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蜥蜴短散在重复元件:广泛存在于爬行动物基因组中的新型短散在可逆转座元件。

Sauria SINEs: Novel short interspersed retroposable elements that are widespread in reptile genomes.

作者信息

Piskurek Oliver, Austin Christopher C, Okada Norihiro

机构信息

Faculty of Bioscience and Biotechnology, Department of Biological Sciences, Tokyo Institute of Technology, 4259 Nagatsuta-cho, Yokohama, 226-8501, Japan.

出版信息

J Mol Evol. 2006 May;62(5):630-44. doi: 10.1007/s00239-005-0201-5. Epub 2006 Apr 11.

DOI:10.1007/s00239-005-0201-5
PMID:16612539
Abstract

SINEs are short interspersed retrotransposable elements that invade new genomic sites. Their retrotransposition depends on reverse transcriptase and endonuclease activities encoded by partner LINEs (long interspersed elements). Recent genomic research has demonstrated that retroposons account for at least 40% of the human genome. Hitherto, more than 30 families of SINEs have been characterized in mammalian genomes, comprising approximately 4600 extant species; the distribution and extent of SINEs in reptilian genomes, however, are poorly documented. With more than 7400 species of lizards and snakes, Squamata constitutes the largest and most diverse group of living reptiles. We have discovered and characterized a novel SINE family, Sauria SINEs, whose members are widely distributed among genomes of lizards, snakes, and tuataras. Sauria SINEs comprise a 5' tRNA-related region, a tRNA-unrelated region, and a 3' tail region (containing short tandem repeats) derived from LINEs. We distinguished eight Sauria SINE subfamilies in genomes of four major squamate lineages and investigated their evolutionary relationships. Our data illustrate the overall efficacy of Sauria SINEs as novel retrotransposable markers for elucidation of squamate evolutionary history. We show that all Sauria SINEs share an identical 3' sequence with Bov-B LINEs and propose that they utilize the enzymatic machinery of Bov-B LINEs for their own retrotransposition. This finding, along with the ubiquity of Bov-B LINEs previously demonstrated in squamate genomes, suggests that these LINEs have been an active partner of Sauria SINEs since this SINE family was generated more than 200 million years ago.

摘要

短散在重复元件(SINEs)是侵入新基因组位点的短散在反转录转座元件。它们的反转录转座依赖于由伙伴长散在元件(LINEs)编码的逆转录酶和内切核酸酶活性。最近的基因组研究表明,反转录转座子至少占人类基因组的40%。迄今为止,在哺乳动物基因组中已鉴定出30多个SINEs家族,包括约4600个现存物种;然而,关于SINEs在爬行动物基因组中的分布和范围的记录却很少。有鳞目包含7400多种蜥蜴和蛇,是现存最大且最多样化的爬行动物类群。我们发现并鉴定了一个新的SINEs家族,即有鳞目SINEs,其成员广泛分布于蜥蜴、蛇和楔齿蜥的基因组中。有鳞目SINEs由一个5' tRNA相关区域、一个tRNA不相关区域和一个源自LINEs的3'尾区域(包含短串联重复序列)组成。我们在四个主要有鳞目谱系的基因组中区分出八个有鳞目SINEs亚家族,并研究了它们的进化关系。我们的数据说明了有鳞目SINEs作为阐明有鳞目进化历史的新型反转录转座标记的总体效用。我们表明,所有有鳞目SINEs都与Bov - B LINEs共享相同的3'序列,并提出它们利用Bov - B LINEs的酶机制进行自身的反转录转座。这一发现,连同先前在有鳞目基因组中证明的Bov - B LINEs的普遍性,表明自这个SINEs家族在2亿多年前产生以来,这些LINEs一直是有鳞目SINEs的活跃伙伴。

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