Microbial symbionts affect Pisum sativum proteome and metabolome under Didymella pinodes infection

Getinet Desalegn, Reinhard Turetschek, Hans-Peter Kaul, Stefanie Wienkoop (Corresponding author)

    Publications: Contribution to journalArticlePeer Reviewed

    Abstract

    The long cultivation of field pea led to an enormous diversity which, however, seems to hold just little resistance against the ascochyta blight disease complex. The potential of below ground microbial symbiosis to prime the immune system of Pisum for an upcoming pathogen attack has hitherto received little attention. This study investigates the effect of beneficial microbes on the leaf proteome and metabolome as well as phenotype characteristics of plants in various symbiont interactions (mycorrhiza, rhizobia, co-inoculation, non-symbiotic) after infestation by Didymella pinodes. In healthy plants, mycorrhiza and rhizobia induced changes in RNA metabolism and protein synthesis. Furthermore, metal handling and ROS dampening was affected in all mycorrhiza treatments. The co-inoculation caused the synthesis of stress related proteins with concomitant adjustment of proteins involved in lipid biosynthesis. The plant's disease infection response included hormonal adjustment, ROS scavenging as well as synthesis of proteins related to secondary metabolism. The regulation of the TCA, amino acid and secondary metabolism including the pisatin pathway, was most pronounced in rhizobia associated plants which had the lowest infection rate and the slowest disease progression. Biological significance A most comprehensive study of the Pisum sativum proteome and metabolome infection response to Didymella pinodes is provided. Several distinct patterns of microbial symbioses on the plant metabolism are presented for the first time. Upon D. pinodes infection, rhizobial symbiosis revealed induced systemic resistance e.g. by an enhanced level of proteins involved in pisatin biosynthesis.

    Original languageEnglish
    Pages (from-to)173-187
    Number of pages15
    JournalJournal of Proteomics
    Volume143
    DOIs
    Publication statusPublished - 30 Jun 2016

    Austrian Fields of Science 2012

    • 106037 Proteomics

    Keywords

    • Mycosphaerella pinodes
    • Proteomics
    • Pisum sativum
    • Metabolomics
    • SYSTEMIC RESISTANCE
    • MEMBRANE H+-ATPASE
    • Field pea
    • ARBUSCULAR MYCORRHIZAL FUNGI
    • REDOX HOMEOSTASIS
    • Metabolome
    • Proteome
    • Biomass
    • RESISTANCE RESPONSE GENE
    • PLANT DEFENSE RESPONSES
    • SIGNAL-TRANSDUCTION
    • Inoculation
    • MYCOSPHAERELLA-PINODES
    • Rhizobia
    • Didymella pinodes
    • Mycorrhiza
    • TRIPARTITE SYMBIOSIS
    • Biotic stress
    • Photosynthesis
    • JASMONIC ACID

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