基于结构的动植物Helitrons转座子的发现与描述

Structure-based discovery and description of plant and animal Helitrons.

作者信息

Yang Lixing, Bennetzen Jeffrey L

机构信息

Department of Genetics, University of Georgia, Athens, GA 30602, USA.

出版信息

Proc Natl Acad Sci U S A. 2009 Aug 4;106(31):12832-7. doi: 10.1073/pnas.0905563106. Epub 2009 Jul 21.

DOI:10.1073/pnas.0905563106

PMID:19622734

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2722332/

Abstract

Helitrons are recently discovered eukaryotic transposons that are predicted to amplify by a rolling-circle mechanism. They are present in most plant and animal species investigated, but were previously overlooked partly because they lack terminal repeats and do not create target site duplications. Helitrons are particularly abundant in flowering plants, where they frequently acquire, and sometimes express, 1 or more gene fragments. A structure-based search protocol was developed to find Helitrons and was used to analyze several plant and animal genomes, leading to the discovery of hundreds of new Helitrons. Analysis of these Helitrons has uncovered mechanisms of element evolution, including end creation and sequence acquisition. Preferential accumulation in gene-poor regions and target site specificities were also identified. Overall, these studies provide insights into the transposition and evolution of Helitrons and their contributions to evolved gene content and genome structure.

摘要

Helitrons是最近发现的真核转座子，预计通过滚环机制进行扩增。它们存在于大多数被研究的动植物物种中，但之前部分被忽视，因为它们缺乏末端重复序列且不会产生靶位点重复。Helitrons在开花植物中尤为丰富，在这些植物中它们经常获取并有时表达1个或更多基因片段。开发了一种基于结构的搜索协议来寻找Helitrons，并用于分析几个动植物基因组，从而发现了数百个新的Helitrons。对这些Helitrons的分析揭示了元件进化的机制，包括末端产生和序列获取。还确定了在基因贫乏区域的优先积累和靶位点特异性。总体而言，这些研究为Helitrons的转座和进化及其对进化后的基因含量和基因组结构的贡献提供了见解。

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