Phylogenetic reconstruction of Aegilops section Sitopsis and the evolution of tandem repeats in the diploids and derived wheat polyploids.

The evolution of 2 tandemly repeated sequences Spelt1 and Spelt52 was studied in Triticum species representing 2 evolutionary lineages of wheat and in Aegilops sect. Sitopsis, putative donors of their B/G genomes. Using fluorescence in situ hybridization we observed considerable polymorphisms in the hybridization patterns of Spelt1 and Spelt52 repeats between and within Triticum and Aegilops species. Between 2 and 28 subtelomeric sites of Spelt1 probe were detected in Ae. speltoidies, depending on accession. From 8 to 12 Spelt1 subtelomeric sites were observed in species of Timopheevi group (GAt genome), whereas the number of signals in emmer/aestivum accessions was significantly less (from 0 to 6). Hybridization patterns of Spelt52 in Ae. speltoides, Ae. longissima, and Ae. sharonensis were species specific. Subtelomeric sites of Spelt52 repeat were detected only in T. araraticum (T. timopheevii), and their number and chromosomal location varied between accessions. Superimposing copy number data onto our phylogenetic scheme constructed from RAPD data suggests 2 major independent amplifications of Spelt52 and 1 of Spelt1 repeats in Aegilops divergence. It is likely that the Spelt1 amplification took place in the ancient Ae. speltoides before the divergence of polyploid wheats. The Spelt52 repeat was probably amplified in the lineage of Ae. speltoides prior to divergence of the allopolyploid T. timopheevii but after the divergence of T. durum. In a separate amplification event, Spelt52 copy number expanded in the common ancestor of Ae. longissima and Ae. sharonensis.