Home  About us  Contact
 

Challenge Inoculation (challenge + inoculation)

Distribution by Scientific Domains
Life Sciences100%

Selected Abstracts

Accumulation of Defence Response-related and Unique Expressed Sequence Tags during the Incompatible Interaction in the Oryza sativa,Magnaporthe oryzae Pathosystem

JOURNAL OF PHYTOPATHOLOGY, Issue 7-8 2009
Rekha Dixit
Abstract Resistance gene-dependent accumulation of expressed sequence tags (ESTs) was studied in a blast resistant, Oryza sativa ssp. indica cv. Tetep after challenge inoculation with an incompatible race of Magnaporthe oryzae. The nucleotide sequence of 287 randomly selected cDNA clones from the rice cDNA library constructed from the RNA isolated after challenge inoculation of the host was obtained and submitted in NCBI Genbank (Accession Nos. DN475717,DN475431). Of these, 184 (63%) ESTs were highly representative of the rice transcriptomes. A set of 178 unique transcripts was identified after assembly of 287 ESTs into unigenes. These unigenes were categorized into 17 functional groups. Analysis of this EST library illustrated a broad functional representation. Twenty-one unigenes were identified as putative homologues of the genes that were up regulated during host,pathogen interaction. Similarity search of 178 unigenes with NCBI database of 14 plants unigenes showed similarity ranging from 29,100%. The unigenes obtained in this study were physically located on the pseudomolecules of rice genome. This information can be used for determining the arrays of genes being expressed during Oryza sativa,M. oryzae interactions, which will be helpful in understanding the molecular basis of disease resistance. [source]

Gene Expression Analysis in Cucumber Leaves Primed by Root Colonization with Pseudomonas chlororaphis O6 upon Challenge-Inoculation with Corynespora cassiicola

PLANT BIOLOGY, Issue 2 2004
M. S. Kim
Abstract: Root colonization by Pseudomonas chlororaphis O6, a non-pathogenic rhizobacterium, induced systemic resistance in cucumber against target leaf spot caused by Corynespora cassiicola. A cDNA library was constructed using mRNA extracted from cucumber leaves 12 h after inoculation with C. cassiicola, using plants colonized by O6. To identify genes involved in O6-mediated induced systemic resistance (ISR), we employed a subtractive hybridization method using mRNAs extracted from pathogen-challenged cucumber leaves of plants lacking colonization. Differential screening of the cDNA library led to the isolation of six distinct genes encoding a GTP binding protein, a 60S ribosomal protein, a hypersensitive-induced reaction protein, a ubiquitin extension protein, a pyridine nucleotide-disulfide oxidoreductase, and a signal recognition particle receptor. Expression of these genes was not induced by O6 colonization alone. Rather, transcript accumulation of these genes increased significantly faster and stronger in the O6 colonized than in non-colonized plants after challenge infection. Therefore, O6-mediated ISR may be associated with an enhanced capacity for the rapid and effective activation of cellular defence responses after challenge inoculation. [source]

Plant defence reactions against fusarium wilt in chickpea induced by incompatible race 0 of Fusarium oxysporum f.sp. ciceris and nonhost isolates of F. oxysporum

PLANT PATHOLOGY, Issue 6 2002
J. M. Cachinero
Germinated seeds of ,kabuli' chickpea cv. ICCV 4 were inoculated with a conidial suspension of the incompatible race 0 of Fusarium oxysporum f.sp. ciceris (Foc) or of nonhost F. oxysporum resistance ,inducers', and 3 days later were challenged by root dip with a conidial suspension of highly virulent Foc race 5. Prior inoculation with inducers delayed the onset of symptoms and/or significantly reduced the final amount of fusarium wilt caused by race 5. However, the extent of disease suppression varied with the nature of the inducing agent; the nonhost isolates of F. oxysporum were more effective at disease suppression than the incompatible Foc race 0. Inoculation with the inducers gave rise to synthesis of maackiain and medicarpin phytoalexins in inoculated seedlings; these did not accumulate in plant tissues but were released into the inoculum suspension. Inoculation with inducers also resulted in accumulation of chitinase, ,-1,3-glucanase and peroxidase activities in plant roots. These defence-related responses were induced more consistently and intensely by nonhost isolates of F. oxysporum than by incompatible Foc race 0. The phytoalexins and, to a lesser extent, the antifungal hydrolases, were also induced after challenge inoculation with Foc race 5. However, in this case the defence responses were induced in both preinduced and noninduced plants infected by the pathogen. It is concluded that the suppression of fusarium wilt in this study possibly involved an inhibitory effect on the pathogen of preinduced plant defences, rather than an increase in the expression of defence mechanisms of preinduced plants following a subsequent challenge inoculation. [source]