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Metabolic modeling of Pectobacterium parmentieri SCC3193 provides insights into metabolic pathways of plant pathogenic bacteria

Authors :
Luana Presta
Alessio Mengoni
Marco Fondi
Sabina Zoledowska
Luciana Giovannetti
Ewa Lojkowska
Francesca Decorosi
Source :
Microorganisms, Volume 7, Issue 4, Microorganisms, Vol 7, Iss 4, p 101 (2019)
Publication Year :
2018
Publisher :
Cold Spring Harbor Laboratory, 2018.

Abstract

Understanding plant&ndash<br />microbe interactions is crucial for improving plants&rsquo<br />productivity and protection. Constraint-based metabolic modeling is one of the possible ways to investigate the bacterial adaptation to different ecological niches and may give insights into the metabolic versatility of plant pathogenic bacteria. We reconstructed a raw metabolic model of the emerging plant pathogenic bacterium Pectobacterium parmentieri SCC3193 with the use of KBase. The model was curated by using inParanoind and phenotypic data generated with the use of the OmniLog system. Metabolic modeling was performed through COBRApy Toolbox v. 0.10.1. The curated metabolic model of P. parmentieri SCC3193 is highly reliable, as in silico obtained results overlapped up to 91% with experimental data on carbon utilization phenotypes. By mean of flux balance analysis (FBA), we predicted the metabolic adaptation of P. parmentieri SCC3193 to two different ecological niches, relevant for the persistence and plant colonization by this bacterium: soil and the rhizosphere. We performed in silico gene deletions to predict the set of essential core genes for this bacterium to grow in such environments. We anticipate that our metabolic model will be a valuable element for defining a set of metabolic targets to control infection and spreading of this plant pathogen.

Details

Database :
OpenAIRE
Journal :
Microorganisms, Volume 7, Issue 4, Microorganisms, Vol 7, Iss 4, p 101 (2019)
Accession number :
edsair.doi.dedup.....83a8e882753c5112aa5a7a893000b2ef
Full Text :
https://doi.org/10.1101/284968