with enolizable a,jS-unsaturated aldehydes and ketones to form silyloxydienes 30 and 31 (Scheme 4.4). These reactive dienes were then trapped with dienophiles and the Diels Alder adducts were electrophilically cleaved with a solution of TFA. 

Rao and colleagues [80] reported the first example of baker s yeast-catalyzed Diels-Alder reaction. Reactions of cyclopentadiene (1) with dienophiles 119 and 120 (Scheme 4.21) in the presence of baker s yeast at pH 7.2 afford prevalently the exo adduct with the exception of crotonic acid 120a. 

Table 5.2 High pressure Diels-Alder reactions of diene 77 with dienophiles 78...

High-pressure cycloaddition reactions of 3-bromo-1,5-azulenequinone and 3-bromo-1,7-azulenequinone with dienophiles [68]... 

Nelson J. H. Transition Metal-Promoted Intramolecular [4 + 2 Diels-Alder Cycloadditions of Phospholes With Dienophilic Ligands in Phosphorus-31 NMR Spectral Prop. Compd. Charact. Struct. Anal. 1994 203, Ed. Quin L. and Verkade J. G., Pb. VCH N.Y. 

In principle, the diene can react with dienophiles at either of its faces. Anti 7t-facial selectivity with respect to the substituent at 5-positions was straightforwardly predicted on the basis of the repulsive interaction between the substituent and a dienophile, however, there were some counter examples. The first of them is the syn tr-facial selectivity observed in the reaction between 5-acetoxy-l,3-cyclopentadiene 1 and ethylene reported by Woodward and coworkers in 1955... 

Halterman et al. reported that 5-aryl-5-phenylcyclopentadienes 23-25 reacted with dienophiles to favor the reactions on the anti side of the more electron rich aromatic system [19]. The orbital mixing rule failed to predict this selectivity, since orbital mixing is expected to take place mainly by mediation of the JtAr-HOMo of more electron rich aromatic system (Scheme 13). Destabilization due to the orbital phase environment or stabilization due to Cieplak effects can be responsible for the selectivity (See Sects. 2.1.2 and 2.1.3). 

Mataka and coworkers reported the studies of the Diels-Alder reactions of [3.3] orthoanthracenophanes 96 and 97, of which anthraceno unit, the potential diene, has two nonequivalent faces, inside and outside. The reactions of 96 with dien-ophiles gave the mixtures of inside and outside adducts with the ratios between 1 1 and 1 1.5. However, the ratio changes drastically, in favor of the inside adducts, when 97 reacts with dienophiles such as maleic anhydride, maleimide and naphto-quinone [55] (Scheme 46). Mataka suggested that the Jt-facial selectivity is controlled by an orbital interaction between the electron-poor dienophiles and the Jt-orbital of the facing aromatics, which would lead to a stabilization of the transition state, while Nishio suggested that the selectivity is due to the attractive k/k or CH/jt interaction [53]. 

Scheme 49 EHels-Alder reactions of in situ generated thiophen 1-oxides with dienophiles...

Scheme 50 Diels-Alder reactions of thiophen 1-oxide 111 with dienophiles...

However, the homochiral 2- -(/ )-(-)-a-[(2-naphthyl)ethylamino]-4-phenyl-l-thiabuta-l,3-diene reacts with dienophiles when activated by acetyl chloride to give the exo product, exemplified by the cyclopenta[fc]thiopyran derivative (24) <96TL123>. 

Pummerer-type dehydration of the sulfoxide 408 using acetic anhydride results in efficient formation of the 1,3-dipolar compound 409 which is able to undergo cycloaddition with dienophiles to generate tricyclic compounds such as 410 in good yield (Scheme 31) <2000T10011>. 

In stereoselective reactions, Zn11 Lewis acids work well to achieve high selectivities (Scheme 54). Chiral complexes of Zn11 with chiral bis(oxazoline) ligands act as effective catalysts in Diels-Alder reactions of reactive dienes with dienophiles having bidentate chelating moieties such as... 

---