Understanding and Engineering the Stereoselectivity of Humulene Synthase

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Carsten Schotte
  • Peer Lukat
  • Adrian Deuschmann
  • Wulf Blankenfeldt
  • Russell J. Cox

Research Organisations

External Research Organisations

  • Helmholtz Centre for Infection Research (HZI)
  • Technische Universität Braunschweig
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Details

Original languageEnglish
Pages (from-to)20308-20312
Number of pages5
JournalAngewandte Chemie - International Edition
Volume60
Issue number37
Early online date28 Jun 2021
Publication statusPublished - 30 Aug 2021

Abstract

The non-canonical terpene cyclase AsR6 is responsible for the formation of 2E,6E,9E-humulene during the biosynthesis of the tropolone sesquiterpenoid (TS) xenovulene A. The structures of unliganded AsR6 and of AsR6 in complex with an in crystallo cyclized reaction product and thiolodiphosphate reveal a new farnesyl diphosphate binding motif that comprises a unique binuclear Mg 2+-cluster and an essential K289 residue that is conserved in all humulene synthases involved in TS formation. Structure-based site-directed mutagenesis of AsR6 and its homologue EupR3 identify a single residue, L285/M261, that controls the production of either 2E,6E,9E- or 2Z,6E,9E-humulene. A possible mechanism for the observed stereoselectivity was investigated using different isoprenoid precursors and results demonstrate that M261 has gatekeeping control over product formation.

Keywords

    biosynthesis, enzyme engineering, humulene, meroterpenoid, tropolone sesquiterpenoid

ASJC Scopus subject areas

Cite this

Understanding and Engineering the Stereoselectivity of Humulene Synthase. / Schotte, Carsten; Lukat, Peer; Deuschmann, Adrian et al.
In: Angewandte Chemie - International Edition, Vol. 60, No. 37, 30.08.2021, p. 20308-20312.

Research output: Contribution to journalArticleResearchpeer review

Schotte C, Lukat P, Deuschmann A, Blankenfeldt W, Cox RJ. Understanding and Engineering the Stereoselectivity of Humulene Synthase. Angewandte Chemie - International Edition. 2021 Aug 30;60(37):20308-20312. Epub 2021 Jun 28. doi: 10.1002/anie.202106718
Schotte, Carsten ; Lukat, Peer ; Deuschmann, Adrian et al. / Understanding and Engineering the Stereoselectivity of Humulene Synthase. In: Angewandte Chemie - International Edition. 2021 ; Vol. 60, No. 37. pp. 20308-20312.
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abstract = "The non-canonical terpene cyclase AsR6 is responsible for the formation of 2E,6E,9E-humulene during the biosynthesis of the tropolone sesquiterpenoid (TS) xenovulene A. The structures of unliganded AsR6 and of AsR6 in complex with an in crystallo cyclized reaction product and thiolodiphosphate reveal a new farnesyl diphosphate binding motif that comprises a unique binuclear Mg 2+-cluster and an essential K289 residue that is conserved in all humulene synthases involved in TS formation. Structure-based site-directed mutagenesis of AsR6 and its homologue EupR3 identify a single residue, L285/M261, that controls the production of either 2E,6E,9E- or 2Z,6E,9E-humulene. A possible mechanism for the observed stereoselectivity was investigated using different isoprenoid precursors and results demonstrate that M261 has gatekeeping control over product formation. ",
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AU - Blankenfeldt, Wulf

AU - Cox, Russell J.

N1 - Funding Information: CS thanks Leibniz University for funding. DFG is thanked for funding (INST 187/686‐1). Prof. Jeroen Dickschat is thanked for the gift of plasmid pYE‐BbS and Vanessa Harms is thanked for the gift of farnesyl pyrophosphate. Luca Codutti and Georg Krüger are thanked for MALS measurements. Ute Widow is thanked for technical assistance. We acknowledge DESY (Hamburg, Germany), a member of the Helmholtz Association HGF, for the provision of experimental facilities. Parts of this research were carried out at beamline P11 at the PETRA III storage ring and we would like to thank the beamline staff for assistance during data collection. Beamtime was allocated for proposal Xh‐20010031. Open access funding enabled and organized by Projekt DEAL.

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