Brohede J, Ellegren H
Department of Evolutionary Biology, Uppsala University, Sweden.
Proc Biol Sci. 1999 Apr 22;266(1421):825-33. doi: 10.1098/rspb.1999.0712.
Though extensively used in a variety of disciplines, the evolutionary pattern of microsatellite sequences is still unclear. We addressed several questions relating to microsatellite evolution by analysing historically accumulated mutation events in a large set of artiodactyl (CA)n repeats, through sequence analysis of orthologous bovine and ovine loci. The substitution rate in microsatellite flanking sequences was not different from that in intron sequences, suggesting that if intron sequences in general are selectively neutral, sequences close to microsatellites are similarly so. This observation thus does not support the idea that successful heterologous amplification of microsatellites across distantly related taxa would be due to flanking sequences generally being under some form of selection. Interestingly, the substitution rate at the first nucleotide positions flanking repeats was significantly higher than in sequences further away. Moreover, the substitution rate in repeat units in the very end of microsatellites was significantly higher than that in the middle of repeat regions. Together these observations suggest a relative instability close to the boundary between repetitive and unique sequences. We present three models that potentially could explain such a feature, all involving inefficiency of mismatch repair systems.
尽管微卫星序列在各种学科中被广泛使用,但其进化模式仍不清楚。我们通过分析大量偶蹄目动物(CA)n重复序列中历史积累的突变事件,通过对牛和羊直系同源基因座的序列分析,解决了几个与微卫星进化相关的问题。微卫星侧翼序列的替代率与内含子序列的替代率没有差异,这表明如果内含子序列总体上是选择中性的,那么靠近微卫星的序列也是如此。因此,这一观察结果不支持这样的观点,即微卫星在远缘分类群中的成功异源扩增是由于侧翼序列通常受到某种形式的选择。有趣的是,重复序列侧翼第一个核苷酸位置的替代率明显高于更远位置的序列。此外,微卫星最末端重复单元的替代率明显高于重复区域中间的替代率。这些观察结果共同表明,在重复序列和独特序列之间的边界附近存在相对不稳定性。我们提出了三种可能解释这种特征的模型,所有模型都涉及错配修复系统的低效性。