Diene cyclization

Triple bonds can also participate in the metathesis reaction. Intramolecular reactions give vinylcycloalkenes, whereas intermolecular reactions provide conjugated dienes.301 The mechanism is similar to that for a, to-diene metathesis, but in contrast Reactions involving to diene cyclization, no carbon atoms are lost.302... 

Scheme 8 Diene cyclization followed by 3-alkoxide elimination...

For most dienes, 7r-bonds adjacent to quaternary centers do not undergo insertion reactions. One notable exception is 1,5-diene (75) (Scheme 17) [44], For this substrate, the observed selectivity is inconsistent with a chair-like (in this case a trans decalin-like) transition structure (76 top) leading to the insertion product, which is typically seen in diene cyclizations with 70 [36]. 

To date, a single study pertaining to enantioselective yttrocene-catalyzed reductive diene cyclization is reported.36 Using the -symmetric yttrocene [(R,Y)-BnBpY-H]2, a range of 1,5- and 1,6-dienes are transformed to the corresponding cyclopentanes and cyclohexanes. In terms of asymmetric induction, the formation of cyclopentane 13b in 50% ee from 1,5-diene 13a represents the most favorable result (Scheme 10). 

For further evidence of kinetic and thermodynamic control in zirconocene-catalyzed diene cyclization, see Uesaka, N. Mori, M. Okamura, K. Date, T. J. Org. Chem. 1994, 59, 4542M547. 

The above intramolecular diene cyclizations are likely to proceed through a similar set of reactions as shown in Scheme 6.2 for the intermolecular variants. Thus, as depicted in Scheme 6.6, formation of the zirconacyclopropane at the less hindered terminal alkene (—> ii), generation of the tricyclic intermediate iii, Zr—Mg exchange through the intermediacy of zirconate iy and 3-H abstraction and Mg alkoxide elimination in v may lead to the formation of the observed product. Additional kinetic and mechanistic studies are required before a more detailed hypothesis can be put forward. 

Zr-catalyzed enantio-selective intramolecular diene cyclization delivers N-containing heterocycles having quaternary carbon stereogenic centers. 

Zr-catalyzed enantio-selective intramolecular diene cyclizations with allylic alcohol and ether substrates afford carbocycles bearing quaternary carbon stereogenic centers the unexpected formation of the aldehyde product 19 is noteworthy. 

Proposed mechanism for asymmetric Zr-catalyzed diene cyclization this represents the intramolecular variant of the catalytic carbo-magnesation shown in Scheme 6.2. 

The sterically hindered base 2,6-bis(tert-butyl)pyridine does not inhibit cyclization triaryl-amine retards this reaction photosensibilized one-electron oxidation of a diene leads to the same products, which are formed in the presence of ammoniumyl salt. As shown, in majority of cases, only the cation-radical chain mechanism of the diene-diene cyclization is feasible (Bauld et al. 1987). Meanwhile, cyclodimerizations of 2,4-dimethylpenta-l,3-diene (Gassman and Singleton 1984) and l,4-dimethylcyclohexa-l,3- or -1,4-diene (Davies et al. 1985) proceed through both mechanisms. 

Enamines (cf. 63JCE194, 82T1975,88MI1,08H(75)1849) play an important role in the syntheses under review, both as target substances (see Schemes 16 and 17) and as precursors (see Scheme 9 and following Schemes 19-21). Thus, noble-metal-catalyzed enyne and diene cyclizations have been described (Scheme 19) palladium-catalyzed cycloisomerization of... 

Various mechanisms have been proposed to account for cyclization of 1,3-dienes. Cyclization probably occurs by attack of the propagating carhocation on trans 1,4-douhle bonds,... 

Yttrium-catalyzed diene cyclization/hydrosilylation was applied to the synthesis of aliphatic nitrogen heterocycles such as the indolizidine alkaloid ( )-epilupinine. l-Allyl-2-vinylpiperidine 30 was synthesized in four steps in 59% overall yield from commercially available ( )-2-piperidinemethanol (Scheme 10). Treatment of 30 with phenylsilane and a catalytic amount of Gp 2YGH3(THF) gave silylated quinolizidine derivative 31 in 84% yield, resulting from selective hydrometallation of the A-allyl G=G bond in preference to the exocyclic vinylic G=G bond. Oxidation of the crude reaction mixture with tert-huVf hydrogen peroxide and potassium hydride gave (i)-epilupinine in 51-62% yield from 30 (Scheme 10). 

