Phylogenetic analysis of tetraploid wheat based on nuclear DMC1 gene

Abstract

Tetraploid wheat (AABB or AAGG, 2n = 4x = 28) holds an important place in Triticum. It includes two allopolyploid species, Triticum turgidum and Triticum timopheevii. Many problems concerning the phylogenetic relationships among tetraploid wheat species remain unresolved. In this study, sequences data for the nuclear DMC1 gene from 61 accessions of Triticum and Aegilops species, representing diploid and tetraploid species, were used to examine the phylogenetic relationships among tetraploid wheat. Phylogenetic trees were constructed using maximum-likelihood and neighbor-joining approaches, and gene flow and genetic differentiation values were computed. The results indicated that the A genome of tetraploid wheat originated from T. urartu rather than T. monococcum, and Aegilops speltoides was the donor of the B and G genomes. Hulled tetraploid wheat accessions formed a subclade, and naked tetraploid wheat got other subclade, indicating that at least two intermediary subspecies were involved in the evolution of T. turgidum. Triticum turgidum and T. timopheevii might have simultaneously originated from a hybridization events. These results indicated that the DMC1 gene sequences are useful for resolution of the molecular phylogenetic relationships of tetraploid wheat.