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Journal Abstract Search


192 related items for PubMed ID: 25849082

  • 41. In silico polymorphism analysis for the development of simple sequence repeat and transposon markers and construction of linkage map in cultivated peanut.
    Shirasawa K, Koilkonda P, Aoki K, Hirakawa H, Tabata S, Watanabe M, Hasegawa M, Kiyoshima H, Suzuki S, Kuwata C, Naito Y, Kuboyama T, Nakaya A, Sasamoto S, Watanabe A, Kato M, Kawashima K, Kishida Y, Kohara M, Kurabayashi A, Takahashi C, Tsuruoka H, Wada T, Isobe S.
    BMC Plant Biol; 2012 Jun 06; 12():80. PubMed ID: 22672714
    [Abstract] [Full Text] [Related]

  • 42. Identification of major QTLs underlying tomato spotted wilt virus resistance in peanut cultivar Florida-EP(TM) '113'.
    Tseng YC, Tillman BL, Peng Z, Wang J.
    BMC Genet; 2016 Sep 06; 17(1):128. PubMed ID: 27600750
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  • 43. Changes of Seed Weight, Fatty Acid Composition, and Oil and Protein Contents from Different Peanut FAD2 Genotypes at Different Seed Developmental and Maturation Stages.
    Wang ML, Chen CY, Tonnis B, Pinnow D, Davis J, An YC, Dang P.
    J Agric Food Chem; 2018 Apr 11; 66(14):3658-3665. PubMed ID: 29558122
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  • 45. Genome-Wide Detection of Major and Epistatic Effect QTLs for Seed Protein and Oil Content in Soybean Under Multiple Environments Using High-Density Bin Map.
    Karikari B, Li S, Bhat JA, Cao Y, Kong J, Yang J, Gai J, Zhao T.
    Int J Mol Sci; 2019 Feb 23; 20(4):. PubMed ID: 30813455
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  • 47. An integrated genetic linkage map of cultivated peanut (Arachis hypogaea L.) constructed from two RIL populations.
    Qin H, Feng S, Chen C, Guo Y, Knapp S, Culbreath A, He G, Wang ML, Zhang X, Holbrook CC, Ozias-Akins P, Guo B.
    Theor Appl Genet; 2012 Mar 23; 124(4):653-64. PubMed ID: 22072100
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  • 48. [Analysis of the peanut transgenic offspring with depressing AhFAD2 gene].
    Xu P, Tang G, Bi Y, Liu Z, Shan L.
    Sheng Wu Gong Cheng Xue Bao; 2018 Sep 25; 34(9):1469-1477. PubMed ID: 30255681
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  • 49. TALEN-mediated targeted mutagenesis of fatty acid desaturase 2 (FAD2) in peanut (Arachis hypogaea L.) promotes the accumulation of oleic acid.
    Wen S, Liu H, Li X, Chen X, Hong Y, Li H, Lu Q, Liang X.
    Plant Mol Biol; 2018 May 25; 97(1-2):177-185. PubMed ID: 29700675
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  • 50. Genetic Dissection of Novel QTLs for Resistance to Leaf Spots and Tomato Spotted Wilt Virus in Peanut (Arachis hypogaea L.).
    Pandey MK, Wang H, Khera P, Vishwakarma MK, Kale SM, Culbreath AK, Holbrook CC, Wang X, Varshney RK, Guo B.
    Front Plant Sci; 2017 May 25; 8():25. PubMed ID: 28197153
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  • 51. Construction of chromosome segment substitution lines in peanut (Arachis hypogaea L.) using a wild synthetic and QTL mapping for plant morphology.
    Fonceka D, Tossim HA, Rivallan R, Vignes H, Lacut E, de Bellis F, Faye I, Ndoye O, Leal-Bertioli SC, Valls JF, Bertioli DJ, Glaszmann JC, Courtois B, Rami JF.
    PLoS One; 2012 May 25; 7(11):e48642. PubMed ID: 23185268
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  • 52. Genome-Wide Mapping of Quantitative Trait Loci for Yield-Attributing Traits of Peanut.
    Joshi P, Soni P, Sharma V, Manohar SS, Kumar S, Sharma S, Pasupuleti J, Vadez V, Varshney RK, Pandey MK, Puppala N.
    Genes (Basel); 2024 Jan 23; 15(2):. PubMed ID: 38397130
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  • 53. Genetic mapping and QTL analysis for peanut smut resistance.
    de Blas FJ, Bruno CI, Arias RS, Ballén-Taborda C, Mamani E, Oddino C, Rosso M, Costero BP, Bressano M, Soave JH, Soave SJ, Buteler MI, Seijo JG, Massa AN.
    BMC Plant Biol; 2021 Jul 02; 21(1):312. PubMed ID: 34215182
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  • 54. Genotypic variability and genotype by environment interactions in oil and fatty acids in high, intermediate, and low oleic acid peanut genotypes.
    Singkham N, Jogloy S, Kesmala T, Swatsitang P, Jaisil P, Puppala N.
    J Agric Food Chem; 2010 May 26; 58(10):6257-63. PubMed ID: 20438126
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  • 55. A recombination bin-map identified a major QTL for resistance to Tomato Spotted Wilt Virus in peanut (Arachis hypogaea).
    Agarwal G, Clevenger J, Kale SM, Wang H, Pandey MK, Choudhary D, Yuan M, Wang X, Culbreath AK, Holbrook CC, Liu X, Varshney RK, Guo B.
    Sci Rep; 2019 Dec 03; 9(1):18246. PubMed ID: 31796847
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  • 58. Quantitative trait locus analysis for pod- and kernel-related traits in the cultivated peanut (Arachis hypogaea L.).
    Chen W, Jiao Y, Cheng L, Huang L, Liao B, Tang M, Ren X, Zhou X, Chen Y, Jiang H.
    BMC Genet; 2016 Jan 25; 17():25. PubMed ID: 26810040
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  • 59. Prevention of pre-harvest aflatoxin production and the effect of different harvest times on peanut (Arachis hypogaea L.) fatty acids.
    Canavar Ö, Kaynak MA.
    Food Addit Contam Part A Chem Anal Control Expo Risk Assess; 2013 Jan 25; 30(10):1807-18. PubMed ID: 23889477
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  • 60. Identification and application of a candidate gene AhAftr1 for aflatoxin production resistance in peanut seed (Arachis hypogaea L.).
    Yu B, Liu N, Huang L, Luo H, Zhou X, Lei Y, Yan L, Wang X, Chen W, Kang Y, Ding Y, Jin G, Pandey MK, Janila P, Kishan Sudini H, Varshney RK, Jiang H, Liu S, Liao B.
    J Adv Res; 2024 Aug 25; 62():15-26. PubMed ID: 37739123
    [Abstract] [Full Text] [Related]


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