Two Horizontally Transferred Xenobiotic Resistance Gene Clusters Associated with Detoxification of Benzoxazolinones by Fusarium Species

Two Horizontally Transferred Xenobiotic Resistance Gene Clusters Associated with Detoxification of Benzoxazolinones by Fusarium Species

Microbes encounter a broad spectrum of antimicrobial compounds in their environments and often possess metabolic strategies to detoxify such xenobiotics. We have previously shown that Fusarium verticillioides, a fungal pathogen of maize known for its production of fumonisin mycotoxins, possesses two...

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Bibliographic Details
Published in:PloS one Vol. 11; no. 1; p. e0147486
Main Authors: Glenn, Anthony E, Davis, C Britton, Gao, Minglu, Gold, Scott E, Mitchell, Trevor R, Proctor, Robert H, Stewart, Jane E, Snook, Maurice E
Format: Journal Article
Language:English
Published: United States Public Library of Science 2016
Public Library of Science (PLoS)
Subjects:
Agricultural production
Amides
Antiinfectives and antibacterials
Aspergillus
Bacteria
Bacterial infections
Benzoxazoles - pharmacology
Biodegradation
Bioinformatics
Biological evolution
Biology and Life Sciences
Clusters
Corn
Detoxification
DNA microarrays
Ecology
Ethanol
Fitness
Fungal Proteins - genetics
Fungal Proteins - metabolism
Fungi
Fusarium
Fusarium - drug effects
Fusarium - genetics
Fusarium - metabolism
Fusarium verticillioides
Gene clusters
Gene deletion
Genes
Genomes
Homology
Horizontal transfer
Laboratories
Loci
Medicine and Health Sciences
Metabolism
Metabolites
Metallo-β-lactamase
Metallography
Multigene Family - genetics
Mycotoxins
Phylogenetics
Phylogeny
Plants
Reproductive fitness
Research and Analysis Methods
Topology
Toxicology
Virulence
Xenobiotics
Xenobiotics - pharmacology
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Summary:Microbes encounter a broad spectrum of antimicrobial compounds in their environments and often possess metabolic strategies to detoxify such xenobiotics. We have previously shown that Fusarium verticillioides, a fungal pathogen of maize known for its production of fumonisin mycotoxins, possesses two unlinked loci, FDB1 and FDB2, necessary for detoxification of antimicrobial compounds produced by maize, including the γ-lactam 2-benzoxazolinone (BOA). In support of these earlier studies, microarray analysis of F. verticillioides exposed to BOA identified the induction of multiple genes at FDB1 and FDB2, indicating the loci consist of gene clusters. One of the FDB1 cluster genes encoded a protein having domain homology to the metallo-β-lactamase (MBL) superfamily. Deletion of this gene (MBL1) rendered F. verticillioides incapable of metabolizing BOA and thus unable to grow on BOA-amended media. Deletion of other FDB1 cluster genes, in particular AMD1 and DLH1, did not affect BOA degradation. Phylogenetic analyses and topology testing of the FDB1 and FDB2 cluster genes suggested two horizontal transfer events among fungi, one being transfer of FDB1 from Fusarium to Colletotrichum, and the second being transfer of the FDB2 cluster from Fusarium to Aspergillus. Together, the results suggest that plant-derived xenobiotics have exerted evolutionary pressure on these fungi, leading to horizontal transfer of genes that enhance fitness or virulence.
Bibliography:Current address: Center for Tropical & Emerging Global Diseases, University of Georgia, Athens, Georgia, United States of America
Competing Interests: The authors have declared that no competing interests exist.
Conceived and designed the experiments: AEG CBD MG. Performed the experiments: AEG CBD MG TRM MES. Analyzed the data: AEG CBD MG SEG TRM RHP JES MES. Contributed reagents/materials/analysis tools: AEG SEG TRM RHP JES MES. Wrote the paper: AEG SEG TRM RHP JES.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0147486