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FARE,拟南芥中一个新的回文转座子家族。

FARE, a new family of foldback transposons in Arabidopsis.

作者信息

Windsor A J, Waddell C S

机构信息

Department of Biology, McGill University, Montreal, Quebec H3A 1B1, Canada.

出版信息

Genetics. 2000 Dec;156(4):1983-95. doi: 10.1093/genetics/156.4.1983.

DOI:10.1093/genetics/156.4.1983
PMID:11102389
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1461375/
Abstract

A new family of transposons, FARE, has been identified in Arabidopsis. The structure of these elements is typical of foldback transposons, a distinct subset of mobile DNA elements found in both plants and animals. The ends of FARE elements are long, conserved inverted repeat sequences typically 550 bp in length. These inverted repeats are modular in organization and are predicted to confer extensive secondary structure to the elements. FARE elements are present in high copy number, are heterogeneous in size, and can be divided into two subgroups. FARE1's average 1.1 kb in length and are composed entirely of the long inverted repeats. FARE2's are larger, up to 16.7 kb in length, and contain a large internal region in addition to the inverted repeat ends. The internal region is predicted to encode three proteins, one of which bears homology to a known transposase. FARE1.1 was isolated as an insertion polymorphism between the ecotypes Columbia and Nossen. This, coupled with the presence of 9-bp target-site duplications, strongly suggests that FARE elements have transposed recently. The termini of FARE elements and other foldback transposons are imperfect palindromic sequences, a unique organization that further distinguishes these elements from other mobile DNAs.

摘要

在拟南芥中发现了一个新的转座子家族——FARE。这些元件的结构是回折转座子的典型结构,回折转座子是动植物中发现的一类独特的可移动DNA元件。FARE元件的末端是长的保守反向重复序列,长度通常为550 bp。这些反向重复序列在组织上是模块化的,预计会赋予元件广泛的二级结构。FARE元件拷贝数高,大小各异,可分为两个亚组。FARE1平均长度为1.1 kb,完全由长反向重复序列组成。FARE2更大,长度可达16.7 kb,除了反向重复末端外,还包含一个大的内部区域。预计内部区域编码三种蛋白质,其中一种与已知的转座酶具有同源性。FARE1.1是作为生态型哥伦比亚和诺森之间的插入多态性分离出来的。这一点,再加上9 bp靶位点重复序列的存在,有力地表明FARE元件最近发生了转座。FARE元件和其他回折转座子的末端是不完全的回文序列,这种独特的结构进一步将这些元件与其他可移动DNA区分开来。

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