5- exo-dig cyclizations

In another route employing alkynes, it was found that heating propargyl azadienes 7 in toluene at 25-60 °C produces pyrrolic imines 8 which hydrolyze upon work-up to afford 3-acylpyrroles 9 <96JOC2185>. This exo-dig cyclization occurs with complete chemoselectivity wherein the more substituted nitrogen is involved in the cyclization. 

For 4-alkynylamines, IH in the presence of PdCl2(MeCN)2 proceeds by two competitive processes a major 5-Exo-Dig cyclization and a minor 6-Endo-Dig one (Eq. 4.70) [278]. 

Entry 11 involves generation and cyclization of an alkoxymethyl radical from a selenide. The cyclization mode is the anticipated 5-exo with a cis ring juncture. This is a case in which the electronic characteristics of the radical are not particularly favorable (ERG oxygen in the radical), but cyclization nevertheless proceeds readily. The reaction in Entry 12 was used to prepare a precursor of epibatidine. Entry 13 shows a 6-endo cyclization that is favored by steric factors. The 6-endo cyclization is also favored with a tetrahydropyranyloxy substituent in place of the ester, indicating that the electronic effect is not important. Entries 14 to 16 involve acyl radicals generated from selenides. The preferred 6-endo cyclization in Entry 15 is thought to be due to the preference for the less-substituted end of the double bond. Entry 17 is an example of a 5-exo-dig cyclization. 

Scheme 2.196. 5-exo-dig-cyclization/Claisen rearrangement of compounds of type 2-877. 

The first examples of a consecutive radical 5 -exo-/dig-5-exo-dig cyclization of 1,5-diynes have been accomplished by the same researchers [43]. These authors were able to show that their cycloisomerization procedure provides access to strained semicyclic, conjugated dienes with a functionalized dioxatriquinane framework which occurs in the aglycones of steroidal cardiac glycosides, such as isogenine (3-96) [44] and C-norcardanolide (3-97) (Scheme 3.24) [45]. 

Scheme 3.69. General scheme of a 5-exo-dig cyclization/1,5-hydrogen transfer/5-endo-trig cyclization.

Clive and coworkers have developed a new domino radical cyclization, by making use of a silicon radical as an intermediate to prepare silicon-containing bicyclic or polycyclic compounds such as 3-271 and 3-272 (Scheme 3.69) [109], After formation of the first radical 3-267 from 3-266, a 5-exo-dig cyclization takes place followed by an intramolecular 1,5-transfer of hydrogen from silicon to carbon, providing a silicon-centered radical 3-269 via 3-268. Once formed, this has the option to undergo another cyclization to afford the radical 3-270, which can yield a stable product either by a reductive interception with the present organotin hydride species to obtain compounds of type 3-271. On the other hand, when the terminal alkyne carries a trimethylstannyl group, expulsion of a trimethylstannyl radical takes place to afford vinyl silanes such as 3-272. 

The addition of a carbonylation step extended a pyrrole synthesis to pyrrole-2-acetic acid derivatives <06ASC2212>. Treatment of enyne amine 1 with palladium diiodide in the presence of CO and methanol produced pyrrole-2-acetic ester 2 via a 5-exo-dig cyclization, oxidative carbonylation, and isomerization. 

A ring opening reaction of (1-lactams promoted by methoxide generated nitrogen nucleophiles in situ that subsequently added to proximal allenes producing trisubstituted pyrroles <06CC2616>. In the event, treatment of (3-lactam 3 with MeONa led to pyrrole-2-acetic ester 4 after cleavage of the amide bond, 5-exo-dig cyclization, and loss of methanol. The sequence was notable as no metal catalyst was required. 

The final cyclization manifold has been realized with a different ruthenium catalyst (Scheme 22). The cationic [Cp Ru(MeCN)3]PF6 induces exclusive endo-dig cyclization of both homopropargylic and bis-homopropargylic alcohols.29 73 The clean reaction to form a seven-membered ring is noteworthy for several reasons intramolecular exo-dig cyclization with bis-homopropargylic alcohols is not well established, the platinum-catalyzed case has been reported to be problematic,80 and the selectivity for seven-membered ring formation over the exo-dig cyclization to form a six-membered ring is likely not thermodynamic. The endo-dig cyclization manifold was thus significant evidence that a re-examination of alkyne hydrosilylation mechanisms is necessary (see Section 10.17.2). 

