Synergism of anisotropic and computational NMR methods reveals the likely configuration of phormidolide A

Authors :: Ikenna E. Ndukwe
Ian Paterson
R. Thomas Williamson
Xiao Wang
William H. Gerwick
Nelson Y. S. Lam
Kelsey L. Alexander
Matthew J. Bertin
Garrett Muir
Kristaps Ermanis
Jörn Piel
Gary E. Martin
Eric J. N. Helfrich
Jonathan M. Goodman
Robert Britton
Ndukwe, Ikenna E [0000-0003-2412-6970]
Lam, Nelson YS [0000-0002-9307-0619]
Alexander, Kelsey L [0000-0002-4727-5349]
Bertin, Matthew J [0000-0002-2200-0277]
Martin, Gary E [0000-0003-0750-3041]
Paterson, Ian [0000-0002-8861-9136]
Britton, Robert [0000-0002-9335-0047]
Goodman, Jonathan M [0000-0002-8693-9136]
Helfrich, Eric JN [0000-0001-8751-3279]
Piel, Jörn [0000-0002-2282-8154]
Williamson, R Thomas [0000-0001-7450-3135]
Apollo - University of Cambridge Repository
Source :: Chem Commun (Camb)
Publication Year :: 2020
Publisher :: Royal Society of Chemistry (RSC), 2020.
Abstract: Characterization of the complex molecular scaffold of the marine polyketide natural product phormidolide A represents a challenge that has persisted for nearly two decades. In light of discordant results arising from recent synthetic and biosynthetic reports, a rigorous study of the configuration of phormidolide A was necessary. This report outlines a synergistic effort employing computational and anisotropic NMR investigation, that provided orthogonal confirmation of the reassigned side chain, as well as supporting a further correction of the C7 stereocenter.

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