WOUND-INDUCED MOLECULAR ALTERATIONS AND ITS RELATIONSHIP TO PEROXIDASE ISOZYMES OF FUNGAL-INFECTED MELON GENERATIONS
Guirgis,, A., Abd El-Raheem, A., El-Shimi, I. (2000). WOUND-INDUCED MOLECULAR ALTERATIONS AND ITS RELATIONSHIP TO PEROXIDASE ISOZYMES OF FUNGAL-INFECTED MELON GENERATIONS. EKB Journal Management System, 25(4), 2075-2089. doi: 10.21608/jpp.2000.258784
A. A. Guirgis,; A. A. Abd El-Raheem; I. Z. A. El-Shimi. "WOUND-INDUCED MOLECULAR ALTERATIONS AND ITS RELATIONSHIP TO PEROXIDASE ISOZYMES OF FUNGAL-INFECTED MELON GENERATIONS". EKB Journal Management System, 25, 4, 2000, 2075-2089. doi: 10.21608/jpp.2000.258784
Guirgis,, A., Abd El-Raheem, A., El-Shimi, I. (2000). 'WOUND-INDUCED MOLECULAR ALTERATIONS AND ITS RELATIONSHIP TO PEROXIDASE ISOZYMES OF FUNGAL-INFECTED MELON GENERATIONS', EKB Journal Management System, 25(4), pp. 2075-2089. doi: 10.21608/jpp.2000.258784
Guirgis,, A., Abd El-Raheem, A., El-Shimi, I. WOUND-INDUCED MOLECULAR ALTERATIONS AND ITS RELATIONSHIP TO PEROXIDASE ISOZYMES OF FUNGAL-INFECTED MELON GENERATIONS. EKB Journal Management System, 2000; 25(4): 2075-2089. doi: 10.21608/jpp.2000.258784

WOUND-INDUCED MOLECULAR ALTERATIONS AND ITS RELATIONSHIP TO PEROXIDASE ISOZYMES OF FUNGAL-INFECTED MELON GENERATIONS

Journal of Plant Production
Article 11, Volume 25, Issue 4, April 2000, Pages 2075-2089    PDF (605.11 K)
Document Type: Original Article
DOI: 10.21608/jpp.2000.258784
Authors
A. A. Guirgis,1; A. A. Abd El-Raheem2; I. Z. A. El-Shimi3
1Genetic Engineering and Biotechnology Research Institute, Menoufiya University
2Agricultural Botany Department, Faculty of Agriculture, Suez Canal University
3Horticultural Crops Research Institute, Agriculture Research Centre, Cairo, Egypt
Abstract
A transitory inhibition of either Prx1 locus or its functional protein was observed in parental, F­1 and F2 melon generations as a result to fungal infection with Pseudoperonospora cubensis. This locus was found to be activated again in leaf tissues of all generations either 48 hours after fungal elicitation or transcriptionally stimulated by unknown elicitors induced through 2 hours of wound treatment.
Rapid increase in peroxidase isozymes intensity after 24 hour of fungal inoculation was observed for resistant melon genotypes especially, P1; PI 140471, F1; P1 x P5 and P2; PI 124111. Similar increments in isoperoxidase activity in resistant genotypes after 2 hours of wounding suggesting stimulation of the transcription level of all leaf isoperoxidases specially the four-banded Prx2 locus. Meanwhile the susceptible genotypes; P3; Honey dew and P5; Ismaillawi did not show  rapid changes in peroxidase isozymes.
Positive Spearman rank correlation coefficients were observed between downey mildew resistance and the highest isoperoxidase activity scores over all melon generations; 0.73 and 0.55, at 72 and 24 hours after fungal infection, respectively. The time course of wound induction of peroxidase activity suggests the inducibility of fungal resistance in leaf tissues by wound treatment. The results also suggest an indirect role for Prx1 locus in inducing not only intermediate compounds, but also in stimulating transcription of genes involved in the plant defence system.
Keywords
Cucumis melo; Pseudoperonospora cubensis; Wound; Peroxidase; Isozymes; Germplasm
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