Your search keyword '"Salmonidae classification"' showing total 92 results

1. Salmonid fishes.

Author

Brand JA, Thorstad EB, Quinn TP, Brodin T, and Bertram MG

Subjects

Animals, Salmonidae classification, Salmonidae physiology

Abstract

Jack Brand and colleagues introduce the salmonid fishes comprising over 200 species., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

2. A fast HRMA tool to authenticate eight salmonid species in commercial food products.

Author

Monteiro CS, Deconinck D, Eljasik P, Sobczak M, Derycke S, Panicz R, Kane N, Mazloomrezaei M, H Devlin R, and Faria MA

Subjects

Animals, Real-Time Polymerase Chain Reaction, Reproducibility of Results, Salmonidae genetics, Species Specificity, Fish Products analysis, Salmonidae classification

Abstract

Atlantic and Pacific salmon are frequently consumed species with very different economic values: farmed Atlantic salmon is cheaper than wild-caught Pacific salmons. Species replacements occur with the high valued Pacific species (Oncorhynchus keta, O. gorbuscha, O. kisutch, O. nerka and O. tshawytscha) substituted by cheaper farmed Atlantic salmon (Salmo salar) and Atlantic salmon by rainbow trout (Oncorhynchus mykiss) and brown trout (Salmo trutta). Here we use High-Resolution Melting Analysis (HRMA) to identify eight salmonid species. We designed primers to generate short amplicons of 72 and 116 bp from the fish barcode genes CO1 and CYTB. The time of analysis was under 70 min, after DNA extraction. Food processing of Atlantic salmon (fresh, "Bellevue", "gravadlax", frozen and smoked) did not impact the HRMA profiles allowing reliable identification. A blind test was conducted by three different institutes, showing correct species identifications irrespective of the laboratory conducting the analysis. Finally, a total of 82 retail samples from three European countries were analyzed and a low substitution rate of 1.2% was found. The developed tool provides a quick way to investigate salmon fraud and contributes to safeguard consumers., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

3. Endangered predators and endangered prey: Seasonal diet of Southern Resident killer whales.

Author

Hanson MB, Emmons CK, Ford MJ, Everett M, Parsons K, Park LK, Hempelmann J, Van Doornik DM, Schorr GS, Jacobsen JK, Sears MF, Sears MS, Sneva JG, Baird RW, and Barre L

Subjects

Animals, British Columbia, Conservation of Natural Resources, Endangered Species, Feces chemistry, High-Throughput Nucleotide Sequencing, Rivers, Salmon classification, Salmonidae classification, Seasons, Washington, Animal Feed analysis, Predatory Behavior physiology, Salmon genetics, Salmonidae genetics, Sequence Analysis, DNA veterinary, Whale, Killer physiology

Abstract

Understanding diet is critical for conservation of endangered predators. Southern Resident killer whales (SRKW) (Orcinus orca) are an endangered population occurring primarily along the outer coast and inland waters of Washington and British Columbia. Insufficient prey has been identified as a factor limiting their recovery, so a clear understanding of their seasonal diet is a high conservation priority. Previous studies have shown that their summer diet in inland waters consists primarily of Chinook salmon (Oncorhynchus tshawytscha), despite that species' rarity compared to some other salmonids. During other times of the year, when occurrence patterns include other portions of their range, their diet remains largely unknown. To address this data gap, we collected feces and prey remains from October to May 2004-2017 in both the Salish Sea and outer coast waters. Using visual and genetic species identification for prey remains and genetic approaches for fecal samples, we characterized the diet of the SRKWs in fall, winter, and spring. Chinook salmon were identified as an important prey item year-round, averaging ~50% of their diet in the fall, increasing to 70-80% in the mid-winter/early spring, and increasing to nearly 100% in the spring. Other salmon species and non-salmonid fishes, also made substantial dietary contributions. The relatively high species diversity in winter suggested a possible lack of Chinook salmon, probably due to seasonally lower densities, based on SRKW's proclivity to selectively consume this species in other seasons. A wide diversity of Chinook salmon stocks were consumed, many of which are also at risk. Although outer coast Chinook samples included 14 stocks, four rivers systems accounted for over 90% of samples, predominantly the Columbia River. Increasing the abundance of Chinook salmon stocks that inhabit the whales' winter range may be an effective conservation strategy for this population., Competing Interests: Our affiliation with Biowaves, Inc. does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published

