Proteome-Wide Response of Dormant Caryopses of the Weed, Avena fatua , After Colonization by a Seed-Decay Isolate of Fusarium avenaceum

Promoting seed decay is an ecological approach to reducing weed persistence in the soil seedbank. Previous work demonstrated that F.a.1 decays dormant (wild oat) caryopses and induces several defense enzyme activities in vitro. The objectives of this study were to obtain a global perspective of prot...

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Published in:Phytopathology 2022-05, Vol.112 (5), p.1103-1117
Main Authors: Lewis, Ricky W, Okubara, Patricia A, Sullivan, Tarah S, Madden, Benjamin J, Johnson, Kenneth L, Charlesworth, M Cristine, Fuerst, E Patrick
Format: Article
Language:English
Subjects:
Avena
Fusarium
Heat-Shock Proteins - metabolism
Plant Diseases
Proteome
Proteomics
Seeds - physiology
Soil
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Summary:Promoting seed decay is an ecological approach to reducing weed persistence in the soil seedbank. Previous work demonstrated that F.a.1 decays dormant (wild oat) caryopses and induces several defense enzyme activities in vitro. The objectives of this study were to obtain a global perspective of proteins expressed after F.a.1-caryopsis colonization by conducting proteomic evaluations on (i) leachates, soluble extrinsic (seed-surface) proteins released upon washing caryopses in buffer and (ii) proteins extracted from whole caryopses; interactions with aluminum (Al) were also evaluated in the latter study because soil acidification and associated metal toxicity are growing problems. Of the 119 leachate proteins classified as defense/stress, 80 were induced or repressed. Defense/stress proteins were far more abundant in (35%) than in F.a.1 (12%). defense/stress proteins were also the most highly regulated category, with 30% induced and 35% repressed by F.a.1. Antifungal proteins represented 36% of defense proteins and were the most highly regulated, with 36% induced and 37% repressed by F.a.1. These results implicate selective regulation of defense proteins by F.a.1. proteins were also highly abundant in the leachates, with 10% related to pathogenicity, 45% of which were associated with host cell wall degradation. In whole caryopsis extracts, fungal colonization generally resulted in induction of a similar set of proteins in the presence and absence of Al. Results advance the hypothesis that seed decay pathogens elicit intricate and dynamic biochemical responses in dormant seeds.
ISSN:0031-949X
1943-7684
DOI:10.1094/PHYTO-06-21-0234-R