摘要
本研究将抗白粉病的大麦DNA通过花粉管途径直接导入感病的小麦品种花76中,后代出现13株抗白粉病变异株.其中5株在以后的世代中抗性稳定,另8株则继续分离.第2代分离株系的抗病株形成的第3代株系(或株行)中,抗性有分离的株行与无分离的株行比例为1.9:1,而分离株行内抗病株与不抗病株之比为335:1。抗性稳定株系与感病亲本杂交,F1表现高抗病,再与感病亲本回交,后代抗感病株比例为1:1。自交Fn的比例为2.8:1.说明所获得的抗白粉病性受一对完全显性基因控制,抗病为显性.与已知抗白粉病基因的比较表明,这个抗病基因可能是来自大麦的一个新基因。
13 Variant plants with immunity and high-resistance to powdery mildew were found in D1 generation from introducing resistant barley DNA into susceptible wheat cultivar, through pollen tube pathway after self pollination. Of the variants, 5 plants for the resistance had been stable and the other 8plants segregated in suecessive generation. The ratio of segregating and stab1e plant-rows was 1.9:1 inD3 plant-rows derived from resistant plants of segregating D2-lines, and the ratio of resistant plants andsusceptible plants was 3.35 :1 among the segregating D3 plant-rows. The F1-plants from crosses between stable resistant variants and susceptible parents were high resistant to powdery mildew. The ratio ofresistant and susceptible plants was 1:1 in progenies of backcross of the F1 and susceptib1e parents, andthis ratlo was 2.8:1 in the F2 gencration from the F1 selfing. Thus it can be scen that the resistance ob-tained is comtrolled by a pair of genes, the resistance is dominant. The results in comparison with knownpowdery mildew rcsistance genes in wheat indicated that the resistance gene obtained would be a new onefrom barley.
出处
《遗传》
CAS
CSCD
北大核心
1994年第1期26-30,共5页
Hereditas(Beijing)
基金
青年基金
关键词
大麦
小麦
白粉病
抗病性
遗传
Wheat, Powdery mildew resistance, Exogenous DNA introduction, Gene identification