Palladium-catalyzed diene cyclization/hydrosilylation was compatible with a number of functionalized silanes, including dimethylphenylsilane, dimethylbenzylsilane, dimethylbenzhydrylsilane, and pentamethyldisiloxane... 

Palladium-catalyzed asymmetric cyclization/hydrosilylation tolerated a number of functional groups including benzyl and pivaloyl ethers as well as benzyl and methyl esters (Table 8, entries 1-4). Furthermore, the protocol tolerated substitution at one of the two /ra/zi -terminal alkenyl positions and at one of the two allylic positions of the 1,6-diene (Table 8). As was the case with diene cyclization/hydrosilylation catalyzed by achiral palladium... 

Initial work indicates that dispersed metals may be used to promote a variety of organometallic reactions. The Heck Arylation proceeds smoothly over supported Pd catalysts while diene cyclizations can be catalyzed by dispersed Rh metal. The use of these heterogeneous species facilitates product isolation and permits the application of flow systems rather than batch reactors for these reactions. Frontier Molecular Orbital and mechanistic considerations indicate that these reactions take place on the coordinately unsaturated comer atoms on the metal surface. 

The diene cyclization shown in Eqn. 2, has been reported to take place only over RhCl3 and Wilkinson s catalyst (ref. 6). We have found that it also occurs when run over supported Rh catalysts. The heterogeneously catalyzed reaction is particularly sensitive to the nature of the solvent used. With alcohols or other solvents which can adsorb on the catalyst, there is an apparent competition with the adsorption of the double bonds and the cyclization does not take place. In alkane solvents, which do not interact with the catalyst, the reaction occurs with reasonable facility. This cyclization is run routinely at 145°C in a flow system with a decane solution of 5 passing through a small column containing a Rh/Al2Oj catalyst. The product composition was related to the time 5 was in contact with the catalyst. With fast flow rates (short contact times) 6 was the primary product of the reaction but the isomerized species, 7 and 8, were produced when slower flow rates were used. This indicates that 6 was the primary product of the reaction but that it was isomerized over the catalyst to 7 and 8. 

When a series of STO characterized Pd/A Og catalysts were used to promote the Heck reaction (Eqn. 1) the amount of the fi aryl enol ethers, 1 and 2, formed after a 60 minute reaction was directly related to the comer site densities on these catalysts. Thus, this reaction and presumably, others such as the diene cyclization shown in Eqn. 2, which require the adsorption of two reactive species on a single surface atom, must take place on the more coordinatively unsaturated comer atoms. 

Whereas diallyl ethers do not readily undergo Zr-promoted cyclization due to competitive oxidative addition [23a], diallylamines have been shown to readily undergo Zr-promoted cyclization, even in cases where the corresponding all-C dienes fail to do so [231. Since the development of the Zr-catalyzed diene cyclization with n-butylmagnesiums. such as n-BuMgBr... 

Stereoselective Cyclizations. Sultams have been demonstrated to be superior sources of chirality in selected cases of iodolactonizations, oxidative 1,5-diene cyclizations, and Claisen-type rearrangements of p-acetoxyl substrates. ... 

Diene Cyclization. In 1952 Reed (157) discovered the catalytic dimerization of butadiene with Reppe catalyst in the presence of acetylene. Important results were obtained by Wilke (200) in the cyclization of butadiene with a nickel(0) catalyst. With bis-7r-allylnickel, biscyclo-i,5-octadienenickel, or cyclododecatrienenickel, he obtained the trimerization of butadiene to cyclododecatetraene while, with a catalyst of the type Ni(PR3)4, in which perhaps one coordination site cannot be replaced, he obtained the dimerization to cycloocta-l,5-diene. The mechanism of these reactions, in which 7r-allyl systems can be in equilibrium with o--7r-allyl systems (Figure 7), have been proved by Wilke and co-workers who isolated the intermediate compounds. It is worth noting that all these catalysts have ligands of weak -acceptor character which are labile and do not prevent butadiene from coordinating. The presence of weak t acceptors on the nickel tends to favor the structure of the diene, as was emphasized by Mason (112). 

---