Blast, Pyricularia grisea (Cooke) Sacc., is one of the most destructive diseases of rice worldwide and canresult in significant reductions in yield. The use of resistant cultivars is the most economical and effectiveway of controlling rice blast. A variety of DNA markers, including plant defense-related candidategene markers are available for genetic characterization and molecular analysis of rice. A set of 161recombinant inbred lines, RILs, from a cross between Nemat, an improved and high yielding cultivar, andAnbarboo, a traditional and aromatic rice, was used to identify defense-related candidate gene, RFLPand SSR markers linked to components of resistance to blast, i.e. infection type, lesion density, the percentof diseased leaf area, and lesion size in rice. The RILs were tested using two single blast isolates ingreenhouse, and field population of blast in blast nursery in International Rice Research Institute,Philippines, in 2000–2001. Of the 86 defense-related candidate gene, 153 RFLP, and SSR markers 26defense-related candidate gene, 66 RFLP, and 85 SSR markers were polymorphic in two parental lines.Results showed that a defense gene, b8, a NBS-LRR originated from barley, closely linked to different components of resistance to blast. The defense genes of r5, r7, PrP2, and ERS from rice, maize, andArabidopsis, respectively, have had minor effects on different components of resistance to blast. TheRFLP markers, i.e. RZ536, RG351, RZ76, RZ397 on chromosomes 7, 11 and 12, and the SSR markersincluding RM224, RM179, and RM277 on chromosomes 11 and 12 were tightly linked to componentsof resistance to blast. The linked markers can now be used for resistance gene pyramiding and markerassistedselection in the breeding population. The results suggested the presence of race-specific resistancegenes exhibiting strong differential pathogenhost interaction. We need to incorporate new sources of gene pool to make the genetic base broaden.