A convergent fragment coupling strategy to access quaternary stereogenic centers

Kerkovius, Jeff K.; Wong, Alice R.; Mak, Victor W.; Reisman, Sarah E.

doi:10.26434/chemrxiv-2022-8pn7l

Published December 19, 2022 | Version Submitted + Supplemental Material

Discussion Paper Open

A convergent fragment coupling strategy to access quaternary stereogenic centers

1. California Institute of Technology

The formation of quaternary stereogenic centers via convergent fragment coupling is a longstanding challenge in organic synthesis. Here, we report a strategy for the formation of quaternary stereogenic centers in polycyclic systems based upon the semi-pinacol reaction. In the key transformation, two fragments of a similar size and complexity are joined by a 1,2-addition of an alkenyl lithium to an epoxy ketone, and the resulting epoxy silyl ether undergoes a semi-pinacol rearrangement catalyzed by N-(trimethylsilyl)bis(trifluoromethanesulfonyl)imide (TMSNTf2) or trimethylsilyl trifluoromethanesulfonate (TMSOTf). Polycyclic scaffolds were generated in high yields and the reaction conditions tolerated a variety of functional groups including esters, silyl ethers, enol ethers, and aryl triflates. This method provides a useful strategy for the synthesis of complex polycyclic natural product-like scaffolds with quaternary stereogenic centers from simplified fragments.

Additional Information

The content is available under CC BY NC ND 4.0 License. The California Institute of Technology Center for Catalysis and Chemical Synthesis is gratefully acknowledged for access to analytical equipment. We thank the Dow Next Generation Educator Funds and Instrumentation Grants for their support of the NMR facility at Caltech and the X-ray Crystallography Facility in the Beckman Institute at Caltech. Dr. Mona Shahgholi at the Multi-User Mass Spectrometry Laboratory of the Division of Chemistry and Chemical Engineering is acknowledged for their help in acquisition of HRMS data with instrumentation purchased by funds from DOW Next Generation Instrumentation and the NSF CRIF program (CCEC.DOWINSTR-1- GRANT.DOWINSTR). Dr. M. Takase and L. Henling are acknowledged for acquiring the X-ray diffraction data. Fellowship support was provided by the Natural Sciences and Engineering Research Council (NSERC) of Canada (PGS-D fellowship to J.K.K., grant PGSD3-532535-2019), and the NSF (DGE-1144469 to A.R.W. and V.W.M). S.E.R. acknowledges financial support from the NIH (R35GM118191). Author Contributions. Project conceptualization: A.R.W. V.W.M. and S.E.R. Funding acquisition: S.E.R. Experimental design and investigation: J.K.K., A.R.W., V.W.M. and S.E.R. Manuscript writing and editing: J.K.K and S.E.R. X-ray structural data are available free of charge from the Cambridge Structural Database under CCDC 2224814. All other data are available in the main text or supplementary materials. There are no conflicts to declare

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Submitted - a-convergent-fragment-coupling-strategy-to-access-quaternary-stereogenic-centers.pdf

Supplemental Material - supporting-information.pdf

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