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Journal Abstract Search

163 related items for PubMed ID: 35890461

  • 21. Genome-wide association study (GWAS) reveals genetic loci of lead (Pb) tolerance during seedling establishment in rapeseed (Brassica napus L.).
    Zhang F, Xiao X, Xu K, Cheng X, Xie T, Hu J, Wu X.
    BMC Genomics; 2020 Feb 10; 21(1):139. PubMed ID: 32041524
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  • 22. Transcriptome analysis reveals key regulatory genes for root growth related to potassium utilization efficiency in rapeseed (Brassica napus L.).
    Ibrahim S, Ahmad N, Kuang L, Li K, Tian Z, Sadau SB, Tajo SM, Wang X, Wang H, Dun X.
    Front Plant Sci; 2023 Feb 10; 14():1194914. PubMed ID: 37546248
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  • 23. Genome-wide association study reveals the genetic architecture of flowering time in rapeseed (Brassica napus L.).
    Xu L, Hu K, Zhang Z, Guan C, Chen S, Hua W, Li J, Wen J, Yi B, Shen J, Ma C, Tu J, Fu T.
    DNA Res; 2016 Feb 10; 23(1):43-52. PubMed ID: 26659471
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  • 25. Genome-Wide Association Study of Cadmium Accumulation at the Seedling Stage in Rapeseed (Brassica napus L.).
    Chen L, Wan H, Qian J, Guo J, Sun C, Wen J, Yi B, Ma C, Tu J, Song L, Fu T, Shen J.
    Front Plant Sci; 2018 Feb 10; 9():375. PubMed ID: 29725340
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  • 27. Genome-wide association study reveals candidate genes controlling root system architecture under low phosphorus supply at seedling stage in Brassica napus.
    Yuan P, Liu H, Wang X, Hammond JP, Shi L.
    Mol Breed; 2023 Aug 10; 43(8):63. PubMed ID: 37521313
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  • 28. Temporal genetic patterns of root growth in Brassica napus L. revealed by a low-cost, high-efficiency hydroponic system.
    Wang J, Kuang L, Wang X, Liu G, Dun X, Wang H.
    Theor Appl Genet; 2019 Aug 10; 132(8):2309-2323. PubMed ID: 31101925
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  • 29. Quantitative trait loci for root morphology in response to low phosphorus stress in Brassica napus.
    Yang M, Ding G, Shi L, Feng J, Xu F, Meng J.
    Theor Appl Genet; 2010 Jun 10; 121(1):181-93. PubMed ID: 20217384
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  • 30. SNP- and Haplotype-Based GWAS of Flowering-Related Traits in Brassica napus.
    Helal M, Gill RA, Tang M, Yang L, Hu M, Yang L, Xie M, Zhao C, Cheng X, Zhang Y, Zhang X, Liu S.
    Plants (Basel); 2021 Nov 16; 10(11):. PubMed ID: 34834840
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  • 31. Genetic variants associated with the root system architecture of oilseed rape (Brassica napus L.) under contrasting phosphate supply.
    Wang X, Chen Y, Thomas CL, Ding G, Xu P, Shi D, Grandke F, Jin K, Cai H, Xu F, Yi B, Broadley MR, Shi L.
    DNA Res; 2017 Aug 01; 24(4):407-417. PubMed ID: 28430897
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  • 34. Identification of genetic variation for salt tolerance in Brassica napus using genome-wide association mapping.
    Wassan GM, Khanzada H, Zhou Q, Mason AS, Keerio AA, Khanzada S, Solangi AM, Faheem M, Fu D, He H.
    Mol Genet Genomics; 2021 Mar 01; 296(2):391-408. PubMed ID: 33464396
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  • 37. Genome-Wide Association Study on Root System Architecture and Identification of Candidate Genes in Wheat (Triticum aestivum L.).
    Ma J, Zhao D, Tang X, Yuan M, Zhang D, Xu M, Duan Y, Ren H, Zeng Q, Wu J, Han D, Li T, Jiang L.
    Int J Mol Sci; 2022 Feb 06; 23(3):. PubMed ID: 35163763
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  • 38. Integrated QTL and eQTL Mapping Provides Insights and Candidate Genes for Fatty Acid Composition, Flowering Time, and Growth Traits in a F2 Population of a Novel Synthetic Allopolyploid Brassica napus.
    Li R, Jeong K, Davis JT, Kim S, Lee S, Michelmore RW, Kim S, Maloof JN.
    Front Plant Sci; 2018 Feb 06; 9():1632. PubMed ID: 30483289
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  • 39. Genome-Wide Association Study of Root System Development at Seedling Stage in Rice.
    Zhang H, San ML, Jang SG, Lee JH, Kim NE, Lee AR, Park SY, Cao FY, Chin JH, Kwon SW.
    Genes (Basel); 2020 Nov 25; 11(12):. PubMed ID: 33255557
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  • 40. Sub-genomic selection patterns as a signature of breeding in the allopolyploid Brassica napus genome.
    Qian L, Qian W, Snowdon RJ.
    BMC Genomics; 2014 Dec 23; 15(1):1170. PubMed ID: 25539568
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