Genetic analysis of shoot fresh weight in a cross of wild (G. soja) and cultivated (G. max) soybean |
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Authors: | Sovetgul?Asekova,Krishnanand?P.?Kulkarni,Gunvant?Patil,Minsu?Kim,Jong?Tae?Song,Henry?T.?Nguyen,J.?Grover Shannon,Jeong-Dong?Lee author-information" > author-information__contact u-icon-before" > mailto:jdlee@knu.ac.kr" title=" jdlee@knu.ac.kr" itemprop=" email" data-track=" click" data-track-action=" Email author" data-track-label=" " >Email author |
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Affiliation: | 1.School of Applied Biosciences,Kyungpook National University,Daegu,Republic of Korea;2.Division of Plant Sciences,University of Missouri- Delta Center,Portageville,USA;3.National Center for Soybean Biotechnology and Division of Plant Sciences,University of Missouri,Columbia,USA |
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Abstract: | Shoot fresh weight (SFW) is one of the parameters, used to estimate the total plant biomass yield in soybean. In the present study, a total of 188 F5:8 recombinant inbred lines (RIL) derived from an interspecific cross of PI 483463 (Glycine soja) and Hutcheson (Glycine max) were investigated for SFW variation in the field for three consecutive years. The parental lines and RILs were phenotyped in the field at the R6 stage by measuring total biomass in kg/plot to identify the QTLs for SFW. Three QTLs qSFW6_1, qSFW15_1, and qSFW19_1 influencing SFW were identified on chromosome 6, 15, and 19, respectively. The QTL qSFW19_1 flanked between the markers BARC-044913-08839 and BARC-029975-06765 was the stable QTL expressed in all the three environments. The phenotypic variation explained by the QTLs across all environments ranged from 6.56 to 21.32 %. The additive effects indicated contribution of alleles from both the parents and additive × environment interaction effects affected the expression of SFW QTL. Screening of the RIL population with additional SSRs from the qSFW19_1 region delimited the QTL between the markers SSR19-1329 and BARC-29975-06765. QTL mapping using bin map detected two QTLs, qSFW19_1A and qSFW19_1B. The QTL qSFW19_1A mapped close to the Dt1 gene locus, which affects stem termination, plant height, and floral initiation in soybean. Potential candidate genes for SFW were pinpointed, and sequence variations within their sequences were detected using high-quality whole-genome resequencing data. The findings in this study could be useful for understanding genetic basis of SFW in soybean. |
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