A cross between wilt resistant flax variety Jinya7 and susceptible variety Jinya1 wasmade for mapping wilt resistance gene(s). The inoculation test of F1 and F2 progeny provedthat the resistance of Jinya7 to wilt is c...A cross between wilt resistant flax variety Jinya7 and susceptible variety Jinya1 wasmade for mapping wilt resistance gene(s). The inoculation test of F1 and F2 progeny provedthat the resistance of Jinya7 to wilt is controlled by two dominant genes. With 48 EcoRⅠ/MseⅠ primer combinations, amplified fragment length polymorphisms (AFLP) analysis wasperformed on two parents and their F2 resistance and susceptibility bulks. A total ofabout 3300 distinguishable bands were amplified, of which three bands had stabledifferences. The genetic linkage analysis of the three polymorphic DNA fragments withthe resistance gene(s) was made in the F2 segregating population derived from the crossbetween Jinya7 and Jinya1. The DNA fragment AG/CAG was found closely linked to one of thewilt-resistant genes, which with a genetic distance of 5.2cm, was tentatively named FuJ7(t).The cloned fragment AG/CAG was sequenced and then converted successfully to a sequencecharacterized amplified region (SCAR) marker, which can be used more conveniently in theidentification and marker-assisted selection for the wilt resistance gene FuJ7(t) toflax wilt.展开更多
文摘A cross between wilt resistant flax variety Jinya7 and susceptible variety Jinya1 wasmade for mapping wilt resistance gene(s). The inoculation test of F1 and F2 progeny provedthat the resistance of Jinya7 to wilt is controlled by two dominant genes. With 48 EcoRⅠ/MseⅠ primer combinations, amplified fragment length polymorphisms (AFLP) analysis wasperformed on two parents and their F2 resistance and susceptibility bulks. A total ofabout 3300 distinguishable bands were amplified, of which three bands had stabledifferences. The genetic linkage analysis of the three polymorphic DNA fragments withthe resistance gene(s) was made in the F2 segregating population derived from the crossbetween Jinya7 and Jinya1. The DNA fragment AG/CAG was found closely linked to one of thewilt-resistant genes, which with a genetic distance of 5.2cm, was tentatively named FuJ7(t).The cloned fragment AG/CAG was sequenced and then converted successfully to a sequencecharacterized amplified region (SCAR) marker, which can be used more conveniently in theidentification and marker-assisted selection for the wilt resistance gene FuJ7(t) toflax wilt.
