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Toward a Better Understanding of G4 Evolution in the 3 Living Kingdoms

BACKGROUND: G-quadruplexes (G4s) are secondary structures in DNA and RNA that impact various cellular processes, such as transcription, splicing, and translation. Due to their numerous functions, G4s are involved in many diseases, making their study important. Yet, G4s evolution remains largely unkn...

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Autores principales: Vannutelli, Anaïs, Ouangraoua, Aïda, Perreault, Jean-Pierre
Formato: Online Artículo Texto
Lenguaje:English
Publicado: SAGE Publications 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10693206/
https://www.ncbi.nlm.nih.gov/pubmed/38046653
http://dx.doi.org/10.1177/11769343231212075
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author Vannutelli, Anaïs
Ouangraoua, Aïda
Perreault, Jean-Pierre
author_facet Vannutelli, Anaïs
Ouangraoua, Aïda
Perreault, Jean-Pierre
author_sort Vannutelli, Anaïs
collection PubMed
description BACKGROUND: G-quadruplexes (G4s) are secondary structures in DNA and RNA that impact various cellular processes, such as transcription, splicing, and translation. Due to their numerous functions, G4s are involved in many diseases, making their study important. Yet, G4s evolution remains largely unknown, due to their low sequence similarity and the poor quality of their sequence alignments across several species. To address this, we designed a strategy that avoids direct G4s alignment to study G4s evolution in the 3 species kingdoms. We also explored the coevolution between RBPs and G4s. METHODS: We retrieved one-to-one orthologous genes from the Ensembl Compara database and computed groups of one-to-one orthologous genes. For each group, we aligned gene sequences and identified G4 families as groups of overlapping G4s in the alignment. We analyzed these G4 families using Count, a tool to infer feature evolution into a gene or a species tree. Additionally, we utilized these G4 families to predict G4s by homology. To establish a control dataset, we performed mono-, di- and tri-nucleotide shuffling. RESULTS: Only a few conserved G4s occur among all living kingdoms. In eukaryotes, G4s exhibit slight conservation among vertebrates, and few are conserved between plants. In archaea and bacteria, at most, only 2 G4s are common. The G4 homology-based prediction increases the number of conserved G4s in common ancestors. The coevolution between RNA-binding proteins and G4s was investigated and revealed a modest impact of RNA-binding proteins evolution on G4 evolution. However, the details of this relationship remain unclear. CONCLUSION: Even if G4 evolution still eludes us, the present study provides key information to compute groups of homologous G4 and to reveal the evolution history of G4 families.
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spelling pubmed-106932062023-12-03 Toward a Better Understanding of G4 Evolution in the 3 Living Kingdoms Vannutelli, Anaïs Ouangraoua, Aïda Perreault, Jean-Pierre Evol Bioinform Online Original Research BACKGROUND: G-quadruplexes (G4s) are secondary structures in DNA and RNA that impact various cellular processes, such as transcription, splicing, and translation. Due to their numerous functions, G4s are involved in many diseases, making their study important. Yet, G4s evolution remains largely unknown, due to their low sequence similarity and the poor quality of their sequence alignments across several species. To address this, we designed a strategy that avoids direct G4s alignment to study G4s evolution in the 3 species kingdoms. We also explored the coevolution between RBPs and G4s. METHODS: We retrieved one-to-one orthologous genes from the Ensembl Compara database and computed groups of one-to-one orthologous genes. For each group, we aligned gene sequences and identified G4 families as groups of overlapping G4s in the alignment. We analyzed these G4 families using Count, a tool to infer feature evolution into a gene or a species tree. Additionally, we utilized these G4 families to predict G4s by homology. To establish a control dataset, we performed mono-, di- and tri-nucleotide shuffling. RESULTS: Only a few conserved G4s occur among all living kingdoms. In eukaryotes, G4s exhibit slight conservation among vertebrates, and few are conserved between plants. In archaea and bacteria, at most, only 2 G4s are common. The G4 homology-based prediction increases the number of conserved G4s in common ancestors. The coevolution between RNA-binding proteins and G4s was investigated and revealed a modest impact of RNA-binding proteins evolution on G4 evolution. However, the details of this relationship remain unclear. CONCLUSION: Even if G4 evolution still eludes us, the present study provides key information to compute groups of homologous G4 and to reveal the evolution history of G4 families. SAGE Publications 2023-12-01 /pmc/articles/PMC10693206/ /pubmed/38046653 http://dx.doi.org/10.1177/11769343231212075 Text en © The Author(s) 2023 https://creativecommons.org/licenses/by-nc/4.0/This article is distributed under the terms of the Creative Commons Attribution-NonCommercial 4.0 License (https://creativecommons.org/licenses/by-nc/4.0/) which permits non-commercial use, reproduction and distribution of the work without further permission provided the original work is attributed as specified on the SAGE and Open Access pages (https://us.sagepub.com/en-us/nam/open-access-at-sage).
spellingShingle Original Research
Vannutelli, Anaïs
Ouangraoua, Aïda
Perreault, Jean-Pierre
Toward a Better Understanding of G4 Evolution in the 3 Living Kingdoms
title Toward a Better Understanding of G4 Evolution in the 3 Living Kingdoms
title_full Toward a Better Understanding of G4 Evolution in the 3 Living Kingdoms
title_fullStr Toward a Better Understanding of G4 Evolution in the 3 Living Kingdoms
title_full_unstemmed Toward a Better Understanding of G4 Evolution in the 3 Living Kingdoms
title_short Toward a Better Understanding of G4 Evolution in the 3 Living Kingdoms
title_sort toward a better understanding of g4 evolution in the 3 living kingdoms
topic Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10693206/
https://www.ncbi.nlm.nih.gov/pubmed/38046653
http://dx.doi.org/10.1177/11769343231212075
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