LINE-1 ORF1p does not determine substrate preference for human/orangutan SVA and gibbon LAVA.

IF 4.7 2区 生物学 Q1 GENETICS & HEREDITY
Mobile DNA Pub Date : 2020-07-11 eCollection Date: 2020-01-01 DOI:10.1186/s13100-020-00222-y
Annette Damert
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引用次数: 2

Abstract

Background: Non-autonomous VNTR (Variable Number of Tandem Repeats) composite retrotransposons - SVA (SINE-R-VNTR-Alu) and LAVA (L1-Alu-VNTR-Alu) - are specific to hominoid primates. SVA expanded in great apes, LAVA in gibbon. Both SVA and LAVA have been shown to be mobilized by the autonomous LINE-1 (L1)-encoded protein machinery in a cell-based assay in trans. The efficiency of human SVA retrotransposition in vitro has, however, been considerably lower than would be expected based on recent pedigree-based in vivo estimates. The VNTR composite elements across hominoids - gibbon LAVA, orangutan SVA_A descendants and hominine SVA_D descendants - display characteristic structures of the 5' Alu-like domain and the VNTR. Different partner L1 subfamilies are currently active in each of the lineages. The possibility that the lineage-specific types of VNTR composites evolved in response to evolutionary changes in their autonomous partners, particularly in the nucleic acid binding L1 ORF1-encoded protein, has not been addressed.

Results: Here I report the identification and functional characterization of a highly active human SVA element using an improved mneo retrotransposition reporter cassette. The modified cassette (mneoM) minimizes splicing between the VNTR of human SVAs and the neomycin phosphotransferase stop codon. SVA deletion analysis provides evidence that key elements determining its mobilization efficiency reside in the VNTR and 5' hexameric repeats. Simultaneous removal of the 5' hexameric repeats and part of the VNTR has an additive negative effect on mobilization rates. Taking advantage of the modified reporter cassette that facilitates robust cross-species comparison of SVA/LAVA retrotransposition, I show that the ORF1-encoded proteins of the L1 subfamilies currently active in gibbon, orangutan and human do not display substrate preference for gibbon LAVA versus orangutan SVA versus human SVA. Finally, I demonstrate that an orangutan-derived ORF1p supports only limited retrotransposition of SVA/LAVA in trans, despite being fully functional in L1 mobilization in cis.

Conclusions: Overall, the analysis confirms SVA as a highly active human retrotransposon and preferred substrate of the L1-encoded protein machinery. Based on the results obtained in human cells coevolution of L1 ORF1p and VNTR composites does not appear very likely. The changes in orangutan L1 ORF1p that markedly reduce its mobilization capacity in trans might explain the different SVA insertion rates in the orangutan and hominine lineages, respectively.

Abstract Image

Abstract Image

Abstract Image

LINE-1 ORF1p不决定人类/猩猩SVA和长猿LAVA的底物偏好。
背景:非自主VNTR(可变数目串联重复)复合反转录转座子- SVA (sin - r -VNTR- alu)和LAVA (L1-Alu-VNTR-Alu)是类人猿特有的。类人猿的SVA扩展,长臂猿的LAVA扩展。在一项基于细胞的反式实验中,SVA和LAVA都被自主的LINE-1 (L1)编码的蛋白质机制所动员。然而,人类SVA在体外逆转录转位的效率远远低于最近基于家系的体内估计。类人猿(长臂猿LAVA、猩猩SVA_A后代和人猿SVA_D后代)的VNTR复合元素显示出5′Alu-like结构域和VNTR的特征结构。不同的伴侣L1亚家族目前在每个谱系中都很活跃。谱系特异性VNTR复合物的进化可能是对其自主伴侣的进化变化的反应,特别是在核酸结合L1 orf1编码蛋白中,尚未得到解决。结果:在这里,我报告了一个高活性的人类SVA元件的鉴定和功能表征,使用改进的mneo逆转录报告盒。修饰盒(mneoM)最大限度地减少了人类SVAs VNTR与新霉素磷酸转移酶停止密码子之间的剪接。SVA缺失分析提供证据表明,决定其动员效率的关键因素存在于VNTR和5'六聚体重复序列中。同时去除5'六聚体重复序列和部分VNTR对动员率有附加的负面影响。利用改进的报告磁带,促进了对SVA/LAVA反转录转位的强大的跨物种比较,我表明,目前在长臂猿、猩猩和人类中活跃的L1亚家族的orf1编码蛋白对长臂猿LAVA、猩猩SVA和人类SVA并没有表现出底物偏好。最后,我证明了猩猩衍生的ORF1p在反式中仅支持有限的SVA/LAVA反转位,尽管在顺式中L1动员中具有完全功能。结论:总的来说,分析证实了SVA是一个高活性的人类反转录转座子和l1编码蛋白机制的首选底物。基于在人类细胞中获得的结果,L1、ORF1p和VNTR复合物的共同进化不太可能出现。猩猩L1 ORF1p基因的变化显著降低了其转运能力,这可能解释了猩猩和人猿谱系中SVA插入率的不同。
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来源期刊
Mobile DNA
Mobile DNA GENETICS & HEREDITY-
CiteScore
8.20
自引率
6.10%
发文量
26
审稿时长
11 weeks
期刊介绍: Mobile DNA is an online, peer-reviewed, open access journal that publishes articles providing novel insights into DNA rearrangements in all organisms, ranging from transposition and other types of recombination mechanisms to patterns and processes of mobile element and host genome evolution. In addition, the journal will consider articles on the utility of mobile genetic elements in biotechnological methods and protocols.
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