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Revisiting the Tigger Transposon Evolution Revealing Extensive Involvement in the Shaping of Mammal Genomes

SIMPLE SUMMARY: Despite the discovery of the Tigger family of pogo transposons in the mammalian genome, the evolution profile of this family is still incomplete. Here, we conducted a systematic evolution analysis for Tigger in nature. The data revealed that Tigger was found in a broad variety of ani...

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Autores principales: Diaby, Mohamed, Guan, Zhongxia, Shi, Shasha, Sang, Yatong, Wang, Saisai, Wang, Yali, Zong, Wencheng, Ullah, Numan, Gao, Bo, Song, Chengyi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9219625/
https://www.ncbi.nlm.nih.gov/pubmed/35741442
http://dx.doi.org/10.3390/biology11060921
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author Diaby, Mohamed
Guan, Zhongxia
Shi, Shasha
Sang, Yatong
Wang, Saisai
Wang, Yali
Zong, Wencheng
Ullah, Numan
Gao, Bo
Song, Chengyi
author_facet Diaby, Mohamed
Guan, Zhongxia
Shi, Shasha
Sang, Yatong
Wang, Saisai
Wang, Yali
Zong, Wencheng
Ullah, Numan
Gao, Bo
Song, Chengyi
author_sort Diaby, Mohamed
collection PubMed
description SIMPLE SUMMARY: Despite the discovery of the Tigger family of pogo transposons in the mammalian genome, the evolution profile of this family is still incomplete. Here, we conducted a systematic evolution analysis for Tigger in nature. The data revealed that Tigger was found in a broad variety of animals, and extensive invasion of Tigger was observed in mammal genomes. Common horizontal transfer events of Tigger elements were observed across different lineages of animals, including mammals, that may have led to their widespread distribution, while parasites and invasive species may have promoted Tigger HT events. Our results also indicate that the activity of Tigger transposons tends to be low in vertebrates; only one mammalian genome and fish genome may harbor active Tigger. ABSTRACT: The data of this study revealed that Tigger was found in a wide variety of animal genomes, including 180 species from 36 orders of invertebrates and 145 species from 29 orders of vertebrates. An extensive invasion of Tigger was observed in mammals, with a high copy number. Almost 61% of those species contain more than 50 copies of Tigger; however, 46% harbor intact Tigger elements, although the number of these intact elements is very low. Common HT events of Tigger elements were discovered across different lineages of animals, including mammals, that may have led to their widespread distribution, whereas Helogale parvula and arthropods may have aided Tigger HT incidences. The activity of Tigger seems to be low in the kingdom of animals, most copies were truncated in the mammal genomes and lost their transposition activity, and Tigger transposons only display signs of recent and current activities in a few species of animals. The findings suggest that the Tigger family is important in structuring mammal genomes.
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spelling pubmed-92196252022-06-24 Revisiting the Tigger Transposon Evolution Revealing Extensive Involvement in the Shaping of Mammal Genomes Diaby, Mohamed Guan, Zhongxia Shi, Shasha Sang, Yatong Wang, Saisai Wang, Yali Zong, Wencheng Ullah, Numan Gao, Bo Song, Chengyi Biology (Basel) Article SIMPLE SUMMARY: Despite the discovery of the Tigger family of pogo transposons in the mammalian genome, the evolution profile of this family is still incomplete. Here, we conducted a systematic evolution analysis for Tigger in nature. The data revealed that Tigger was found in a broad variety of animals, and extensive invasion of Tigger was observed in mammal genomes. Common horizontal transfer events of Tigger elements were observed across different lineages of animals, including mammals, that may have led to their widespread distribution, while parasites and invasive species may have promoted Tigger HT events. Our results also indicate that the activity of Tigger transposons tends to be low in vertebrates; only one mammalian genome and fish genome may harbor active Tigger. ABSTRACT: The data of this study revealed that Tigger was found in a wide variety of animal genomes, including 180 species from 36 orders of invertebrates and 145 species from 29 orders of vertebrates. An extensive invasion of Tigger was observed in mammals, with a high copy number. Almost 61% of those species contain more than 50 copies of Tigger; however, 46% harbor intact Tigger elements, although the number of these intact elements is very low. Common HT events of Tigger elements were discovered across different lineages of animals, including mammals, that may have led to their widespread distribution, whereas Helogale parvula and arthropods may have aided Tigger HT incidences. The activity of Tigger seems to be low in the kingdom of animals, most copies were truncated in the mammal genomes and lost their transposition activity, and Tigger transposons only display signs of recent and current activities in a few species of animals. The findings suggest that the Tigger family is important in structuring mammal genomes. MDPI 2022-06-16 /pmc/articles/PMC9219625/ /pubmed/35741442 http://dx.doi.org/10.3390/biology11060921 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Diaby, Mohamed
Guan, Zhongxia
Shi, Shasha
Sang, Yatong
Wang, Saisai
Wang, Yali
Zong, Wencheng
Ullah, Numan
Gao, Bo
Song, Chengyi
Revisiting the Tigger Transposon Evolution Revealing Extensive Involvement in the Shaping of Mammal Genomes
title Revisiting the Tigger Transposon Evolution Revealing Extensive Involvement in the Shaping of Mammal Genomes
title_full Revisiting the Tigger Transposon Evolution Revealing Extensive Involvement in the Shaping of Mammal Genomes
title_fullStr Revisiting the Tigger Transposon Evolution Revealing Extensive Involvement in the Shaping of Mammal Genomes
title_full_unstemmed Revisiting the Tigger Transposon Evolution Revealing Extensive Involvement in the Shaping of Mammal Genomes
title_short Revisiting the Tigger Transposon Evolution Revealing Extensive Involvement in the Shaping of Mammal Genomes
title_sort revisiting the tigger transposon evolution revealing extensive involvement in the shaping of mammal genomes
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9219625/
https://www.ncbi.nlm.nih.gov/pubmed/35741442
http://dx.doi.org/10.3390/biology11060921
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