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Genomic Characterisation of Mushroom Pathogenic Pseudomonads and Their Interaction with Bacteriophages

Bacterial diseases of the edible white button mushroom Agaricus bisporus caused by Pseudomonas species cause a reduction in crop yield, resulting in considerable economic loss. We examined bacterial pathogens of mushrooms and bacteriophages that target them to understand the disease and opportunitie...

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Autores principales: Storey, Nathaniel, Rabiey, Mojgan, Neuman, Benjamin W., Jackson, Robert W., Mulley, Geraldine
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7696170/
https://www.ncbi.nlm.nih.gov/pubmed/33182769
http://dx.doi.org/10.3390/v12111286
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author Storey, Nathaniel
Rabiey, Mojgan
Neuman, Benjamin W.
Jackson, Robert W.
Mulley, Geraldine
author_facet Storey, Nathaniel
Rabiey, Mojgan
Neuman, Benjamin W.
Jackson, Robert W.
Mulley, Geraldine
author_sort Storey, Nathaniel
collection PubMed
description Bacterial diseases of the edible white button mushroom Agaricus bisporus caused by Pseudomonas species cause a reduction in crop yield, resulting in considerable economic loss. We examined bacterial pathogens of mushrooms and bacteriophages that target them to understand the disease and opportunities for control. The Pseudomonas tolaasii genome encoded a single type III protein secretion system (T3SS), but contained the largest number of non-ribosomal peptide synthase (NRPS) genes, multimodular enzymes that can play a role in pathogenicity, including a putative tolaasin-producing gene cluster, a toxin causing blotch disease symptom. However, Pseudomonas agarici encoded the lowest number of NRPS and three putative T3SS while non-pathogenic Pseudomonas sp. NS1 had intermediate numbers. Potential bacteriophage resistance mechanisms were identified in all three strains, but only P. agarici NCPPB 2472 was observed to have a single Type I-F CRISPR/Cas system predicted to be involved in phage resistance. Three novel bacteriophages, NV1, ϕNV3, and NV6, were isolated from environmental samples. Bacteriophage NV1 and ϕNV3 had a narrow host range for specific mushroom pathogens, whereas phage NV6 was able to infect both mushroom pathogens. ϕNV3 and NV6 genomes were almost identical and differentiated within their T7-like tail fiber protein, indicating this is likely the major host specificity determinant. Our findings provide the foundations for future comparative analyses to study mushroom disease and phage resistance.
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spelling pubmed-76961702020-11-29 Genomic Characterisation of Mushroom Pathogenic Pseudomonads and Their Interaction with Bacteriophages Storey, Nathaniel Rabiey, Mojgan Neuman, Benjamin W. Jackson, Robert W. Mulley, Geraldine Viruses Article Bacterial diseases of the edible white button mushroom Agaricus bisporus caused by Pseudomonas species cause a reduction in crop yield, resulting in considerable economic loss. We examined bacterial pathogens of mushrooms and bacteriophages that target them to understand the disease and opportunities for control. The Pseudomonas tolaasii genome encoded a single type III protein secretion system (T3SS), but contained the largest number of non-ribosomal peptide synthase (NRPS) genes, multimodular enzymes that can play a role in pathogenicity, including a putative tolaasin-producing gene cluster, a toxin causing blotch disease symptom. However, Pseudomonas agarici encoded the lowest number of NRPS and three putative T3SS while non-pathogenic Pseudomonas sp. NS1 had intermediate numbers. Potential bacteriophage resistance mechanisms were identified in all three strains, but only P. agarici NCPPB 2472 was observed to have a single Type I-F CRISPR/Cas system predicted to be involved in phage resistance. Three novel bacteriophages, NV1, ϕNV3, and NV6, were isolated from environmental samples. Bacteriophage NV1 and ϕNV3 had a narrow host range for specific mushroom pathogens, whereas phage NV6 was able to infect both mushroom pathogens. ϕNV3 and NV6 genomes were almost identical and differentiated within their T7-like tail fiber protein, indicating this is likely the major host specificity determinant. Our findings provide the foundations for future comparative analyses to study mushroom disease and phage resistance. MDPI 2020-11-10 /pmc/articles/PMC7696170/ /pubmed/33182769 http://dx.doi.org/10.3390/v12111286 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Storey, Nathaniel
Rabiey, Mojgan
Neuman, Benjamin W.
Jackson, Robert W.
Mulley, Geraldine
Genomic Characterisation of Mushroom Pathogenic Pseudomonads and Their Interaction with Bacteriophages
title Genomic Characterisation of Mushroom Pathogenic Pseudomonads and Their Interaction with Bacteriophages
title_full Genomic Characterisation of Mushroom Pathogenic Pseudomonads and Their Interaction with Bacteriophages
title_fullStr Genomic Characterisation of Mushroom Pathogenic Pseudomonads and Their Interaction with Bacteriophages
title_full_unstemmed Genomic Characterisation of Mushroom Pathogenic Pseudomonads and Their Interaction with Bacteriophages
title_short Genomic Characterisation of Mushroom Pathogenic Pseudomonads and Their Interaction with Bacteriophages
title_sort genomic characterisation of mushroom pathogenic pseudomonads and their interaction with bacteriophages
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7696170/
https://www.ncbi.nlm.nih.gov/pubmed/33182769
http://dx.doi.org/10.3390/v12111286
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