Trienes, diene syntheses with

It is now principally important to consider trienes with the general formula MeCH=CH-CH= CH-CH2-CH2-CH2-CH=CHR. Such trienes contain moieties both of the diene and dienophile types within the framework of the same molecule. On initiation by the ArjN cation-radical, cycli-zation takes place. Tetrahydroindanes are formed. The trienes of R=PhS, p-MeOCgH4CH2, and H have been studied. The third triene, R=H, contains the dienophile fragment of lowered oxidizability it is not cyclized at all. The diene synthesis proceeds in the cases of the first two trienes only (Harirchian and Bauld 1987 see Scheme 7.23). 

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. 

Two examples of electrocyclic reactions for synthesis of carbocycles were reported. Diels-Alder reaction of D-glucose-derived diene 20 with quinone 21 gave 22, which epimerized on base catalysis to the trans-fused analogue. Levoglucosenone-derived enediene 23, was elaborated to triene 25 (via 24), thermal [3+3] rearrangement giving cyclohexadiene 26, then converted to 27, an... 

Feast WJ, Hughes RR, Musgrave WKR (1977) Diels-Alder reactions of polyfluorocyclohexa-1,3-dienes. Part VIII. Reaction of tiifluoroacetonitiile with perfluorotricyclo[6,2,2,0 - ] dodeca-2,6,9-triene. A synthesis of perfluoro-3-methylisoquinoline. J Fluorine Chem 9 271-278... 

New approaches to the intramolecular Diels-Alder reaction continue to be introduced. Mathias Christmann, now at the TU Dortmund, showed (Angew. Chem. Int. Ed. 2008, 47, 1450) that a secondary amine organocatalyst converted the prochiral dialdehyde 19 into the hicycHc diene 20 with high de and ee. Martin G. Banwell of the Australian National University prepared Organic Lett. 2008,10,4465) the triene 21 in high ee by microbiological oxidation of iodobenzene. On warming, 21 was converted smoothly into 22, which was carried on in a formal synthesis of platencin. 

Jote 2. We have also carried out this synthesis in ethanol as a solvent but the results were not reproducible. Although a series of experiments with zinc powder from one flask gave reasonable results (50-78% yields), a new flask with the same batch number gave low yields of impure products. The main impurity was probably the non-conjugated diene, H2C=CH-CH2-CH=CH-CH3, possibly resulting from reduction of the 1,2,4-triene by the zinc. The... 

Conjugated dienes can be epoxidized to provide vinylepoxides. Cyclic substrates react with Katsuki s catalyst to give vinylepoxides with high ees and moderate yields [17], whereas Jacobsen s catalyst gives good yields but moderate enantiose-lectivities [18]. Acyclic substrates were found to isomerize upon epoxidation (Z, )-conjugated dienes reacted selectively at the (Z)-alkene to give trans-vinylepoxides (Scheme 9.4a) [19]. This feature was utilized in the formal synthesis of leuko-triene A4 methyl ester (Scheme 9.4b) [19]. 

Suitably positioned vinyl halide can undergo Heck-type intramolecular coupling to generate dienes (equations 124 and 125)216,217. When one of the reacting partners in the Heck reaction is a diene, trienes are obtained (equation 126)218. Heck coupling of ally lie alcohols and alkenyl iodides has been employed for the synthesis of vitamin A and related compounds (equation 127)219,220. A similar double Heck reaction on a Cio-diiodide with a Cis-allylic alcohol leads to -carotene as a mixture of isomers (equation 128)209e. 

With the C12,C13 disconnection producing an effective solution to the synthesis of epothilone A (4), it would seem likely that the metathesis approach could be extended readily to the preparation of epothilone B (5). However, installation of the desired C12 methyl group requires ring-closure of a diene precursor in which one of the olefins is disubstituted. Recently, such reactions have been shown to be problematic for Grubbs initiator 3 but more successful with Schrock s molybdenum initiator 1 [19]. Consistent with these reports, Danishefsky demonstrated that triene 38 would not undergo RCM with 3, whereas 1 was effective in promoting the transformation of 38 into a 1 1 mixture of 39a and 39b in good yield [14b] (Scheme 8). 

The (Z, , )-triene systems in leukotriene and DiHETE were constructed by the coupling of the (ZfT)-dienylborane with the (Z)-alkenyl iodide [129,130]. In the total synthesis of the naturally occurring large molecule palytoxin, which has numerous labile functional groups, Suzuki coupling gives the best results for the creation of the (E,Z)-, 3-diene part (290) by the coupling of the alkenylborane 288 with the (Z)-alkenyl iodide 289. In this case, thallium hydroxide as the base accelerates the reaction 1000 times more than KOH [131]. 

Alkene synthesis.9 The key step in the Julia synthesis of alkenes (11, 473-475) involves reductive elimination of a P-hydroxy sulfone with sodium amalgam. A recent modification involves elimination of a p-hydroxy imidazolyl sulfone with Sml2 (equation I).1 Both syntheses are particularly useful for preparation of disubstituted alkenes and conjugated dienes and trienes. Both methods of elimination favor formation of (E)-alkenes. In a direct comparison, a higher yield was obtained with Sml2 than with Na(Hg). 

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