稻鼠科啮齿动物中短散在重复序列（SINE）的灭绝先于长散在重复序列（LINE）的灭绝：对反转录转座动力学和机制的启示

SINE extinction preceded LINE extinction in sigmodontine rodents: implications for retrotranspositional dynamics and mechanisms.

作者信息

Rinehart T A, Grahn R A, Wichman H A

机构信息

Department of Biological Sciences, University of Idaho, Moscow, ID 83844-3051, USA.

出版信息

Cytogenet Genome Res. 2005;110(1-4):416-25. doi: 10.1159/000084974.

DOI:10.1159/000084974

PMID:16093694

Abstract

Short Interspersed Nuclear Elements, or SINEs, retrotranspose despite lacking protein-coding capability. It has been proposed that SINEs utilize enzymes produced in trans by Long Interspersed Nuclear Elements, or LINEs. Strong support for this hypothesis is found in LINE and SINE pairs that share sequence homology; however, LINEs and SINEs in primates and rodents are only linked by an insertion site motif. We have now profiled L1 LINE and B1 SINE activity in 24 rodent species including candidate taxa for the first documented L1 extinction. As expected, there was no evidence for recent activity of B1s in species that also lack L1 activity. However, B1 silencing appears to have preceded L1 extinction, since B1 activity is also lacking in the genus most closely related to those lacking active L1s despite the presence of active L1s in this genus. A second genus with active L1s but inactive B1s was also identified.

摘要

短散在核元件（Short Interspersed Nuclear Elements，简称SINEs）尽管缺乏蛋白质编码能力，但仍可进行逆转座。有人提出，SINEs利用长散在核元件（Long Interspersed Nuclear Elements，简称LINEs）反式产生的酶。在具有序列同源性的LINE和SINE对中发现了对这一假设的有力支持；然而，灵长类动物和啮齿动物中的LINEs和SINEs仅通过插入位点基序相连。我们现在分析了24种啮齿动物物种中的L1 LINE和B1 SINE活性，其中包括首次记录的L1灭绝的候选分类群。正如预期的那样，在也缺乏L1活性的物种中没有证据表明B1近期有活性。然而，B1沉默似乎先于L1灭绝，因为在与缺乏活性L1的物种关系最密切的属中也缺乏B1活性，尽管该属中存在活性L1。还鉴定出了第二个具有活性L1但无活性B1的属。

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稻鼠科啮齿动物中短散在重复序列（SINE）的灭绝先于长散在重复序列（LINE）的灭绝：对反转录转座动力学和机制的启示

SINE extinction preceded LINE extinction in sigmodontine rodents: implications for retrotranspositional dynamics and mechanisms.

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