We analyzed the structure of human long non-coding RNA (lncRNAs) genes to investigate whether the non-coding transcriptome is organized in modular domains, as is the case for protein-coding genes. To this aim, we compared all known human lncRNA exons and identified 340 pairs of exons with high sequence and/or secondary structure similarity but embedded in a dissimilar sequence context. We grouped these pairs in 106 clusters based on their reciprocal similarities. These shared modules are highly conserved between humans and the four great ape species, display evidence of purifying selection and likely arose as a result of recent segmental duplications. Our analysis contributes to the understanding of the mechanisms driving the evolution of the non-coding genome and suggests additional strategies towards deciphering the functional complexity of this class of molecules.
Ballesio, F., Pepe, G., Ausiello, G., Novelletto, A., Helmer Citterich, M., Gherardini, P.f. (2024). Human lncRNAs harbor conserved modules embedded in different sequence contexts. NON-CODING RNA RESEARCH, 9(4), 1257-1270 [10.1016/j.ncrna.2024.06.013].
Human lncRNAs harbor conserved modules embedded in different sequence contexts
Ballesio F.;Pepe G.;Ausiello G.;Novelletto A.;Helmer Citterich M.
;Gherardini P. F.
2024-06-22
Abstract
We analyzed the structure of human long non-coding RNA (lncRNAs) genes to investigate whether the non-coding transcriptome is organized in modular domains, as is the case for protein-coding genes. To this aim, we compared all known human lncRNA exons and identified 340 pairs of exons with high sequence and/or secondary structure similarity but embedded in a dissimilar sequence context. We grouped these pairs in 106 clusters based on their reciprocal similarities. These shared modules are highly conserved between humans and the four great ape species, display evidence of purifying selection and likely arose as a result of recent segmental duplications. Our analysis contributes to the understanding of the mechanisms driving the evolution of the non-coding genome and suggests additional strategies towards deciphering the functional complexity of this class of molecules.| File | Dimensione | Formato | |
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