Decoding microbiome responses to quarantine potato wart disease: first insights into suppression and biocontrol by full-length 16S rRNA gene profiling and functional prediction
Ishraq Akbar, Yichao Shi, Bart T. L. H. van de Vossenberg, Theo A. J. van der Lee, Lang Yao, Xiang Li, Jiacheng Chuan, Linda E. Jewell, Hai D. T. Nguyen, Wen Chen

TL;DR
This study explores the soil and plant microbiomes associated with potato wart disease to identify potential biocontrol agents for managing the pathogen.
Contribution
The first comprehensive microbiome analysis of potato wart disease using full-length 16S rRNA gene sequencing and functional prediction.
Findings
Wart microbiomes were enriched in Pseudomonas trivialis and Bacillus atrophaeus, which may suppress the pathogen.
Descheduled soils showed stable microbial communities with broad-spectrum biocontrol agents.
Functional analysis revealed xenobiotic degradation and chitin metabolism pathways linked to Bacillus and Pseudomonas.
Abstract
Synchytrium endobioticum, the biotrophic pathogen causing potato wart, poses persistent challenges due to its long-term soil survival and quarantine status. Biological control agents (BCAs) offer a promising avenue for sustainable management, yet the ecological context of wart-associated microbiomes remains unexplored. We present the first comprehensive microbiome characterization of the potato wart disease system using full-length 16S rRNA gene Nanopore sequencing across bioassay-grown warts, field-collected wart tissues, diseased tare soils, and long-term descheduled (wart-free) soils. Whole genome amplification (WGA) enabled profiling of low-biomass samples, albeit with compositional shifts towards dominant taxa. Microbiome compositional structure differed significantly across sieving fractions, host genotypes, and compartments (wart vs. tare soil). Wart microbiomes were enriched…
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Taxonomy
TopicsPlant-Microbe Interactions and Immunity · Plant Pathogens and Resistance · Plant Disease Resistance and Genetics
