Abstract
Soybean (Glycine max L.) is a major legume crop that is mainly distributed in temperate regions. The adaptability of soybean to grow at relatively high latitudes is attributed to natural variations in major genes and quantitative trait loci (QTLs) that control flowering time and maturity. Identification of new QTLs and map-based cloning of candidate genes are the fundamental approaches in elucidating the mechanism underlying soybean flowering and adaptation. To identify novel QTLs/genes, we developed two F8:10 recombinant inbred lines (RILs) and evaluated the traits of time to flowering (R1), maturity (R8), and reproductive period (RP) in the field. To rapidly and efficiently identify QTLs that control these traits, next-generation sequencing (NGS)-based QTL analysis was performed. This study demonstrates that only one major QTL on chromosome 4 simultaneously controls R1, R8, and RP traits in the Dongnong 50 × Williams 82 (DW) RIL population. Furthermore, three QTLs were mapped to chromosomes 6, 11, and 16 in the Suinong 14 × Enrei (SE) RIL population. Two major pleiotropic QTLs on chromosomes 4 and 6 were shown to affect flowering time, maturity, and RP. A QTL influencing RP was identified on chromosome 11, and QTL on chromosome 16 was associated with time to flowering responses. All these QTLs contributed to soybean maturation. The QTLs identified in this study may be utilized in fine mapping and map-based cloning of candidate genes to elucidate the mechanisms underlying flowering and soybean adaptation to different latitudes and to breed novel soybean cultivars with optimal yield-related traits.
Highlights
Flowering time and maturity traits play crucial roles in economic crop production
Soybean (Glycine max L.) is a major legume crop that is mainly distributed in temperate regions, and days to flowering and maturity are key factors for developing soybean cultivars with a wider geographical adaptation (Lu et al, 2017)
Maturity is critical for soybean to adapt to high latitudes and to reach successful grain yield harvest before frosting occurs
Summary
Flowering time and maturity traits play crucial roles in economic crop production. An intricate network with various (epi-)genetic regulators responding to environmental and endogenous triggers controls the timely onset of flowering and maturity in plants. Flowering time and reproductive period (RP) greatly impact soybean maturity; RP is an important soybean trait that is closely related to yield, seed quality, and tolerance to various environmental stresses (Xu et al, 2013). Both time of flowering and maturity in soybean are quantitative traits that are controlled by multiple genes. Genes within the maturity loci E1–E4, E9, E10, J, and Dt1 have been identified by map-based cloning, and their functions have been characterized (Liu et al, 2008, 2010; Watanabe et al, 2009, 2011; Tian et al, 2010; Xia et al, 2012; Zhao et al, 2016; Samanfar et al, 2017; Lu et al, 2017); candidate genes within the maturity-related E6, E7, and E8 loci remain unknown
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