Ethers, vinyl Diels-Alder reactions

Azadienes undergo Diels-Alder reactions to form pyridine, dihydro- and tetrahydropyridine derivatives. N-Vinyl lactim ethers undergo Diels-Alder reactions with a limited set of dienophiles. " Thioketones react with dienes to give Diels-Alder cycloadducts. The carbonyl group of lactams have also been shown to be a dienophile. Certain heterocyclic aromatic rings (among them furans) can also behave as dienes in the Diels-Alder reaction. Some hetero dienes that give the reaction are -C=C-C=0, 0=C-C=0, and N=C-C=N. ... 

Cycloadditions with enol ethers The Diels-Alder reaction of vinyl ethers with a,(3-unsaturated aldehydes proceeds at room temperature when catalyzed by the related lanthanide Yb(fod),. An example is the reaction of crotonaldehyde with ethyl vinyl ether (equation I). 

Vinyl ethers and a,P unsaturated carbonyl compounds cyclize in a hetero-Diels-Alder reaction when heated together in an autoclave with small amounts of hydroquinone added to inhibit polymerisation. Acrolein gives 3,4-dihydro-2-methoxy-2JT-pyran (234,235), which can easily be hydrolysed to glutaraldehyde (236) or hydrogenated to 1,5-pentanediol (237). With 2-meth5lene-l,3-dicarbonyl compounds the reaction is nearly quantitative (238). 

Heteroatom functionalized terpene resins are also utilized in hot melt adhesive and ink appHcations. Diels-Alder reaction of terpenic dienes or trienes with acrylates, methacrylates, or other a, P-unsaturated esters of polyhydric alcohols has been shown to yield resins with superior pressure sensitive adhesive properties relative to petroleum and unmodified polyterpene resins (107). Limonene—phenol resins, produced by the BF etherate-catalyzed condensation of 1.4—2.0 moles of limonene with 1.0 mole of phenol have been shown to impart improved tack, elongation, and tensile strength to ethylene—vinyl acetate and ethylene—methyl acrylate-based hot melt adhesive systems (108). Terpene polyol ethers have been shown to be particularly effective tackifiers in pressure sensitive adhesive appHcations (109). 

Pyrazolin-5-ones with an exocyclic double bond at the 4-position (369 X = CMe2> react as heterodienes towards alkyl vinyl ethers (77G91). The kinetics of this Diels-Alder reaction giving pyrazolopyrans (370) have been studied. 

The inverse electron-demand Diels-Alder reaction is also accelerated by Lewis acids, but the successful application of chiral Lewis acids to this kind of Diels-Alder reaction is very rare. Marko and coworkers applied Kobayashi s catalyst system (Yb(OTf)3-BINOL-amine) to the Diels-Alder reaction of 3-methoxycarbonyl-2-py-rone with vinyl ether or sulfide [58] (Scheme 1.72, Table 1.29). A bulky ether or... 

Two other important sigmatropic reactions are the Claisen rearrangement of an allyl aryl ether discussed in Section 18.4 and the Cope rearrangement of a 1,5-hexadiene. These two, along with the Diels-Alder reaction, are the most useful pericyclic reactions for organic synthesis many thousands of examples of all three are known. Note that the Claisen rearrangement occurs with both allylic aryl ethers and allylic vinylic ethers. 

Intermolecular befera-Diels-Alder reactions of enamino ketones with highly substituted vinyl ethers. Effect of high pressure on the kinetics and diastereoselectivity [77]... 

Wada E., Yasuoka H., Pei W., Chin U., Kanemasa S. Lewis Add-Catalyzed Stereoselective Hetero Diels-Alder Reactions of (E)-l-Phenylsulfonyl-3-Alken-2-Ones With Vinyl Ethers. Synthetically Equivalent to Stereoselective Michael Type... 

The preparation of resin-bound nitroalkenes via a microwave-assisted Knoevenagel reaction of resin-bound nitroacetic acid with aryl and alkyl substituted aldehydes is reported. The potential of these resin-bound nitroalkenes for application in combinatorial chemistry is demonstrated by a Diels-Alder reaction with 2,3-dimethylbutadiene (Scheme 8.9). It is also used for one-pot three-component tandem [4+2]/[3+2] reactions with ethyl vinyl ether and styrene 46... 

The pyranocoumarin 105 can be prepared via a three-component Diels-Alder reaction between 4-hydroxycoumarin, ethyl vinyl ether and an a-dicarbonyl compound. Similarly to the above, upon treatment of 105 with sulfuric acid in THF, hydrolysis and rearrangement occur to give the furofurochromenone 106. The hemiacetal functionality in 106 may then be oxidized with pyridinium chlorochromate (PCC) to give the lactone 107 <2001EJ03711> (Scheme 28). 

The scope and efficiency of [4+2] cycloaddition reactions used for the synthesis of pyridines continue to improve. Recently, the collection of dienes participating in aza-Diels Alder reactions has expanded to include 3-phosphinyl-l-aza-l,3-butadienes, 3-azatrienes, and l,3-bis(trimethylsiloxy)buta-l, 3-dienes (1,3-bis silyl enol ethers), which form phosphorylated, vinyl-substituted, and 2-(arylsulfonyl)-4-hydroxypyridines, respectively <06T1095 06T7661 06S2551>. In addition, efforts to improve the synthetic efficiency have been notable, as illustrated with the use of microwave technology. As shown below, a synthesis of highly functionalized pyridine 14 from 3-siloxy-l-aza-1,3-butadiene 15 (conveniently prepared from p-keto oxime 16) and electron-deficient acetylenes utilizes microwave irradiation to reduce reaction times and improve yields <06T5454>. 

