Evaluation of Superoxide Dismutase Isoforms Activity and Defense System-Related Proteins’ Expression in Ascochyta Blight-Infected Chickpea Using 2D Electrophoresis Technique

Fungal diseases are crucial factors in reducing chickpea production. Ascochyta Blight is caused by the necrotrophic fungi Didymella rabiei and is one of the most destructive diseases in most world areas. Therefore, a completely randomized factorial design with five replications was applied to evalua...

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Published inBiology bulletin of the Russian Academy of Sciences Vol. 51; no. 3; pp. 602 - 618
Main Authors Shafiei, Y., Golfazani, M. Mohsenzadeh, Mostafaie, A., Taghvaei, M. M., Lahiji, H. Samizadeh, Raza, A.
Format Journal Article
LanguageEnglish
Published Moscow Pleiades Publishing 01.06.2024
Springer Nature B.V
Subjects
Ascochyta
Biochemistry
Biomedical and Life Sciences
Blight
Cell Biology
Chlorophyll
Disease
Ecology
Infections
Isoelectric points
Isoforms
Leaves
Life Sciences
Methionine
Plant Physiology
Polyacrylamide
Protein interaction
Proteins
Proteomes
Seedlings
Superoxide dismutase
Zoology
protein interactions
electrophoresis
seedling
gel
proteome
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Summary:Fungal diseases are crucial factors in reducing chickpea production. Ascochyta Blight is caused by the necrotrophic fungi Didymella rabiei and is one of the most destructive diseases in most world areas. Therefore, a completely randomized factorial design with five replications was applied to evaluate the effects of Ascochyta Blight disease fungi on the chickpea plant. The chlorophyll index, the activities of superoxide dismutase isoforms, and evolutionary analyses were performed to get further insights. Also, 2D electrophoresis of chickpea leaf proteins, gene ontology, and protein-protein interactions analysis was performed. The results did not show any significant effect of A. rabiei infection on the wet weight of chickpea seedlings. Chlorophyll index levels significantly decreased with A. rabiei infection in both chickpea lines. Electrophoretic analysis of superoxide dismutase on 8% polyacrylamide gel revealed three isoforms. The activities of superoxide dismutase isoforms significantly increased with A. rabiei disease. Identification of proteins was performed according to their isoelectric points and approximate molecular weights. Leaf proteome analysis of chickpea lines showed that the expression of eight reproducible spots changed significantly under A. rabiei disease condition. Candidate proteins were components of defense and regulation systems. High expression of Dual specificity protein, Peptide methionine sulfoxide reductase B2, and chloroplastic phosphatase 1B (the proteins involved in the defense system) reveals their essential functions under A. rabiei infection. Increased activities of superoxide dismutase enzymes and proteins involved in the defense system can reduce A. rabiei infection effects on chickpea seedlings.
ISSN:1062-3590
1608-3059
DOI:10.1134/S1062359023603336