A Brief Evaluation of Copper Resistance Mobile Genetic Island in the Bacterial Leaf Spot Pathogen, Xanthomonas euvesicatoria pv. perforans

Due to the continuous use of copper containing bactericides without effective alternative bactericides, copper resistance has become more prevalent in plant pathogens, including pv. (formerly ), a predominant cause of bacterial leaf spot disease of tomato and pepper in the Southeastern United States...

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Bibliographic Details
Published in:Phytopathology 2023-08, Vol.113 (8), p.1394-1398
Main Authors: Bibi, Shaheen, Weis, Kylie, Kaur, Amandeep, Bhandari, Rishi, Goss, Erica M, Jones, Jeffrey B, Potnis, Neha
Format: Article
Language:English
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Summary:Due to the continuous use of copper containing bactericides without effective alternative bactericides, copper resistance has become more prevalent in plant pathogens, including pv. (formerly ), a predominant cause of bacterial leaf spot disease of tomato and pepper in the Southeastern United States Previously, reports of copper resistance have been associated with a large conjugative plasmid. However, we have characterized a copper resistance genomic island located within the chromosome of multiple pv. strains. The island is distinct from a previously described chromosomally encoded copper resistance island in strain XVP26. Computational analysis revealed the genomic island to contain multiple genes associated with genetic mobility including both phage related genes and transposase. Among copper tolerant strains of pv. isolated from Florida, the majority of strains were found to have the copper resistance chromosomally encoded rather than plasmid borne. Our results suggest that this copper resistance island may have two modes of horizontal gene transfer and that chromosomally encoded copper resistance genes may provide a fitness advantage over plasmid borne resistance.
ISSN:0031-949X
1943-7684
DOI:10.1094/PHYTO-02-23-0077-SC