RESUMO
Earlier studies have shown that level of late blight resistance conferred by the classical R gene (RB Rpi-blb1) is dependent on genetic background of the recipient genotype. This was revealed in the analysis of late blight response that belonged to a group of F1 progeny obtained from the cross between Kufri Jyoti and SP951, which showed wide variation in late blight resistance response in spite of possessing the same RB gene. The global gene expression pattern in the RB potato lines was studied in response to late blight infection using cDNA microarray analysis to reveal the background effect. Leaf samples were collected at 0, 24, 72 and 120h post inoculation (hpi) with Phytophthora infestans for gene expression analysis using 61031 gene sequences. Significantly upregulated (1477) and downregulated (4245) genes common in the RB-transgenic F1 lines at 24 and 72 hpi were classified into several categories based on GO identifiers and majority of genes were assigned putative biological functions. Highest expression of an NBS-LRR along with protease, pectin esterase inhibitors, chaperones and reactive oxygen species genes were observed which affirmed a significant role of these categories in the defence response of RB-KJ lines. Results suggest that the immune priming of plant receptors are likely to be involved in stability and functionality of RB to induce resistance against P. infestans. This study is important for effective deployment of RB gene in the host background and contributes immensely to scientific understanding of R gene interaction with host protein complexes to regulate defence system in plants.
RESUMO
BACKGROUND: Late blight, caused by oomycetes pathogen Phytophthora infestans (Mont.) de Bary, is the most devastating potato disease in the world. RB gene from Solanum bulbocastanum has been shown to impart broad spectrum resistance against P. infestans races. In this study Katahdin transgenic event SP951 was used as male parent to cross with the popular Indian potato cultivars viz., Kufri Bahar (KB) and Kufri Jyoti (KJ) to enhance the late blight resistance. RESULTS: Populations of 271 F1seedlings from the crosses KB × SP951 (87) and KJ × SP951 (184) were screened for inheritance of RB transgene through PCR and bioassay. Disease response based on AUDPC of different hybrid lines varied from immunity to complete susceptibility. High degree of resistance (<25% infection) was observed in KJ × SP951 derived seedlings (85.2%), whereas level of resistance in KB × SP951 (36.4% infection) derived seedlings was of low order. CONCLUSION: This study provides valuable genetic materials for development of potentially durable late blight resistant potato varieties. Besides, it also corroborates the fact that efficacy of R gene is not solely dependent on its presence in the variety but largely depends on the genetic background of the recipient genotype.
