@article {9958, title = {Unique Diastereoselectivity Trends in Aminyl Radical Cyclizations onto Silyl Enol Ethers.}, journal = {Journal of Organic Chemistry}, volume = {75}, year = {2010}, note = {CAPLUS AN 2010:1319(Journal)}, month = {2010///}, pages = {864 - 872}, publisher = {American Chemical Society}, abstract = {The cyclization of nitrogen-centered radicals onto silyl enol ethers is an efficient method for the synthesis of polyhydroxylated alkaloids as the 2-hydroxymethylpyrrolidine core can be readily accessed from a linear precursor. During our studies on the synthesis of polyhydroxylated alkaloid CYB-3, we found that the diastereoselectivity of the cyclization was dependent on a complex combination of sterics and olefin geometry. A more thorough understanding of the factors that lead to high diastereoselectivities would greatly expand the utility of this methodol. in complex natural product synthesis. We have found that cyclization diastereoselectivities of substrates with alkyl or aryl substitution were excellent regardless of olefin geometry or substitution pattern. When electroneg. substituents were introduced adjacent to the silyl enol ether, only Z-silyl enol ethers provide high diastereoselectivities. Temp., steric size of the silyl group, and sterics and electronics of the metal hydride affected the selectivity to a lesser extent. [on SciFinder(R)]}, keywords = {diastereoselectivity aminyl radical cyclization silyl enol ether}, isbn = {0022-3263}, author = {Zlotorzynska,Maria and Zhai,Hui-Min and Sammis, G. M.} }