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Journal Abstract Search

265 related items for PubMed ID: 33281836

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  • 2. Genome-wide association mapping of total antioxidant capacity, phenols, tannins, and flavonoids in a panel of Sorghum bicolor and S. bicolor × S. halepense populations using multi-locus models.
    Habyarimana E, Dall'Agata M, De Franceschi P, Baloch FS.
    PLoS One; 2019; 14(12):e0225979. PubMed ID: 31805171
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  • 6. Transmission Genetics of a Sorghum bicolor × S. halepense Backcross Populations.
    Kong W, Nabukalu P, Cox TS, Goff VH, Pierce GJ, Lemke C, Robertson JS, Compton R, Tang H, Paterson AH.
    Front Plant Sci; 2020; 11():467. PubMed ID: 32425964
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  • 10. Discovering useful genetic variation in the seed parent gene pool for sorghum improvement.
    Kumar N, Boatwright JL, Sapkota S, Brenton ZW, Ballén-Taborda C, Myers MT, Cox WA, Jordan KE, Kresovich S, Boyles RE.
    Front Genet; 2023; 14():1221148. PubMed ID: 37790706
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  • 11. Whole-genome resequencing of Sorghum bicolor and S. bicolor × S. halepense lines provides new insights for improving plant agroecological characteristics.
    Habyarimana E, Gorthy S, Baloch FS, Ercisli S, Chung G.
    Sci Rep; 2022 Apr 01; 12(1):5556. PubMed ID: 35365708
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  • 12. Genotypic and Pathogenic Diversity of Colletotrichum sublineola Isolates from Sorghum (Sorghum bicolor) and Johnsongrass (S. halepense) in the Southeastern United States.
    Xavier KV, Mizubuti ESG, Queiroz MV, Chopra S, Vaillancourt L.
    Plant Dis; 2018 Nov 01; 102(11):2341-2351. PubMed ID: 30199327
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  • 13. Association mapping by aerial drone reveals 213 genetic associations for Sorghum bicolor biomass traits under drought.
    Spindel JE, Dahlberg J, Colgan M, Hollingsworth J, Sievert J, Staggenborg SH, Hutmacher R, Jansson C, Vogel JP.
    BMC Genomics; 2018 Sep 17; 19(1):679. PubMed ID: 30223789
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  • 14. Genome-wide analyses using multi-locus models revealed marker-trait associations for major agronomic traits in Sorghum bicolor.
    Enyew M, Feyissa T, Carlsson AS, Tesfaye K, Hammenhag C, Seyoum A, Geleta M.
    Front Plant Sci; 2022 Sep 17; 13():999692. PubMed ID: 36275578
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  • 15. RAD-seq-Based High-Density Linkage Map Construction and QTL Mapping of Biomass-Related Traits in Sorghum using the Japanese Landrace Takakibi NOG.
    Kajiya-Kanegae H, Takanashi H, Fujimoto M, Ishimori M, Ohnishi N, Wacera W F, Omollo EA, Kobayashi M, Yano K, Nakano M, Kozuka T, Kusaba M, Iwata H, Tsutsumi N, Sakamoto W.
    Plant Cell Physiol; 2020 Jul 01; 61(7):1262-1272. PubMed ID: 32353144
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  • 16. QTL mapping for bioenergy traits in sweet sorghum recombinant inbred lines.
    Souza VF, Pereira GDS, Pastina MM, Parrella RADC, Simeone MLF, Barros BA, Noda RW, da Costa E Silva L, Magalhães JV, Schaffert RE, Garcia AAF, Damasceno CMB.
    G3 (Bethesda); 2021 Oct 19; 11(11):. PubMed ID: 34519766
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  • 17. Genetic analysis of recombinant inbred lines for Sorghum bicolor × Sorghum propinquum.
    Kong W, Jin H, Franks CD, Kim C, Bandopadhyay R, Rana MK, Auckland SA, Goff VH, Rainville LK, Burow GB, Woodfin C, Burke JJ, Paterson AH.
    G3 (Bethesda); 2013 Jan 19; 3(1):101-8. PubMed ID: 23316442
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  • 18. Mineral allocation to reproduction in Sorhum bicolor and Sorghum halepense in relation to parental nutrient supply.
    Benech Arnold RL, Fenner M, Edwards PJ.
    Oecologia; 1992 Oct 19; 92(1):138-144. PubMed ID: 28311824
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  • 19. Genome-wide association mapping of quantitative traits in a breeding population of sugarcane.
    Racedo J, Gutiérrez L, Perera MF, Ostengo S, Pardo EM, Cuenya MI, Welin B, Castagnaro AP.
    BMC Plant Biol; 2016 Jun 24; 16(1):142. PubMed ID: 27342657
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  • 20. Genetic analysis of vegetative branching in sorghum.
    Kong W, Guo H, Goff VH, Lee TH, Kim C, Paterson AH.
    Theor Appl Genet; 2014 Nov 24; 127(11):2387-403. PubMed ID: 25163936
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