Diels-Alder reaction, with quinones

Chiral carbohydrate-derived 1-alkoxy-1,3-dienes have been intensively examined in asymmetric Diels-Alder reactions with quinones. Moderate selectivities were observed. However, in water as solvent high endo selectivities were obtained at room... 

Various cycloaddition reactions can be efficiently catalysed by prolinol silyl ethers.Dienamines generated from a,(3-unsaturated aldehydes participated in the Diels-Alder reaction with quinones. Nitrolefins can also function as dienophiles in organocatalytic Diels-Alder reaction. Reyes, Vicario and coworkers found that unconjugated 2,5-dienals are more reactive substrates than the corresponding conjugated aldehydes (Scheme 8.35). The reaction proceeded with clean p,E-selectivity and the corresponding products were obtained in high diastereomeric and enantiomeric purities. 

An interesting combination of enzymatic with non-enzymatic transformation in a one-pot three-step multiple sequence was reported by Waldmann and coworkers [82]. Phenols 125 in the presence of oxygen and enzyme tyrosinase are hydroxylated to catechols 126 which are then oxidized in situ to ortho quinones 127. These intermediates subsequently undergo a Diels-Alder reaction with inverse electron demand by reaction with different dienophiles (Table 4.19) to give endo bicyclic 1,2-diketones 128 and 129 in good yields. 

Ethoxy)-allylidenecyclopropane (136a) readily underwent Diels-Alder reaction with activated dienophiles under mild conditions (Table 14) [33]. Only one regioisomer was formed with unsymmetrically substituted dienophiles such as methyl maleic anhydride (137), and quinones 138-141 (entries 2 and 3-6). AH the cycloadducts 143-147 derive from an endo approach between the two reagents. Two site-isomers were obtained in 96 4 ratio with 3-isopropyl-6-methyl-p-quinone (141) (entry 6) and the high site-selectivity observed in this... 

Condensed benzo[i>]furan molecules can be prepared by inter- or intra-molecular Diels-Alder reactions from furo[3,4-b]benzofurans, and some interesting intermolecular examples are listed below. As can be seen, the furo[3,4-i>]benzofuran 60 underegoes Diels-Alder reactions with naphtho-l,4-quinone in the presence of Znl2 as a Lewis acid to form the aromatized cycloadduct. When the diene precursor reacts with benzo-l,4-quinone in the absence of Znl2, the product is obtained as an endo-exo mixture <00JCS(P1)1387>. 

Brimble and coworkers172 reported the asymmetric Diels-Alder reactions between quinones 265 bearing a menthol chiral auxiliary and cyclopentadiene (equation 73). When zinc dichloride or zinc dibromide was employed as the Lewis acid catalyst, the reaction proceeded with complete endo selectivity, but with only moderate diastereofacial selectivity affording 3 1 and 2 1 mixtures of 266 and 267 (dominant diastereomer unknown), respectively. The use of stronger Lewis acids, such as titanium tetrachloride, led to the formation of fragmentation products. Due to the inseparability of the two diastereomeric adducts, it proved impossible to determine which one had been formed in excess. 

Chiral boron catalysts had already been widely used in a variety of reactions before they were applied in Diels-Alder reactions220. Boron catalysts were first employed in the Diels-Alder reactions of quinones with electron-rich dienes. Kelly and coworkers221 found that stoichiometric amounts of a catalyst prepared from BH3, acetic acid and 3,3 -diphenyl-l,l/-bi-2-naphthol (344) catalyzed the reaction of 1-acetoxy-l,3-butadiene (341) with juglone (342) to afford cycloadduct 343 with 98% ee (equation 96). The reaction was supposed to proceed via a spirocyclic borate complex in which one face of the double bond of juglone was effectively shielded from attack by the diene. 

Subsequent monosilylation and Wittig reaction furnished unsymmetrical double diene 170. The synthesis of the other Diels-Alder partner started from bromophenol 173 (prepared in three steps from dimethoxytoluene), which was doubly metalated and reacted with (S,S)-menthylp-toluenesulfinate 173. CAN oxidation delivered quinone 171, which underwent a Diels-Alder reaction with double diene 170 to give compound 175 possessing the correct regio- and stereochemistry. Upon heating in toluene the desired elimination occurred followed by IMDA reaction to adduct 176, which was obtained in an excellent yield and enantioselectivity. Both Diels-Alder reactions proceeded through an endo transition state the enantioselectivity of the first cyclization is due to the chiral auxiliary, which favors an endo approach of 170 to the sterically less congested face (top face) (Scheme 27). 

A second example from the same group is the synthesis of an elaborate diethynyltriphenylene derivative (Scheme 7 Table 8,entries 12,13) [58].Zn/Pd-promoted homocoupling of a 4-iodo-l,2-dialkoxybenzene furnishes the desired tetraalkoxybiphenyl, an electron-rich aromatic system. Iron trichloride-catalyzed Friedel-Crafts arylation of the biphenyl derivative with dimethoxy-benzene furnishes an unsymmetrical triphenylene derivative. Deprotection, oxidation, and subsequent Diels-Alder reaction with cyclohexadiene is followed by catalytic hydrogenation and reoxidation. TMS-CC-Li attack on the quinone delivers the alkyne modules, treatment with SnCl2 aromatizes the six-mem-bered ring, while KOH in MeOH removes the TMS groups cleanly to give the elaborate monomer. 

Anodic oxidation of catechols enables the unstable quinones to be prepared and reacted in situ. Reaction of the 1,2-quinone with a 1,3-dicarbonyi compound gives a high yield of a benzofuran [123, 124]. Both 1,2- and 1,4-quinones, prepared electrochemically in nitromethane, are efficiently topped in Diels-Alder reactions with butadienes [125]. 

