Cascade reactions olefins

Diels-Alder reaction of the 1,3,4-oxadiazole with the pendant olefin and loss of N2, the C2-C3 7t bond participates in a subsequent 1,3-dipolar cycloaddition with the carbonyl ylide to generate complex polycycles such as 45 as single diastereomers with up to six new stereocenters. That the cascade reaction is initiated by a Diels-Alder reaction with the alkene rather than with the indole is supported by the lack of reaction even under forcing conditions with substrate 46, in which a Diels-Alder reaction with the indole C2-C3 n bond would be required [26a]. 

The transfer of a trifluoromethyl group of xanthate R—O—(C=S)—S—CF3 is a recent and powerful method for the trifluoromethylation of olefin.An important and interesting point of this method is that the reaction product is a xanthate itself, able to undergo further radical reactions and permitting cascade reactions, as exemplified in Figure 2.40. The starting xanthates R—O—(C=S)—S—CF3 are easily prepared from trifluoroacetic anhydride and sodium xanthate. 

The unselective 6jt-electrocyclization can be avoided with substrates that lack a [3-olefin substituent (Scheme 7.41).116 When chiral, nonracemic versions of these substrates are employed, Woerpel and Calad demonstrated that the cascade reaction efficiently transfers the chiral information. While silver salts were competent catalysts for the diastereoselective formation of silalactone 144 from 1301, on scale-up, copper(II) triflate proved to be more efficient. The authors attribute the poorer performance by silver to product inhibition. In eight steps, silalactone 144 was transformed into the antibiotic (+ Hyu-acetomycin, to further highlight the synthetic utility of the cascade process. 

As an oxidative cascade reaction with Mn(OAc)3, treatment of tetra-olefinic (3-keto ester (308) with Mn(OAc)3 in acetic acid generates a steroidal skeleton (309) via quartet 6-endo-trig ring closure, in one-pot reaction (eq. 3.129). 

A similar type of cascade reaction has been carried out with cyclic alkenes bearing only one olefinic side chain to obtain substituted heterocycles via ruthenium-catalyzed ring closing-ring opening metathesis (RCM-ROM) reactions. The preparation of enantiomerically pure cis- or trans-a,a -disubstituted piperidines has been achieved in the same yield for the two diastereoisomers [35] (Scheme 17). This reaction has also been used as a key step for the synthesis of natural products [36-39]. 

All the above cascade alkene metathesis reactions are based on the ROM of a cycloalkene moiety. Harrity and co-workers have described the synthesis of functionalized spiro cyclic systems by cascade selective olefin ringclosing metathesis reactions from an acyclic tetraalkene. The selectivity for five-membered ring closure over seven-membered ring closure would be the result of a kinetically favored cyclization process [42] (Scheme 20). The syn-... 

Following the pioneer work of Kharasch [60], methods involving radical transfer of halides have been developed. The atom transfer method has emerged in the 1980s as one of the best method for conducting intra- and intermolecular radical additions to olefins [61]. This approach is particularly appealing from an atom economy point of view since all atoms remains in the final product. The non-reductive nature of these reactions is also particularly important for the preparation of functionalized molecules. Halides transfers and more particularly iodine atom transfers have found nice applications for cyclizations, annula-tions and cascade reactions [62]. These reactions are based on exothermic radical steps, such as the addition of an alkyl radical to an olefin, followed by an... 

Hu Z-L, Qian W-J et al (2009) Transformation of reactive isochromenylium intermediates to stable salts and their cascade reactions with olefins. Org Lett 11 4676-4679... 

Cyclohydrocarbonylation (CHC) is the hydroformylation of a functionalized olefin followed by concomitant intramolecular nucleophillic attack to the newly formed aldehyde moiety leading to a cyclized product. As a variant, the CHC reaction also includes an intramolecular cascade process involving the hydrocarbonylation of a functional alkene, generating an acyl-metal intermediate, which undergoes an intramolecular nucleophilic attack to give the corresponding cyclic compound. CHC reactions have been developed into sophisticated cascade reactions forming bicylic and polycyclic compounds. ... 

For the total synthesis of other macrocyles, such as (-)-pyrenophorol and (+)-decaestrictine via similar asymmetric hydroformylation-Wittig olefination cascade reactions, see Ref. (30). 

Double Michael addition reactions of a,p-unsaturated aldehydes with a p-ketoester bearing a highly electron-deficient olefin unit afford polysubstituted cyclopentanones (Scheme 6.13). TMS-protected diphenylprolinol catalyzes this enantioselective cascade reaction to form cyclopentanone with four contiguous stereocenters [15]. 

Conceptually similar palladium-catalyzed cascade reactions have been developed, involving molecular-queuing cycloaddition, cyclocondensation and Diels-Alder reactions [71], cydization-anion-capture-olefin metathesis [72], carbonylation-allene insertion [73], carbonylation/amination/Michael addition [74], sequential Petasis reaction/palladium-catalyzed process [75], supported allenes as substrates [76], and palladium-ruthenium catalysts [77]. 

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