Clarkson James J, Lim K Yoong, Kovarik Ales, Chase Mark W, Knapp Sandra, Leitch Andrew R
Jodrell Laboratory, Royal Botanic Gasrdens, Kew, Richmond, Surrey, TW9 3DS, UK.
New Phytol. 2005 Oct;168(1):241-52. doi: 10.1111/j.1469-8137.2005.01480.x.
Here, we analyze long-term evolution in Nicotiana allopolyploid section Repandae (the closest living diploids are N. sylvestris, the maternal parent, and N. obtusifolia, the paternal parent). We compare data with other more recently formed Nicotiana allopolyploids. We investigated 35S and 5S nuclear ribosomal DNA (rDNA) chromosomal location and unit divergence. A molecular clock was applied to the Nicotiana phylogenetic tree to determine allopolyploid ages. N. tabacum and species of Repandae were c. 0.2 and 4.5 Myr old, respectively. In all Repandae species, the numbers of both 35S and 5S rDNA loci were less than the sum of those of the diploid progenitors. Trees based on 5S rDNA spacer sequences indicated units of only the paternal parent. In recent Nicotiana allopolyploids, the numbers of rDNA loci equal the sum of those of their progenitors. In the Repandae genomes, diploidization is associated with locus loss. Sequence analysis indicates that 35S and 5S units most closely resemble maternal and paternal progenitors, respectively. In Nicotiana, 4.5 Myr of allopolyploid evolution renders genomic in situ hybridization (GISH) unsuitable for the complete resolution of parental genomes.
在此,我们分析了烟草属异源多倍体Repandae组的长期进化情况(现存最近的二倍体亲本为母本N. sylvestris和父本N. obtusifolia)。我们将数据与其他新近形成的烟草属异源多倍体进行了比较。我们研究了35S和5S核糖体DNA(rDNA)的染色体定位及单元差异。利用分子钟对烟草属系统发育树进行分析以确定异源多倍体的形成时间。烟草和Repandae组的物种形成时间分别约为0.2百万年和4.5百万年。在所有Repandae组物种中,35S和5S rDNA位点的数量均少于二倍体亲本的位点数量总和。基于5S rDNA间隔序列构建的树状图仅显示了父本的单元。在近期形成的烟草属异源多倍体中,rDNA位点的数量与其亲本的位点数量总和相等。在Repandae组基因组中,二倍体化与位点丢失有关。序列分析表明,35S和5S单元分别与母本和父本亲本最为相似。在烟草属中,450万年的异源多倍体进化使得基因组原位杂交(GISH)无法完全分辨亲本基因组。
