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Exploring the Diverse Landscape of Biaryl-Containing Peptides Generated by Cytochrome P450 Macrocyclases

Cited 14 time in Web of Science Cited 16 time in Scopus
Authors

Nam, Hyun Sung; An, Joon Soo; Lee, Jae Pil; Yun, Yong Hwan; Lee, Hyun Bin; Park, Hyung Ou; Jung, You Sung; Oh, Ki Bong; Oh, Dong Chan; Kim, Seok Hee

Issue Date
2023-09
Publisher
American Chemical Society
Citation
Journal of the American Chemical Society, Vol.145 No.40, pp.22047-22057
Abstract
Cytochrome P450 enzymes (P450s) catalyze diverse oxidative cross-coupling reactions between aromatic substrates in the natural product biosynthesis. Specifically, P450s install distinct biaryl macrocyclic linkages in three families of ribosomally synthesized and post-translationally modified peptides (RiPPs). However, the chemical diversity of biaryl-containing macrocyclic RiPPs remains largely unexplored. Here, we demonstrate that P450s have the capability to generate diverse biaryl linkages on RiPPs, collectively named "cyptides". Homology-based genome mining for P450 macrocyclases revealed 19 novel groups of homologous biosynthetic gene clusters (BGCs) with distinct aromatic residue patterns in the precursor peptides. Using the P450- modified precursor peptides heterologously coexpressed with corresponding P450s in Escherichia coli, we determined the NMR structures of three novel biaryl-containing peptidesthe enzymatic products, roseovertin (1), rubrin (2), and lapparbin (3)and confirmed the formation of three unprecedented or rare biaryl linkages: Trp C7'-to-His N-tau in 1, Trp C-7'-to-Tyr C-6 in 2, and Tyr C-6-to-Trp N-1' in 3. Biochemical characterization indicated that certain P450s in these pathways have a relaxed substrate specificity. Overall, our studies suggest that P450 macrocyclases have evolved to create diverse biaryl linkages in RiPPs, promoting the exploration of a broader chemical space for biaryl-containing peptides encoded in bacterial genomes.
ISSN
0002-7863
URI
https://hdl.handle.net/10371/205199
DOI
https://doi.org/10.1021/jacs.3c07140
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  • College of Pharmacy
  • Department of Manufacturing Pharmacy
Research Area Chemical biology of natural products, Drug discovery from microbial natural products, Study of insect-microbial symbiosis, 미생물 유래 생리활성 천연물 발굴, 천연물 구조 분석

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