The role of foraging pollinators in assembling the flower microbiota and transmitting the fire blight pathogen <i>Erwinia amylovora</i>

Mukhtar, Salma; Hassani, M. Amine; Zarrillo, Tracy; Cui, Zhouqi; Sundin, George W.; Zeng, Quan

doi:10.1111/1462-2920.16702

Environmental Microbiology

2024

DOI: 10.1111/1462-2920.16702

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The role of foraging pollinators in assembling the flower microbiota and transmitting the fire blight pathogen Erwinia amylovora

Salma Mukhtar,

M. Amine Hassani,

Tracy Zarrillo

et al.

Abstract: Flowers serve as hubs for biotic interactions with pollinators and microbes, which can significantly impact plant reproduction and health. Previous studies have shown that the flower microbiota undergoes dynamic assembly processes during anthesis. However, the influence of foraging pollinators on the assembly and dispersal of the flower microbiota and the transmission of plant pathogens remains poorly understood. In this study, we used insect exclusion netting to investigate the role of pollinators in the asse… Show more

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The fire blight pathogenErwinia amylovoraenters apple leaves through naturally-occurring wounds from the abscission of trichomes

Millett,

Standish,

Scanley

et al. 2024

Preprint

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The plant epidermis is a single layer of cells covering all plant organs. How pathogens overcome this barrier and enter plants is an important aspect of plant-pathogen interactions. For bacterial plant pathogens, known entry points include natural openings such as stomata, hydathodes, and mechanical injuries caused by insect feeding, wind damage or hailstorms. Here, we report that the fire blight pathogen Erwinia amylovora enters apple leaves through naturally-occurring wounds caused by the abscission of trichomes during the course of leaf development. Through macroscopic and microscopic observations, we depicted a clear invasion path for E. amylovora cells, from epiphytic growth on glandular trichomes (GT) and non-glandular trichomes (NT), to entry through wounds caused by abscised trichomes, into the epithem, and subsequent spread through xylem. We further observed that GT and NT undergo an abscission process, and that the amount of naturally-occurring wounds during abscission is associated with the increase in E. amylovora population. Key genes important for the colonization of GT and NT were identified. Contribution of the type III secretion system and amylovoran biosynthesis during GT colonization was validated. Our findings propose a novel host entry mechanism of plant pathogenic bacteria through naturally-occurring wounds during abscission of plant surface structures.

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The fire blight pathogenErwinia amylovoraenters apple leaves through naturally-occurring wounds from the abscission of trichomes

Millett,

Standish,

Scanley

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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The role of foraging pollinators in assembling the flower microbiota and transmitting the fire blight pathogen Erwinia amylovora

Cited by 1 publication

References 50 publications

The fire blight pathogenErwinia amylovoraenters apple leaves through naturally-occurring wounds from the abscission of trichomes

The fire blight pathogenErwinia amylovoraenters apple leaves through naturally-occurring wounds from the abscission of trichomes

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