作物研究
作物研究
작물연구
CROP RESEARCH
2014年
3期
231-235
,共5页
杨婷婷%刘雄伦%谭令辞%行璇%文婷%梁毅%吴俊%刘金灵%戴良英%刘建丰%王国梁
楊婷婷%劉雄倫%譚令辭%行璇%文婷%樑毅%吳俊%劉金靈%戴良英%劉建豐%王國樑
양정정%류웅륜%담령사%행선%문정%량의%오준%류금령%대량영%류건봉%왕국량
水稻%稻瘟病抗性%Pi9基因%分子标记辅助选择育种
水稻%稻瘟病抗性%Pi9基因%分子標記輔助選擇育種
수도%도온병항성%Pi9기인%분자표기보조선택육충
Rice%Blast resistance%Pi9 gene%Marker-assisted selection breeding
利用广谱抗稻瘟病基因Pi9的3′UTR序列设计特异DNA标记pi9utr,通过分子标记辅助选择和连续回交育种实践,改良7份籼稻亲本(316B、金23B、R207、R228、R288、R389、明恢86)的稻瘟病抗性。结果表明:pi9utr是一个高效显性分子标记,除R207外,在其余6份受体亲本与Pi9供体亲本75-1-127间均存在明显而稳定的多态;在室内接种后的316B ×75-1-127 BC4F1群体和R288×775-1-127 BC6F1群体中随机取样,进行稻瘟病抗性表型和基因型鉴定及 Pi9基因表达分析,证明 pi9 utr对两个组合回交后代个体的抗病性辅助选择效率均为100%,且在所有抗病单株中均能检测到Pi9基因的高效表达,在所有感病单株中均没有检测到Pi9基因的表达。利用pi9utr在回交世代中的连续辅助选择,获得了3个组合的BC4F1及3个组合的BC6F2代群体,为选育抗稻瘟病新品种打下了基础。
利用廣譜抗稻瘟病基因Pi9的3′UTR序列設計特異DNA標記pi9utr,通過分子標記輔助選擇和連續迴交育種實踐,改良7份秈稻親本(316B、金23B、R207、R228、R288、R389、明恢86)的稻瘟病抗性。結果錶明:pi9utr是一箇高效顯性分子標記,除R207外,在其餘6份受體親本與Pi9供體親本75-1-127間均存在明顯而穩定的多態;在室內接種後的316B ×75-1-127 BC4F1群體和R288×775-1-127 BC6F1群體中隨機取樣,進行稻瘟病抗性錶型和基因型鑒定及 Pi9基因錶達分析,證明 pi9 utr對兩箇組閤迴交後代箇體的抗病性輔助選擇效率均為100%,且在所有抗病單株中均能檢測到Pi9基因的高效錶達,在所有感病單株中均沒有檢測到Pi9基因的錶達。利用pi9utr在迴交世代中的連續輔助選擇,穫得瞭3箇組閤的BC4F1及3箇組閤的BC6F2代群體,為選育抗稻瘟病新品種打下瞭基礎。
이용엄보항도온병기인Pi9적3′UTR서렬설계특이DNA표기pi9utr,통과분자표기보조선택화련속회교육충실천,개량7빈선도친본(316B、금23B、R207、R228、R288、R389、명회86)적도온병항성。결과표명:pi9utr시일개고효현성분자표기,제R207외,재기여6빈수체친본여Pi9공체친본75-1-127간균존재명현이은정적다태;재실내접충후적316B ×75-1-127 BC4F1군체화R288×775-1-127 BC6F1군체중수궤취양,진행도온병항성표형화기인형감정급 Pi9기인표체분석,증명 pi9 utr대량개조합회교후대개체적항병성보조선택효솔균위100%,차재소유항병단주중균능검측도Pi9기인적고효표체,재소유감병단주중균몰유검측도Pi9기인적표체。이용pi9utr재회교세대중적련속보조선택,획득료3개조합적BC4F1급3개조합적BC6F2대군체,위선육항도온병신품충타하료기출。
To improve blast resistance of seven receptor indica rice lines (316B,Jin23B,R207,R228,R288,R389 and Minghui86),a DNA marker,pi9utr was developed based on the 3′UTR sequence of the broad-spectrum blast resistance gene Pi9 and marker-assisted selection breeding practice was implemented in this study.The main results were as fol-lows:Pi9utr was a stable polymorphic dominant marker for six of seven tested crosses except R207 ×75 -1 -127.The se-lection efficiency of the pi9utr marker for blast resistance phenotype was 100%,and the Pi9 gene showed high level expres-sion in all resistant plants,according to randomly sampled individuals analyses of two backcross populations,316B ×75 -1-127 BC4F1 and R288 ×75 -1 -127 BC6F1.Pi9utr was employed for marker-assisted selection in consecutive back-cross breeding of the six receptor rice lines,and BC4 F1 populations of three combinations and BC6 F2 populations of others three combinations were obtained,which provided basis for breeding of new rice varieties with blast resistant.
