The ecological genetics of Pseudomonas syringae from kiwifruit leaves

Christina Straub; Elena Colombi; Li Li; Hongwen Huang; Matthew D. Templeton; Honour C. McCann; Paul B. Rainey

doi:10.1111/1462-2920.14092

The ecological genetics of Pseudomonas syringae from kiwifruit leaves

Christina Straub (Corresponding author)
, Elena Colombi
, Li Li
, Hongwen Huang
, Matthew D. Templeton
, Honour C. McCann
, Paul B. Rainey

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

Interactions between commensal microbes and invading pathogens are understudied, despite their likely effects on pathogen population structure and infection processes. We describe the population structure and genetic diversity of a broad range of co-occurring Pseudomonas syringae isolated from infected and uninfected kiwifruit during an outbreak of bleeding canker disease caused by P. syringae pv. actinidiae (Psa) in New Zealand. Overall population structure was clonal and affected by ecological factors including infection status and cultivar. Most isolates are members of a new clade in phylogroup 3 (PG3a), also present on kiwifruit leaves in China and Japan. Stability of the polymorphism between pathogenic Psa and commensal P. syringae PG3a isolated from the same leaf was tested using reciprocal invasion from rare assays in vitro and in planta. P. syringae G33C (PG3a) inhibited Psa NZ54, while the presence of Psa NZ54 enhanced the growth of P. syringae G33C. This effect could not be attributed to virulence activity encoded by the Type 3 secretion system of Psa. Together our data contribute toward the development of an ecological perspective on the genetic structure of pathogen populations.

Original language	English
Pages (from-to)	2066-2084
Number of pages	19
Journal	Environmental Microbiology
Volume	20
Issue number	6
DOIs	https://doi.org/10.1111/1462-2920.14092
Publication status	Published - 9 Mar 2018
Externally published	Yes

Funding

We want to particularly thank kiwifruit growers David French, Rex Reed and Bruce and Fiona Aitken for granting access to their orchards. The work conducted was supported by the New Zealand Ministry for Business, Innovation and Employment (C11X1205). Christina Straub was supported through a PhD scholarship from the New Zealand Institute for Advanced Studies (NZIAS) and Plant & Food Research.

Austrian Fields of Science 2012

106026 Ecosystem research
106022 Microbiology

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10.1111/1462-2920.14092

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title = "The ecological genetics of Pseudomonas syringae from kiwifruit leaves",

abstract = "Interactions between commensal microbes and invading pathogens are understudied, despite their likely effects on pathogen population structure and infection processes. We describe the population structure and genetic diversity of a broad range of co-occurring Pseudomonas syringae isolated from infected and uninfected kiwifruit during an outbreak of bleeding canker disease caused by P. syringae pv. actinidiae (Psa) in New Zealand. Overall population structure was clonal and affected by ecological factors including infection status and cultivar. Most isolates are members of a new clade in phylogroup 3 (PG3a), also present on kiwifruit leaves in China and Japan. Stability of the polymorphism between pathogenic Psa and commensal P. syringae PG3a isolated from the same leaf was tested using reciprocal invasion from rare assays in vitro and in planta. P. syringae G33C (PG3a) inhibited Psa NZ54, while the presence of Psa NZ54 enhanced the growth of P. syringae G33C. This effect could not be attributed to virulence activity encoded by the Type 3 secretion system of Psa. Together our data contribute toward the development of an ecological perspective on the genetic structure of pathogen populations.",

author = "Christina Straub and Elena Colombi and Li Li and Hongwen Huang and Templeton, \{Matthew D.\} and McCann, \{Honour C.\} and Rainey, \{Paul B.\}",

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AU - Straub, Christina

AU - Colombi, Elena

AU - Li, Li

AU - Huang, Hongwen

AU - Templeton, Matthew D.

AU - McCann, Honour C.

AU - Rainey, Paul B.

PY - 2018/3/9

Y1 - 2018/3/9

N2 - Interactions between commensal microbes and invading pathogens are understudied, despite their likely effects on pathogen population structure and infection processes. We describe the population structure and genetic diversity of a broad range of co-occurring Pseudomonas syringae isolated from infected and uninfected kiwifruit during an outbreak of bleeding canker disease caused by P. syringae pv. actinidiae (Psa) in New Zealand. Overall population structure was clonal and affected by ecological factors including infection status and cultivar. Most isolates are members of a new clade in phylogroup 3 (PG3a), also present on kiwifruit leaves in China and Japan. Stability of the polymorphism between pathogenic Psa and commensal P. syringae PG3a isolated from the same leaf was tested using reciprocal invasion from rare assays in vitro and in planta. P. syringae G33C (PG3a) inhibited Psa NZ54, while the presence of Psa NZ54 enhanced the growth of P. syringae G33C. This effect could not be attributed to virulence activity encoded by the Type 3 secretion system of Psa. Together our data contribute toward the development of an ecological perspective on the genetic structure of pathogen populations.

AB - Interactions between commensal microbes and invading pathogens are understudied, despite their likely effects on pathogen population structure and infection processes. We describe the population structure and genetic diversity of a broad range of co-occurring Pseudomonas syringae isolated from infected and uninfected kiwifruit during an outbreak of bleeding canker disease caused by P. syringae pv. actinidiae (Psa) in New Zealand. Overall population structure was clonal and affected by ecological factors including infection status and cultivar. Most isolates are members of a new clade in phylogroup 3 (PG3a), also present on kiwifruit leaves in China and Japan. Stability of the polymorphism between pathogenic Psa and commensal P. syringae PG3a isolated from the same leaf was tested using reciprocal invasion from rare assays in vitro and in planta. P. syringae G33C (PG3a) inhibited Psa NZ54, while the presence of Psa NZ54 enhanced the growth of P. syringae G33C. This effect could not be attributed to virulence activity encoded by the Type 3 secretion system of Psa. Together our data contribute toward the development of an ecological perspective on the genetic structure of pathogen populations.

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SN - 1462-2912

VL - 20

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JO - Environmental Microbiology

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The ecological genetics of Pseudomonas syringae from kiwifruit leaves

Abstract

Funding

Austrian Fields of Science 2012

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