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PUBMED FOR HANDHELDS

Journal Abstract Search


179 related items for PubMed ID: 26334534

  • 1. Using genome-wide associations to identify metabolic pathways involved in maize aflatoxin accumulation resistance.
    Tang JD, Perkins A, Williams WP, Warburton ML.
    BMC Genomics; 2015 Sep 03; 16(1):673. PubMed ID: 26334534
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  • 2. Confirmation and Fine Mapping of a Major QTL for Aflatoxin Resistance in Maize Using a Combination of Linkage and Association Mapping.
    Zhang Y, Cui M, Zhang J, Zhang L, Li C, Kan X, Sun Q, Deng D, Yin Z.
    Toxins (Basel); 2016 Sep 02; 8(9):. PubMed ID: 27598199
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  • 3. Comparative Analysis of Multiple GWAS Results Identifies Metabolic Pathways Associated with Resistance to A. flavus Infection and Aflatoxin Accumulation in Maize.
    Warburton ML, Jeffers D, Smith JS, Scapim C, Uhdre R, Thrash A, Williams WP.
    Toxins (Basel); 2022 Oct 28; 14(11):. PubMed ID: 36355988
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  • 4. Identification of maize genes associated with host plant resistance or susceptibility to Aspergillus flavus infection and aflatoxin accumulation.
    Kelley RY, Williams WP, Mylroie JE, Boykin DL, Harper JW, Windham GL, Ankala A, Shan X.
    PLoS One; 2012 Oct 28; 7(5):e36892. PubMed ID: 22606305
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  • 5. Leveraging GWAS data to identify metabolic pathways and networks involved in maize lipid biosynthesis.
    Li H, Thrash A, Tang JD, He L, Yan J, Warburton ML.
    Plant J; 2019 Jun 28; 98(5):853-863. PubMed ID: 30742331
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  • 6. A public platform for the verification of the phenotypic effect of candidate genes for resistance to aflatoxin accumulation and Aspergillus flavus infection in maize.
    Warburton ML, Williams WP, Hawkins L, Bridges S, Gresham C, Harper J, Ozkan S, Mylroie JE, Shan X.
    Toxins (Basel); 2011 Jul 28; 3(7):754-65. PubMed ID: 22069738
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  • 11. Characterization of the maize lipoxygenase gene family in relation to aflatoxin accumulation resistance.
    Ogunola OF, Hawkins LK, Mylroie E, Kolomiets MV, Borrego E, Tang JD, Williams WP, Warburton ML.
    PLoS One; 2017 Jul 28; 12(7):e0181265. PubMed ID: 28715485
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  • 12. Survey of Candidate Genes for Maize Resistance to Infection by Aspergillus flavus and/or Aflatoxin Contamination.
    Hawkins LK, Warburton ML, Tang J, Tomashek J, Alves Oliveira D, Ogunola OF, Smith JS, Williams WP.
    Toxins (Basel); 2018 Jan 31; 10(2):. PubMed ID: 29385107
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  • 13. Single-plant GWAS coupled with bulk segregant analysis allows rapid identification and corroboration of plant-height candidate SNPs.
    Gyawali A, Shrestha V, Guill KE, Flint-Garcia S, Beissinger TM.
    BMC Plant Biol; 2019 Oct 08; 19(1):412. PubMed ID: 31590656
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  • 16. Genome-Wide Analyses and Prediction of Resistance to MLN in Large Tropical Maize Germplasm.
    Nyaga C, Gowda M, Beyene Y, Muriithi WT, Makumbi D, Olsen MS, Suresh LM, Bright JM, Das B, Prasanna BM.
    Genes (Basel); 2019 Dec 23; 11(1):. PubMed ID: 31877962
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  • 18. Genotyping-by-sequencing and SNP-arrays are complementary for detecting quantitative trait loci by tagging different haplotypes in association studies.
    Negro SS, Millet EJ, Madur D, Bauland C, Combes V, Welcker C, Tardieu F, Charcosset A, Nicolas SD.
    BMC Plant Biol; 2019 Jul 16; 19(1):318. PubMed ID: 31311506
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  • 19. Identification of genetic loci associated with rough dwarf disease resistance in maize by integrating GWAS and linkage mapping.
    Zhao M, Liu S, Pei Y, Jiang X, Jaqueth JS, Li B, Han J, Jeffers D, Wang J, Song X.
    Plant Sci; 2022 Feb 16; 315():111100. PubMed ID: 35067294
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