Molecular Mapping of Rice Blast Resistance Gene Pi-kh in the Rice Variety Tetep

Sharma, T. R. ; Shanker, P. ; Singh, B. K. ; Jana, T. K. ; Madhav, M. S. ; Gaikwad, K. ; Singh, N. K. ; Plaha, P. ; Rathour, R. (2005) Molecular Mapping of Rice Blast Resistance Gene Pi-kh in the Rice Variety Tetep Journal of Plant Biochemistry and Biotechnology, 14 (2). pp. 127-133. ISSN 0971-7811

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Official URL: http://doi.org/10.1007/BF03263240

Related URL: http://dx.doi.org/10.1007/BF03263240

Abstract

We have used rice line Tetep as a resistant donor with the aim of mapping a durable blast resistance gene Pi-kh using RAPD and AFLP techniques in conjunction with bulk segregant analysis. An F2 mapping population consisting of 205 plants was generated by crossing Tetep with HP2216, a highly susceptible cultivar. Inoculation with specific isolate (PLP-1) of Magnaporthe grisea at seeding stage showed that the Pi-kh gene inherited as a single dominant gene in F2 population. RAPD analysis was performed with 240 primers to detect polymorphism between resistant and susceptible parents. Of these, 48 primers produced polymorphic banding pattern between resistant and susceptible parents. Bulk segregant analysis was performed with 48 primers of which 5 showed polymorphism between resistant and susceptible bulks. A 700 bp DNA band was obtained in resistant F2 plants with primer 5-129 indicating its linkage to the resistance gene. Out of 64 AFLP primer combinations used for polymorphism survey between HP 2216 and Tetep, 11 AFLP primer combinations were able to distinguish the resistant and susceptible bulks. An AFLP band of 75 bp obtained with primer combination, E-TAlM-CTC co-segregated with the resistance gene. The RAPD marker 5-129700 and AFLP75 were placed on the linkage map at a distance of 2.1 eM and 15.1 eM flanking to Pi-khgene, respectively. The RAPD band closely linked to Pi-kh gene was sequenced and used for the development of CAPs markers which also co-segregated with resistant phenotype in the mapping population. On sequence analysis and homology search of RAPD fragment with whole rice genome sequence database and the information available on physical, genetic and sequence maps of rice, the co-segregating CAPs marker was placed at long arm of rice chromosome 11. CAPs marker developed in this study showed polymorphism in different rice cultivars grown in North-Western Himalayan region and is being used for the pyramiding of Pi-kh gene along with other blast resistance genes using marker-assisted selection.

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