Wright S I, Le Q H, Schoen D J, Bureau T E
Department of Biology, McGill University, Montreal, Quebec H3A 1B1, Canada.
Genetics. 2001 Jul;158(3):1279-88. doi: 10.1093/genetics/158.3.1279.
Theoretical models predict that the mating system should be an important factor driving the dynamics of transposable elements in natural populations due to differences in selective pressure on both element and host. We used a PCR-based approach to examine the abundance and levels of insertion polymorphism of Ac-III, a recently identified Ac-like transposon family, in natural populations of the selfing plant Arabidopsis thaliana and its close outcrossing relative, Arabidopsis lyrata. Although several insertions appeared to be ancient and shared between species, there is strong evidence for recent activity of this element family in both species. Sequences of the regions flanking insertions indicate that all Ac-III transposons segregating in natural populations are in noncoding regions and provide no evidence for local transposition events. Transposon display analysis suggests the presence of slightly higher numbers of insertion sites per individual but fewer total polymorphic insertions in the self-pollinating A. thaliana than A. lyrata. Element insertions appear to be segregating at significantly lower frequencies in A. lyrata than A. thaliana, which is consistent with a reduction in transposition rate, reduction in effective population size, or reduced efficacy of natural selection against element insertions in selfing populations.
理论模型预测,由于转座元件和宿主所面临的选择压力不同,交配系统应该是驱动自然种群中转座元件动态变化的一个重要因素。我们采用基于聚合酶链式反应(PCR)的方法,研究了自花授粉植物拟南芥及其近缘异花授粉植物琴叶拟南芥自然种群中一个最近鉴定出的类Ac转座子家族Ac-III的丰度和插入多态性水平。尽管有几个插入似乎是古老的且在物种间共享,但有强有力的证据表明该元件家族在这两个物种中都有近期的活跃活动。插入位点侧翼区域的序列表明,在自然种群中分离的所有Ac-III转座子都位于非编码区域,且没有提供局部转座事件的证据。转座子展示分析表明,自花授粉的拟南芥中每个个体的插入位点数量略多,但总的多态性插入比琴叶拟南芥少。在琴叶拟南芥中转座子插入的分离频率明显低于拟南芥,这与转座率降低、有效种群大小减小或自花授粉种群中针对转座子插入的自然选择效率降低是一致的。