Transition-metal-catalyzed ring-closure

The comparison of intramolecular carbopalladation reactions of allenes and alkenes outlined in Schemes 9-5 and 9-6 illustrates that not every transition metal catalyzed ring closure necessarily involves a template effect. Others, however, clearly benefit from it. A prototype example is the palladium catalyzed cycloisomerization of alkenyl epoxides carrying distal pre-nucleophiles [38, 39], representing one variant of the famous Tsuji-Trost allylation [40]. 

There are a few reports using transition metal-catalyzed ring-closure reactions to produce benzofuran derivatives. One example, reported by Chen and Dormer, used a copper-catalyzed protocol to prepare several 2,3-... 

Later, a variety of transition-metal-catalyzed ring-closure reactions leading to fulvene derivatives were reported. These reactions are summarized in Scheme 6.40 [85-96]. 

Recent advances in fullerene chemistry have attracted much interest in bowl-like PAHs [148]. In this context, pyrolytic, photocatalyzed pericychc, and transition-metal-catalyzed ring-closure processes for the preparation of overcrowded fulvalenes such as 9,9 -fluorenylidene 191 have been investigated by several groups. Thermal dehydrocycfization of 191 above 700 °C yields 341, which can further cycfize to 342 at elevated temperature, but in quite low yields [200]. 

The diazo function in compound 4 can be regarded as a latent carbene. Transition metal catalyzed decomposition of a diazo keto ester, such as 4, could conceivably lead to the formation of an electron-deficient carbene (see intermediate 3) which could then insert into the proximal N-H bond. If successful, this attractive transition metal induced ring closure would accomplish the formation of the targeted carbapenem bicyclic nucleus. Support for this idea came from a model study12 in which the Merck group found that rhodi-um(n) acetate is particularly well suited as a catalyst for the carbe-noid-mediated cyclization of a diazo azetidinone closely related to 4. Indeed, when a solution of intermediate 4 in either benzene or toluene is heated to 80 °C in the presence of a catalytic amount of rhodium(n) acetate (substrate catalyst, ca. 1000 1), the processes... 

The transition metal catalyzed synthesis of five membered heterocycles, particularly of condensed ring systems, has attracted considerable attention. The ease of the formation of five membered rings has been utilised both in intramolecular ring closure processes, and in the combination of two (three) fragments through the formation of a carbon-carbon and a carbon-heteroatom bond. This chapter is dedicated to examples, where the construction of the five membered heterocycle is achieved in a transition metal catalysed step. 

Just as in aryl halides, the halogen can be replaced by hydrogen and by a metal, or be involved in transition metal-catalyzed processes (covered in Section 3.2.3.11.2). Three of the mechanisms of such nucleophilic substitutions are familiar from benzene chemistry via arynes, SrnI processes, and Pd(0)-catalyzed sequences. However, of the two further mechanisms of nucleophilic replacement, the ANRORC (Addition of Micleophile, Ring Opening, Ring Closure) is unique to heterocycles, and Sae reactions occur only with strongly activated benzenoid systems. 

Classical ring closures (of the FriedelCrafts, Dieckmann, etc., types) can be applied to benzazepine synthesis <1974AHC(17)45>. Particularly useful are approaches to benzazepines based on transition metal-catalyzed cyclizations , as illustrated by the synthesis of 1-benzazepine derivative 149 in high yield by Ru-catalyzed ring-closing metathesis with Grubbs I catalyst (Scheme 87) <2005JOC1545>. 

The asymmetric synthesis of cyclopropanes has attracted continual efforts in organic synthesis, due to their relevance in natural products and biologically active compounds. The prevalent methods employed include halomethylmetal mediated processes in the presence of chiral auxiliaries/catalysts (Simmons-Smith-type reactions), transition-metal-catalyzed decomposition of diazoalkanes, Michael-induced ring closures, or asymmetric metalations [8-10,46], However, the asymmetric preparation of unfunctionahzed cyclopropanes remains relatively undisclosed. The enantioselective activation of unactivated C-H bonds via transition-metal catalysis is an area of active research in organic chemistry [47-49]. Recently, a few groups investigated the enantioselective synthesis of cyclopropanes by direct functionalization reactions. 

The synthetic plan for (-)-dactyloIide by Lee and co-workers in 2010 involved the distinctive transition-metal-catalyzed transformations, including the formation of the 2,6-cw-disubstituted tetrahydropyran via the tandem ruthenium-catalyzed Alder-ene reaction [197,198] and palladium-catalyzed ring closure. The Alder-ene... 

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