Author
Listed:
- Chenghai Sun
(Shanghai Jiao Tong University
Wuhan University School of Pharmaceutical Sciences)
- Zhenyao Luo
(The University of Queensland)
- Wenlu Zhang
(Wuhan University School of Pharmaceutical Sciences)
- Wenya Tian
(Shanghai Jiao Tong University
Wuhan University School of Pharmaceutical Sciences)
- Haidong Peng
(Wuhan University School of Pharmaceutical Sciences)
- Zhi Lin
(Shanghai Jiao Tong University)
- Zixin Deng
(Shanghai Jiao Tong University
Wuhan University School of Pharmaceutical Sciences)
- Bostjan Kobe
(The University of Queensland)
- Xinying Jia
(The University of Queensland)
- Xudong Qu
(Shanghai Jiao Tong University
Wuhan University School of Pharmaceutical Sciences)
Abstract
Bacterial heterodimeric tryptophan-containing diketopiperazines (HTDKPs) are a growing family of bioactive natural products. They are challenging to prepare by chemical routes due to the polycyclic and densely functionalized backbone. Through functional characterization and investigation, we herein identify a family of three related HTDKP-forming cytochrome P450s (NasbB, NasS1868 and NasF5053) and reveal four critical residues (Qln65, Ala86, Ser284 and Val288) that control their regio- and stereo-selectivity to generate diverse dimeric DKP frameworks. Engineering these residues can alter the specificities of the enzymes to produce diverse frameworks. Determining the crystal structures (1.70–1.47 Å) of NasF5053 (ligand-free and substrate-bound NasF5053 and its Q65I-A86G and S284A-V288A mutants) and molecular dynamics simulation finally elucidate the specificity-conferring mechanism of these residues. Our results provide a clear molecular and mechanistic basis into this family of HTDKP-forming P450s, laying a solid foundation for rapid access to the molecular diversity of HTDKP frameworks through rational engineering of the P450s.
Suggested Citation
Chenghai Sun & Zhenyao Luo & Wenlu Zhang & Wenya Tian & Haidong Peng & Zhi Lin & Zixin Deng & Bostjan Kobe & Xinying Jia & Xudong Qu, 2020.
"Molecular basis of regio- and stereo-specificity in biosynthesis of bacterial heterodimeric diketopiperazines,"
Nature Communications, Nature, vol. 11(1), pages 1-10, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-20022-5
DOI: 10.1038/s41467-020-20022-5
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