Reference Report for RTN20170306.5
| Title: | Molecular evolution of glycinin and beta-conglycinin gene families in soybean |
| Authors: | Li, C., Zhang, Y.M. |
| Source: | Heredity 2011, 106:633-641 |
| Abstract: | There are two main classes of multi-subunit seed storage proteins, glycinin (11S) and b-conglycinin (7S), which account for approximately 70% of the total protein in a typical soybean seed. The subunits of these two protein classes are encoded by a number of genes. The genomic organization of these genes follows a complex evolutionary history. This research was designed to describe the origin and maintenance of genes in each of these gene families by analyzing the synteny, phylogenies, selection pressure and duplications of the genes in each gene family. The ancestral glycinin gene initially experienced a tandem duplication event; then, the genome underwent two subsequent rounds of whole-genome duplication, thereby resulting in duplication of the glycinin genes, and finally a tandem duplication likely gave rise to the Gy1 and Gy2 genes. The b-conglycinin genes primarily originated through the more recent whole-genome duplication and several tandem duplications. Purifying selec- tion has had a key role in the maintenance of genes in both gene families. In addition, positive selection in the glycinin genes and a large deletion in a b-conglycinin exon contribute to the diversity of the duplicate genes. In summary, our results suggest that the duplicated genes in both gene families prefer to retain similar function throughout evolution and therefore may contribute to phenotypic robustness. |
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