2021

4. Fate of MHCII in salmonids following 4WGD.

Author

Grimholt U and Lukacs M

Subjects

Animals, Chromosome Mapping, Esocidae classification, Esocidae genetics, Esocidae immunology, Evolution, Molecular, Histocompatibility Antigens Class II genetics, Histocompatibility Antigens Class II immunology, Phylogeny, Salmonidae classification, Salmonidae immunology, Gene Duplication, Genes, MHC Class II genetics, Genome genetics, Salmonidae genetics

Abstract

Major histocompatibility complex (MHC) genes are key players in the adaptive immunity providing a defense against invading pathogens. Although the basic structures are similar when comparing mammalian and teleost MHC class II (MHCII) molecules, there are also clear-cut differences. Based on structural requirements, the teleosts non-classical MHCII molecules do not comply with a function similar to the human HLA-DM and HLA-DO, i.e., assisting in peptide loading and editing of classical MHCII molecules. We have previously studied the evolution of teleost class II genes identifying various lineages and tracing their phylogenetic occurrence back to ancient ray-finned fishes. We found no syntenic MHCII regions shared between cyprinids, salmonids, and neoteleosts, suggesting regional instabilities. Salmonids have experienced a unique whole genome duplication 94 million years ago, providing them with the opportunity to experiment with gene duplicates. Many salmonid genomes have recently become available, and here we set out to investigate how MHCII has evolved in salmonids using Northern pike as a diploid sister phyla, that split from the salmonid lineage prior to the fourth whole genome duplication (4WGD) event. We identified 120 MHCII genes in pike and salmonids, ranging from 11 to 20 genes per species analyzed where DB-group genes had the most expansions. Comparing the MHC of Northern pike with that of Atlantic salmon and other salmonids species provides a tale of gene loss, translocations, and genome rearrangements.

Published

2021

5. Differentiating salmonid migratory ecotypes through stable isotope analysis of collagen: Archaeological and ecological applications.

Author

Guiry E, Royle TCA, Matson RG, Ward H, Weir T, Waber N, Brown TJ, Hunt BPV, Price MHH, Finney BP, Kaeriyama M, Qin Y, Yang DY, and Szpak P

Subjects

Animal Migration, Animal Scales chemistry, Animals, Archaeology, Biodiversity, Bone and Bones chemistry, Carbon Isotopes analysis, Conservation of Natural Resources, DNA, Ancient analysis, Ecotype, Female, Lakes, Male, Pacific Ocean, Salmon classification, Salmon genetics, Salmonidae classification, Salmonidae genetics, Collagen chemistry, Fish Proteins chemistry, Salmon physiology, Salmonidae physiology

Abstract

The ability to distinguish between different migratory behaviours (e.g., anadromy and potamodromy) in fish can provide important insights into the ecology, evolution, and conservation of many aquatic species. We present a simple stable carbon isotope (δ13C) approach for distinguishing between sockeye (anadromous ocean migrants) and kokanee (potamodromous freshwater residents), two migratory ecotypes of Oncorhynchus nerka (Salmonidae) that is applicable throughout most of their range across coastal regions of the North Pacific Ocean. Analyses of kokanee (n = 239) and sockeye (n = 417) from 87 sites spanning the North Pacific (Russia to California) show that anadromous and potamodromous ecotypes are broadly distinguishable on the basis of the δ13C values of their scale and bone collagen. We present three case studies demonstrating how this approach can address questions in archaeology, archival, and conservation research. Relative to conventional methods for determining migratory status, which typically apply chemical analyses to otoliths or involve genetic analyses of tissues, the δ13C approach outlined here has the benefit of being non-lethal (when applied to scales), cost-effective, widely available commercially, and should be much more broadly accessible for addressing archaeological questions since the recovery of otoliths at archaeological sites is rare., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

6. How "simple" methodological decisions affect interpretation of population structure based on reduced representation library DNA sequencing: A case study using the lake whitefish.

