摘要
To study the sequences of short interspersed nuclear elements (SINEs) evolution in some allopolyploid genomes of Aegilops, 108 Au element fragments (a novel kind of plant SINE) were amplified and sequenced in 10 species of Aegilops, which were clustered into three different groups (A, B and C) based on their related geuome types. The sequences of these Au element fragments were heterogouous in di-, tetra-, and hexa-ploids, and the deudrograms of Au element obtained from phylogenetic analysis were very complex in each group and could be clustered into 15, 15 and 22 families, respectively. In this study, three rules about Au elements evolution have been drawn from the results: i. Most families were composed of Au element members with different host species in three groups; ii. Family 1-6 in Group A, Family 1-6 in Group B, Family 1-4 and Family 6-13 in Group C contained only one, apparently highly degenerate Au dement member (a single representative elemeut); iii. Elements generally fell into clades that were species-specific with respect to their host species. The potential mechanisms of Au element evolution in Aegilops were discussed.
To study the sequences of short interspersed nuclear elements (SINEs) evolution in some allopolyploid genomes of Aegilops, 108 Au element fragments (a novel kind of plant SINE) were amplified and sequenced in 10 species of Aegilops, which were clustered into three different groups (A, B and C) based on their related geuome types. The sequences of these Au element fragments were heterogouous in di-, tetra-, and hexa-ploids, and the deudrograms of Au element obtained from phylogenetic analysis were very complex in each group and could be clustered into 15, 15 and 22 families, respectively. In this study, three rules about Au elements evolution have been drawn from the results: i. Most families were composed of Au element members with different host species in three groups; ii. Family 1-6 in Group A, Family 1-6 in Group B, Family 1-4 and Family 6-13 in Group C contained only one, apparently highly degenerate Au dement member (a single representative elemeut); iii. Elements generally fell into clades that were species-specific with respect to their host species. The potential mechanisms of Au element evolution in Aegilops were discussed.
基金
Acknowledgements We sincerely thank Dr. Taihachi Kawahara, Dr. Yang Xinming for supplying the seeds. This work was supported by the National Natural Science Foundation of China (30170063).
