牛科（Bovinae）中牛、螺旋角羚羊和印度大额牛的古老 RTE 反转录转座子的演化活性。

Activity of ancient RTE retroposons during the evolution of cows, spiral-horned antelopes, and Nilgais (Bovinae).

机构信息

LOEWE, Biodiversity and Climate Research Center, BiK-F, Senckenberg Museum, Frankfurt am Main, Germany.

出版信息

Mol Biol Evol. 2012 Oct;29(10):2885-8. doi: 10.1093/molbev/mss158. Epub 2012 Jun 11.

Abstract

In the genome of Artiodactyla (cow, sheep, pigs, camels, and whales), a major retroposon group originated from a presumable horizontal transfer of BovB, a retrotransposon-like element retroposon, between 52 and 70 million years ago. Since then, BovB retroposons have proliferated and today occupy a quarter of the cow's genome sequence. The BovB-related short interspersed elements (SINEs) were used for resolving the phylogeny of Bovinae (cows, spiral-horned antelopes, and nilgais) and their relatives. In silico screening of 55,000 intronic retroposon insertions in the cow genome and experimental validation of 126 introns resulted in 29 informative retroposon markers for resolving bovine evolutionary relationships. A transposition-in-transposition analysis identifies three different phases of SINE activity and show how BovB elements have expanded in the cattle genome.

摘要

在偶蹄目动物（牛、羊、猪、骆驼和鲸鱼）的基因组中，一个主要的反转录转座子群起源于大约 5200 万至 7000 万年前 BovB 反转录转座子样元件的水平转移。从那时起，BovB 反转录转座子大量增殖，如今占据了奶牛基因组序列的四分之一。BovB 相关的短散在元件（SINEs）被用于解决牛科（牛、螺旋角羚羊和捻角羚）及其亲属的系统发育。对牛基因组中 55000 个内含子反转录转座子插入的计算机筛选和 126 个内含子的实验验证，产生了 29 个有助于解决牛进化关系的信息性反转录转座子标记。转座子-转座子分析确定了 SINE 活性的三个不同阶段，并展示了 BovB 元件如何在牛基因组中扩张。

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牛科（Bovinae）中牛、螺旋角羚羊和印度大额牛的古老 RTE 反转录转座子的演化活性。

Activity of ancient RTE retroposons during the evolution of cows, spiral-horned antelopes, and Nilgais (Bovinae).

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