The Asian arowana (Scleropages formosus) genome provides new insights into the evolution of an early lineage of teleosts

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作者
Chao Bian
Yinchang Hu
Vydianathan Ravi
Inna S. Kuznetsova
Xueyan Shen
Xidong Mu
Ying Sun
Xinxin You
Jia Li
Xiaofeng Li
Ying Qiu
Boon-Hui Tay
Natascha May Thevasagayam
Aleksey S. Komissarov
Vladimir Trifonov
Marsel Kabilov
Alexey Tupikin
Jianren Luo
Yi Liu
Hongmei Song
Chao Liu
Xuejie Wang
Dangen Gu
Yexin Yang
Wujiao Li
Gianluca Polgar
Guangyi Fan
Peng Zeng
He Zhang
Zijun Xiong
Zhujing Tang
Chao Peng
Zhiqiang Ruan
Hui Yu
Jieming Chen
Mingjun Fan
Yu Huang
Min Wang
Xiaomeng Zhao
Guojun Hu
Huanming Yang
Jian Wang
Jun Wang
Xun Xu
Linsheng Song
Gangchun Xu
Pao Xu
Junmin Xu
Stephen J. O’Brien
László Orbán
机构
[1] Shenzhen Key Lab of Marine Genomics,Department of Cytology and Histology
[2] Guangdong Provincial Key Lab of Molecular Breeding in Marine Economic Animals,Department of Biology
[3] BGI-Shenzhen,Department of Animal Sciences and Breeding
[4] Key Laboratory of Tropical & Subtropical Fishery Resource Application & Cultivation,undefined
[5] Ministry of Agriculture,undefined
[6] Pearl River Fisheries Research Institute,undefined
[7] Chinese Academy of Fishery Sciences,undefined
[8] Institute of Molecular and Cell Biology,undefined
[9] A*STAR,undefined
[10] Reproductive Genomics Group,undefined
[11] Temasek Life Sciences Laboratory,undefined
[12] Laboratory of Chromosome Structure and Function,undefined
[13] Biological Faculty,undefined
[14] Saint Petersburg State University,undefined
[15] Realbio Genomics Institute,undefined
[16] Theodosius Dobzhansky Center for Genome Bioinformatics,undefined
[17] Saint Petersburg State University,undefined
[18] Institute of Molecular and Cellular Biology,undefined
[19] Siberian Branch of the Russian Academy of Sciences,undefined
[20] Novosibirsk State University,undefined
[21] Genomics Core Facility,undefined
[22] Institute of Chemical Biology and Fundamental Medicine,undefined
[23] Siberian Branch of the Russian Academy of Sciences,undefined
[24] Environmental and Life Sciences Programme,undefined
[25] Faculty of Science,undefined
[26] Universiti Brunei Darussalam,undefined
[27] James D. Watson Institute of Genome Science,undefined
[28] Princess Al Jawhara Center of Excellence in the Research of Hereditary Disorders,undefined
[29] King Abdulaziz University,undefined
[30] University of Copenhagen,undefined
[31] Dalian Ocean University,undefined
[32] Freshwater Fisheries Research Center,undefined
[33] Chinese Academy of Fishery Sciences,undefined
[34] BGI-Zhenjiang Institute of Hydrobiology,undefined
[35] Oceanographic Center,undefined
[36] Nova Southeastern University Ft. Lauderdale,undefined
[37] Georgikon Faculty,undefined
[38] University of Pannonia,undefined
[39] Centre for Comparative Genomics,undefined
[40] Murdoch University,undefined
来源
Scientific Reports | / 6卷
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摘要
The Asian arowana (Scleropages formosus), one of the world’s most expensive cultivated ornamental fishes, is an endangered species. It represents an ancient lineage of teleosts: the Osteoglossomorpha. Here, we provide a high-quality chromosome-level reference genome of a female golden-variety arowana using a combination of deep shotgun sequencing and high-resolution linkage mapping. In addition, we have also generated two draft genome assemblies for the red and green varieties. Phylogenomic analysis supports a sister group relationship between Osteoglossomorpha (bonytongues) and Elopomorpha (eels and relatives), with the two clades together forming a sister group of Clupeocephala which includes all the remaining teleosts. The arowana genome retains the full complement of eight Hox clusters unlike the African butterfly fish (Pantodon buchholzi), another bonytongue fish, which possess only five Hox clusters. Differential gene expression among three varieties provides insights into the genetic basis of colour variation. A potential heterogametic sex chromosome is identified in the female arowana karyotype, suggesting that the sex is determined by a ZW/ZZ sex chromosomal system. The high-quality reference genome of the golden arowana and the draft assemblies of the red and green varieties are valuable resources for understanding the biology, adaptation and behaviour of Asian arowanas.
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