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The soil-borne white root rot pathogen Rosellinia necatrix expresses antimicrobial proteins during host colonization

Edgar A. Chavarro‐Carrero, Nick C. Snelders, David E. Torres, Anton Kraege, Ana López‐Moral, Gabriella C. Petti, Wilko Punt, Jan Wieneke, Rómulo García-Velasco, Carlos López Herrera, Michael Seidl, Bart P. H. J. Thomma

2024PLoS Pathogens30 citationsDOIOpen Access PDF

Abstract

Rosellinia necatrix is a prevalent soil-borne plant-pathogenic fungus that is the causal agent of white root rot disease in a broad range of host plants. The limited availability of genomic resources for R. necatrix has complicated a thorough understanding of its infection biology. Here, we sequenced nine R. necatrix strains with Oxford Nanopore sequencing technology, and with DNA proximity ligation we generated a gapless assembly of one of the genomes into ten chromosomes. Whereas many filamentous pathogens display a so-called two-speed genome with more dynamic and more conserved compartments, the R. necatrix genome does not display such genome compartmentalization. It has recently been proposed that fungal plant pathogens may employ effectors with antimicrobial activity to manipulate the host microbiota to promote infection. In the predicted secretome of R. necatrix, 26 putative antimicrobial effector proteins were identified, nine of which are expressed during plant colonization. Two of the candidates were tested, both of which were found to possess selective antimicrobial activity. Intriguingly, some of the inhibited bacteria are antagonists of R. necatrix growth in vitro and can alleviate R. necatrix infection on cotton plants. Collectively, our data show that R. necatrix encodes antimicrobials that are expressed during host colonization and that may contribute to modulation of host-associated microbiota to stimulate disease development.

Topics & Concepts

BiologyEffectorGenomeMicrobiologyColonizationRoot rotAntimicrobialHost (biology)PathogenGeneticsGeneBotanyCell biologyPlant and Fungal Interactions ResearchPlant Disease Resistance and GeneticsPlant Virus Research Studies
The soil-borne white root rot pathogen Rosellinia necatrix expresses antimicrobial proteins during host colonization | Litcius