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We have detected seventy-six novel LTR retrotransposons in the genome of the mosquito Aedes aegypti by a genome wide analysis using the LTR_STRUC program. We have performed a phylogenetic classification of these novel elements and a distribution analysis in the genome of A. aegypti. These mobile elements belong either to the Ty3/gypsy or to the Bel family of retrotransposons and were not annotated in the mosquito LTR retrotransposon database (TEfam). We have found that  1.8% of the genome is occupied by these newly detected retrotransposons that are distributed predominantly in intergenic genomic sequences and introns. The potential role of retrotransposon insertions linked to host genes is described and discussed. We show that a retrotransposon family belonging to the Osvaldo lineage has peculiar structural features, and its presence is likely to be restricted to the A. aegypti and to the Culex pipiens quinquefasciatus genomes. Furthermore we show that the ninja-like group of elements lacks the Primer Binding Site (PBS) sequence necessary for the replication of retrotransposons. These results integrate the knowledge on the complicate genomic structure of an important disease vector.  相似文献   

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LTR-retrotransposons contribute substantially to the structural diversity of plant genomes. Recent models of genome evolution suggest that retrotransposon amplification is offset by removal of retrotransposon sequences, leading to a turnover of retrotransposon populations. While bursts of amplification have been documented, it is not known whether removal of retrotransposon sequences occurs continuously, or is triggered by specific stimuli over short evolutionary periods. In this work, we have characterized the evolutionary dynamics of four populations of copia-type retrotransposons in allotetraploid tobacco (Nicotiana tabacum) and its two diploid progenitors Nicotiana sylvestris and Nicotiana tomentosiformis. We have used SSAP (Sequence-Specific Amplification Polymorphism) to evaluate the contribution retrotransposons have made to the diversity of tobacco and its diploid progenitor species, to quantify the contribution each diploid progenitor has made to tobacco's retrotransposon populations, and to estimate losses or amplifications of retrotransposon sequences subsequent to tobacco's formation. Our results show that the tobacco genome derives from a turnover of retrotransposon sequences with removals concomitant with new insertions. We have detected unique behaviour specific to each retrotransposon population, with differences likely reflecting distinct evolutionary histories and activities of particular elements. Our results indicate that the retrotransposon content of a given plant species is strongly influenced by the host evolutionary history, with periods of rapid turnover of retrotransposon sequences stimulated by allopolyploidy.  相似文献   

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The repetitive sequence PisTR-A has an unusual organization in the pea (Pisum sativum) genome, being present both as short dispersed repeats as well as long arrays of tandemly arranged satellite DNA. Cloning, sequencing and FISH analysis of both PisTR-A variants revealed that the former occurs in the genome embedded within the sequence of Ty3/gypsy-like Ogre elements, whereas the latter forms homogenized arrays of satellite repeats at several genomic loci. The Ogre elements carry the PisTR-A sequences in their 3′ untranslated region (UTR) separating the gag-pol region from the 3′ LTR. This region was found to be highly variable among pea Ogre elements, and includes a number of other tandem repeats along with or instead of PisTR-A. Bioinformatic analysis of LTR-retrotransposons mined from available plant genomic sequence data revealed that the frequent occurrence of variable tandem repeats within 3′ UTRs is a typical feature of the Tat lineage of plant retrotransposons. Comparison of these repeats to known plant satellite sequences uncovered two other instances of satellites with sequence similarity to a Tat-like retrotransposon 3′ UTR regions. These observations suggest that some retrotransposons may significantly contribute to satellite DNA evolution by generating a library of short repeat arrays that can subsequently be dispersed through the genome and eventually further amplified and homogenized into novel satellite repeats.  相似文献   

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Microsporidia are a group of intracellular parasites with an extremely compact genome and there is no confirmed evidence that retroelements are parasitised in these organisms. Using the dataset of 200,000 genomic shotgun reads of the silkworm pebrine Nosema bombycis, we have identified the eight complete N. bombycis long-terminal repeat retrotransposon (Nbr) elements. All of the Nbr elements are Ty3/gypsy members and have close relationships to Saccharomycetes long-terminal repeat retrotransposons identified previously, providing further evidence of their relationship to fungi. To explore the effect of retrotransposons in microsporidian genome evolution, their distribution was characterised by comparisons between two N. bombycis contigs containing the Nbr elements with the completed genome of the human parasite Encephalitozoon cuniculi, which is closely related to N. bombycis. The Nbr elements locate between or beside syntenic blocks, which are often clustered with other transposable-like sequences, indicating that they are associated with genome size variation and syntenic discontinuities. The ratios of the number of non-synonymous substitutions per non-synonymous site to the number of synonymous substitutions per synonymous site of the open reading frames among members of each of the eight Nbr families were estimated, which reveal the purifying selection acted on the N. bombycis long-terminal repeat retrotransposons. These results strongly suggest that retrotransposons play a major role in reorganization of the microsporidian genome and they might be active. The present study presents an initial characterization of some transposable elements in the N. bombycis genome and provides some insight into the evolutionary mechanism of microsporidian genomes.  相似文献   

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转座子是真核生物基因组的重要组成成分。为了研究家蚕Bombyx mori长末端重复序列 (long terminal repeat, LTR)逆转录转座子的分类及进化, 本研究采用de novo预测和同源性搜索相结合的方法, 在家蚕基因组中共鉴定出了38个LTR逆转录转座子家族, 序列长度占整个基因组的0.64%, 远小于先前预测的11.8%, 其中有6个家族为本研究的新发现。38个家族中, 26个家族有表达序列标签 (expression sequence tag, EST)证据, 表明这些家族具有潜在的活性。对有EST证据的6个家族和没有EST证据的5个家族用RT-PCR进行了组织表达谱实验, 结果表明这11个家族在一些组织中有表达, 这进一步证实了这些家族具有转录活性, 基于此我们推测家蚕中大部分的LTR逆转录转座子家族很可能具有潜在活性。对转座子的插入时间进行估计, 结果表明绝大部分元件都是最近1百万年内插入到家蚕基因组中的。我们还比较了黑腹果蝇Drosophila melanogaster、 冈比亚按蚊Anopheles gambiae和家蚕B. mori中Ty3/Gypsy超家族分支的差异, 结果表明不同枝在不同昆虫中有着不同的扩张。家蚕中LTR逆转录转座子的鉴定和系统分析有助于我们理解逆转录转座子在昆虫进化中的作用。  相似文献   

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Bao J  Yan W 《Biology of reproduction》2012,86(5):162, 1-162,14
Repetitive sequences, especially transposon-derived interspersed repetitive elements, account for a large fraction of the genome in most eukaryotes. Despite the repetitive nature, these transposable elements display quantitative and qualitative differences even among species of the same lineage. Although transposable elements contribute greatly as a driving force to the biological diversity during evolution, they can induce embryonic lethality and genetic disorders as a result of insertional mutagenesis and genomic rearrangement. Temporary relaxation of the epigenetic control of retrotransposons during early germline development opens a risky window that can allow retrotransposons to escape from host constraints and to propagate abundantly in the host genome. Because germline mutations caused by retrotransposon activation are heritable and thus can be deleterious to the offspring, an adaptive strategy has evolved in host cells, especially in the germline. In this review, we will attempt to summarize general defense mechanisms deployed by the eukaryotic genome, with an emphasis on pathways utilized by the male germline to confer retrotransposon silencing.  相似文献   

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