Characterization of an Iterative Halogenase Acting on Ribosomal Peptides Underlies the Combinatorial Biosynthesis Logic of Lasso Peptides

Characterization of an Iterative Halogenase Acting on Ribosomal Peptides Underlies the Combinatorial Biosynthesis Logic of Lasso Peptides

Halogenation is commonly utilized in medicinal chemistry for the improvement of drug leads. Flavin-dependent halogenases (FDHs) are ubiquitous across all domains of life, yet iterative FDHs are rare in the biosynthesis of ribosomally synthesized and post-translationally modified peptides (RiPPs). He...

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Bibliographic Details
Main Author: Jin-Long Lu (11214882) (author)
Other Authors: Jiao-Jiao Cui (6714899) (author), Zhe-Yang Hu (20759426) (author), Jin-Ming Di (3696214) (author), Yuan-Yuan Li (27693) (author), Jiang Xiong (5702207) (author), Yu-Meng Jiao (20759429) (author), Kun Gao (161056) (author), Jian Min (1965868) (author), Shangwen Luo (1331874) (author), Shi-Hui Dong (1893469) (author)
Published: 2025
Subjects:
Biochemistry
Medicine
Genetics
Pharmacology
Biotechnology
Cancer
Virology
Biological Sciences not elsewhere classified
Chemical Sciences not elsewhere classified
various ripp classes
novel iterative fdh
iterative halogenase acting
include iterative catalysis
employs unique protein
crucial recognition sequence
biosynthetic gene clusters
bioinformatic analysis reveals
translationally modified peptides
fdh activity spectrum
computational studies enable
lasso peptides halogenation
dichlorinated lasso peptides
ribosomal peptides underlies
yet iterative fdhs
orchestrates nonsequential chlorination
combinatorial biosynthesis logic
lasso peptide biosynthesis
lasso peptides
ribosomal peptides
combinatorial biosynthesis
previous studies
antibacterial activity
peptide interactions
leader peptide
core peptide
ubiquitous across
terminal motifs
tailoring enzymes
study expands
ripps ).
ribosomally synthesized
particularly dichlorination
medicinal chemistry
homologous fdhs
heterologous expression
drug leads
distinct n
dependent halogenases
commonly utilized
chl </
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Summary:Halogenation is commonly utilized in medicinal chemistry for the improvement of drug leads. Flavin-dependent halogenases (FDHs) are ubiquitous across all domains of life, yet iterative FDHs are rare in the biosynthesis of ribosomally synthesized and post-translationally modified peptides (RiPPs). Herein, we characterize a novel iterative FDH, ChlH, which orchestrates nonsequential chlorination of two specific Trp within the core peptide of a lasso precursor containing three Trp. Biochemical and computational studies enable the characterization of ChlH, which employs unique protein-peptide interactions (PPIs) between its distinct N- and C-terminal motifs and a crucial recognition sequence (RS-II) downstream of RS-I in the leader peptide. Previous studies have demonstrated the indispensability of RS-I for lasso peptide biosynthesis, while RS-II was considered to be replaceable. Furthermore, we find that the core peptide substantially contributes to the PPI. Bioinformatic analysis reveals the prevalence of homologous FDHs in the biosynthetic gene clusters (BGCs) of various RiPP classes. Heterologous expression of the <i>chl</i> BGC yields non-, mono-, and dichlorinated lasso peptides, with chlorination, particularly dichlorination, enhancing their antibacterial activity. This study expands the FDH activity spectrum to include iterative catalysis on ribosomal peptides and underscores the significance of RS-II in tailoring enzymes for the combinatorial biosynthesis of lasso peptides.

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