posted on 2021-12-22, 06:13authored byChristian
J. Oswood, David W. C. MacMillan
Traditional approaches to stereoselective
synthesis require high
levels of enantio- and diastereocontrol in every step that forms a
new stereocenter. Here, we report an alternative approach, in which
the stereochemistry of organic substrates is selectively edited without
further structural modification, a strategy with the potential to
allow new classes of late-stage stereochemical manipulation and provide
access to rare or valuable stereochemical configurations. In this
work, we describe a selective epimerization of cyclic diols enabled
by hydrogen atom transfer photocatalysis and boronic acid mediated
transient thermodynamic control, selectively generating less stable cis products from the otherwise favored trans isomers. A range of substitution patterns and ring sizes are amenable
to selective isomerization, including stereochemically complex polyols
such as estriol, as well as syn to anti epimerization of acyclic vicinal diols. Moreover, this strategy
has enabled the divergent epimerization of saccharide anomers, providing
access to distinct sugar isomers from α- or β-configured
glycosides.