Nucleotide diversity of the upstream region of the putative MADS-box gene controlling soybean maturity

MADS-box genes are involved in plant reproductive development. However, the role of gene nucleotide diversity in soybean flowering and maturity remains unknown. Therefore, in this study, the distribution of DNA polymorphisms in the putative MADS-box gene located near the quantitative trait loci (QTL) for flowering time and maturity was targeted for association analysis using Glycine max (cultivated soybean) and Glycine soja (wild soybean). Sixteen single nucleotide polymorphisms identified in the upstream region of the putative MADS-box gene around QTL Pod mat 13-7 and Fflr 4-2 on chromosome 7 were found to be highly associated with maturity in soybean. The genetic diversity between cultivated soybeans and the wild relative was comparable, although the early maturity group (EMG) was less diverse than the late maturity group (LMG) of the cultivated soybean. Population size changes of the MADS-box gene in this soybean germplasm appeared to result from non-random selection. A selective pressure seemed to act on this gene in the EMG, while the LMG and G. soja were in genetic equilibrium. Neutrality tests and the constructed neighbor-joining tree indicate that the EMG of G. max has experienced strong artificial selection for its domestication and genetic improvement.