Radical cyclization stereoselective

Pandey and co-workers developed two photosystems useful for initiating one-electron reductive chemistry and applied them to activate a, 3-unsaturated ketones. The resulting carbon-centered radicals cyclize stereoselectively with proximate olefins. Their concept involved a secondary and dark electron transfer from... 

Principles of 4-Penten-l-oxyI Radical Cyclizations -Stereoselectivity, Regioselectivity, and Theoretical Considerations... 

Radical cyclization of perhydro-l,3-benzoxazines 64, promoted by Bu4SuH in the presence of AIBN gave a mixture of perhydropyrido[2,l-6][1,3]benzoxazin-9-ones 65 and 66 and seven membered tricyclic derivatives 67 and 68, formed in a 6-exo and 7-endo cyclization process, respectively (99TL2421). Cyclization of parent acrylamide 64 (R = R = H) occured with moderate regioselectivity (6-exo/7-endo ratio 65 35) and poor stereoselectivity (65/66 ratio 42 43). The presence of a /3-methyl group in... 

In an effort to identify a more stereoselective route to dihydroagarofuran (15), trimethylsilylated alkyne 17 was utilized as a substrate for radical cyclization (Scheme 2). Treatment of 17 with a catalytic amount of AIBN and tri-n-butyltin hydride (1.25 equiv) furnishes a mixture of stereoisomeric vinyl silanes 18 (72% combined yield) along with an uncyclized reduction product (13% yield). The production of stereoisomeric vinyl silanes in this cyclization is inconsequential because both are converted to the same alkene 19 upon protodesiiyiation. Finally, a diastereoselective di-imide reduction of the double bond in 19 furnishes dihydroagaro-... 

An efficient two-step annelation of functionalized orthoesters with trimethyl-silyloxyfuran derivatives has been reported that produces bicyclo[3. .0]lactones. ° The reaction in Scheme 7 shows an example in which the initial condensation between silyl enol ether and orthoester is followed by the radical cyclization reaction under standard conditions. It is worth underlining the complete diastereocontrol in which three contiguous stereocenters are generated in one step with >95% stereoselectivity. 

The N,0- and N,S-heterocyclic fused ring products 47 were also synthesized under radical chain conditions (Reaction 53). Ketene acetals 46 readily underwent stereocontrolled aryl radical cyclizations on treatment with (TMSlsSiH under standard conditions to afford the central six-membered rings.The tertiary N,0- and N,S-radicals formed on aryl radical reaction at the ketene-N,X(X = O, S)-acetal double bond appear to have reasonable stability. The stereoselectivity in hydrogen abstractions by these intermediate radicals from (TMSlsSiH was investigated and found to provide higher selectivities than BusSnH. 

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

Radical cascades that feature a 7-exo acyl radical cyclization followed by a 6-exo or 5-exo alkyl radical cyclization proceed with very good yields and diastereoselectivities. Two examples are shown in Reaction (80), where treatment of 100 with E3B, air, and (TMS)3SiH provided the tricycle 101 in excellent yields as a single diastereomer. Interestingly, the bulky silyl ether moiety is not required to achieve stereoselectivity in this process. 

Radical cyclization of perhydro-l,3-benzoxazines 518, promoted by Bu vSnI I in the presence of 2,2 -azobis(2-methylpro-pionitrile) (AIBN) gave a mixture of perhydropyrido[2,T ][l,3]benzoxazin-9-ones 519 and 520 and the seven-membered tricyclic derivatives 521 and 522, formed by a 6-exo- and a 7-rwr/o-cyclization process, respectively (Scheme 54) < 1999TL2421 >. Cyclization of parent acrylamide 518 (R = R1 = H) occurred with moderate regioselectivity (()-exo/7-endo ratio = 65 35) and poor stereoselectivity (519/520 ratio = 42 43). The presence of a [1-methyl group in crotylamide 518 (R = Me, R1 = H) disfavored the 7-/w/ -cyclization process, but did not influence the stereoselectivity of the cyclization (519/520 ratio = 66 34). The presence of an a-methyl group in methylacrylamide 518 (R=H, R1 Me) caused a retardation of the 6-oeo-attack, favoring the 7-/w/ -cyclization with a higher stereoselectivity (521/522 ratio = 75 12). 

Other radical cyclization approaches to the synthesis of piperidines include a CAN-mediated stereoselective cyclization of epoxypropyl cinnamyl amines <06TL705> and a cyclization of (-trimethylsilylmethylamine radical cation, generated via a photoinduced electron transfer reaction to a tethered -functionality <06JOC8481>. 