The first report suggesting specific activation of an organic reaction by MW was that of Berlan et al. [28] who observed that some Diels-Alder reactions occurred more rapidly on MW heating than under conventional heating at the same temperature (95 °C). The reactions were performed in two different solvents, xylene and dibutyl ether and the rate enhancements were slightly higher in xylene, the less polar solvent. For example the rate enhancement of the reaction of 2,3-dimethyl-l,3-butadiene 21 with methyl vinyl ketone 22 was 8 times in xylene and 2.3 times in dibutyl ether, based on the half lives of the reactions. Reaction of anthracene 3 with diethyl maleate 23 in xylene (Scheme 4.12) resulted in an approximately fourfold rate in-... 

Diels-Alder reaction, of acrolein with B-butyl cyclohexenyl ether, n-butyl vinyl ether, and ethyl isopropenyl ether, 34, 30... 

On the basis of available experimental data, it is impossible to choose a definite pathway of elimination of silanol. However, study of silylation of methyl P -nitropropionate (411) with BSA in the presence of trapping agents rigorously proved that silyl nitronate D is initially formed. This compound can be detected in the [3 + 2]-cycloaddition reaction with methyl acrylate product (413). If silylation of AN (411) is performed in the presence of ethyl vinyl ether, a-nitrosoalkene E can be successfully trapped in as heterodiene a Diels-Alder reaction. Dihydroox-azine (414) is formed, and its silylation affords isolable product (415). 

Waldmann et al. used tyrosinase which is obtained from Agaricus bisporus for the oxidation of phenols to give ortho-quinones via the corresponding catechols in the presence of oxygen (scheme 33).1881 A combination of this enzymatic-initiated domino process with a Diels-Alder reaction yields the functionalized bicyclic components 164 and 165 as a 33 1 mixture starting from simple p-methyl-phenol 160 in the presence of ethyl vinyl ether 163 as an electron rich dienophile via the intermediates 161 and 162 in an overall yield of 77%. 

Figure 26. Proposed stereochemical model for the hetero-Diels-Alder reaction of ethyl vinyl ether and acylphosphonate catalyzed by 55c-Cu(II) complex.

Mark6 and colleagues178 studied the Eu(hfc)3 catalyzed inverse electron demand Diels-Alder reactions between (—)-pantolactone derived chiral a-pyrones 279 and vinyl ethers and thio ethers 280. This auxiliary proved superior to other auxiliaries in these reactions. The reactions generally proceeded with high yields, affording the endo adducts 281 with de values generally above 95%. The de proved independent of the chirality or achirality of the Lewis acid employed, as (+)-Eu(hfc)3, (—)-Eu(hfc)3 and Eu(fod)3 all afforded the same diastereomer with >95% de (equation 78, Table 13). 

Furthermore, Akiyama and coworkers applied phosphoric acid (/ )-3m (10 mol%, R = 9-anthryl) to the asymmetric inverse-electron-demand hetero-Diels-Alder reaction of A-2-hydroxyphenyl-protected aldimines 8 with vinyl ethers 99 (Scheme 38) [61], Tetrahydroquinolines 100 were obtained in good yields (59-95%), excellent yyn-diastereoselectivities (24 1-99 1), and high enantioselec-tivities (87-97% ee). 

Recently, the first examples of catalytic enantioselective preparations of chiral a-substituted allylic boronates have appeared. Cyclic dihydropyranylboronate 76 (Fig. 6) is prepared in very high enantiomeric purity by an inverse electron-demand hetero-Diels-Alder reaction between 3-boronoacrolein pinacolate (87) and ethyl vinyl ether catalyzed by chiral Cr(lll) complex 88 (Eq. 64). The resulting boronate 76 adds stereoselectively to aldehydes to give 2-hydroxyalkyl dihydropyran products 90 in a one-pot process.The diastereoselectiv-ity of the addition is explained by invoking transition structure 89. Key to this process is the fact that the possible self-allylboration between 76 and 87 does not take place at room temperature. Several applications of this three-component reaction to the synthesis of complex natural products have been described (see section on Applications to the Synthesis of Natural Products ). 

Akiyama applied Im in the inverse-demand aza-Diels-Alder reaction of various acyclic and cyclic vinyl ethers with N-aryl imines derived from o-hydroxyaniline to provide ophcally active tetrahydroquinoline derivatives (Scheme 5.16) [29]. Since aldimines derived from p-methoxyaniline gave no cycloaddition product, a nine-membered cyclic TS (akin to that proposed for the author s Mannich reachon) was invoked to rationalize the high levels of enantio-control. 

The reactivity of the produced complexes was also examined [30a,b]. Since the benzopyranylidene complex 106 has an electron-deficient diene moiety due to the strong electron-withdrawing nature of W(CO)5 group, 106 is expected to undergo inverse electron-demand Diels-Alder reaction with electron-rich alkenes. In fact, naphthalenes 116 variously substituted at the 1-, 2-, and 3-positions were prepared by the reaction of benzopyranylidene complexes 106 and typical electron-rich alkenes such as vinyl ethers, ketene acetals, and enamines through the Diels-Alder adducts 115, which simultaneously eliminated W(CO)6 and an alcohol or an amine at rt (Scheme 5.35). 

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