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Transposon mutagenesis reveals Pseudomonas cannabina pv. alisalensis optimizes its virulence factors for pathogenicity on different hosts.

ABSTRACT: Pseudomonas cannabina pv. alisalensis (Pcal), which causes bacterial blight disease of Brassicaceae, is an economically important pathogen worldwide. To identify Pcal genes involved in pathogenesis, we conducted a screen for 1,040 individual Pcal KB211 Tn5 mutants with reduced virulence on cabbage plants using a dip-inoculation method. We isolated 53 reduced virulence mutants and identified several potential virulence factors involved in Pcal virulence mechanisms such as the type III secretion system, membrane transporters, transcription factors, and amino acid metabolism. Importantly, Pcal is pathogenic on a range of monocotyledonous and dicotyledonous plants. Therefore, we also carried out the inoculation test on oat plants, which are cultivated after cabbage cultivation as green manure crops. Interestingly among the 53 mutants, 31 mutants also exhibited reduced virulence on oat seedlings, indicating that Pcal optimizes its virulence factors for pathogenicity on different host plants. Our results highlight the importance of revealing the virulence factors for each plant host-bacterial interaction, and will provide new insights into Pcal virulence mechanisms.

SUBMITTER: Sakata N 

PROVIDER: S-EPMC6756136 | biostudies-literature | 2019

REPOSITORIES: biostudies-literature

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Transposon mutagenesis reveals <i>Pseudomonas cannabina</i> pv. <i>alisalensis</i> optimizes its virulence factors for pathogenicity on different hosts.

Sakata Nanami N   Ishiga Takako T   Saito Haruka H   Nguyen Viet Tru VT   Ishiga Yasuhiro Y  

PeerJ 20190920

<i>Pseudomonas cannabina</i> pv. <i>alisalensis</i> (<i>Pcal</i>), which causes bacterial blight disease of Brassicaceae, is an economically important pathogen worldwide. To identify <i>Pcal</i> genes involved in pathogenesis, we conducted a screen for 1,040 individual <i>Pcal</i> KB211 Tn<i>5</i> mutants with reduced virulence on cabbage plants using a dip-inoculation method. We isolated 53 reduced virulence mutants and identified several potential virulence factors involved in <i>Pcal</i> viru  ...[more]

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