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Journal Abstract Search

167 related items for PubMed ID: 38869242

  • 1. Use of simulation to optimize a sweet corn breeding program: implementing genomic selection and doubled haploid technology.
    Peixoto MA, Coelho IF, Leach KA, Lübberstedt T, Bhering LL, Resende MFR.
    G3 (Bethesda); 2024 Aug 07; 14(8):. PubMed ID: 38869242
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  • 3. Genomic prediction across years in a maize doubled haploid breeding program to accelerate early-stage testcross testing.
    Wang N, Wang H, Zhang A, Liu Y, Yu D, Hao Z, Ilut D, Glaubitz JC, Gao Y, Jones E, Olsen M, Li X, San Vicente F, Prasanna BM, Crossa J, Pérez-Rodríguez P, Zhang X.
    Theor Appl Genet; 2020 Oct 07; 133(10):2869-2879. PubMed ID: 32607592
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  • 5. Genomic selection of crossing partners on basis of the expected mean and variance of their derived lines.
    Osthushenrich T, Frisch M, Herzog E.
    PLoS One; 2017 Oct 07; 12(12):e0188839. PubMed ID: 29200436
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  • 6. Genome optimization via virtual simulation to accelerate maize hybrid breeding.
    Cheng Q, Jiang S, Xu F, Wang Q, Xiao Y, Zhang R, Zhao J, Yan J, Ma C, Wang X.
    Brief Bioinform; 2022 Jan 17; 23(1):. PubMed ID: 34676389
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  • 7. Doubled haploid versus S1 family recurrent selection for testcross performance in a maize population.
    Bordes J, Charmet G, de Vaulx RD, Pollacsek M, Beckert M, Gallais A.
    Theor Appl Genet; 2006 Apr 17; 112(6):1063-72. PubMed ID: 16432736
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  • 8. Genomic estimated selection criteria and parental contributions in parent selection increase genetic gain of maternal haploid inducers in maize.
    Chen YR, Frei UK, Lübberstedt T.
    Theor Appl Genet; 2024 Oct 06; 137(11):248. PubMed ID: 39369351
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  • 9. Multi-Trait Genomic Prediction Improves Accuracy of Selection among Doubled Haploid Lines in Maize.
    Hu H, Meng Y, Liu W, Chen S, Runcie DE.
    Int J Mol Sci; 2022 Nov 22; 23(23):. PubMed ID: 36498886
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  • 12. Hybrid maize breeding with doubled haploids: III. Efficiency of early testing prior to doubled haploid production in two-stage selection for testcross performance.
    Longin CF, Utz HF, Reif JC, Wegenast T, Schipprack W, Melchinger AE.
    Theor Appl Genet; 2007 Aug 22; 115(4):519-27. PubMed ID: 17604975
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  • 13. Hybrid maize breeding with doubled haploids: I. One-stage versus two-stage selection for testcross performance.
    Longin CF, Utz HF, Reif JC, Schipprack W, Melchinger AE.
    Theor Appl Genet; 2006 Mar 22; 112(5):903-12. PubMed ID: 16435127
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  • 14. Revisiting hybrid breeding designs using genomic predictions: simulations highlight the superiority of incomplete factorials between segregating families over topcross designs.
    Seye AI, Bauland C, Charcosset A, Moreau L.
    Theor Appl Genet; 2020 Jun 22; 133(6):1995-2010. PubMed ID: 32185420
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  • 15. Optimum breeding strategies using genomic selection for hybrid breeding in wheat, maize, rye, barley, rice and triticale.
    Marulanda JJ, Mi X, Melchinger AE, Xu JL, Würschum T, Longin CF.
    Theor Appl Genet; 2016 Oct 22; 129(10):1901-13. PubMed ID: 27389871
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  • 18. Selection on Optimal Haploid Value Increases Genetic Gain and Preserves More Genetic Diversity Relative to Genomic Selection.
    Daetwyler HD, Hayden MJ, Spangenberg GC, Hayes BJ.
    Genetics; 2015 Aug 22; 200(4):1341-8. PubMed ID: 26092719
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  • 20. Hybrid maize breeding with doubled haploids: II. Optimum type and number of testers in two-stage selection for general combining ability.
    Longin CF, Utz HF, Melchinger AE, Reif JC.
    Theor Appl Genet; 2007 Feb 22; 114(3):393-402. PubMed ID: 17180379
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