The majority of cloned plant pathogen resistance genes (R genes) encode a putative nucleotide binding site (NBS) domain and a leucine-rich repeat (NBS-LRR genes). Genes of this NBS-LRR class confer resistance to diverse pathogens such as viruses, bacteria, fungi, nematodes and aphids. The conserved NBS domain was used to generate resistance gene analogues (RGAs) fragments by polymerase chain reaction (PCR) using degenerated primers in different Arachis species. Twelve of these RGAs were used to develop molecular markers based on their patterns of hybridisation to restricted Arachis spp. DNA. An initial step was the evaluation of the polymorphism generated by each RGA in genomic fragments of contrasting parents of a mapping population that segregates for resistance to leaf spot and nematodes, and of the F1 hybrid. The RGAs isolated from different Arachis species showed high homology to the DNA of the parents and hybrid, multiple copies in the genome and high polymorphism in the F2 generation. Therefore, they were considered highly informative markers, with some segregating in clusters in the F2. These RGAs will be included in the Arachis genetic map, which will be of paramount importance for the Arachis spp. breeding programs.
peanut; resistance; genetic mapping
