Identification and expression analysis of BTH induced genes in papaya

BTH induces elevated hydrolytic enzyme activity, expression of two members of the PR1 gene family, and resistance to Phytophthora palmivora in papaya. Twenty five additional papaya genes showing elevated systemic expression 3 days after BTH treatment have now been identified by suppression subtracti...

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Published in:Physiological and molecular plant pathology 2004-07, Vol.65 (1), p.21-30
Main Authors: Qiu, Xiaohui, Guan, Peizhu, Wang, Ming-Li, Moore, Paul H., Zhu, Yun J., Hu, John, Borth, Wayne, Albert, Henrik H.
Format: Article
Language:English
Subjects:
Arabidopsis
Benzothiadiazole
Biological and medical sciences
Carica papaya
chitinase
complementary DNA
DNA libraries
Fundamental and applied biological sciences. Psychology
fungal diseases of plants
Fungal plant pathogens
gene expression regulation
messenger RNA
molecular sequence data
Northern blotting
nucleotide sequences
osmotin
papayas
pathogenesis-related proteins
Pathology, epidemiology, host-fungus relationships. Damages, economic importance
peroxidase
Phytopathology. Animal pests. Plant and forest protection
Phytophthora palmivora
plant pathogenic fungi
plant proteins
PR genes
Quantitative reverse-transcription PCR
sequence analysis
suppression subtraction hybridization
Suppression subtractive hybridization
Systemic acquired resistance
Variation, races, biotypes, parasitic specialization, genetics
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Summary:BTH induces elevated hydrolytic enzyme activity, expression of two members of the PR1 gene family, and resistance to Phytophthora palmivora in papaya. Twenty five additional papaya genes showing elevated systemic expression 3 days after BTH treatment have now been identified by suppression subtraction hybridization, and confirmed and quantified by northern blots and quantitative RT-PCR. These genes include several PR genes and related genes known from other systems to have direct anti-microbial activities, and two genes with likely involvement in altering cell wall porosity and lignification. Additionally, six genes with potential roles in establishing reducing conditions following the oxidative burst are induced, including three not previously known to have defense related roles: CPBI 6, a 2-oxoglutarate-dependent oxygenase (2OG-Fe(II) oxygenase), CPBI 14, a malate oxidoreductase, and CPBI 16, a hydroxyphenylpyruvate dioxygenase (HPPDase). Specific Cys residues required for redox activation of arabidopsis NPR1 are conserved in papaya NPR1. Together with the induction of the several genes with potential roles in establishing reducing conditions, this suggests that the regulation of cellular redox status may play a role in SAR induction in papaya.
ISSN:0885-5765
1096-1178
DOI:10.1016/j.pmpp.2004.11.004