Discovery of the Lanthipeptide Curvocidin and Structural Insights into its Trifunctional Synthetase CuvL

Author:

Sigurdsson Arnar1ORCID,Martins Berta M.2ORCID,Düttmann Simon A.1,Jasyk Martin1,Dimos‐Röhl Benjamin1,Schöpf Felix1,Gemander Manuel1,Knittel Caroline H.1ORCID,Schnegotzki Romina1ORCID,Schmid Bianca1,Kosol Simone1ORCID,Pommerening Lea1,Gonzáles‐Viegaz María2,Seidel Maria1,Hügelland Manuela1,Leimkühler Silke3ORCID,Dobbek Holger2ORCID,Mainz Andi1ORCID,Süssmuth Roderich D.1ORCID

Affiliation:

1. Fakultät II–Institut für Chemie Technische Universität Berlin Straße des 17. Juni 124 10623 Berlin Germany

2. Institut für Biologie–Strukturbiologie/Biochemie Humboldt Universität zu Berlin Philippstraße 13 10115 Berlin Germany

3. Institut für Biochemie und Biologie Universität Potsdam Karl-Liebknecht-Str. 24–25 14476 Potsdam Germany

Abstract

AbstractLanthipeptides are ribosomally‐synthesized natural products from bacteria featuring stable thioether‐crosslinks and various bioactivities. Herein, we report on a new clade of tricyclic class‐IV lanthipeptides with curvocidin from Thermomonospora curvata as its first representative. We obtained crystal structures of the corresponding lanthipeptide synthetase CuvL that showed a circular arrangement of its kinase, lyase and cyclase domains, forming a central reaction chamber for the iterative substrate processing involving nine catalytic steps. The combination of experimental data and artificial intelligence‐based structural models identified the N‐terminal subdomain of the kinase domain as the primary site of substrate recruitment. The ribosomal precursor peptide of curvocidin employs an amphipathic α‐helix in its leader region as an anchor to CuvL, while its substrate core shuttles within the central reaction chamber. Our study thus reveals general principles of domain organization and substrate recruitment of class‐IV and class‐III lanthipeptide synthetases.

Funder

Deutsche Forschungsgemeinschaft

Publisher

Wiley

Subject

General Chemistry,Catalysis

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