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author Song, Yue
Yuan, Zengbao
Fang, Chengchi
Zhang, Suyu
Yang, Liandong
Hu, Mingliang
Seim, Inge
Liu, Shanshan
Tian, Xiaolin
Wang, Cheng
Zhang, Yaolei
Pan, Zhaohui
Qu, Qingming
Liu, Hongyue
Li, Yuanning
Pan, Luyuan
Zhu, Chenglong
Yang, Hengjia
Chen, Xiao
Zhang, Mengqi
Hou, Gang
Liu, Meiru
Wang, Jiahao
Liu, Qun
Gan, Xiaoni
Zeng, Honghui
Xu, Wenjie
Feng, Chenguang
Wang, Mengjun
Zhou, Zhuocheng
He, Song
Liu, Chenglong
Yu, Mengjun
Li, Hanbo
Liang, Jian
Zhang, He
Li, Yongxin
Ming-Yuen Lee, Simon
Sun, Yonghua
Qiu, Qiang
Liu, Xin
Kristiansen, Karsten
Wang, Wen
Wang, Jian
Zhu, Min
Yang, Huanming
Chen, Songlin
Gui, Jianfang
Chen, Yiyu
Zhang, Guojie
Xu, Xun
Wang, Kun
Fan, Guangyi
He, Shunping
author_facet Song, Yue
Yuan, Zengbao
Fang, Chengchi
Zhang, Suyu
Yang, Liandong
Hu, Mingliang
Seim, Inge
Liu, Shanshan
Tian, Xiaolin
Wang, Cheng
Zhang, Yaolei
Pan, Zhaohui
Qu, Qingming
Liu, Hongyue
Li, Yuanning
Pan, Luyuan
Zhu, Chenglong
Yang, Hengjia
Chen, Xiao
Zhang, Mengqi
Hou, Gang
Liu, Meiru
Wang, Jiahao
Liu, Qun
Gan, Xiaoni
Zeng, Honghui
Xu, Wenjie
Feng, Chenguang
Wang, Mengjun
Zhou, Zhuocheng
He, Song
Liu, Chenglong
Yu, Mengjun
Li, Hanbo
Liang, Jian
Zhang, He
Li, Yongxin
Ming-Yuen Lee, Simon
Sun, Yonghua
Qiu, Qiang
Liu, Xin
Kristiansen, Karsten
Wang, Wen
Wang, Jian
Zhu, Min
Yang, Huanming
Chen, Songlin
Gui, Jianfang
Chen, Yiyu
Zhang, Guojie
Xu, Xun
Wang, Kun
Fan, Guangyi
He, Shunping
Song, Yue
Yuan, Zengbao
Fang, Chengchi
Zhang, Suyu
Yang, Liandong
Hu, Mingliang
Seim, Inge
Liu, Shanshan
Tian, Xiaolin
Wang, Cheng
Zhang, Yaolei
Pan, Zhaohui
Qu, Qingming
Liu, Hongyue
Li, Yuanning
Pan, Luyuan
Zhu, Chenglong
Yang, Hengjia
Chen, Xiao
Zhang, Mengqi
Hou, Gang
Liu, Meiru
Wang, Jiahao
Liu, Qun
Gan, Xiaoni
Zeng, Honghui
Xu, Wenjie
Feng, Chenguang
Wang, Mengjun
Zhou, Zhuocheng
He, Song
Liu, Chenglong
Yu, Mengjun
Li, Hanbo
Liang, Jian
Zhang, He
Li, Yongxin
Ming-Yuen Lee, Simon
Sun, Yonghua
Qiu, Qiang
Liu, Xin
Kristiansen, Karsten
Wang, Wen
Wang, Jian
Zhu, Min
Yang, Huanming
Chen, Songlin
Gui, Jianfang
Chen, Yiyu
Zhang, Guojie
Xu, Xun
Wang, Kun
Fan, Guangyi
He, Shunping
collection PubMed - marine biology
contents A genomic compendium of hundreds of teleost fishes reveals their evolutionary landscape. Song, Yue Yuan, Zengbao Fang, Chengchi Zhang, Suyu Yang, Liandong Hu, Mingliang Seim, Inge Liu, Shanshan Tian, Xiaolin Wang, Cheng Zhang, Yaolei Pan, Zhaohui Qu, Qingming Liu, Hongyue Li, Yuanning Pan, Luyuan Zhu, Chenglong Yang, Hengjia Chen, Xiao Zhang, Mengqi Hou, Gang Liu, Meiru Wang, Jiahao Liu, Qun Gan, Xiaoni Zeng, Honghui Xu, Wenjie Feng, Chenguang Wang, Mengjun Zhou, Zhuocheng He, Song Liu, Chenglong Yu, Mengjun Li, Hanbo Liang, Jian Zhang, He Li, Yongxin Ming-Yuen Lee, Simon Sun, Yonghua Qiu, Qiang Liu, Xin Kristiansen, Karsten Wang, Wen Wang, Jian Zhu, Min Yang, Huanming Chen, Songlin Gui, Jianfang Chen, Yiyu Zhang, Guojie Xu, Xun Wang, Kun Fan, Guangyi He, Shunping The remarkable morphological diversity and species abundance of teleost fishes offer a valuable resource for understanding vertebrate evolution. In phase I of the Fish10K project, genomes of 110 teleost species were sequenced and assembled, filling gaps in 3 previously unrepresented orders, and integrated with existing data to generate a 464 species whole-genome alignment spanning all teleost orders-the largest such resource beyond mammals and birds. Comparative analyses reveal distinctive genomic features, including progressive genome compaction with shortened intron lengths relative to non-teleost ray-finned fishes. Analysis of the transposable element (TE) landscape suggests a potential association between TE expansion in teleost genomes and different habitats, as well as the uniqueness of teleosts' DNA-dominated transposon composition among vertebrates. Genome-wide phylogenetic analyses refute the widely accepted monophyly of "Siluriphysi" hypothesis and support the hypothesis of a single origin of electroreception followed by secondary loss in Characiformes. A refined evolutionary timeline of teleosts by whole-genome alignment resource placed teleosts at ∼253 million years ago, predating the Permian-Triassic extinction, and delineates three diversification phases punctuated by mass extinctions, challenging continuous post-Cretaceous-Palaeogene acceleration models. This study establishes a large-scale genomic database and a foundational whole-genome alignment resource, advancing insights into the landscape of teleost genomic architecture and macroevolution.
