Divergent homoeolog evolution in allopolyploids

What is it about?

Polyploidization is an important evolutionary force in plant speciation and diversification. Retention and elimination of homoeologs derived by polyploidization are prevalent, whereas the evolutionary details of some duplicated genes in closely related natural polyploids are largely unknown. In the present study, we used an important regulatory gene (R) that encodes a bHLH protein in the anthocyanin metabolism pathway to demonstrate divergent evolutionary fates of homoeologs among four related Oryza allotetraploids. The BBCC genome species O. punctata maintained both of its homoeologs, whereas three CCDD genome species (O. alta, O. grandiglumis , and O. latifolia) lost their C subgenome homoeologous copies. In addition, the evolutionary rates of the homoeologs in the polyploids were equivalent to their corresponding homologs in diploids. We also found a slightly higher level of nucleotide diversity in R for the C subgenome homoeolog than for the B subgenome counterpart in O. punctata. After comparing the two types of polyploids, we conclude that inconsistent evolutionary patterns of R in these polyploids are probably associated with different evolutionary time, asymmetrical subgenome evolutionary dynamics, and unique demographical characteristics of these species.

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Why is it important?

We provide an example that the homoeologous evolution of a specific gene was variable among the related allotetraploids within the same genus.