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利用“永久F_2”群体剖析玉米产量及其相关性状的遗传机制 被引量:17

Genetic Dissection for Grain Yield and Its Components Using an "Immortalized F_2 Population" in Maize
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摘要 利用RIL群体构建了一套包含441个杂交组合的玉米"永久F2"群体,通过253个SSR标记的等位基因频率分析,发现"永久F2"群体的遗传组成与基因频率与F2群体相似,理论上可以代替F2群体进行相关遗传研究。通过两年一点的田间试验,利用复合区间作图法对玉米产量及其3个主要构成因子进行了遗传分析。结果表明,玉米产量与穗长、穗行数及百粒重呈显著或极显著正相关,而穗长与穗行数和百粒重显著负相关。共定位3个产量QTL、8个穗长QTL,11个穗行数QTL和5个百粒重QTL。 Genetic dissection for grain yield and its components can provide a new strategy for crop breeding, and it plays an important role in improving agricultural production. For dissecting the genetic basis of grain yield and its components, a set of recombinant inbred line (RIL) derived from an elite maize hybrid Yuyu 22, which is planted broadly in China, was used to constructed an "immoaalized F2" (IF2) maize ( Zea mays L. ) poptdations including 441 single crosses. The frequency of molecular marker loci for the IF2 population was analyzed using 253 different SSR markers. The results demonstrated that the genetic components and gene frequency of the IF2 poptdation was similar to its F2 population in molecular maker level, theoretically it could replace F2 population in related genetic analyses. The IF2 popttlation was evaluated in one envirormrent over two years, and the genetic mechanism of grain yield and its components was dissected through QTL analysis using composite interval mapping (CIM) method. These results showed that grain yield had positive significant correlation with its three components at P 〈 0.01 or P 〈 0.05 level, and in the three components, ear length had negative significant correlation with row number and 100-grian weight at P 〈 0.05 level. A total of 8 QTL were detected for grain yield, 8 for ear length, 11 for row number and 5 for 100-grain weight.
作者 汤继华 严建兵 马西青 滕文涛 孟义江 戴景瑞 李建生
机构地区 中国农业大学国家玉米改良中心
出处 《作物学报》 CAS CSCD 北大核心 2007年第8期1299-1303,共5页 Acta Agronomica Sinica
基金 国家重大基础研究计划(973计划)项目(2001CB108801) 国家高技术研究发展计划(863计划)重大专项(2002AA207008)
关键词 玉米 “永久F2”群体 产量性状 TQL分析 Maize ( Zea mays L. ) Immortalized 172 population Grain yield QTL analysis
分类号 S513 [农业科学—作物学]
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参考文献17

  • 1Ajmone-Marsan P,Gorni C,Chittò A,Redaelli R,Vijk R,Stam P,Motto M.Identification of QTLs for grain yield and grain-related traits of maize (Zea mays L.) using an AFLP map,different testers,and cofactor analysis.Theor Appl Genet,2001,102:230-243
  • 2Ajmone-Marsan P,Monfredini G,Ludwing W F,Melchinger A E,Franceschini P,Pagnotto G,Motto M.In an elite cross of maize a major quantitative trait locus controls one-fourth of the genetic variation for grain yield.Theor Appl Genet,1995,90:415-424
  • 3Austin D F,Lee M.Comparative mapping in F2:3 and F6:7 generations of quantitative trait loci for grain yield and yield components in maize.Theor Appl Genet,1996,92:817-826
  • 4Barriere Y,Genetic analysis in recombinant inbred lines of early dent forage maize:1.QTL mapping for yield,earliness,starch and crude protein contents from per se value and top cross experiments.Maydica,2001,46:253-266
  • 5Beavis W D,Smith O S,Grant D,Fincher R.Identification of quantitative trait loci using a small sample of topcrossed and F4 progeny from maize.Crop Sci,1994,34:882-896
  • 6David F A,Michael L,Lance R V,Arnel R H.Genetic mapping in maize with hybrid progeny across testers and generations:grain yield and grain moisture.Crop Sci,2000,40:30-39
  • 7Schon C C,Melchinger A E,Boppenmaier J,Brunklaus-Jung E,Herrmann R G,Seitzer J F.RFLP mapping in maize:quantitative trait loci affecting testcross performance of elite European flint lines.Crop Sci,1994,34:378-389
  • 8Veldboom L R,Lee M.Genetic mapping of quantitative trait loci in maize in stress and nonstress environments:1.Grain yield and yield components.Crop Sci,1996,36:1310-1319
  • 9Hua J P,Xing Y Z,Wu W R,Xu C G,Yu S B,Sun X L,Zhang Q F.Single-locus heterotic effects and dominance by dominance interactions can adequately explain the genetic basis of heterosis in an elite rice hybrid.Proc Natl Acad Sci USA,2003,100:2574-2579
  • 10Hua J P,Xing Y Z,Xu C G,Sun X L,Yu S B,Zhang Q F.Genetic dissection of an elite rice hybrid revealed that heterozygotes are not always advantageous for performance.Genetics,2002,162:1885-1895

二级参考文献13

  • 1Duvick D N, Cassmain K G.Post-green revolution trends in yield potential of temperate maize in the Northern-central United States.Crop Sci,1999,39: 1 622-1 630
  • 2Dai J-R (戴景瑞).Reviews and prospects of maize genetics and breeding in China.Prospects of Maize Genetics and Breeding for 21st Century (21世纪玉米遗传育种展望).Beijing: China Agricultural Sci-tech Press, 2002.1-7(in Ch
  • 3Sun S-X (孙世贤).Maize hybrids have been updated during the ninth five-year plan.Seed Science (种子科技), 2000,18(6): 338-340(in Chinese)
  • 4Guo P-Z (郭平仲).Quantitative Genetics Analysis (数量遗传分析). Beijing: Capital Normal University Press, 1993.138-147(in Chinese)
  • 5Tie S-G (铁双贵), Zheng Y-L (郑用琏), Liu D-L (刘丁良), Xu S-Z (徐尚忠), Li J-S (李建生), Liu J-L(刘纪麟).Research on combining ability effect and genetic potential of maize synthesized population.Acta Agronomica Sinica
  • 6Liu Z-H (刘宗华), Chen W-C (陈伟程), Tang J-H (汤继华), Hu Y-M(胡彦民), Ji H-Q(季洪强), Huang X-L(黄西林), Ji L-Y(季良越), Luo F-H(罗福和).Hybrid Yuyu 22 and its utilization in large areas.Journal of Maize Science (玉米
  • 7LiuJ-L(刘纪麟).Maize Breeding(2nd edition)[玉米育种学(第2版)].Beijing: Chinese Agriculture Press,2002.141-195.
  • 8YuJ-L(余家林).Multiple Statistics in Agricultural Test(农业多元试验统计)[Z].Beijing: Beijing Agricultural University Press,1993.57-67.
  • 9刘宗华,黄西林,杨超英,胡彦民,季洪强,汤继华,季良越,罗福和,陈伟程.玉米姊妹系间杂种优势及不育化杂交制种技术研究[J].河南农业大学学报,1997,31(3):207-211. 被引量:4
  • 10曾三省.中国玉米杂交种的种质基础[J].中国农业科学,1990,23(4):1-9. 被引量:312

共引文献27

同被引文献182

引证文献17

二级引证文献102

作物学报
2007年 第8期

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