Laboratoire de Génétique Moléculaire, Génomique et Microbiologie UMR7156 (Université de Strasbourg and CNRS), Strasbourg, France.
FEMS Yeast Res. 2011 Jun;11(4):334-44. doi: 10.1111/j.1567-1364.2011.00721.x. Epub 2011 Feb 18.
Transposable element (TE) evolution in genomes has mostly been deduced from comparative genome analyses. TEs often account for a large proportion of the eukaryotic nuclear genome (up to 50%, depending on the species). Among the many existing genomic copies, only a small fraction may contribute to the mobility of a TE family. We have identified here, using a genetic screening procedure to trap Ty1 long terminal repeat-retrotransposon insertions in Saccharomyces cerevisiae, which among the populations of resident Ty1 copies are responsible for Ty1 mobility. Although the newly inserted Ty1 copies resulting from a single round of transposition were found to originate from a limited subset of Ty1 resident copies, they showed a high degree of diversity at the nucleotide level, mainly due to the reverse transcription-mediated recombination. In this process, highly expressed and strikingly nonautonomous mutant Ty1 were found to be the most frequently used resident copies, which suggests that nonautonomous elements play a key role in the dynamics of the Ty1 family.
转座元件 (TE) 在基因组中的进化主要是通过比较基因组分析推断出来的。TE 通常占真核核基因组的很大比例(取决于物种,可达 50%)。在许多现有的基因组拷贝中,只有一小部分可能对 TE 家族的移动性有贡献。我们在这里使用遗传筛选程序来捕获酿酒酵母中的 Ty1 长末端重复-逆转录转座子插入,在驻留 Ty1 拷贝的群体中,这些插入是 Ty1 移动性的原因。尽管从单个转座轮次中产生的新插入的 Ty1 拷贝被发现源自 Ty1 驻留拷贝的有限子集,但它们在核苷酸水平上表现出高度的多样性,主要是由于逆转录介导的重组。在这个过程中,高表达和明显非自主的突变 Ty1 被发现是最常使用的驻留拷贝,这表明非自主元件在 Ty1 家族的动态中起着关键作用。
