Anionic cyclization

The predictable stereochemistry of the ring closure of substituted 5-hexenyllithiums, coupled with the ease with which the product organolithium may be functionalized, permits rational design of synthetic routes to polycyclic systems by sequential anionic cyclizations of polyolefinic alkyllithiums.12 The preparation of stereoisomerically pure e do-2-substituted bicyclo[2.2.1]heptanes is illustrative of this approach to polycyclic systems.12... 

A novel approach to 3-substituted indolines and indoles via the anionic cyclization of 2-bromo-lV,lV-diallyanilines has been developed simultaneously by Bailey <96JOC2596> and Liebeskind <96JOC2594>. Thus, treatment of 2-bromo-lV,lV-diallylanilines 78 with 2 equivalents of BuLi at -78 °C leads to the formation of the intermediate 79 which may be trapped with an electrophile to afford 3-substituted indolines 80. Aside from ease of preparation, an additional benefit of the intramolecular carbolithiation of <7-lithio-W,Al-diallyl-anilines is the production of Al-allyl-protected indolines, which are easily deprotected using... 

Transition state effects communication of orthogonal orbitals in the transition state of radical-anionic cyclizations 23... 

Whitlock et al.14 discovered a reductive cyclization of enediynes promoted by lithium naphthalenide that provides substituted fulvenes and suggested a dianionic mechanism (Scheme 6). However, even now it is still unclear whether the enediyne dianion is indeed the cyclizing species or whether the initially formed acyclic radical-anion cyclizes first to give a fulvene radical-anion which is further reduced by lithium to give the cyclic dianion. 

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. 

Scheme 2. Anionic cyclization of A/-(2-lithioallyl)-/V-2-fluoroanilines 1 via benzyne intermediates 7.

Scheme 4. Anionic cyclization of benzyne-tethered organolithiums from 2-chloroanilines 12 and 15. Synthesis of the serotonin analogue 16.i) fBuLi (3.3 equiv), THF, -110 20°C ii) H20, -78 20°C iii) CH2N+Me2I, THF, 67 °C.

Scheme 6. Attempted anionic cyclization of 2-bromoallyl ether and thioether 22. i) /BuLi (3.5 equiv), THF, -110°C ii) -110 20°C iii) H20, 20 °C.

The radical anion pathway (e-c-P-d-p Scheme 2) requires a rate-determining protonation after cyclization, i.e., a slow protonation of a hard oxyanion. However, such proton transfer rates are usually diffusion controlled, so this seems unlikely [32,33], On the other hand, the carbanion closure (e-P-d-c-p) portrayed in Scheme 4 requires a very reasonable suggestion that the ratedetermining step corresponds to protonation of the soft, weakly basic radical anion 42, prior to cyclization [32-35] this is the preferred mechanism. One must use caution, however, realizing that these conclusions are drawn for the particular set of substrates which were examined. In some cases, radical anion cyclization remains a viable option. 

The previous chapter covered radical cation cyclization reactions that were a consequence of single-electron oxidation. In the following section, radical anion cyclization reactions arising from single-electron reduction will be discussed. In contrast to the well documented cyclization reactions via carbon-centered free radicals [3, 4], the use of radical anions has received limited attention. There are only a few examples in the literature of intramolecular reductive cyclization reactions via radical anions other than ketyl. Photochemi-cally, electrochemically or chemically generated ketyl radical anions tethered to a multiple bond at a suitable distance, have been recognized as a promising entry for the formation of carbon-carbon bonds. 

Recently it has been shown that radical anionic cyclization of olefinic enones effectively compete with intramolecular [2 -I- 2]-cycloaddition to form spirocy-clic compounds [205, 206], 3-Alkenyloxy- and 3-alkenyl-2-cyclohexenones 235 are irradiated in the presence of triethylamine. As depicted in Scheme 46 two reaction pathways may operate. Both involve electron transfer steps, either to the starting material (resulting in a direct cyclization) or to the preformed cyclobutane derivative 239, which undergoes reductive cleavage. The second... 

The synthesis of oxygen- and nitrogen-containing heterocyclic compounds by anionic cyclization of unsaturated organolithium compounds has been reviewed recently. " Broka and Shen reported the first intramolecular reaction of an unstabilized a-amino-organolithium compound using reductive lithiation of an A,5-acetal derived from a homoaUylic secondary amine (Scheme 21). Just one example was reported treatment with lithium naphthalenide gave the pyrrolidine product, predominantly as the cis isomer. 

The direct anionic cyclization of 2-alkynylbenzonitriles 45 was applied to the synthesis of isoquinolinones <99T13193> and phenanthridines <990L767>. A bw-alkylation process of an amine with a hii-mesylate afforded the tetrahydroisoquinoline ring system <99SC645>. 

This unique pattern is represented in a rather special 2 1 condensation of alkyl isocyanoacetates with aldehydes (equation 129). Mechanistically, an initial conjugate addition followed by an anionic cyclization is likely. Yields of around 60% are obtained (74JOC1980). 

TOTAL SYNTHESIS OF KAINOIDS BY DEAROMATIZING ANIONIC CYCLIZATION... 

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