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    Genome sequence reveals that Pseudomonas fluorescens F113 possesses a large and diverse array of systems for rhizosphere function and host interaction

    197855_111263_80589.pdf (2.262Mb)
    Access Status
    Open access
    Authors
    Redondo-Nieto, M.
    Barret, M.
    Morrissey, J.
    Germaine, K.
    Martinez-Granero, F.
    Barahona, E.
    Navazo, A.
    Sánchez-Contreras, M.
    Moynihan, J.
    Muriel, C.
    Dowling, D.
    O'Gara, Fergal
    Martín, M.
    Rivilla, R.
    Date
    2013
    Type
    Journal Article
    
    Metadata
    Show full item record
    Citation
    Redondo-Nieto, Miguel and Barret, Matthieu and Morrissey, John and Germaine, Kieran and Martínez-Granero, Francisco and Barahona, Emma and Navazo, Ana and Sánchez-Contreras, Maria and Moynihan, Jennifer A. and Muriel, Candela and Dowling, David and O'Gara, Fergal and Martín, Marta and Rivilla, Rafael. 2013. Genome sequence reveals that Pseudomonas fluorescens F113 possesses a large and diverse array of systems for rhizosphere function and host interaction. BMC Genomics. 14 : Article ID 54.
    Source Title
    BMC Genomics
    DOI
    10.1186/1471-2164-14-54
    ISSN
    14712164
    Remarks

    This article is published under the Open Access publishing model and distributed under the terms of the Creative Commons Attribution License http://creativecommons.org/licenses/by/2.0/. Please refer to the licence to obtain terms for any further reuse or distribution of this work

    URI
    http://hdl.handle.net/20.500.11937/11519
    Collection
    • Curtin Research Publications
    Abstract

    Background: Pseudomonas fluorescens F113 is a plant growth-promoting rhizobacterium (PGPR) isolated from the sugar-beet rhizosphere. This bacterium has been extensively studied as a model strain for genetic regulation of secondary metabolite production in P. fluorescens, as a candidate biocontrol agent against phytopathogens, and as a heterologous host for expression of genes with biotechnological application. The F113 genome sequence and annotation has been recently reported.Results: Comparative analysis of 50 genome sequences of strains belonging to the P. fluorescens group has revealed the existence of five distinct subgroups. F113 belongs to subgroup I, which is mostly composed of strains classified as P. brassicacearum. The core genome of these five strains is highly conserved and represents approximately 76% of the protein-coding genes in any given genome. Despite this strong conservation, F113 also contains a large number of unique protein-coding genes that encode traits potentially involved in the rhizocompetence of this strain. These features include protein coding genes required for denitrification,diterpenoids catabolism, motility and chemotaxis, protein secretion and production of antimicrobial compounds and insect toxins.Conclusions: The genome of P. fluorescens F113 is composed of numerous protein-coding genes, not usually found together in previously sequenced genomes, which are potentially decisive during the colonisation of the rhizosphere and/or interaction with other soil organisms. This includes genes encoding proteins involved in the production of a second flagellar apparatus, the use of abietic acid as a growth substrate, the complete denitrification pathway, the possible production of a macrolide antibiotic and the assembly of multiple proteinsecretion systems.

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