Substitution processes, involving propargyl

Metal-catalyzed substitution reactions involving propargylic derivatives have not been studied in much detail until recently [311, 312]. In this context, the ability shown by transition-metal allenylidenes to undergo nucleophilic additions at the Cy atom of the cumulenic chain has allowed the development of efficient catalytic processes for the direct substitution of the hydroxyl group in propargylic alcohols [313]. These transformations represent an appealing alternative to the well-known and extensively investigated Nicholas reaction, in which stoichiometric amounts of [Co2(CO)g] are employed [314-317]. 

Although no experimental evidences have been furnished, involvement of copper alleny-lidenes in catalytic propargylic substitution processes has been recently proposed Detz RJ, Delville MME, Hiemstra H, van Maarseveen JH (2008) Angew Chem Int Ed 47 3777-3780... 

Functionalization of Indole Derivatives. Fully substituted 1,2-dihydro- -carbolines could be efficiently synthesized via a tandem process involving a-indolyl propargylic alcohols and nitrones using 30 mol % of Sc(OTf)3 (eq 30). ... 

The hydrosilylation of terminal alkynes disclosed by Trost can be applied to internal alkynes as well. i Remarkably, the (Z)-isomer is generated in this process, resulting from trans addition during hydrosilylation. The protodesilylation of these sily-lated products in the presence of copper(I) iodide and tetrabuty-lammonium fluoride (TBAF) or silver(I) fluoride (eq 15) leads to internal fraws-olefins. This two-step method is a useful synthetic transformation to access ( j-alkenes from internal alkynes. In contrast, the chemoselective reduction of alkynes to the corresponding ( -alkenes is conventionally accomplished readily with Lindlar s catalyst. The complementary process to afford ( )-olefins has proven much more difficult. Methods involving metal hydrides, dissolving metal reductions, low-valent chromium salts provide the desired chemical conversion, albeit with certain limitations. For example, functional substitution at the propargylic position (alcohols, amines, and carbonyl units) is often necessary to achieve selectivity in these transformations. Conversely, the hydrosilylation/protodesilyla-tion protocol is a mild method for the reduction of alkynes to ( )-alkenes. 

The Cu(I)-catalyzed cyclization for the formation of ethyl ( )-tetrahydro-4-methylene-2-phenyl-3-(phenylsulfonyl)furan-3-carboxylate 82 has been accomplished starting from propargyl alcohol and ethyl 2-phenylsulfonyl cinnamate. Upon treatment with Pd(0) and phenylvinyl zinc chloride as shown in the following scheme, the methylenetetrahydrofuran 82 can be converted to a 2,3,4-trisubstituted 2,5-dihydrofuran. In this manner, a number of substituents (aryl, vinyl and alkyl) can be introduced to C4 <00EJO1711>. Moderate yields of 2-(a-substituted N-tosyIaminomethyl)-2,5-dihydrofurans can be realized when N-tosylimines are treated with a 4-hydroxy-cis-butenyl arsonium salt or a sulfonium salt in the presence of KOH in acetonitrile. The mechanism is believed to involve a new ylide cyclization process <00T2967>. 

As the steric bulk of the propargylic substituents increased, the preference for the formation of the seven-membered ring increased as well. Formation of a ruthenacyclopentene intermediate with sterically hindered substrates involves a large amount of A(1,3) strain, leading to preferential formation of a 7r-allyl species. This novel cycloisomerization process is very sensitive to alkene substitution the requirement for a m-methyl group was evidenced by the failure of 70 to give... 

Heck reactions involving nonaromatic components are particularly versatile synthetic processes. For example, 1,2,4-trienes and l,2-dien-4-ynes are readily prepared from propargyl carbonates." Intramolecular Heck cyclization followed by Diels-Alder or nucleophilic attackleads to bicyclic products. Substituted pyrrolidines and piperidines are formed by coupling of alkenyl sulfonamides with vinylic halides. ... 

Ali and Alper later developed a method for y-lactone formation under neutral conditions from allylic alcohols according to Scheme 23, involving Pd(0) and dppb. The same protocol was also applied to synthesis of a,/3-butenolides from propargylic alcohols. Other bidentate or monodentate ligands give inferior results, and this correlates well with bite angle effects on the rate of the CO insertion reaction. Also, the allylic alcohol needs to be a-alkyl substituted to facilitate ring closure, in accordance with other studies.t t This process was postulated by the authors to be of the carbopalladative type. 

Yoshida et al. uncovered a novel palladium-catalyzed cascade reaction of propar-gylic carbonates with phenols which involves a CO elimination/fixation step and affords phenoxy-substituted cyclic carbonates. They discovered that this reaction proceeds in a highly enantiospecific manner to give the chiral cyclic carbonates 276 and 277 via an overall cascade chirality transfer process through use of the chiral propargylic carbonates 275 as the substrates [98] (Scheme 6.73). 

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