All these reactions are examples of oxidative cyclocarbonylation-alkoxy-carbonylation. However, the Pdh/KI catalytic system turned out to be a very efficient catalyst also for promoting cyclization-alkoxycarbonylation processes. In fact, optimal conditions were found for selectively converting 4-yn-l-ols into tetrahydrofuran derivatives (Eq. 41) [107] through 5-exo-dig cyclization followed by alkoxycarbonylation (Scheme 19, path a). This kind of process was not possible for the propynyl, 3-yn-l-ol, and 2-ethynylaniline substrates, seen before, for stereoelectronic reasons [302], With the latter substrates, the endo cyclization mode (Scheme 19, path b), although in principle stereo electronically allowed, was not observed. 

In contrast with the reaction of 4-yn-l-ols, both 6-endo-dig and 5-exo-dig cyclization modes were observed in the Pdl2/KI-catalyzed oxidative car-bonylation of2-(l-alkynylbenzyl)alcohols (Eq. 43) [120]. The preferential formation of the lH-isochromene or the 1,3-dihydroisobenzofuran derivative turned out to be dependent on the substitution pattern of the substrate. In particular, lH-isochromenes were obtained as the main reaction products when the triple bond was substituted with an alkyl group and with a primary alcoholic group, while the isobenzofurans were preferentially formed with a tertiary alcoholic group and when the triple bond was terminal or conjugated with a phenyl group. 

For the alkynyUiydroxylamines 274 smdied by Holmes (309,311), initial intramolecular 1,3-azaprotiocyclotransfer affords the N-oxides 275 via a 5- or a 6-exo-dig process [Baldwin s terminology (312)], which then tautomerize to the cyclic nitrones (276) (Scheme 1.57). The 1-exo-dig cyclization required for the formation of a seven-membered nitrone (277) by this approach from 278 was found to be disfavored with respect to the alternative reaction of hydroxylamine and alkene 5-exo-trig process) to afford a mixture of the alkynylpyiTolidines 279... 

Subsequent studies led to 5-exo-dig cyclizations, showing even better results [112]. 

In a similar manner, the reaction of 5-dimethylsilyl-l-hexyne (111) catalyzed by H2PtCl6 affords 5-exo-dig cyclization product 112 exclusively (equation 47)130. 

The formation of compound 175 could be rationalized in terms of an unprecedented domino allene amidation/intramolecular Heck-type reaction. Compound 176 must be the nonisolable intermediate. A likely mechanism for 176 should involve a (ji-allyl)palladium intermediate. The allene-palladium complex 177 is formed initially and suffers a nucleophilic attack by the bromide to produce a cr-allylpalladium intermediate, which rapidly equilibrates to the corresponding (ji-allyl)palladium intermediate 178. Then, an intramolecular amidation reaction on the (ji-allyl)palladium complex must account for intermediate 176 formation. Compound 176 evolves to tricycle 175 via a Heck-type-coupling reaction. The alkenylpalladium intermediate 179, generated in the 7-exo-dig cyclization of bro-moenyne 176, was trapped by the bromide anion to yield the fused tricycle 175 (Scheme 62). Thus, the same catalytic system is able to promote two different, but sequential catalytic cycles. 

A variety of substituted isoindolin-l-ones (18) have been prepared in good to excellent yields under very mild conditions by the reaction of e>-(alk-l-ynyl)benzamidcs (17) with IC1, I2, and NBS,37 as a result of 5(N)-exo-dig cyclization.38 In a few... 

Hexyn-l-ol reacts with tosyl iodide to form the ( )-iodovinyl sulfone 185, which can undergo ( -exo-dig cyclization upon treatment with KN(TMS)2 followed by elimination of HI to afford the 3,4-dihydropyran 186 (Scheme 58) C1996T7779, 2005S3613>. 

The halocyclization of unsaturated benzyl sulfides is influenced by the degree of unsaturation. Thus alkenyl sulfides yield tetrahydrothiopyrans through (y-endo-trig and (y-exo-trig modes (Equation 141), whereas alkynyl sulfides afford 2-methylenetetrahydrothiopyrans by a 6-exo-dig cyclization (Equation 142) <1995JOC6468>. 

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