The channel catfish genome sequence provides insights into the evolution of scale formation in teleosts

Liu, Zhanjiang; Liu, Shikai; Yao, Jun; Bao, Lisui; Zhang, Jiaren; Li, Yun; Jiang, Chen; Sun, Luyang; Wang, Ruijia; Zhang, Yu; Zhou, Tao; Zeng, Qifan; Fu, Qiang; Gao, Sen; Li, Ning; Koren, Sergey; Jiang, Yanliang; Zimin, Aleksey V.; Xu, Peng; Phillippy, Adam M.; Geng, Xin; Song, Lin; Sun, Fenyong; Li, Chao; Wang, Xiaozhu; Chen, Ailu; Jin, Yulin; Yuan, Zihao; Yang, Yujia; Tan, Suxu; Peatman, Eric; Lü, Jianguo; Qin, Zhenkui; Dunham, Rex A.; Li, Zhaoxia; Sonstegard, Tad S.; Feng, Jianbin; Danzmann, Roy G.; Schroeder, Steven G.; Scheffler, Brian E.; Duke, Mary V.; Ballard, Linda; Kucuktas, Huseyin; Kaltenboeck, Ludmilla; Liu, Haixia; Armbruster, Jonathan W.; Xie, Yangjie; Kirby, Mona L.; Tian, Yi; Flanagan, Mary Elizabeth; Mu, Weijie; Waldbieser, Geoffrey C.

doi:10.1038/ncomms11757

Cited by 252 publications

(246 citation statements)

References 63 publications

(109 reference statements)

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“…The raw Illumina reads and the assembled transcriptome are available for expanded analyses, and provide a valuable genomic resource for future studies ranging from gene discovery and molecular phylogenetics to control of invasive populations and molecular ecology. Indeed, during the final review of this manuscript a draft genome of the related species Pterygoplichthys pardalis was released along with the annotated genome of the channel catfish, Ictalurus punctatus (Liu et al, 2016). The genomic data provided by Liu et al, 2016 together with the transcriptomic data provided here can now be used in an iterative process to extend our findings on the diversity of defensome genes in this important group of fish.…”

Section: Discussionmentioning

confidence: 99%

The liver transcriptome of suckermouth armoured catfish (Pterygoplichthys anisitsi, Loricariidae): Identification of expansions in defensome gene families

Parente

Moreira

Magalhães

et al. 2017

Marine Pollution Bulletin

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Pterygoplichthys is a genus of related suckermouth armoured catfish native to South America that has invaded tropical and subtropical regions worldwide. Physiological features, including an augmented resistance to organic xenobiotics, may have aided their settlement in foreign habitats. The liver transcriptome of Pterygoplichthys anisitsi was sequenced and used to characterize the diversity of mRNAs potentially involved in the responses to natural and anthropogenic chemicals. In total, 66,642 transcripts were assembled. Among the identified defensome genes, cytochromes P450 (CYP) were the most abundant, followed by nuclear receptors (NR), sulfotransferases (SULT) and ATP binding cassette transporters (ABC). A novel expansion in the CYP2Y subfamily was identified, as well as an independent expansion of the CYP2AAs. Two expansions were also observed among SULT1. Thirty-two transcripts were classified into twelve subfamilies of NR, while 21 encoded ABC transporters. The diversity of defensome transcripts sequenced herein could contribute to this species resistance to organic xenobiotics.

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Section: Discussionmentioning

confidence: 99%

The liver transcriptome of suckermouth armoured catfish (Pterygoplichthys anisitsi, Loricariidae): Identification of expansions in defensome gene families

Parente

Moreira

Magalhães

et al. 2017

Marine Pollution Bulletin

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“…Channel catfish ( Ictalurus punctatus ) and blue catfish ( I. furcatus ) are the two most important species in catfish farming industry due to their high tolerance in a wide range of environmental conditions. They have been also used as models for comparative immunology and environmental toxicology1. In the past decades, various genetic and genomic resources have been produced to facilitate catfish genetic improvement and breeding programs, including development of molecular markers2345, BAC-based physical maps678, expression sequence tags (ESTs)9101112131415 and transcriptome sequencing using RNA-Seq1617181920212223, genetic linkage maps242526272829, and generation of whole genome reference sequences1.…”

mentioning

confidence: 99%

“…As a result, there were limitations with equal spacing of marker intervals and complete genome coverage. The recent catfish reference genome assembly1 provided a platform for the construction of a high-density SNP array with improved genome coverage. In addition, independent genetic analyses using linkage mapping should allow greater levels of integration of the reference genome sequence with linkage maps, validation of the reference genome sequence, and correction of potential mistakes in the reference genome sequence.…”

