Genetic and physical mapping of Pi5(t), a locus associated with broad-spectrum resistance to rice blast

J. S. Jeon, D. Chen, G. H. Yi, G. L. Wang, P. C. Ronald

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117 Scopus citations

Abstract

To gain an understanding of the molecular basis for resistance to rice blast (Magnaporthe grisea), we have initiated a project to clone Pi5(t), a locus associated with broad-spectrum resistance to diverse blast isolates. AFLP-derived markers linked to Pi5(t)-mediated resistance were isolated using bulked segregant analysis of F2 populations generated by crossing three recombinant inbred lines (RILs), RIL125, RIL249, and RIL260 with the susceptible line CO39. The most tightly linked AFLP marker, S04G03, was positioned on chromosome 9 of the fingerprint-based physical map of Nipponbare, a well-characterized rice genotype. Flanking BAC-based Nipponbare markers were generated for saturation mapping using four populations, the three initial RILs and an additional one derived from a cross between M202 and RIL260. A BIBAC (binary BAC) library was constructed from RIL260. Using these resources Pi5(t) was mapped to a 170-kb interval, and a contiguous set of BIBAC clones spanning this region was constructed. It had previously been suggested that Pi3(t) and Pi5(t) might be allelic, due to their identical resistance spectrum and tight linkage. We therefore compared genomic regions for lines containing Pi3(t) using the Pi5(t)-linked markers. DNA gel-blot analyses indicated that the region around Pi3(t) is identical to that of Pi5(t), suggesting that Pi3(t) and Pi5(t) are the same resistance gene.

Original languageEnglish
Pages (from-to)280-289
Number of pages10
JournalMolecular Genetics and Genomics
Volume269
Issue number2
DOIs
StatePublished - 1 May 2003

Keywords

  • Blast resistance
  • Genetic and physical mapping
  • Magnaporthe grisea
  • Pi3(t)
  • Pi5(t)

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