Cyclization/Diels-Alder

Two approaches to convergent steroid syntheses are based on the thermal opening of benzocyclobutenes to the o-quinodimethane derivatives (see p. 80 W. Oppolzer, 1978 A) and their stereoselective intramolecular Diels-Alder cyclizations. T, Kametani (1977 B, 1978) obtained (+ )-estradiol in a six-step synthesis. The final Diels-Alder reaction occurred regio- and stereoselectively in almost quantitative yield, presumably because the exo transition state given below is highly favored over the endo state in which rings A and D would stcrically inter-... 

Barrelene was obtained via a double Diels-Alder reaction from a-pyrone with methyl acrylate (H.E. Zimmerman, I969A). The primarily forming bicyclic lactone decarboxylates in the heat, and the resulting cyclohexadiene rapidly undergoes another Diels-Alder cyclization. Standard reactions have then been used to eliminate the methoxycarbonyl groups and to introduce C—C double bonds. Irradiation of barrelene produces semibullvalene and cyclooctatetraene (H.E. Zimmerman. 1969B). 

As illustrated in Scheme 8.1, both 2-vinylpyrroles and 3-vinylpyiroles are potential precursors of 4,5,6,7-tetrahydroindolcs via Diels-Alder cyclizations. Vinylpyrroles are relatively reactive dienes. However, they are also rather sensitive compounds and this has tended to restrict their synthetic application. While l-methyl-2-vinylpyrrole gives a good yield of an indole with dimethyl acetylenedicarboxylate, ot-substitiients on the vinyl group result in direct electrophilic attack at C5 of the pyrrole ring. This has been attributed to the stenc restriction on access to the necessary cisoid conformation of the 2-vinyl substituent[l]. 

An intramolecular Diels-Alder cyclization produces excellent yields of 2-aminoquinoline-3-carboxylate esters (57). Equally fine yields of the requited carbodiimides have been reported, making this an attractive route to an unusual substitution type. 

A similar intramolecular Diels-Alder strategy was employed in an efficient synthesis to an appropriately functionalized hydrindanone nucleus (212). After functionalization, Diels-Alder cyclization, and appropriate functional group manipulation, this hydrindanone was converted into ( )-cortisone. The overall process afforded ( )-cortisone in a total of 18 chemical steps in approximately 3% yield. 

Within the diastereomeric switch sequences, the corresponding trans-diols become accessible either using a Mitsunobu inversion or a reversible Diels-Alder cyclization as key reaction step [249,250]. This synthetic strategy is complementary to an approach involving metabolic engineering of E. coli via the chorismate/ isochorismate pathway [251]. 

A first milestone was the development of a novel intramolecular Diels-Alder cyclization of terphenyl monomers 38 and 41, containing both 4-phenylbuta-dienyl and styryl functions. The formation of the [4-1-2] cyclization adducts 39 and 42 is followed by a simple aromatization of the cyclohexene moieties [59]. In this way, the phenylated, two-dimensional arylene structures, 40 and 43,... 

The diacetal 629, prepared from the carbonyl compound and O-silylated allylic alcohols in the presence of TMSOTf 20, reacts with ( )-l-trimethylsilyl-2,4-penta-diene 630, in the presence of TMSOTf 20 in CH2CI2 at -78°C, to afford 60% 631 this undergoes Diels-Alder-cyclization at 170 °C in toluene to give a substituted... 

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. 

It was proposed that a Diels-Alder cyclization occurred during a polyketide synthase assembly of the bicyclic core of Lovastatin by Aspergillus terreus MF 4845." In vitro Diels-Alder cyclization of the corresponding model compounds generated two analogous diastere-omers in each case, under either thermal or Lewis-acid-catalyzed conditions (Eq. 12.37). As expected, the Diels-Alder reaction occurred faster in aqueous media. The cyclization half-life in chloroform at room temperature is 10 days while in aqueous media at either pH 5 or 7, the half-life drops to two days. 

The chemical consequences of these MO changes is to activate the antiaromatic diene system for reaction. This activation is especially evident in Diels-Alder cyclizations, either with itself (Eq. 32) or with a variety of olefins and acetylenes.93... 

The possible importance of side reactions such as Friedel Craft alkylation, inter or intramolecular Diels Alder cyclization or re-addition of HC1 in this context have also been emphasised (43). 

In supramolecular chemistry [31] iterative synthesis is frequently used for the construction of ribbon and belt shaped molecules [32]. The repeated Diels-Alder reaction is suitable for the preparation of beltenes, collarenes and cycla-cenes containing partially or fully unsaturated annelated six-membered rings. They are potential molecular receptors for appropriate substrates. Stoddart et al. synthesized the cyclacene 18 by Diels-Alder cyclization of the bisdiene 15 and the bisdienophil 16 [33] (Fig. 10). 

Intramolecular Diels-Alder cyclizations of (E)- -nitro-1,7.9-decatrienes under thermal conditions and Lewis acid conditions lead to the formation of decalin ring systems with excellent endo selectivity (Eq. 8.21). This strategy is used for preparing of the AB ring system of norzoanthamine.33... 

