Christian Steinborn scite author profile

Herein, we describe the first total synthesis of (+)‐cornexistin as well as its 8‐epi‐isomer starting from malic acid. The robust and scalable route features a Nozaki–Hiyama–Kishi reaction, an auxiliary‐controlled syn‐Evans‐aldol reaction, and a highly efficient intramolecular alkylation to form the nine‐membered carbocycle. The delicate maleic anhydride moiety of the nonadride skeleton was constructed from a β‐keto nitrile. The developed route enabled the synthesis of 165 mg (+)‐cornexistin.

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Evolution of a Strategy for the Total Synthesis of (+)‐Cornexistin

Wildermuth

Steinborn

Barber

et al. 2021

Chemistry A European J

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Herein is given a full account of the evolution of the first total synthesis of (+)‐cornexistin. Initial efforts were based on masking the reactive maleic anhydride moiety as a 3,4‐substituted furan and on forming the nine‐membered carbocycle in an intramolecular Conia‐ene or Nozaki–Hiyama–Kishi (NHK) reaction. Those strategies suffered from low yields and were jeopardized by a late‐stage installation of the Z‐alkene, as well as the stereocenters along the eastern periphery. These issues were addressed by employing a chiral‐pool strategy that involved construction of the crucial stereocenters at C2, C3 and C8 at an early stage with installation of the maleic anhydride as late as possible. The successful approach featured an intermolecular NHK coupling to install the Z‐alkene, a syn‐Evans‐aldol reaction to forge the stereocenters along the eastern periphery, an intramolecular allylic alkylation to close the nine‐membered carbocycle, and a challenging stepwise hydrolysis of a β‐keto nitrile to furnish the maleic anhydride.

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Investigations into Simplified Analogues of the Herbicidal Natural Product (+)‐Cornexistin

Steinborn

Tancredi

Habiger

et al. 2023

Chemistry A European J

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We report the design, synthesis and biological evaluation of simplified analogues of the herbicidal natural product (+)‐cornexistin. Guided by an X‐Ray co‐crystal structure of cornexistin bound to transketolase from Zea mays, we attempted to identify the key interactions that are necessary for cornexistin to maintain its herbicidal profile. This resulted in the preparation of three novel analogues investigating the importance of substituents that are located on the nine‐membered ring of cornexistin. One analogue maintained a good level of biological activity and could provide researchers insights in how to further optimize the structure of cornexistin for commercialization in the future.

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Total Synthesis of (+)‐Cornexistin

et al. 2020

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