现代农业科技
現代農業科技
현대농업과기
XIANDAIHUA NONGYE
2013年
18期
30-32
,共3页
张大双%黄培英%彭强%张上都%王际凤%王成招%朱速松
張大雙%黃培英%彭彊%張上都%王際鳳%王成招%硃速鬆
장대쌍%황배영%팽강%장상도%왕제봉%왕성초%주속송
水稻%碾磨品质%数量性状%基因座
水稻%碾磨品質%數量性狀%基因座
수도%년마품질%수량성상%기인좌
rice%milling quality%quantitative character%gene locus
利用Asominori为母本,IR24为父本配制杂交组合,各代用单粒传法获得的稳定、性状差异较大71个家系的重组自交系群体为研究材料。在贵州省热量条件不同的2个不生态环境分别对RIL群体碾磨品质性状以及糙米率、整精米率进行QTL分析,结果表明:稻米碾磨品质是由多个QTL控制的,且易受环境的影响,无论是糙米率、整精米率都与环境有较大影响;该研究检测到第2染色体G1185-C1236区段内存在同时控制糙米率(BR)和精米率(MR)的QTL,因此该研究的结果可以为水稻碾磨品质的改良提供理论指导。
利用Asominori為母本,IR24為父本配製雜交組閤,各代用單粒傳法穫得的穩定、性狀差異較大71箇傢繫的重組自交繫群體為研究材料。在貴州省熱量條件不同的2箇不生態環境分彆對RIL群體碾磨品質性狀以及糙米率、整精米率進行QTL分析,結果錶明:稻米碾磨品質是由多箇QTL控製的,且易受環境的影響,無論是糙米率、整精米率都與環境有較大影響;該研究檢測到第2染色體G1185-C1236區段內存在同時控製糙米率(BR)和精米率(MR)的QTL,因此該研究的結果可以為水稻碾磨品質的改良提供理論指導。
이용Asominori위모본,IR24위부본배제잡교조합,각대용단립전법획득적은정、성상차이교대71개가계적중조자교계군체위연구재료。재귀주성열량조건불동적2개불생태배경분별대RIL군체년마품질성상이급조미솔、정정미솔진행QTL분석,결과표명:도미년마품질시유다개QTL공제적,차역수배경적영향,무론시조미솔、정정미솔도여배경유교대영향;해연구검측도제2염색체G1185-C1236구단내존재동시공제조미솔(BR)화정미솔(MR)적QTL,인차해연구적결과가이위수도년마품질적개량제공이론지도。
With Asominori as female parent and IR24 as male parent,a population of 71 recombinant inbred lines(RIL)were constructed through single seed descent. A QTL analysis for percentage of brown rice(BR)and head milled rice(MR)together with grinding quality were further continued based on two ecological environments with different thermal conditions in Guizhou.The results showed that the grinding quality of rice was controlled by more than one QTL and closely related with environmental factors which also had a great effect on both BR and MR;QTLs responsible for percentage of BR and MR were both identified in chromosome 2 between G1185 and C1236 regional fragments. Therefore,our research could provide a theoretical guide for the improvement of grinding quality of rice.