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confidence: 99%

Development of a 690 K SNP array in catfish and its application for genetic mapping and validation of the reference genome sequence

Zeng

et al. 2017

Sci Rep

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Single nucleotide polymorphisms (SNPs) are capable of providing the highest level of genome coverage for genomic and genetic analysis because of their abundance and relatively even distribution in the genome. Such a capacity, however, cannot be achieved without an efficient genotyping platform such as SNP arrays. In this work, we developed a high-density SNP array with 690,662 unique SNPs (herein 690 K array) that were relatively evenly distributed across the entire genome, and covered 98.6% of the reference genome sequence. Here we also report linkage mapping using the 690 K array, which allowed mapping of over 250,000 SNPs on the linkage map, the highest marker density among all the constructed linkage maps. These markers were mapped to 29 linkage groups (LGs) with 30,591 unique marker positions. This linkage map anchored 1,602 scaffolds of the reference genome sequence to LGs, accounting for over 97% of the total genome assembly. A total of 1,007 previously unmapped scaffolds were placed to LGs, allowing validation and in few instances correction of the reference genome sequence assembly. This linkage map should serve as a valuable resource for various genetic and genomic analyses, especially for GWAS and QTL mapping for genes associated with economically important traits.

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“…The calculated genome size is 0.839 Gb, which is shorter than that (1 Gb) from a 2016 report of an American-native channel catfish [3]. …”

Section: Data Descriptionmentioning

confidence: 76%

“…Gaps were closed using approximately 480 million of Illumina paired-end reads generated from the three libraries with insert sizes of 250, 500 and 800 bp as the input for GapCloser (v1.12-r6, default parameters and −p set to 25) [2]. A final genome assembly of 0.845 Gb in length was obtained (Table 1), which is slightly shorter than that (0.942 Gb) of a recently reported a American-native channel catfish genome [3]. The calculated contig N50 was 48.5 kilobases (kb), and the scaffold N50 was 7.2 Mb (Table 1).…”

Section: Data Descriptionmentioning

confidence: 99%

High-quality genome assembly of channel catfish, Ictalurus punctatus

Chen

Zhong

Bian³

et al. 2016

GigaSci

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BackgroundThe channel catfish (Ictalurus punctatus), a species native to North America, is one of the most important commercial freshwater fish in the world, especially in the United States’ aquaculture industry. Since its introduction into China in 1984, both cultivation area and yield of this species have been dramatically increased such that China is now the leading producer of channel catfish. To aid genomic research in this species, data sets such as genetic linkage groups, long-insert libraries, physical maps, bacterial artificial clones (BAC) end sequences (BES), transcriptome assemblies, and reference genome sequences have been generated. Here, using diverse assembly methods, we provide a comparable high-quality genome assembly for a channel catfish from a breeding stock inbred in China for more than three generations, which was originally imported to China from North America.FindingsApproximately 201.6 gigabases (Gb) of genome reads were sequenced by the Illumina HiSeq 2000 platform. Subsequently, we generated high quality, cost-effective and easily assembled sequences of the channel catfish genome with a scaffold N50 of 7.2 Mb and 95.6 % completeness. We also predicted that the channel catfish genome contains 21,556 protein-coding genes and 275.3 Mb (megabase pairs) of repetitive sequences.ConclusionsWe report a high-quality genome assembly of the channel catfish, which is comparable to a recent report of the “Coco” channel catfish. These generated genome data could be used as an initial platform for molecular breeding to obtain novel catfish varieties using genomic approaches.

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The channel catfish genome sequence provides insights into the evolution of scale formation in teleosts

Cited by 252 publications

References 63 publications

The liver transcriptome of suckermouth armoured catfish (Pterygoplichthys anisitsi, Loricariidae): Identification of expansions in defensome gene families

The liver transcriptome of suckermouth armoured catfish (Pterygoplichthys anisitsi, Loricariidae): Identification of expansions in defensome gene families

Development of a 690 K SNP array in catfish and its application for genetic mapping and validation of the reference genome sequence

High-quality genome assembly of channel catfish, Ictalurus punctatus

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