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AFLP增效和减效位点预测杂交水稻产量性状模型构建 被引量:1

Foundation of Predictive Model of Hybrid Yield Traits in Rice (Oryza sativa L.) with Effect-increasing and Effect-decreasing Loci of AFLP
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摘要 选用13个水稻不育系和19恢复系按NCⅡ设计配制2套半双列杂交组合,分别用每套组合F1产量性状对该套亲本AFLP多态性位点(总位点)进行筛选,获得阳性、增效和减效三类位点。分别用基于总位点、阳性、增效和减效4类位点的亲本遗传距离构建AFLP标记预测模型,对另一套组合产量性状进行预测。结果表明:(1)总位点中只有少数为阳性位点。与总位点相似,阳性位点用于产量性状预测时,预测值与实际值的相关系数(以下简称为预测系数)太低;(2)而单独利用增效或减效位点,以及同时利用该2类位点(构建二元模型),3类预测效果均大大提高,其中增效位点对结实率,增效或减效位点,及同时利用增效和减效位点对单株产量,4个预测系数在0.6以上,可以用于指导水稻育种;(3)利用2套组合均筛选到的共同增效和减效位点的预测也达到较高水平,其中4个预测系数在0.5以上,因其所使用的预测位点数大大减少,应用更为有利。 The positive, effect-increasing and effect-decreasing loci (PL, IL, DL), which were screened from the parental AFLP polymorphic loci (TL) by the yield traits of two sets of half-dialell mating crosses designed used 13 cytoplasmic male sterile lines and 19 restorers of rice, respectively, together with TL, were utilized to estimate parental genetic distances (GDs), and the models were founded to predict the traits of hybrids derived from different parents. The results were as follows: 1) PL occupied a few number of the TL, and its correlations between the predictive and authentic values of yield traits (termed as briefly predictive coefficient as following) were too low, as same as TL. 2) But the predictions by IL, DL or IL/DL (founding duality models) were increased significantly, e.g. the predictive coefficients were all above 0.6 such as IL for grain setting percentage, IL, DL or IL/DL for grain weight per plant, therefore, these models could be used as prophecy of rice breeding. 3) In addition, the predictions based on IL, DL or IL/DL from intersection of two sets of crosses were higher enough, four of which above 0.5, and was more suitable in molecular breeding due to less predictive loci required.
作者 查仁明 桑贤春 赵芳明 凌英华 罗洪发 李云峰
机构地区 贵州大学农学院 西南大学水稻研究所/农业部生物技术与作物品质改良重点开放实验室
出处 《中国农学通报》 CSCD 北大核心 2010年第11期18-22,共5页 Chinese Agricultural Science Bulletin
基金 国家自然科学基金(30370865)
关键词 预测模型 AFLP 产量 杂交水稻 predictive model AFLP grain yield hybrid rice
分类号 S511.03 [农业科学—作物学]
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参考文献19

  • 1朱军.作物杂种后代基因型值和杂种优势的预测方法[J].生物数学学报,1993,8(1):32-44. 被引量:210
  • 2Melchinger A E,Boppenmaier J,Dhillon B S,et al.Genetic diversity for RFLPs in European maize inbreds:II.Relation to performance of hybrids within versus between heterotic groups for forage traits[J].Theor Appl Genet,1992,84:672-681.
  • 3Xiao J H,Li J M,Yuan L P,et al.Dominance is the major genetic basis of heterosis in rice as revealed by QTL analysis using molecular markers[J].Genetics,1995,140:745-754.
  • 4Liu X C,Wu J L.SSR heterogenic patterns of parents for marking and predicting heterosis in rice breeding[J].Mol Breed,1998,4:263-268.
  • 5吴敏生,戴景瑞.AFLP标记与玉米杂种产量、产量杂种优势的预测[J].Acta Botanica Sinica,2000,42(6):600-604. 被引量:49
  • 6Zhang Q F,Gao Y L,Yang S H,et al.A diallel analysis of heterosisin elite hybrid rice based on RFLPs and Microsatellites[J].TheorAppl Genet,1994,89:185-192.
  • 7Zhang Q F,Gao Y J,Saghai Maroof M A,et al.Moleculardivergence and hybrid performance in rice[J],Mol Breed,1995,1:133-142.
  • 8何光华,侯磊,李德谋,罗小英,牛国清,唐梅,裴炎.利用分子标记预测杂交水稻产量及其构成因素[J].Acta Genetica Sinica,2002,29(5):438-444. 被引量:31
  • 9Murray M G,Thompson W F.Rapid isolation of high molecular weight plant DNA[J].Nucl Acids Res,1980,8:4321-4325.
  • 10Vos P,Hogers R,Bleeker M,et al.AFLP:a new technique for DNA fingerprinting[J].Nucl Acids Res,1995,23(21):4407-4414.

二级参考文献96

共引文献328

同被引文献31

  • 1蔡健,兰伟.AFLP标记与水稻杂种产量及产量杂种优势的预测[J].中国农学通报,2005,21(4):39-43. 被引量:29
  • 2孙其信,倪中福,陈希勇,刘志勇,黄铁城.冬小麦部分基因杂合性与杂种优势表达[J].中国农业大学学报,1997,2(1):64-64. 被引量:26
  • 3Smith O S, Smith J S, Bowen S L, Tenborg R A, Wall S J. Similaritiesamong a group of elite maize inbreds as measured by pedigree, Flgrain yield, grain yield, heterosis, and RFLPs. Theoretical and AppliedGenetics,1990, 80: 833-840.
  • 4Stuber C W, Lincoln S E, Wolff D W, Helentjaris T, Lander E S.Identification of genetic factors contributing to heterosis in a hybridfrom two elite maize inbred lines using molecular markers. Genetics,1992, 132: 823-839.
  • 5Zhang Q,Gao V J, Yang S H, Ragab R A, Saghai Maroof M A, Li Z B.Diallel analysis of heterosis in elite hybrid rice based on RFLPs andmicrosateilites. Theoretical and Applied Genetics 1994,89: 185-192.
  • 6Zhang Q F,Gao Y J, Saghai Maroof M A, Yang S H, Li J X.Molecular divergence and hybrid performance in rice. MolecularBreeding, 1995,1(2): 133-142.
  • 7Zhang Q, Zhou Z Q, Yang G P, Xu C G, Liu K D, Saghai Maroof M A.Molecular marker heterozygosity and hybrid performance in indicaand japonica rice. Theoretical and Applied Genetics, 1996, 93:1218-1224.
  • 8Xiao J, Li J, Yuan L, McCouch S R, Tanksley S D. Genetic diversityand its relationship to hybrid performance and heterosis in rice asrevealed by PCR-based markers. Theoretical and Applied Genetics,1996, 92(6): 637-643.
  • 9Martin J M, Talbert L E,Lanning S P, Blake N K. Hybridperfoiroance in wheat s related to parental diversity. Crop Science,995,35: 104-108.
  • 10Diers B W,Mcvetty P B, Osborn T C. Relationship between heterosisand genentic distance based on restiriction fragment length polymerphism markers in oilseed rape (Brassica napus L.). Crop Science,1996, 36: 79-83.

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中国农学通报
2010年 第11期

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