The secreted proteome of necrotrophic Ciborinia camelliae causes nonhost‐specific virulence

Ciborinia camelliae (Sclerotiniaceae) is a host‐ and organ‐specific fungal pathogen that causes rapid browning and flower drop on ornamental plants of the genus Camellia. To determine the nature of its necrotrophic factors, we tested whether proteins secreted by C. camelliae can damage host‐plant ti...

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Bibliographic Details
Published in:Plant pathology 2022-02, Vol.71 (2), p.437-445
Main Authors: Kondratev, Nikolai, Middleditch, Martin J., Denton‐Giles, Matthew, Bradshaw, Rosie E., Cox, Murray P., Dijkwel, Paul P.
Format: Article
Language:English
Subjects:
Apoplast
Browning
Carbohydrates
CAZymes
Ciborinia camelliae
Culture media
Filtrate
Fungi
Homology
Host plants
Host specificity
Mass spectrometry
Mass spectroscopy
Necrosis
necrotrophy
Ornamental plants
Pathogens
Peptides
Plant tissues
Plants (botany)
Proteins
Proteomes
Proteomics
Sclerotiniaceae
secretome
Virulence
Virulence factors
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Summary:Ciborinia camelliae (Sclerotiniaceae) is a host‐ and organ‐specific fungal pathogen that causes rapid browning and flower drop on ornamental plants of the genus Camellia. To determine the nature of its necrotrophic factors, we tested whether proteins secreted by C. camelliae can damage host‐plant tissues. Fungal culture filtrate caused necrogenic activity, abolished by heat or protease treatments, thus indicating that the secreted necrogenic agents are probably proteinaceous in nature. Mass spectrometry‐based proteomics was used to detect and identify secreted proteins of C. camelliae. Proteins secreted in culture media (in vitro) and in petal apoplast (in planta) had similar functional distributions, and key identified proteins included homologs to known virulence factors of the closely related Sclerotiniaceae fungus Botrytis cinerea, including endopolygalacturonases, cerato‐platanin family proteins, and necrosis‐ and ethylene‐inducing peptides. The main class of secreted proteins were carbohydrate‐active enzymes, a characteristic signature of necrotrophic plant pathogens. Both fungal culture filtrate and apoplastic washes of infected petals induced necrosis when infiltrated into host and nonhost plants. This suggests that while some of the secreted proteins might contribute to virulence of C. camelliae, and can cause necrosis similar to secreted proteins of broad‐host Sclerotiniaceae pathogens, they do not have a role in determining its host specificity. The sclerotiniaceous fungus Ciborinia camelliae exclusively infects camellia blooms. Yet, its secretome contains typical broad host‐range proteins that causes necrosis in nonhost tissue.
ISSN:0032-0862
1365-3059
DOI:10.1111/ppa.13477