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Journal Abstract Search

167 related items for PubMed ID: 7672581

  • 1. Interval mapping of viability loci causing heterosis in Arabidopsis.
    Mitchell-Olds T.
    Genetics; 1995 Jul; 140(3):1105-9. PubMed ID: 7672581
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  • 2. 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; 158(4):1755-71. PubMed ID: 11514460
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  • 3. 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; 158(4):1737-53. PubMed ID: 11514459
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  • 4. QTL analysis of early stage heterosis for biomass in Arabidopsis.
    Meyer RC, Kusterer B, Lisec J, Steinfath M, Becher M, Scharr H, Melchinger AE, Selbig J, Schurr U, Willmitzer L, Altmann T.
    Theor Appl Genet; 2010 Jan; 120(2):227-37. PubMed ID: 19504257
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  • 6. Partial Dominance, Overdominance, Epistasis and QTL by Environment Interactions Contribute to Heterosis in Two Upland Cotton Hybrids.
    Shang L, Wang Y, Cai S, Wang X, Li Y, Abduweli A, Hua J.
    G3 (Bethesda); 2015 Dec 29; 6(3):499-507. PubMed ID: 26715091
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  • 8. 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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  • 9. Genome-wide identification and analysis of heterotic loci in three maize hybrids.
    Liu H, Wang Q, Chen M, Ding Y, Yang X, Liu J, Li X, Zhou C, Tian Q, Lu Y, Fan D, Shi J, Zhang L, Kang C, Sun M, Li F, Wu Y, Zhang Y, Liu B, Zhao XY, Feng Q, Yang J, Han B, Lai J, Zhang XS, Huang X.
    Plant Biotechnol J; 2020 Jan 12; 18(1):185-194. PubMed ID: 31199059
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  • 10. Single-locus heterotic effects and dominance by dominance interactions can adequately explain the genetic basis of heterosis in an elite rice hybrid.
    Hua J, Xing Y, Wu W, Xu C, Sun X, Yu S, Zhang Q.
    Proc Natl Acad Sci U S A; 2003 Mar 04; 100(5):2574-9. PubMed ID: 12604771
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  • 13. Molecular marker genotypes, heterozygosity and genetic interactions explain heterosis in Arabidopsis thaliana.
    Syed NH, Chen ZJ.
    Heredity (Edinb); 2005 Mar 04; 94(3):295-304. PubMed ID: 15316557
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  • 14. Genetic dissection of yield-related traits and mid-parent heterosis for those traits in maize (Zea mays L.).
    Yi Q, Liu Y, Hou X, Zhang X, Li H, Zhang J, Liu H, Hu Y, Yu G, Li Y, Wang Y, Huang Y.
    BMC Plant Biol; 2019 Sep 09; 19(1):392. PubMed ID: 31500559
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  • 15. Comparative transcriptome analysis of inbred lines and contrasting hybrids reveals overdominance mediate early biomass vigor in hybrid cotton.
    Shahzad K, Zhang X, Guo L, Qi T, Tang H, Zhang M, Zhang B, Wang H, Qiao X, Feng J, Wu J, Xing C.
    BMC Genomics; 2020 Feb 10; 21(1):140. PubMed ID: 32041531
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  • 16. Identification of genetic factors contributing to heterosis in a hybrid from two elite maize inbred lines using molecular markers.
    Stuber CW, Lincoln SE, Wolff DW, Helentjaris T, Lander ES.
    Genetics; 1992 Nov 10; 132(3):823-39. PubMed ID: 1468633
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  • 17. Mapping an overdominant quantitative trait locus for heterosis of body weight in mice.
    Ishikawa A.
    J Hered; 2009 Nov 10; 100(4):501-4. PubMed ID: 19258432
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  • 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
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