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Journal Abstract Search

396 related items for PubMed ID: 37535690

  • 21.
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  • 22. Genome-wide expression quantitative trait locus studies facilitate isolation of causal genes controlling panicle structure.
    Wang F, Yano K, Nagamatsu S, Inari-Ikeda M, Koketsu E, Hirano K, Aya K, Matsuoka M.
    Plant J; 2020 Jul; 103(1):266-278. PubMed ID: 32072700
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  • 24. Genome-Wide Association Analysis Reveals Different Genetic Control in Panicle Architecture Between and Rice.
    Bai X, Zhao H, Huang Y, Xie W, Han Z, Zhang B, Guo Z, Yang L, Dong H, Xue W, Li G, Hu G, Hu Y, Xing Y.
    Plant Genome; 2016 Jul; 9(2):. PubMed ID: 27898816
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  • 26. Identification of a Rice stripe necrosis virus resistance locus and yield component QTLs using Oryza sativa x O. glaberrima introgression lines.
    Gutiérrez AG, Carabalí SJ, Giraldo OX, Martínez CP, Correa F, Prado G, Tohme J, Lorieux M.
    BMC Plant Biol; 2010 Jan 08; 10():6. PubMed ID: 20064202
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  • 27. Genetic architecture of cold tolerance in rice (Oryza sativa) determined through high resolution genome-wide analysis.
    Shakiba E, Edwards JD, Jodari F, Duke SE, Baldo AM, Korniliev P, McCouch SR, Eizenga GC.
    PLoS One; 2017 Jan 08; 12(3):e0172133. PubMed ID: 28282385
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  • 28. Association between sequence variants in panicle development genes and the number of spikelets per panicle in rice.
    Jang S, Lee Y, Lee G, Seo J, Lee D, Yu Y, Chin JH, Koh HJ.
    BMC Genet; 2018 Jan 15; 19(1):5. PubMed ID: 29334899
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  • 29. Genome-wide association study of agronomic traits in rice cultivated in temperate regions.
    Reig-Valiente JL, Marqués L, Talón M, Domingo C.
    BMC Genomics; 2018 Sep 25; 19(1):706. PubMed ID: 30253735
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  • 30. Genome-Wide Association Study Using Historical Breeding Populations Discovers Genomic Regions Involved in High-Quality Rice.
    Quero G, Gutiérrez L, Monteverde E, Blanco P, Pérez de Vida F, Rosas J, Fernández S, Garaycochea S, McCouch S, Berberian N, Simondi S, Bonnecarrère V.
    Plant Genome; 2018 Nov 25; 11(3):. PubMed ID: 30512035
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  • 31. Dissecting the genetic basis of heavy panicle hybrid rice uncovered Gn1a and GS3 as key genes.
    Wang S, Ma B, Gao Q, Jiang G, Zhou L, Tu B, Qin P, Tan X, Liu P, Kang Y, Wang Y, Chen W, Liang C, Li S.
    Theor Appl Genet; 2018 Jun 25; 131(6):1391-1403. PubMed ID: 29546444
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  • 35. The genome sequence of African rice (Oryza glaberrima) and evidence for independent domestication.
    Wang M, Yu Y, Haberer G, Marri PR, Fan C, Goicoechea JL, Zuccolo A, Song X, Kudrna D, Ammiraju JS, Cossu RM, Maldonado C, Chen J, Lee S, Sisneros N, de Baynast K, Golser W, Wissotski M, Kim W, Sanchez P, Ndjiondjop MN, Sanni K, Long M, Carney J, Panaud O, Wicker T, Machado CA, Chen M, Mayer KF, Rounsley S, Wing RA.
    Nat Genet; 2014 Sep 25; 46(9):982-8. PubMed ID: 25064006
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  • 36. Genome-Wide Association Study Reveals Novel QTLs and Candidate Genes for Grain Number in Rice.
    Li P, Li Q, Lu X, Dai L, Yang L, Hong Y, Yan T, Shen L, Zhang Q, Ren D, Zhu L, Hu J, Dong G, Zhang G, Qian Q, Zeng D.
    Int J Mol Sci; 2022 Nov 06; 23(21):. PubMed ID: 36362403
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