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399 related items for PubMed ID: 22291881

  • 1. QTL mapping of combining ability and heterosis of agronomic traits in rice backcross recombinant inbred lines and hybrid crosses.
    Qu Z, Li L, Luo J, Wang P, Yu S, Mou T, Zheng X, Hu Z.
    PLoS One; 2012; 7(1):e28463. PubMed ID: 22291881
    [Abstract] [Full Text] [Related]

  • 2. Genomewide mapping reveals a combination of different genetic effects causing the genetic basis of heterosis in two elite rice hybrids.
    Li L, He X, Zhang H, Wang Z, Sun C, Mou T, Li X, Zhang Y, Hu Z.
    J Genet; 2015 Jun; 94(2):261-70. PubMed ID: 26174673
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  • 3. Genetic dissection of heterosis of indica-japonica by introgression line, recombinant inbred line and their testcross populations.
    Yang W, Zhang F, Zafar S, Wang J, Lu H, Naveed S, Lou J, Xu J.
    Sci Rep; 2021 May 13; 11(1):10265. PubMed ID: 33986411
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  • 4. Spatial and temporal expression modes of MicroRNAs in an elite rice hybrid and its parental lines.
    Fang R, Li L, Li J.
    Planta; 2013 Aug 13; 238(2):259-69. PubMed ID: 23640684
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  • 5. Additive and over-dominant effects resulting from epistatic loci are the primary genetic basis of heterosis in rice.
    Luo X, Fu Y, Zhang P, Wu S, Tian F, Liu J, Zhu Z, Yang J, Sun C.
    J Integr Plant Biol; 2009 Apr 13; 51(4):393-408. PubMed ID: 21452591
    [Abstract] [Full Text] [Related]

  • 6. Genome Sequence and QTL Analyses Using Backcross Recombinant Inbred Lines (BILs) and BILF1 Lines Uncover Multiple Heterosis-related Loci.
    Yu Y, Zhu M, Cui Y, Liu Y, Li Z, Jiang N, Xu Z, Xu Q, Sui G.
    Int J Mol Sci; 2020 Jan 25; 21(3):. PubMed ID: 31991733
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  • 7. Identification of quantitative trait loci for kernel-related traits and the heterosis for these traits in maize (Zea mays L.).
    Liu Y, Yi Q, Hou X, Hu Y, Li Y, Yu G, Liu H, Zhang J, Huang Y.
    Mol Genet Genomics; 2020 Jan 25; 295(1):121-133. PubMed ID: 31511973
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  • 8. Identification of Indica rice chromosome segments for the improvement of Japonica inbreds and hybrids.
    Wang Z, Yu C, Liu X, Liu S, Yin C, Liu L, Lei J, Jiang L, Yang C, Chen L, Zhai H, Wan J.
    Theor Appl Genet; 2012 May 25; 124(7):1351-64. PubMed ID: 22311371
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  • 9. Genetic basis of heterosis for yield and yield components explored by QTL mapping across four genetic populations in upland cotton.
    Li C, Zhao T, Yu H, Li C, Deng X, Dong Y, Zhang F, Zhang Y, Mei L, Chen J, Zhu S.
    BMC Genomics; 2018 Dec 12; 19(1):910. PubMed ID: 30541432
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  • 10. Genome-wide meta-analysis of maize heterosis reveals the potential role of additive gene expression at pericentromeric loci.
    Thiemann A, Fu J, Seifert F, Grant-Downton RT, Schrag TA, Pospisil H, Frisch M, Melchinger AE, Scholten S.
    BMC Plant Biol; 2014 Apr 02; 14():88. PubMed ID: 24693880
    [Abstract] [Full Text] [Related]

  • 11. Gene actions of QTLs affecting several agronomic traits resolved in a recombinant inbred rice population and two backcross populations.
    Mei HW, Li ZK, Shu QY, Guo LB, Wang YP, Yu XQ, Ying CS, Luo LJ.
    Theor Appl Genet; 2005 Feb 02; 110(4):649-59. PubMed ID: 15647921
    [Abstract] [Full Text] [Related]

  • 12. Analysis of quantitative trait loci affecting chlorophyll content of rice leaves in a double haploid population and two backcross populations.
    Jiang G, Zeng J, He Y.
    Gene; 2014 Feb 25; 536(2):287-95. PubMed ID: 24361205
    [Abstract] [Full Text] [Related]

  • 13. High-resolution bin-based linkage mapping uncovers the genetic architecture and heterosis-related loci of plant height in indica-japonica derived populations.
    Kong W, Deng X, Yang J, Zhang C, Sun T, Ji W, Zhong H, Fu X, Li Y.
    Plant J; 2022 May 25; 110(3):814-827. PubMed ID: 35165965
    [Abstract] [Full Text] [Related]

  • 14. Overdominant epistatic loci are the primary genetic basis of inbreeding depression and heterosis in rice. I. Biomass and grain yield.
    Li ZK, Luo LJ, Mei HW, Wang DL, Shu QY, Tabien R, Zhong DB, Ying CS, Stansel JW, Khush GS, Paterson AH.
    Genetics; 2001 Aug 25; 158(4):1737-53. PubMed ID: 11514459
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  • 15. QTL analysis of novel genomic regions associated with yield and yield related traits in new plant type based recombinant inbred lines of rice (Oryza sativa L.).
    Marathi B, Guleria S, Mohapatra T, Parsad R, Mariappan N, Kurungara VK, Atwal SS, Prabhu KV, Singh NK, Singh AK.
    BMC Plant Biol; 2012 Aug 09; 12():137. PubMed ID: 22876968
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  • 16. Genome-wide association studies of ionomic and agronomic traits in USDA mini core collection of rice and comparative analyses of different mapping methods.
    Liu S, Zhong H, Meng X, Sun T, Li Y, Pinson SRM, Chang SKC, Peng Z.
    BMC Plant Biol; 2020 Sep 24; 20(1):441. PubMed ID: 32972357
    [Abstract] [Full Text] [Related]

  • 17. Overdominant epistatic loci are the primary genetic basis of inbreeding depression and heterosis in rice. II. Grain yield components.
    Luo LJ, Li ZK, Mei HW, Shu QY, Tabien R, Zhong DB, Ying CS, Stansel JW, Khush GS, Paterson AH.
    Genetics; 2001 Aug 24; 158(4):1755-71. PubMed ID: 11514460
    [Abstract] [Full Text] [Related]

  • 18. Quantitative trait locus analysis of heterosis for plant height and ear height in an elite maize hybrid zhengdan 958 by design III.
    Li H, Yang Q, Fan N, Zhang M, Zhai H, Ni Z, Zhang Y.
    BMC Genet; 2017 Apr 17; 18(1):36. PubMed ID: 28415964
    [Abstract] [Full Text] [Related]

  • 19. Genome-wide dissection of heterosis for yield traits in two-line hybrid rice populations.
    Zhen G, Qin P, Liu KY, Nie DY, Yang YZ, Deng XW, He H.
    Sci Rep; 2017 Aug 09; 7(1):7635. PubMed ID: 28794433
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  • 20. Identification of quantitative trait loci across recombinant inbred lines and testcross populations for traits of agronomic importance in rice.
    You A, Lu X, Jin H, Ren X, Liu K, Yang G, Yang H, Zhu L, He G.
    Genetics; 2006 Feb 09; 172(2):1287-300. PubMed ID: 16322522
    [Abstract] [Full Text] [Related]

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