玉米科学
玉米科學
옥미과학
JOURNAL OF MAIZE SCIENCES
2013年
4期
33-37
,共5页
苏顺宗%徐刚%刘丹%吴玲%张啸%任志勇%聂治%林海建%高世斌
囌順宗%徐剛%劉丹%吳玲%張嘯%任誌勇%聶治%林海建%高世斌
소순종%서강%류단%오령%장소%임지용%섭치%림해건%고세빈
玉米%根系%低磷胁迫%QTL
玉米%根繫%低燐脅迫%QTL
옥미%근계%저린협박%QTL
Maize%Root%Phosphorus deficiency%Quantitative trait loci(QTL)
以耐低磷性状具有明显差异的玉米自交系X178和9782为亲本构建的重组自交系为研究材料,在正常供磷与低磷胁迫下对玉米苗期根系和地上部分干重等性状进行表型鉴定和QTL定位分析。结果表明,低磷胁迫下重组自交系地上部分干重下降最多,显示低磷胁迫下玉米苗期优先确保根系生长发育。两种磷水平下共检测到9个性状的16个QTL,主要位于第1染色体上,其中,正常磷水平下富集了5个QTL的bin1.06区域、低磷胁迫下集中了3个QTL的bin1.03区域可能是含有控制根系或磷利用相关性状基因的重要染色体区域。在定位的16个QTL中,位于第7染色体的根冠比QTL qRRS7_LP可解释表型贡献率高达14.06%,且增效等位基因来源耐低磷亲本X178,表明若对该位点进行分子标记辅助选择,可能会对耐低磷性状改良具有明显的选择效果。
以耐低燐性狀具有明顯差異的玉米自交繫X178和9782為親本構建的重組自交繫為研究材料,在正常供燐與低燐脅迫下對玉米苗期根繫和地上部分榦重等性狀進行錶型鑒定和QTL定位分析。結果錶明,低燐脅迫下重組自交繫地上部分榦重下降最多,顯示低燐脅迫下玉米苗期優先確保根繫生長髮育。兩種燐水平下共檢測到9箇性狀的16箇QTL,主要位于第1染色體上,其中,正常燐水平下富集瞭5箇QTL的bin1.06區域、低燐脅迫下集中瞭3箇QTL的bin1.03區域可能是含有控製根繫或燐利用相關性狀基因的重要染色體區域。在定位的16箇QTL中,位于第7染色體的根冠比QTL qRRS7_LP可解釋錶型貢獻率高達14.06%,且增效等位基因來源耐低燐親本X178,錶明若對該位點進行分子標記輔助選擇,可能會對耐低燐性狀改良具有明顯的選擇效果。
이내저린성상구유명현차이적옥미자교계X178화9782위친본구건적중조자교계위연구재료,재정상공린여저린협박하대옥미묘기근계화지상부분간중등성상진행표형감정화QTL정위분석。결과표명,저린협박하중조자교계지상부분간중하강최다,현시저린협박하옥미묘기우선학보근계생장발육。량충린수평하공검측도9개성상적16개QTL,주요위우제1염색체상,기중,정상린수평하부집료5개QTL적bin1.06구역、저린협박하집중료3개QTL적bin1.03구역가능시함유공제근계혹린이용상관성상기인적중요염색체구역。재정위적16개QTL중,위우제7염색체적근관비QTL qRRS7_LP가해석표형공헌솔고체14.06%,차증효등위기인래원내저린친본X178,표명약대해위점진행분자표기보조선택,가능회대내저린성상개량구유명현적선택효과。
A recombinant inbred line population, developed from maize inbred line X178 and 9782 with distinct difference of phosphorus utilization, was used to identify phenotype variation and QTL for root traits of maize seedling under normal(CK) and low phosphorus(LP) application in sand culture. The results showed that shoot dry weight(SDW) among all root traits decreased most under phosphorus, which implied nutrition was preferentially used to ensure root development for maize seedling. A total of 16 QTL for 9 traits were detected for two treatments, most of which located on chromosome 1. Of these QTL information, chromosome region bin1.06 containing five QTL under CK, chromosome bin1.03 containing three QTL under LP were potentially important candidate chromosome region or target QTL for root traits or phosphorus utilization. In positioned 16 QTL, the explaining phenotypic variation of one QTL for root and shoot(qRRS7_LP) that on chromosome 7 was 14.06%, and synergism alleles originated from low-phosphorus parent X178, indicated that if molecular marker-assisted selection on the loci, could has the obvious choice effect to the im-provement of low P tolerance characters.
