Diene syntheses unstable

Diene synthesis with unstable intermediates—o-Quinodimethanes as inter-... 

Diene synthesis with unstable intermediates o-Quinodimethanes as intermediates... 

The Diels-Alder reaction of morphinan-6,8-dienes with nitroethene affords a novel type of opium alkaloids (Eq. 8.3).10a High reactivity of nitroethylene is demonstrated for the Diels-Alder reaction with thermally unstable dienes, and this is used for synthesis of polycyclic kopsane-like alkaloids.1013... 

I.4.2.I. Synthesis and Modification of Polymers Unstable bis(nitrile oxide), generated by dichloroglyoxime dehydrochlorination, polymerizes in solution to give poly(furoxan) or (in the presence of 1,3-dienes) gives rise to their being cross-linked (500). Polymerization of terephthalonitrile dioxide and its... 

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). 

Various aspects of this reaction have been summarized by Kocienski.2 It is particularly useful for synthesis of disubstituted alkenes and conjugated dienes and trienes. It fails with some trisubstituted alkenes and most tetrasubstituted. alkenes because the precursors are unstable. One advantage of this route is that rra/is-alkenes are formed preferentially or exclusively. Yields are highest when the eliminated groups can adopt a /rons-coplanar arrangement. 

Irradiation of the 5,7-diene gave the previtamin, which was isomerized and saponified to give la-hydroxy-vitamin D3. For the last synthesis of la-hydroxy-7-dehydrocholesterol recorded here, cholesta-l,4,6-triene-3-one was again used as starting steroid.122 Deconjugation of this trienone with strong base followed by immediate reduction with calcium borohydride led to the unstable 3/3-hydroxycholesta-l,5,7-triene which, without isolation, was converted into the 1,4-addition product (265) upon reaction with 4-phenyl-l,2,4-triazoline-3,5-dione. 

In the penultimate step of a synthesis of the unstable antibiotic Streptazolin, an iron tricarbonyl group co-ordinated to a 1.3-diene unit and two benzyl ethers were severed simultaneously using tribromoborane at -90 °C [Scheme 4.148].274 Tribromoborane has also been used to deprotect a phenolic benzyl ether in the presence of two phenolic methyl ethers in a synthesis of the alkaloid Lythrancepine [Scheme 4.149].275... 

In a study on vitamin D2 synthesis [ 124], a sterically very hindered sulfone 273 (Scheme 90) with the axially oriented sulfonyl group was transformed into an anion (NaHMDS) and subjected to reaction with diene-aldehyde 274 used in excess. After deprotection, vitamin D2 275 and its unstable C7-C8 Z-isomer 276, were obtained in 70% yield, ratio of 72/28, respectively. Some BT-sulfone 277 generated by epimerization of 273 was also isolated. An attempt to carry out the reaction with the reverse allotment of the fimctional groups (sulfone 278 with ketone 279) failed. With regard to the isomer ratio 275 and 276, it is of interest that the classical Julia reaction of phenylsuhbne corresponding to 277 and aldehyde 274 occurs with somewhat lower selectivity towards the -isomer [125]. 

Three successive [2+4] cycloadditions were used in the synthesis of the pentacyclic methyl ether of G-2N by Kraus and Zhao [92] and later, by a slightly modified procedure, also of the natural product G-2N (118) [93] (Scheme 31). Thermal reaction of the cyclobutanol 112 with acrylic ester gave the dihydronaphthalene 113 which was demethylated by treatment with boron tribromide and converted into the exocyclic ketene acetal 114. This unstable diene was reacted in a second cycloaddition with 2,6-dichlorobenzoquinone (115) to afford the tetracyclic chloroquinone 116. In a last Diels-Alder reaction, ring E was anella-ted by treatment of 116 with l-methoxy-l,3-bis[(trimethylsilyl)oxy]-l,3-buta-diene (117) to yield the pentacyclic natural product G-2N (118) [93]. 

Acyclic dienamines are relatively unstable, but very reactive towards electron-poor dienophiles as describe in a review article (1984). A more recent example shows the preparation of sterically encumbered 1-amino-1,3-diene (125) and its, nevertheless, efficient and highly stereoselective [4 + 2] cycloaddition to dimethyl fumarate (Scheme 32). Elimination of pyrrolidine, by heating the non-iso-lated cycloadduct with acetic anhydride, afforded hexahydronaphth ene (126), a key intermediate for a synthesis of drimane-type sesquiterpenes. 

The rDA cycloieversitHi of a protected butadiene adduct has been applied to the synthesis of unsaturated oxygen heterocycles. The very unstable 2,3-dihydro-2,3-bis(methylene)furan and its 4-methyl derivative have been generated by rDA reaction of 4,5,6,7-tetrahydrobenzofuran and its dimethylated derivative (equation 82). Characterization of these dienes was accomplished by trapping with various dienophiles. This method was extended to a two-step rDA synthesis of tetramethylenetetrahydrofuran as shown in equatirai (83). ... 

An extremely efficient synthesis of lactone [41] is provided (33,34) by asymmetric synthesis (Fig. 10). Alkylation of the anion of cyclopentadiene with methyl bromoacetate gave the unstable diene [59], Immediate asymmetric hydroboiation with (+)-di-3-pinanylborane gave, after oxidative workup, the hydroxy ester [60] in about 95% e.e. Lactonization involved conversion to mesylate [61] and saponification. The crystalline lactone [41] was readily brought to an enantiomerically pure state. This route is apparently the basis for commercial quantities of compound [41], the Corey lactone, and other prostaglandin intermediates offered by the Hungarian firm Chinoin. 

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