Cyclic radical cyclization

As a strategy for the construction of cyclic ethers, the radical cyclization of jS-alkoxyacrylates was used for the preparation of czs-2,5-disubstituted tetrahy-drofurans and cis-2,6-disubstituted tetrahydropyrans. An example is given with S-alkoxymethacrylate 38 as precursor of the optically active benzyl ether of (+)-methyl nonactate, exclusively formed as the threo product (Reaction 44). ° ... 

Fused cyclic ethers can be derived from appropriately substituted sugars. An example is given with the stereoselective 5-exo radical cyclization of allylic... 

Radical cyclization is compatible with the presence of other functional groups. Treatment of XCH2CON(R)-C(R )=CH2 derivatives (X = Cl, Br, 1) with Ph3SnH and AIBN led to formation of a lactam via radical cyclization. " Cyclization of N-iodoethyl-5-vinyl-2-pyrrolidinone led to the corresponding bicyclic lactam, " and there are other examples of radical cyclization with molecules containing a lactam unit " or an amide unit. Radical cyclization occurs with enamines as well. Photochemical irradiation of A,A-dialIyl acrylamide leads to formation of a lactam ring, and in this case thiophenol was added to generate the phenylthio derivative. Phenylseleno N-allylamines lead to cyclic amines. co-Iodo acrylate esters cyclize to form lactones. " ... 

The radical cyclization test has been applied and although 2-(3-butenyl)phenyl halides give little if any cyclization, substituents that are expected to increase the rate of cyclization to around 109s 1 do give some cyclic product.14... 

An intramolecular radical cyclization gives the cxo-cyclic compounds, which has been extensively used in the synthesis of cyclic compounds. Michael additions of allyl alcohols or propargy 1 alcohols to nitroalkenes and the subsequent treatment with tin radicals provide a useful method for the preparation of substituted furans (Eqs. 7.83 and 7.84).126... 

Radical cyclization of acyclic sulfinamides 239 provides easy access to cyclic sulfinamides 241 <06AG(E)633>. Conceivably, the reaction pathway involves thiophilic attack by the aryl radical with a concomitant or successive expulsion of the p-tolyl or tert-butyl radical. 

Partially saturated derivatives can also be prepared through aryl radical cyclization of A-2-halobenzoyl cyclic ketene-iVA-acetals <2005TL3801>. In this event, treatment of ketene-acetal 418 with Bu3SnH afforded good yield of cyclized products 419 and 420, as a mixture of two diastereoisomers, but with a total regioselectivity (Scheme 108). 

Oxidation of enaminone 1 is initiated by electron loss from the dimethylamino moiety leading to radical cation, RH". The following chemical reaction would be an intramolecular cyclization through addition of a hydroxy group on the radical cation site yielding a cyclic radical cation, cRH ". This step is most likely the rate-determining step. The cyclic radical cation then dimerizes... 

Scheme 2.26. Radical cyclizations resulting in cyclic copper organometallics (dppf = 1,1 -bis (diphenylphosphino)ferrocene).

The PET-oxidative cyclization of unsaturated O-alkyl-O-trimethylsilyl ketene acetals 23 and 27 yields cyclic esters 24, 25, and 28, accompanied by the formation of considerable amounts of non-cyclic esters 26 and 29, respectively [89], The cyclization mode is found to be in accordance with free radical cyclizations of the appropriate esters 26 and 29, performed by heating with organic peroxides [90]. Since organic electrochemistry can be used to oxidize... 

Fused cyclic ethers can be derived from appropriately substituted sugars. An example is given with the stereoselective 5-exo radical cyclization of allylic 2-bromo-2-deoxysugars, in the presence of 1,1,2,2-tetraphenyldisilane as the radical mediator and AIBN in refluxing ethyl acetate. The corresponding cis-fused bicyclic sugars have been prepared in moderate to good yields (Reaction 7.28) [39]. 

The chemoselective addition of silyl radical to the double bond of the (3-alkenyloxyenone derivative 24 was instead planned in Reaction (7.29) and accompanied by a 5-exo-trig radical cyclization leading to the diastereomeric cyclic ether products [40]. 