format Artículo científico
id pubmed_41789145
institution PubMed
language en
publishDate 2026
publisher Innovation (Cambridge (Mass.))
record_format pubmed
spellingShingle A genomic compendium of hundreds of teleost fishes reveals their evolutionary landscape.
Song, Yue
Yuan, Zengbao
Fang, Chengchi
Zhang, Suyu
Yang, Liandong
Hu, Mingliang
Seim, Inge
Liu, Shanshan
Tian, Xiaolin
Wang, Cheng
Zhang, Yaolei
Pan, Zhaohui
Qu, Qingming
Liu, Hongyue
Li, Yuanning
Pan, Luyuan
Zhu, Chenglong
Yang, Hengjia
Chen, Xiao
Zhang, Mengqi
Hou, Gang
Liu, Meiru
Wang, Jiahao
Liu, Qun
Gan, Xiaoni
Zeng, Honghui
Xu, Wenjie
Feng, Chenguang
Wang, Mengjun
Zhou, Zhuocheng
He, Song
Liu, Chenglong
Yu, Mengjun
Li, Hanbo
Liang, Jian
Zhang, He
Li, Yongxin
Ming-Yuen Lee, Simon
Sun, Yonghua
Qiu, Qiang
Liu, Xin
Kristiansen, Karsten
Wang, Wen
Wang, Jian
Zhu, Min
Yang, Huanming
Chen, Songlin
Gui, Jianfang
Chen, Yiyu
Zhang, Guojie
Xu, Xun
Wang, Kun
Fan, Guangyi
He, Shunping
A genomic compendium of hundreds of teleost fishes reveals their evolutionary landscape. Song, Yue Yuan, Zengbao Fang, Chengchi Zhang, Suyu Yang, Liandong Hu, Mingliang Seim, Inge Liu, Shanshan Tian, Xiaolin Wang, Cheng Zhang, Yaolei Pan, Zhaohui Qu, Qingming Liu, Hongyue Li, Yuanning Pan, Luyuan Zhu, Chenglong Yang, Hengjia Chen, Xiao Zhang, Mengqi Hou, Gang Liu, Meiru Wang, Jiahao Liu, Qun Gan, Xiaoni Zeng, Honghui Xu, Wenjie Feng, Chenguang Wang, Mengjun Zhou, Zhuocheng He, Song Liu, Chenglong Yu, Mengjun Li, Hanbo Liang, Jian Zhang, He Li, Yongxin Ming-Yuen Lee, Simon Sun, Yonghua Qiu, Qiang Liu, Xin Kristiansen, Karsten Wang, Wen Wang, Jian Zhu, Min Yang, Huanming Chen, Songlin Gui, Jianfang Chen, Yiyu Zhang, Guojie Xu, Xun Wang, Kun Fan, Guangyi He, Shunping The remarkable morphological diversity and species abundance of teleost fishes offer a valuable resource for understanding vertebrate evolution. In phase I of the Fish10K project, genomes of 110 teleost species were sequenced and assembled, filling gaps in 3 previously unrepresented orders, and integrated with existing data to generate a 464 species whole-genome alignment spanning all teleost orders-the largest such resource beyond mammals and birds. Comparative analyses reveal distinctive genomic features, including progressive genome compaction with shortened intron lengths relative to non-teleost ray-finned fishes. Analysis of the transposable element (TE) landscape suggests a potential association between TE expansion in teleost genomes and different habitats, as well as the uniqueness of teleosts' DNA-dominated transposon composition among vertebrates. Genome-wide phylogenetic analyses refute the widely accepted monophyly of "Siluriphysi" hypothesis and support the hypothesis of a single origin of electroreception followed by secondary loss in Characiformes. A refined evolutionary timeline of teleosts by whole-genome alignment resource placed teleosts at ∼253 million years ago, predating the Permian-Triassic extinction, and delineates three diversification phases punctuated by mass extinctions, challenging continuous post-Cretaceous-Palaeogene acceleration models. This study establishes a large-scale genomic database and a foundational whole-genome alignment resource, advancing insights into the landscape of teleost genomic architecture and macroevolution.
title A genomic compendium of hundreds of teleost fishes reveals their evolutionary landscape.
url https://pubmed.ncbi.nlm.nih.gov/41789145/