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Journal Abstract Search

158 related items for PubMed ID: 25351864

  • 1.
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  • 2. Genome-wide association mapping reveals epistasis and genetic interaction networks in sugar beet.
    Würschum T, Maurer HP, Schulz B, Möhring J, Reif JC.
    Theor Appl Genet; 2011 Jun; 123(1):109-18. PubMed ID: 21448808
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  • 3. Genome-wide association mapping of agronomic traits in sugar beet.
    Würschum T, Maurer HP, Kraft T, Janssen G, Nilsson C, Reif JC.
    Theor Appl Genet; 2011 Nov; 123(7):1121-31. PubMed ID: 21761161
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  • 5. Genetic basis of agronomically important traits in sugar beet (Beta vulgaris L.) investigated with joint linkage association mapping.
    Reif JC, Liu W, Gowda M, Maurer HP, Möhring J, Fischer S, Schechert A, Würschum T.
    Theor Appl Genet; 2010 Nov; 121(8):1489-99. PubMed ID: 20640844
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  • 6. Association mapping in multiple segregating populations of sugar beet (Beta vulgaris L.).
    Stich B, Melchinger AE, Heckenberger M, Möhring J, Schechert A, Piepho HP.
    Theor Appl Genet; 2008 Nov; 117(7):1167-79. PubMed ID: 18719879
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  • 7. Multi-trait association mapping in sugar beet (Beta vulgaris L.).
    Stich B, Piepho HP, Schulz B, Melchinger AE.
    Theor Appl Genet; 2008 Oct; 117(6):947-54. PubMed ID: 18651127
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  • 8. Comparison of biometrical models for joint linkage association mapping.
    Würschum T, Liu W, Gowda M, Maurer HP, Fischer S, Schechert A, Reif JC.
    Heredity (Edinb); 2012 Mar; 108(3):332-40. PubMed ID: 21878984
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  • 9. Quantitative trait locus responsible for resistance to Aphanomyces root rot (black root) caused by Aphanomyces cochlioides Drechs. in sugar beet.
    Taguchi K, Ogata N, Kubo T, Kawasaki S, Mikami T.
    Theor Appl Genet; 2009 Jan; 118(2):227-34. PubMed ID: 18813904
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  • 10. Comparison of mixed-model approaches for association mapping in rapeseed, potato, sugar beet, maize, and Arabidopsis.
    Stich B, Melchinger AE.
    BMC Genomics; 2009 Feb 27; 10():94. PubMed ID: 19250529
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  • 11. Discovery of interesting new polymorphisms in a sugar beet (elite [Formula: see text] exotic) progeny by comparison with an elite panel.
    Pegot-Espagnet P, Guillaume O, Desprez B, Devaux B, Devaux P, Henry K, Henry N, Willems G, Goudemand E, Mangin B.
    Theor Appl Genet; 2019 Nov 27; 132(11):3063-3078. PubMed ID: 31485698
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  • 12. Power of in silico QTL mapping from phenotypic, pedigree, and marker data in a hybrid breeding program.
    Yu J, Arbelbide M, Bernardo R.
    Theor Appl Genet; 2005 Apr 27; 110(6):1061-7. PubMed ID: 15754207
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  • 13. Ensemble Learning of QTL Models Improves Prediction of Complex Traits.
    Bian Y, Holland JB.
    G3 (Bethesda); 2015 Aug 13; 5(10):2073-84. PubMed ID: 26276383
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  • 18. Genome Wide Single Locus Single Trait, Multi-Locus and Multi-Trait Association Mapping for Some Important Agronomic Traits in Common Wheat (T. aestivum L.).
    Jaiswal V, Gahlaut V, Meher PK, Mir RR, Jaiswal JP, Rao AR, Balyan HS, Gupta PK.
    PLoS One; 2016 Aug 13; 11(7):e0159343. PubMed ID: 27441835
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  • 19. Comparison of Spinach Sex Chromosomes with Sugar Beet Autosomes Reveals Extensive Synteny and Low Recombination at the Male-Determining Locus.
    Takahata S, Yago T, Iwabuchi K, Hirakawa H, Suzuki Y, Onodera Y.
    J Hered; 2016 Aug 13; 107(7):679-685. PubMed ID: 27563071
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  • 20. Genome-wide association analyses identify known and novel loci for teat number in Duroc pigs using single-locus and multi-locus models.
    Zhuang Z, Ding R, Peng L, Wu J, Ye Y, Zhou S, Wang X, Quan J, Zheng E, Cai G, Huang W, Yang J, Wu Z.
    BMC Genomics; 2020 May 07; 21(1):344. PubMed ID: 32380955
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