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Subject: Plant Pathology × Author: Gill, Rupeet × End date: 2018 × Start date: 2010 × Type: Thesis × Thesis Type: Ph.D ×
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    Molecular and biochemical bases for resistance to sclerotinia stem rot in introgressed Brassica juncea lines
    (Punjab Agricultural University, Ludhiana, 2018) Gill, Rupeet; Sandhu, Prabhjodh Singh
    Sclerotinia rot caused by the fungus Sclerotinia sclerotiorum (Lib.) de Bary is one of the most serious and damaging diseases of oilseed Brassicas and there is keen interest worldwide to identify Brassica genotypes with resistance to this pathogen. In this study, introgression lines derived from hybridization of wild crucifers with Brassica juncea were evaluated for response to stem rot. These were challenged against local Sclerotinia sclerotiorum isolate and 24 lines giving variable reaction were selected. Apart from this a total of 58 isolates of S. sclerotiorum were collected from different Brassica growing states (Punjab and adjoining states). These were evaluated for their pathogenicity on susceptible B. juncea cultivar RL1359 and based on disease progression; they were divided into five groups. Further 24 isolates were chosen from these groups and analysed for biochemical parameters. It was found that oxalic acid production significantly correlated with the pathogenicity of the isolates and lesser/no correlation was observed for pectinase enzymes. These 24 isolates were then used to further evaluate the selected 24 introgression lines. The observation on progression of lesion length revealed a variable response of lines to different isolates. Disease scoring was done and thus lines were categorised as resistant, moderately resistant and susceptible. Qualitative analysis was carried out on lines from different categories for genes NPR1, COI1 and EIN2. Upregulation in COI1 gene after fungal infection in resistant lines indicates the possible induction of jasmonic acid mediated defence response. Four lines from each category were selected for biochemical analysis involving SOD, POX, PAL, total phenols and lignin. All of these had a negative correlation with disease and the genotype with a greater level of resistance was superior to the susceptible one in regard to phenol and lignin production and the activities of defence enzymes. These results suggest that a combination of these defence responses in Brassica may contribute to greater plant resistance to S. sclerotiorum and that these enzymes have potential use in selection of resistant genotypes.