玉米中的突变子转座子和植物基因组中的骡子

Acta Genetica Sinica Pub Date : 2006-06-01 DOI:10.1016/S0379-4172(06)60075-9

DIAO Xian-Min , Lisch Damon

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引用次数: 20

摘要

Mutator (Mu)是迄今为止最具诱变性的植物转座子。高频率的转座和插入低拷贝序列的倾向使其成为玉米基因诱变的主要手段(Zea mays L.)。小囊样元件(MULEs)广泛存在于被子植物中，并且在一个基因组中可能存在多种分化的功能变异。骡子经常捕获基因序列。这些Pack-MuLEs可以调动数千个基因片段，这可能对宿主基因组进化产生重大影响。也有证据表明骡子可以在生殖隔离的物种之间移动。本文综述了Mu转座子的发现、特征和应用。讨论了稀土元素的分类及今后的研究方向。了解Mu将有助于我们阐明动态基因组。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mutator Transposon in Maize and MULEs in the Plant Genome

Mutator (Mu) is by far the most mutagenic plant transposon. The high frequency of transposition and the tendency to insert into low copy sequences for such transposon have made it the primary means by which genes are mutagenized in maize (Zea mays L.). Mus like elements (MULEs) are widespread among angiosperms and multiple-diverged functional variants can be present in a single genome. MULEs often capture genetic sequences. These Pack-MuLEs can mobilize thousands of gene fragments, which may have had a significant impact on host genome evolution. There is also evidence that MULEs can move between reproductively isolated species. Here we present an overview of the discovery, features and utility of Mu transposon. Classification of Mu elements and future directions of related research are also discussed. Understanding Mu will help us elucidate the dynamic genome.

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Acta Genetica Sinica

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