Oximes-alkenes, radical cyclization

The (TMS)3Si radical addition to terminal alkenes or alkynes, followed by radical cyclization to oxime ethers, were also studied (Reaction 50). The radical reactions proceeded effectively by the use of triethylborane as a radical initiator to provide the functionalized pyrrolidines via a carbon-carbon bond-forming process. Yields of 79 and 63% are obtained for oxime ethers connected with an olefin or propargyl group, respectively. 

In qualitative terms, the rearrangement reaction is considerably more efficient for the oxime acetate 107b than for the oxime ether 107a. As a result, the photochemical reactivity of the oxime acetates 109 and 110 was probed. Irradiation of 109 for 3 hr, under the same conditions used for 107, affords the cyclopropane 111 (25%) as a 1 2 mixture of Z.E isomers. Likewise, DCA-sensitized irradiation of 110 for 1 hr yields the cyclopropane derivative 112 (16%) and the dihydroisoxazole 113 (18%). It is unclear at this point how 113 arises in the SET-sensitized reaction of 110. However, this cyclization process is similar to that observed in our studies of the DCA-sensitized reaction of the 7,8-unsaturated oximes 114, which affords the 5,6-dihydro-4//-l,2-oxazines 115 [68]. A possible mechanism to justify the formation of 113 could involve intramolecular electrophilic addition to the alkene unit in 116 of the oxygen from the oxime localized radical-cation, followed by transfer of an acyl cation to any of the radical-anions present in the reaction medium. 

Reduction of 1-nitro-l-alkene derivatives such as 65 provided 2-deoxy-aldose oximes and their elimination products such as 66 and 67, respectively (Scheme 11). The oxime 66 could be converted into the corresponding free 2-deoxy-sugar, 2-deoxy-aldononitrile and 2-deoxy-aldonic acid. Radical cyclization of 5-keto-aldose aldoximes to give aminocyclopentitol derivatives is covered in Chapter 18. 

Radical cyclization continues to be one of the most popular radical reaction classes used in synthesis. By far the majority of published cyclization reactions are 5-exo in nature and this year is no exception. The rates of 5-exo cyclization reactions continue to be measured. For example, the rate constants for the 5-exo cyclizations of the 6,6-diphenylhex-5-enyl, 1-methyl-6,6-diphenylhex-5-enyl and the 1,1-dimethyl-6,6-diphenylhex-5-enyl radicals have been measured by laser flash photolysis studies and Arrhenius parameters determined. The relative rate constants for cyclization, and the reaction with PhSeH, were determined at 20 °C. At 20 °C the rates of the three primary, secondary and tertiary radicals with PhSeH were approximately (1.2 0.1) X 10 lmol s The rate constants for alkyl radicals calibrated by competition reactions with PhSeH and PhSH were found to be 30-40% smaller than previously reported and thus it was concluded that derived rate constants for some fast radical reactions may have to be adjusted accordingly. The rate constants for the 5-exo cyclization of secondary radicals on to hydrazones and oxime ethers have been determined. The fastest rate constants were observed for the IV-benzoylhydrazone acceptor. The rate constants were found to be approximately 800 times faster than for the corresponding 5-exo cyclization on to alkenes." Other work has measured the rate constants of cyclization of a range of fluorinated hex-5-enyl, hept-6-enyl, oct-7-enyl and non-8-enyl radicals. Not only were the rate constants measured but the regioselectivity of cyclization was compared with that for the aU-carbon homologues." The 6-exo cyclization of 1,1,2,2-tetrafluoro- and l,l,2,2,3,3,4,4-octafluorohept-6-enyl radicals were found to be approximately 10 times faster than those for the parent... 

The intramolecular cyclization of oximes with alkene substituents to dihydropyrroles in the presence of radical initiator or by heating was also describedThus, oxime 83 underwent a tandem 1,2-prototropy-cycloaddition sequence and gave an unstable cycloadduct 84, which on treatment with NaOH afforded indolizine 85 (equation 36). ... 

Electron Transfer Processes - A study of the benzophenone/acetonitrile/t-butylamine system has shown that electron transfer occurs from the amine to the excited state benzophenone. Hydrogen abstraction processes within this system ultimately yield the CH2CN radical. When this species is generated in the presence of a diarylethene such as that shown in Scheme 1 then addition affords reasonable yields of the adducts (16). The mode of addition is dictated by the stability of the radical formed on addition to the ethene bond. Addition can also occur to alkenes such as (17) when the adduct (18) is obtained. SET processes also provide a novel synthetic path to 5,6-dihydro-4/f-l,2-oxazines. These reactions involve the DCA-sensitized transformations of the y,5-unsaturated oximes (19). The reactions are carried out in acetonitrile solution with irradiation through Pyrex for no longer than 30 min. This treatment yields the products (20) in reasonable yields. The likely mechanism for the process involves the formation of the intermediate (21) which cyclizes to yield the final products. The reaction is to some extent substituent dependent and when the oxime (19, R = H, R = R = R = Me) is irradiated under the same conditions for 3 h no reaction is... 

Difluoroalkyl radicals have also been generated by SmE and utilized in cyclization processes [21]. A variety of alkenes, alkynes, and oxime ethers have been utilized as radical acceptors, providing facile entry to a host of substituted difluorocyclo-pentanes (Eq. 19). 

The Naito group has also prepared pyrrolidines [23] on solid phase by a combination of intermolecular radical addition to alkene 43 (Scheme 10) followed by intramolecular oxime ether cyclization to yield 44. These reactions proceeded sluggishly with triethylborane at room temperature, while the analogous solution-phase process was kinetically much faster. Radical additions to the phenylsulfonyl oxime ether 45 were reported by Jeon et al. [24]. Yields were better with primary and secondary alkyl iodides, and the tandem cyclization sequence with iodide 46 to afford bicyclic 47 was also accomplished, albeit in modest yield. 

Radical reactions are not restricted to cyclizations onto alkenes or alkynes. Increasingly popular is the use of an imine or imine derivative, such as an oxime or hydrazone. ° Most examples involve 5- or 6-exo-trig cyclization to give cyclopentane or cyclohexane ring systems. Thus, treatment of the bromide 77 withtributyltin hydride gave the cyclopentane 78 (4.66). The stereoselectivity of the cyclization is in line with that expected on the basis of a chair-like transition state (compare with Scheme 4.53). 

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