Ring systems cyclopentane synthesis

Hydrosilylation of 1,6-dienes accompanied by cyclization giving a five-membered ring system is emerging as a potential route to the synthesis of functionalized carbocycles.81,81a,81b 82 As its asymmetric version, diallylmalonates 86 were treated with trialkylsilane in the presence of a cationic palladium catalyst 88, which is coordinated with a chiral pyridine-oxazoline ligand. As the cyclization-hydrosilylation products, //ww-disubstituted cyclopentanes 87 were obtained with high diastereoselectivity (>95%), whose enantioselectivity ranged between 87% and 90% (Scheme 25).83 83a... 

Enyne cycloisomerizations can also be exploited to annulate a cyclopentane onto an existing ring system. An example drawn from Trost and co-workers asymmetric total synthesis of picrotoxinin (119) is the conversion of bridged bicyclic intermediate 117 into tricycle 118 (Scheme 6-20) [46]. The optimal cyclization conditions in this case were unusual, requiring an internal proton delivery and a bidentate phosphine. A related example is the conversion of 120 to 121, which was the pivotal step in Trost s synthesis of (—)-dendrobine (122) [47]. An all-carbon tether is not required, as is exemplified by the conversion of 123 to 124 in the total synthesis of ( )-phyllanthocin (125) [48]. Note that in-situ reduction of the o-palladium species prior to /5-hydride elimination has occuined in this latter-example. The enyne disconnection in the synthesis of ( )-phyllanthocin was... 

This chapter follows much the same pattern as has been established in previous volumes. Material of theoretical and specific structural significance on five- and six-membered rings and related simple fused-ring systems is included to the exclusion of a wide range of such information found inter alia under general synthesis and identification. Also included is a selection of the more important aspects of reactivity associated with simply functionalized cyclohexanes, cyclopentanes, and their fused-ring systems. 

Cyclopentane and Cydobutane Derivatives. - A review of applications and mechanistic aspects of the CpiZr induced direct ring contraction of hept-6-enose and hex-5-enose derivatives to cyclopentane and cyclobutane ring systems with emphasis on the application to oxetanocin synthesis has appeared. (See also Vol. 

The use of radical cyclizations to make five-membered rings has become a very important tool for synthetic chemists Although there has been a virtual explosion of reports in the literature regarding the cyclization of 5-hexenyl radicals to cyclopentyl carbinyl radicals in all types of hydrocarbon systems [55], the use of this cyclization for the synthesis of fluorme-containing cyclopentanes has been largely ignored... 

In contrast, the so-called bis-nor-Wieland-Miescher ketone (2) is a more complex synthetic problem, since the molecule is a multidissonant system with two dissonant bifunctional group relationships (1,4-D and 1,6-D) and two dissonant cyclopentane rings, besides a 1,5-consonant bifunctional group relationship. Its synthesis was only accomplished 30 years after the synthesis of its consonant homologue [5],... 

Enynes in which three or four atoms separate the double and triple bonds cyclize upon complexation to Co2(CO)g and subsequent heating to give bicyclic enones (equation 52). With the exception of slightly elevated temperatures the conditions required are no different than those of the stoichiometric procedure described earlier for reactive substrates in intermolecular Pauson-Khand reactions. The intramolecular cycloaddition cannot in general be carried out under catalytic conditions. Hex-l-en-5-yne, which would give a four-membered ring upon intramolecular cycloaddition, instead undergoes alkyne trimerization exclusively.3 The most extensively studied systems are those derived from hept-l-en-6-yne, as the products, bicyclo[3.3.0]oct-l-en-3-ones, are useful in the synthesis of numerous cyclopentane-based polycy-clics. 

Substitution at the 2-position of the allylic system is incompatible with the process and only open-chain products are observed under the standard reaction conditions. However, an impressive example of the stereocontrolled synthesis of a cyclopentane ring substituted at each position results from the combination of donor and acceptor components, both of which are alkyl substituted. 

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