Diels-Alder reactions with p-quinones (6. 65 66). The orientation of Diels-Alder reactions of 6-meihoxy-l-vinyl-3,4-dihydronaphthalene (1) with p-quinones is subject to reversal by addition of BF, etherate (1.3 equivalent). Thus the thermal reaction with 2,6-dimethyl-/>-bcnzoquinone (2) results in exclusive formation of 3, whereas the catalyzed reaction leads predominately to the isomer 4. The adduct 3 is stable to base, but the syn, m-isomer 4 on treatment with NaX O, is converted to the more stable anti, frau.s-isomer 5. 

Diels-Alder reaction with unstable quinones (8, 443). The generation of unstable quinoncs in situ for Diels-Alder reactions has been used to obtain an adduct (3),... 

Vinylbenzo[6]thiophene undergoes Diels-Alder reactions with benzyne,468 maleic anhydride,469 benzo[6]thiophene-1,1-dioxide,469 p-benzoquinone, and various 1,4-naphthaquinones.469,470 With quinones, the product depends on the reaction conditions. For... 

Nitrodienes undergo intermolecular Diels-Alder reactions with appropriate dienophiles. The resulting nitro compounds can then be cyclized via a nitrile oxide intermediate.49 Thus, the 2-chloroacrylonitrile Diels-Alder adduct of 8-nitro-l,3-octadiene was prepared and cyclized to give (105) as a 3 1 mixture of diastereomers (Scheme 30). The Diels-Alder adduct of dimethyl acetylenedicarboxylate and 8-nitro-l,3-octadiene cyclized exclusively at the conjugated double bond, activated by the ester groups. Similarly, the quinone Diels-Alder adduct (106) cyclized at the conjugated double bond reduction of the conjugated double bond permitted cyclization on the cycloalkenyl double bond. 

The facially perturbed enantiopure (.S, .S )-2-(p-tolylsulfinyl)norborncno-/7-bcnzoquin-ones (119), undergo asymmetric Diels-Alder additions with cyclopentadiene to yield the four possible adducts (120) and (121). The endo-syn cycloadducts (121) can be used in the synthesis of the cage compound garudane (122) (Scheme 44).234 The antiaromatic compound 1,4-biphenylenequinone (123) has been synthesized and trapped by Diels-Alder reaction with cyclopentadiene (Scheme 45).235 The 4 + 2-cycloadditions of 4-methylene-5-(bromomethylene)-4,5-dihydrothiazole with 2- and 3-bromonaphtha-quinones are highly regiospecific.236... 

All attempts to trap a with dienophiles failed. However, a synthesis of the benzoquinolizidine 4 involves an intramolecular Diels-Alder reaction with an o-quinone methide imine b, generated from 3 by CsF.1... 

Diels-Alder reactions. Ultrasound can promote some Diels-Alder reactions with o-quinones, and also improve regioselectivity. Highest yields of adducts are obtained in the absence of a solvent. This reaction provides a route to some pigments of Chinese sage responsible for the biological activity of Dan Shen. An example is the synthesis of 3, the acetonide of tanshindiol B. Thus the thermal reaction of the diene 1 with the quinone 2 gives 3 and 4 in the ratio 1 1. Sonication improves both the regibselectivity and the yield. 

Oxidation of the o/T/zo-substituted acetanilides 324 with DMP leads to the isolable o-iminobenzoquinones 325 (Scheme 94) (02JA2221). The imino-quinones undergo inverse electron demand Diels-Alder reactions with the vinyl ether and vinyl sulfide shown in Scheme 94, thus providing access to the benzoxazine derivatives 326 and 327. 

Thus, Ghosez et al. were successful in showing that A,iV-dimethyl hydrazones prepared from a,/3-unsaturated aldehydes react smoothly in normal electron demand Diels-Alder reactions with electron-deficient dienophiles [218, 219]. Most of the more recent applications of such 1-aza-l,3-butadienes are directed towards the synthesis of biologically active aromatic alkaloids and azaanthra-quinones [220-224] a current example is the preparation of eupomatidine alkaloids recently published by Kubo and his coworkers. The tricyclic adduct 3-19 resulting from cycloaddition of naphthoquinone 3-17 and hydrazone 3-18 was easily transformed to eupomatidine-2 3-20 (Fig. 3-6) [225]. 

Thiophenes can act as dienophiles in Diels-Alder reactions with electron-poor dienes such as hexachlorocyclopen-tadiene, tetrazines, or o-quinone monoimines. The masked o-benzoquinone 64 can undergo inverse electron demand cycloadditions with thiophene itself or simple derivatives such as 2-methyl-, 2-methoxy-, and 2,4-dimethylthiophene (Scheme 5) <2001TL7851>. Depending on the substitution pattern on the thiophene skeleton, different cycloadducts can be observed. The basic thiophene skeleton gives rise to a bis-adduct 65. By blocking the second double bond with a methyl or methoxy group, a 1 1 adduct 66 or 67, respectively, is obtainable in moderate yield. 

Starting with quinone 180, which was obtained by methylation of hydroxyqui-none 169, the oxazaborolidine-catalyzed intermolecular Diels-Alder reaction with butadiene was conducted at —50°C in toluene. Within 48 hours, 99% of the starting material was converted into adduct 171 in 99% optical purity (Scheme 18). 

It is proposed that the olefin is first dehydrogenated to give a conjugated diene which then undergoes a Diels-Alder reaction with the quinone, followed by dehydrogenation ... 

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