An elegant approach toward formation of the central tetrahydropyrimidine ring has been reported by Tamura and co-workers who utilized an aza-Diels-Alder cyclization of ethyl ( )-3-aza-3-(l,3-benzoxazol-2-yl)propenoate 266 with a range of cinnamyl alcohols 267 catalyzed by l,l,3,3-tetra- -butyl-l,3-diisothiocyanatodistannoxane, and subsequent lactonization to generate the tricyclic core structure 268 (Scheme 18) <1998J(P1)3389>. 

When heating treatments are applied to obtain stand oils, the following chemical modifications are likely to occur cross-linking of triacylglycerols, isomerization of double bonds, and formation of dimers through Diels-Alder cyclization [50,51]. As a result of double bond isomerization, the amounts of suberic and sebacic acids increase with respect to azelaic acid. Consequently, the ratio of suberic acid to azelaic acid may help to indicate a pre-polymerized oil [52,53]. 

Scheme 6.246 Intramolecular Diels—Alder cyclization of biodihydroxylated benzoic acid derivatives.

A Diels Alder cyclization polymerization was recently used by Cho and coworkers [593] for the synthesis of sterically hindered copolymers 494a,b, in which terphenylene or... 

Isoquinoline alkaloids. The regioselective allylation of N-acyl heterocycles (13, 10) can be used for synthesis of isoquinoline alkaloids. Thus simultaneous reaction of the dihydroisoquinoline (1) with a diunsaturated acyl chloride (2) and allyltributyltin affords the 1,2-adduct (3), which undergoes a Diels-Alder cyclization... 

Isoquinoline also undergoes this simultaneous allylation-acylation to afford 1,2-adducts that can undergo Diels-Alder cyclization (equation I).1... 

The hetero-Diels-Alder cyclization reaction of tra s-l-methoxy-3-trimethylsilyloxy-1,3-butadiene (Si) (= Danishefsky s diene) with benzaldehyde (S ) (Scheme 12.23) [217-221] is a promising reaction for evaluating the catalytic properties of Lewis acidic lanthanide centers, and has enormous potential for asymmetric synthesis of natural products (e.g., monosaccharides) [222-225]. 

Ln = Sc, Y, La), and have been tested as heterogeneous catalyst in the Diels-Alder cyclization of terH-methoxy-3-trimethylsilyloxy-l,3-butadiene with benzaldehyde (Danishefsky transformation of 1,3-dienes), and proved active [51]. The surface yttrium bis-dionate has also been synthesized directly from the molecular precursor [Y( Bu-COCHCO-"C3F7)3] by reaction with MCM-41 surface silanols [51]. 

More recently, a catalyst-free aqueous version of this strategy was proposed with simple acyclic 1,3-dicarbonyls, formaldehyde, and styrene or anilines derivatives (Scheme 40) [131], In the first case (Scheme 40), the very reactive 2-methylene-1,3-dicarbonyl intermediate reacts smoothly at 80°C with a variety of substituted styrenes to give the corresponding dihydropyrans in moderate to good yields. Remarkably, when styrenes were replaced by A-ethylaniline, a novel five-component reaction involving twofold excess of both formaldehyde and 1,3-dicarbonyl selectively occurred (Scheme 41). The result is the formation of complex fused pyranoquinolines following a Friedel-Craft alkylation - dehydration sequence to furnish the quinoline nucleus, which suffers the Hetero-Diels-Alder cyclization in synthetically useful yields. 

As reported previously in CHEC-II(1996) <1996CHEC-II(7)229>, intramolecular Diels-Alder cyclization is useful for the preparation of the partially reduced pyrrolopyridazine 79 (Equation 33) <1998JOC6329, 2000JOC9120>. 

The well-known application of 2,4,6-tris(ethoxycarbonyl)-l,3,5-triazine as a diene in inverse electron demand Diels-Alder cyclizations was adapted for the synthesis of purines <1999JA5833>. The unstable, electron-rich dienophile 5-amino-l-benzylimidazole was generated in situ by decarboxylation of 5-amino-l-benzyl-4-imidazolecarboxylic acid under mildly acidic conditions (Scheme 54). Collapse of the Diels-Alder adduct by retro-Diels-Alder reaction and elimination of ethyl cyanoformate, followed by aromatization by loss of ammonia, led to the purine products. The reactions proceeded at room temperature if left for sufficient periods (e.g., 25 °C, 7 days, 50% yield) but were generally more efficient at higher temperatures (80-100 °C, 2-24 h). The inverse electron demand Diels-Alder cyclization of unsubstituted 1,3,5-triazine was also successful. This synthesis had the advantage of constructing the simple purine heterocycle directly in the presence of both protected and unprotected furanose substituents (also see Volume 8). 

On irradiation, the aldehyde 1 underwent photoenolization to give the quinone methide 9. Intramolecular Diels-Alder cyclization then proceeded with high diastereocontrol to give 2 as a mixture of epimeric esters. 

The marine alkaloid (-)-norzoanthamine 3 suppresses bone loss in ovariectomized mice, and so is of interest as a lead to antiosteoporotic drugs. A substantial challenge in the assembly of 3 is the stereocontrolled construction of the C ring, with its three all-carbon quaternary centers. In the synthesis of 3 by Masaaki Mayashita of Hokkaido University (Science 2004,305,495), the and C rings were built and two of the three needed quaternary centers were set by the intramolecular Diels-Alder cyclization of 1 to 2. 

Functional group manipulation then gave 1, setting the stage for the intramolecular Diels-Alder cyclization. 

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