Another practically promising example of intermolecular anion-radical cyclization is a zipper reaction of cyclic o-ethynylbenzenes (Bradshaw et al. 1994 Scheme 7.34). 

Free-radical cyclizations using ethyl radicals generated by EtsB/air system or stannyl radicals systems provide a range of carbocyclic and heterocyclic hydroxylamines (equation 77). Stereoselectivity in these reactions is variable but can be semiquaUtatively predicted by Beckwith-Houk models . Depending on the substitution pattern of the emerging cyclic system, stereoselectivity can be very high, especially in fused polycyclic systems (equation... 

Radical cyclization of oximes or oxime ethers having allylic substituents or an aldehyde group to tetrahydropyrrole derivatives was described Thus, Sm -induced 5-exo-trig radical cyclization of oxime ethers containing a formyl group was found to be particularly effective for the preparation of cyclic trans-wimo alcohols. For example, oxime 96 in the system SmE/THF/f-BuOH at 25 °C or —78°C afforded pyrrolidin-3-ols 97 and 98 in a ratio 3 2 or 9 1 (equation 41) . Cyclization of oxime ether 99 in the... 

Radical cyclizations are often used in ring formations and are an effective methodology in the synthesis of piperidines. The intramolecular cyclization of an oxime ether, such as 63 onto an aldehyde or ketone gives a new entry into cyclic amino alcohols <99JOC2003, 99H(51)2711>. Similarly, reaction of a terminal acetylene with BujSnH generates a vinyl radical, which will cyclize with an imine moiety to give 3-methylenepiperidine <99TL1515>. The indolizidine alkaloid ipalbidine was prepared by a sulfur-controlled 6-exo-selective radical cyclization of an a/p/ia-phenylthio amide <99H(50)31>. 

It was also reported that treatment of -alkynyl iodides 17 and 18, having a triple bond activated by conjugation either with an aromatic ring or a double bond, with zinc dust in THF resulted in the formation of the cyclic products 19 and 20 respectively (equation 8)20. However, their formation was ascribed to a zinc-induced radical cyclization process due to the failure to detect any open-chain organozinc species prior to cyclization as well as unsuccessful attempts to efficiently functionalize any alkenylzinc species that would have been normally expected from an anionic pathway20. 

By contrast, for iodide 18 having the triple bond activated by a phenyl group, conversion to the cyclic organozinc species 25 occurred effectively and the latter could be efficiently functionalized, provided that traces of moisture were excluded by pre-treatment of zinc powder with Mel. The substituted benzylidene cyclopentanes 26 and 27 were respectively obtained after iodinolysis and palladium-catalyzed cross-coupling reaction with benzoyl chloride (equation 10). However, it could not be assessed whether the formation of organozinc 25 was attributable to an anionic or a radical cyclization pathway (or both) as, had iodide 26 been produced by a radical iodine atom-transfer, it would have been converted to 25 by reaction with metallic zinc due to the presence of the activating phenyl group21. 

As cyclic amines are at the heart of medicinal chemistry, there is always interest in new methods for their preparation. Marco Ciufoiini of the Universitc Claude Bernard in Lyon reports (Organic. Lett. 5 4943, 2003) the preparation of a series of dihydro indole derivatives, exemplified here by 3, 6, and 9, by free radical cyclization of an N-O precursor. The N-O precursor can be prepared from the corresponding bromide, as illustrated by the conversion of 1 to 2 and of 4 to 5. Alternatively, a radical precursor such as 8 can be prepared separately. The generated radical is then trapped by 7 to make a new radical, that cyclizcs to 9. 

The reason these so-called cyclopolymerization reactions occur is not known with certainty. Perhaps the best explanation that seems to fit most of the experimental results is that the two alkenic groups are associated in the ground state. Intramolecular cyclopolymerization is thus favored over intermolecular polymerization even before attack by a radical, and the overall cyclization process, from attack by the radical to formation of the propagating cyclic radical, is concerted. 

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