TEENA: an integrated web server for transposable element enrichment analysis in various model and non-model organisms

Li, Yuzhuo; Lyu, Renzhe; Chen, Shuai; Wang, Yejun; Sun, Ming-an

doi:10.1093/nar/gkae411

Nucleic Acids Research

2024

DOI: 10.1093/nar/gkae411

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TEENA: an integrated web server for transposable element enrichment analysis in various model and non-model organisms

Yuzhuo Li,

Renzhe Lyu,

Shuai Chen

et al.

Abstract: Transposable elements (TEs) are abundant in the genomes of various eukaryote organisms. Increasing evidence suggests that TEs can play crucial regulatory roles—usually by creating cis-elements (e.g. enhancers and promoters) bound by distinct transcription factors (TFs). TE-derived cis-elements have gained unprecedented attentions recently, and one key step toward their understanding is to identify the enriched TEs in distinct genomic intervals (e.g. a set of enhancers or TF binding sites) as candidates for fur… Show more

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Cited by 2 publications

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Multi-ancestry GWAS reveals loci linked to human variation in LINE-1- and Alu-copy numbers

Bravo,

Zhang,

Benayoun

2024

Preprint

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Long INterspersed Element-1 (LINE-1; L1) and Alu are two families of transposable elements (TEs) occupying ∼17% and ∼11% of the human genome, respectively. Though only a small fraction of L1 copies is able to produce the machinery to mobilize autonomously, Alu elements and degenerate L1 copies can hijack their functional machinery and mobilizein trans. The expression and subsequent copy number expansion of L1 and Alu can exert pathological effects on their hosts, promoting genome instability, inflammation, and cell cycle alterations. These features have made L1 and Alu promising focus subjects in studies of aging and aging diseases where they can become active. However, the mechanisms regulating variation in their expression and copy number remain incompletely characterized. Moreover, the relevance of known mechanisms to diverse human populations remains unclear, as mechanisms are often characterized in isogenic cell culture models. To address these gaps, we leveraged genomic data from the 1000 Genomes Project to carry out a trans-ethnic GWAS of L1 and Alu insertion global singletons. These singletons are rare insertions observed only once in a population, potentially reflecting recently acquired L1 and Alu integrants or structural variants, and which we used as proxies for L1/Alu-associated copy number variation. Our computational approach identified single nucleotide variants in genomic regions containing genes with potential and known TE regulatory properties, and it enriched for single nucleotide variants in regions containing known regulators of L1 expression. Moreover, we identified many reference TE copies and polymorphic structural variants that were associated with L1/Alu singletons, suggesting their potential contribution to TE copy number variation through transposition-dependent or transposition-independent mechanisms. Finally, a transcriptional analysis of lymphoblastoid cells highlighted potential cell cycle alterations in a subset of samples harboring L1/Alu singletons. Collectively, our results (i) suggest that known TE regulatory mechanisms may also play regulatory roles in diverse human populations, (ii) expand the list of genic and repetitive genomic loci implicated in TE copy number variation, and (iii) reinforce the links between TEs and disease.

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Multi-ancestry GWAS reveals loci linked to human variation in LINE-1- and Alu-copy numbers

Bravo,

Zhang,

Benayoun

2024

Preprint

View full text Add to dashboard Cite

show abstract

Unraveling transposable element-mediated regulatory landscape in diverse human immune cells

Du,

Fan,

Jiang

et al. 2024

Preprint

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Transposable elements (TEs) are key contributors to genetic novelty. Despite increasing evidence of their importance, their roles in shaping the regulatory landscape of diverse immune cell populations remain largely unclear. Using single-cell multiome data from human peripheral blood mononuclear cells, we annotated the cell-specific cis-regulatory elements for major immune cell populations and identified a highly cell-specific signature of the overrepresented TE families. Focusing on monocytes that bear fast-evolving transcriptomes, we found that high proportions of their enhancers are TE-derived and bound by multiple pioneer transcription factors. Among them, we confirmed that the core myeloid regulator SPI1 can bind and regulate hundreds of TE-derived enhancers, which further affect the expression of adjacent immune genes. Additionally, interspecies comparison reveals that non-conserved monocyte enhancers are frequently generated by lineage-specific TE insertions, and correlate with the evolved gene expression between human and mouse. Overall, our study supports the importance of TEs in shaping the regulatory landscape of diverse immune cell populations.

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TEENA: an integrated web server for transposable element enrichment analysis in various model and non-model organisms

Cited by 2 publications

References 46 publications

Multi-ancestry GWAS reveals loci linked to human variation in LINE-1- and Alu-copy numbers

Multi-ancestry GWAS reveals loci linked to human variation in LINE-1- and Alu-copy numbers

Unraveling transposable element-mediated regulatory landscape in diverse human immune cells

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