The Genome and Linkage Map of the Northern Pike (Esox lucius): Conserved Synteny Revealed between the Salmonid Sister Group and the Neoteleostei

Rondeau, Eric B.; Minkley, David R.; Leong, Jong S.; Messmer, Amber; Jantzen, Johanna R.; Schalburg, Kristian R. von; Lemon, Craig; Bird, Nathan H.; Koop, Ben F.

doi:10.1371/journal.pone.0102089

Cited by 135 publications

(179 citation statements)

References 86 publications

(107 reference statements)

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“…The assemblies created in this study all span approximately 650 Mbp, which is similar to the ALLPATHS-LG estimation. 650 Mbp is 71% of the earlier estimation based on Feulgen Image Analysis Densitometry, and in line with similar results in platyfish (70–89% of earlier estimations) [47] and in northern pike (64–100%) [48]. In addition, CEGMA [38] and BUSCO [39] find 89-93% of conserved genes (Table 1), likely reflecting the approximate completeness of the genome assembly.…”

Section: Resultssupporting

confidence: 82%

An improved genome assembly uncovers prolific tandem repeats in Atlantic cod

et al. 2017

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BackgroundThe first Atlantic cod (Gadus morhua) genome assembly published in 2011 was one of the early genome assemblies exclusively based on high-throughput 454 pyrosequencing. Since then, rapid advances in sequencing technologies have led to a multitude of assemblies generated for complex genomes, although many of these are of a fragmented nature with a significant fraction of bases in gaps. The development of long-read sequencing and improved software now enable the generation of more contiguous genome assemblies.ResultsBy combining data from Illumina, 454 and the longer PacBio sequencing technologies, as well as integrating the results of multiple assembly programs, we have created a substantially improved version of the Atlantic cod genome assembly. The sequence contiguity of this assembly is increased fifty-fold and the proportion of gap-bases has been reduced fifteen-fold. Compared to other vertebrates, the assembly contains an unusual high density of tandem repeats (TRs). Indeed, retrospective analyses reveal that gaps in the first genome assembly were largely associated with these TRs. We show that 21% of the TRs across the assembly, 19% in the promoter regions and 12% in the coding sequences are heterozygous in the sequenced individual.ConclusionsThe inclusion of PacBio reads combined with the use of multiple assembly programs drastically improved the Atlantic cod genome assembly by successfully resolving long TRs. The high frequency of heterozygous TRs within or in the vicinity of genes in the genome indicate a considerable standing genomic variation in Atlantic cod populations, which is likely of evolutionary importance.Electronic supplementary materialThe online version of this article (doi:10.1186/s12864-016-3448-x) contains supplementary material, which is available to authorized users.

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Section: Resultssupporting

confidence: 82%

An improved genome assembly uncovers prolific tandem repeats in Atlantic cod

et al. 2017

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“…Members of the dio2 family encode selective, outer ring deiodinases responsible for conversion of thyroxine (T4) to active triiodothyronine (T3) within TH target tissues. The presence of only a single dio2 gene in the Northern pike (Esox lucius), which represents the closely related sister group to salmonids, the Ecosiformes [8], indicates that salmon dio2a and dio2b diverged following WGD within the salmonid lineage. Members of the dio3 family serve the converse function to dio2, encoding selective, inner ring deiodinases responsible for tissue conversion of T4 to inactive reverse T3 (rT3), or inactivating T3 by converting it further to diiodothyronine (T2).…”

Section: Resultsmentioning

confidence: 99%

Functional Divergence of Type 2 Deiodinase Paralogs in the Atlantic Salmon

et al. 2015

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Thyroid hormone (TH) is an ancestral signal linked to seasonal life history transitions throughout vertebrates. TH action depends upon tissue-localized regulation of levels of active TH (triiodothyronine, T3), through spatiotemporal expression of thyroid hormone deiodinase (dio) genes. We investigated the dio gene family in juvenile Atlantic salmon (Salmo salar) parr, which prepare for seaward migration in the spring (smoltification) through TH-dependent changes in physiology. We identified two type 2 deiodinase paralogs, dio2a and dio2b, responsible for conversion of thyroxine (T4) to T3. During smoltification, dio2b was induced in the brain and gills in zones of cell proliferation following increasing day length. Contrastingly, dio2a expression was induced in the gills by transfer to salt water (SW), with the magnitude of the response proportional to the plasma chloride level. This response reflected a selective enrichment for osmotic response elements (OREs) in the dio2a promoter region. Transcriptomic profiling of gill tissue from fish transferred to SW plus or minus the deiodinase inhibitor, iopanoic acid, revealed SW-induced increases in cellular respiration as the principal consequence of gill dio2 activity. Divergent evolution of dio2 paralogs supports organ-specific timing of the TH-dependent events governing the phenotypic plasticity required for migration to sea.