Spiro tricyclic pyrrolizinone 171 was obtained with 65% yield (and almost poor stereoselectivity) by intramolecular radical cyclization of the xanthate 170 upon exposure of the latter to 2equiv of lauroyl peroxide, in a refluxing 3 1 mixture of methanol and 1,2-dichloromethane. The radical generated from the xanthate moiety cyclizes with the... 

Optically active iV-unprotected-2-pyrrolidinones 194 were obtained from selenocarboxylate or allylamine via radical cyclization and subsequent one-step cleavage of the C-O and C-N bond of the inseparable mixture of the two bicyclic oxyoxazolidinones 192 and 193 with -Bu4NF. The initial radical reaction is highly stereoselective. Products were obtained with ee up to 90%. The mandelic acid 195, which served as the chiral auxiliary in this method, was recovered with no loss of optical activity (Equation 33) <2003T6291>. 

Stereocontrolled radical cyclization to furansRadical cyclization of allyl 2-haloethyl ethers such as 1 show only slight stereoselectivity. However similar cyclization, but involving a dichloromethyl radical, can be highly cis-selective, whereas cyclization involving a monochloromethyl radical is frans-selective. The... 

Vinyllithium cyclizations. The vinyl lithiums formed from trisylhydrazones (9, 486) can participate in intramolecular cyclizations. This anionic cyclization is presently limited to formation of five-membered rings. It has the advantage of greater stereoselectivity than a corresponding radical cyclization. 

Birch reduction-alkylation of 5 with 2-bromoethyl acetate was carried out with complete facial selectivity to give 57. This tetrafunctional intermediate was converted to the bicyclic iodolactone 58 ( > 99% ee) from which the radical cyclization substrate 59 was prepared. The key radical cyclization occurred with complete regio- and facial-selectivity and subsequent stereoselective reduction of the resulting tertiary radical gave 60 with the required trans BC ring fusion.The allylic alcohol rmit of (+)-lycorine was obtained by a photochemical radical decarboxylation, 62 63. 

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]. 

An example of the influence of structure and geometry on radical cyclization is shown by the stereoselectivity of the 5-enJo-tng cyclization in compound 52 and 5-exo-trig cyclization in 53 using (TMS)3SiH as radical mediators [66]. In system52 a mixture of cA-fused and trans-imtd rings are obtained, whereas in system 53 the reaction proceeds in a stereoselective manner to give only the cw-fused product. 

By using either one of these photosystems, one-electron (3-activation of a,(3-unsaturated carbonyl compounds produced carbon-centered radical precursors which cyclize efficiently and stereoselectively to tethered activated olefins or carbonyl groups. The 1,2-anti-stereochemistry observed contrasts with the general trend of syn-stereochemistry expected in 5-hexenyl radical cyclizations. Application of this methodology was successfully demonstrated by the stereoselective synthesis of optically pure C-furanoside, starting from L-tartaric acid (Scheme 38) [57,58]. 

Radical cyclization of polyfunctional 5-hexenyl halides mediated by Et2Zn and catalyzed by nickel or palladium salts has been demonstrated to produce stereoselectively polyfunctional 5-membered carbo- and heterocycles [56, 57]. Based on this strategy a formal synthesis of methylenolactocin (11) was achieved (Scheme 20). The acetal 130, readily being built up by asymmetric alkylation of aldehyde 127 followed by reaction with butyl vinyl ether and NBS, served as the key intermediate for the construction of the lactone ring. Nickel(II)-catalyzed carbometallation was initiated with diethylzinc to yield exclusively the frans-disubstituted lactol 132, which could be oxidized directly by air to 134. Final oxidation under more forcing conditions then yielded the lactone (-)-75 as a known intermediate in the synthesis of (-)-methylenolactocin (11) [47aj. 

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... 

A high degree of stereoselectivity was achieved in reductive radical cyclizations with Coordination of the oxime function (e.g. 108) with samarium cation seems to play an important role, since the identical reaction with a tributyltin hydride/radical initiator system produces poor stereoselectivity (equation 79). ... 

A. De Mesmaeker, P. Hoffmann, and B. Ernst, Stereoselective bond formation in carbohydrates by radical cyclization reactions. Tetrahedron Lett. 29 6383 (1988). 

H. Nishiyama, T. Kitajima, M. Matsumoto, and K. Itoh, Silylmethyl radical cyclization New stereoselective method for 1,3-diol synthesis from allylic alcohols, J. Org. Chem. 49 2298 (1984). 

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