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“…As this analysis required calibration against an outgroup, we included only homeologous pairs having an orthologue in the Northern pike (Esox lucius), a member of the closest related diploid sister-group to salmonids 23 . Our results suggest ~100-80 Mya as a lower boundary for the Ss4R and that the Salmo-Oncorhynchus divergence occurred ~21 Mya ( Fig.…”

Section: Post-ss4r Rediploidization Characteristicsmentioning

confidence: 99%

The Atlantic salmon genome provides insights into rediploidization

Lien

Koop

Sandve

et al. 2016

Nature

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957

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The 22,000-year-old cave painting of an Atlantic salmon (Salmo salar) near the Vézère River in France is a reminder of our fascination with, and dependence on, Atlantic salmon throughout human history. Atlantic salmon belongs to the salmonid lineage which comprises 11 genera, with at least 70 species that exhibit a wide range of ecological adaptations and use a variety of marine and freshwater life history strategies 1 . Salmonids hold important positions as socially iconic species and economic resources within aquaculture, wild fisheries and recreational sport fisheries. Moreover, they serve as key indicator species of the health of North Atlantic and Pacific coastal and river ecosystems.All teleosts share at least three rounds of whole-genome duplication (WGD), 1R and 2R before the divergence of lamprey from the jawed vertebrates 2 , and a third teleost-specific WGD (Ts3R) at the base of the teleosts ~320 million years ago (Mya) [3][4][5] . Very little is known about the mechanisms of genomic and chromosomal reorganization after WGD in vertebrates because the 1R, 2R and Ts3R occurred so long ago that few clear signatures of post-WGD reorganization events remain. In contrast, a fourth WGD (the Ss4R salmonid-specific autotetraploidization event) occurred in the common ancestor of salmonids ~80 Mya after their divergence from Esociformes ~125 Mya 6-8 (Fig. 1), and the continued presence of multivalent pairing at meiosis and evidence of tetrasomic inheritance in salmonid species suggests that diploidy is not yet fully re-established 6,9,10 . Salmonids thus appear to provide an unprecedented opportunity for studying vertebrate genome evolution after an autotetraploid WGD 11,12 over a time period that is long enough to reveal long-term evolutionary patterns, but short enough to give a high-resolution picture of the process. In addition, they provide an excellent setting for contextualizing genome evolution with a dramatic post-WGD species radiation and intricate adaptations to a whole range of life history regimes.Here we present a high-quality reference genome assembly of the Atlantic salmon, and use it to describe major patterns characterizing the post-Ss4R salmonid genome evolution over the past 80 million years (Myr). Our results challenge the recent claim that rediploidization in salmonids has been a gradual process unlinked to significant genome rearrangements 13 . They also challenge current views about the relative importance of sub-and neofunctionalization in vertebrate genomes (reviewed in ref. 14), and the importance of dosage balance as a gene duplicate retention mechanism 15 . Genome characterizationThe Atlantic salmon reference genome assembly (GenBank: GCA_000233375.4) adds up to 2.97 gigabases (Gb) with aThe whole-genome duplication 80 million years ago of the common ancestor of salmonids (salmonid-specific fourth vertebrate whole-genome duplication, Ss4R) provides unique opportunities to learn about the evolutionary fate of a duplicated vertebrate genome in 70 extant lineages. Here we present a high...

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The Genome and Linkage Map of the Northern Pike (Esox lucius): Conserved Synteny Revealed between the Salmonid Sister Group and the Neoteleostei

Cited by 135 publications

References 86 publications

An improved genome assembly uncovers prolific tandem repeats in Atlantic cod

An improved genome assembly uncovers prolific tandem repeats in Atlantic cod

Functional Divergence of Type 2 Deiodinase Paralogs in the Atlantic Salmon

The Atlantic salmon genome provides insights into rediploidization

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