Author

Graham CF, Boreham DR, Manzon RG, Stott W, Wilson JY, and Somers CM

Subjects

Animals, Genetic Speciation, Salmonidae classification, Computational Biology methods, Gene Library, Genetic Variation, Genetics, Population, Genome, Salmonidae genetics, Sequence Analysis, DNA methods

Abstract

Reduced representation (RRL) sequencing approaches (e.g., RADSeq, genotyping by sequencing) require decisions about how much to invest in genome coverage and sequencing depth, as well as choices of values for adjustable bioinformatics parameters. To empirically explore the importance of these "simple" methodological decisions, we generated two independent sequencing libraries for the same 142 individual lake whitefish (Coregonus clupeaformis) using a nextRAD RRL approach: (1) a larger number of loci at low sequencing depth based on a 9mer (library A); and (2) fewer loci at higher sequencing depth based on a 10mer (library B). The fish were selected from populations with different levels of expected genetic subdivision. Each library was analyzed using the STACKS pipeline followed by three types of population structure assessment (FST, DAPC and ADMIXTURE) with iterative increases in the stringency of sequencing depth and missing data requirements, as well as more specific a priori population maps. Library B was always able to resolve strong population differentiation in all three types of assessment regardless of the selected parameters, largely due to retention of more loci in analyses. In contrast, library A produced more variable results; increasing the minimum sequencing depth threshold (-m) resulted in a reduced number of retained loci, and therefore lost resolution at high -m values for FST and ADMIXTURE, but not DAPC. When detecting fine population differentiation, the population map influenced the number of loci and missing data, which generated artefacts in all downstream analyses tested. Similarly, when examining fine scale population subdivision, library B was robust to changing parameters but library A lost resolution depending on the parameter set. We used library B to examine actual subdivision in our study populations. All three types of analysis found complete subdivision among populations in Lake Huron, ON and Dore Lake, SK, Canada using 10,640 SNP loci. Weak population subdivision was detected in Lake Huron with fish from sites in the north-west, Search Bay, North Point and Hammond Bay, showing slight differentiation. Overall, we show that apparently simple decisions about library construction and bioinformatics parameters can have important impacts on the interpretation of population subdivision. Although potentially more costly on a per-locus basis, early investment in striking a balance between the number of loci and sequencing effort is well worth the reduced genomic coverage for population genetics studies. More conservative stringency settings on STACKS parameters lead to a final dataset that was more consistent and robust when examining both weak and strong population differentiation. Overall, we recommend that researchers approach "simple" methodological decisions with caution, especially when working on non-model species for the first time., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

7. Proteomic Analysis of the Lake Trout (Salvelinus namaycush) Liver Identifies Proteins from Evolutionarily Close and -Distant Fish Relatives.

Author

Dupree EJ, Crimmins BS, Holsen TM, and Darie CC

Subjects

Animals, Salmonidae classification, Salmonidae growth & development, Evolution, Molecular, Fish Proteins metabolism, Liver metabolism, Proteome analysis, Proteomics methods, Salmonidae metabolism

Abstract

Lake trout are used as bioindicators for toxics exposure in the Great Lakes ecosystem. Here the first lake trout (Salvelinus namaycush) liver proteomics study is performed and searched against specific databases: (NCBI and UniProtKB) Salvelinus, Salmonidae, Actinopterygii, and Oncorhynchus mykiss, and the more distant relative, Danio rerio. In the biological replicate 1 (BR1), technical replicate 1 (TR1), (BR1TR1), a large number of lake trout liver proteins are not in the Salvelinus protein database, suggesting that lake trout liver proteins have homology to some proteins from the Salmonidae family and Actinopterygii class, and to Oncorhynchus mykiss and Danio rerio, two more highly studied fish. In the NCBI search, 4194 proteins are identified: 3069 proteins in Actinopterygii, 1617 in Salmonidae, 68 in Salvelinus, 568 in Oncorhynchus mykiss, and 946 in Danio rerio protein databases. Similar results are observed in the UniProtKB searches of BR1RT1, as well as in a technical replicate (BR1TR2), and then in a second biological replicate experiment, with two technical replicates (BR2TR1 and BR2TR2). This study opens the possibility of identifying evolutionary relationships (i.e., adaptive mutations) between various groups (i.e., zebrafish, rainbow trout, Salmonidae, Salvelinus and lake trout) through evolutionary proteomics. Data are available via the PRIDE Q2 (PXD011924)., (© 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

8. Population differentiation and genetic diversity of endangered Brachymystax tsinlingensis Li between Yangtze River and Yellow River in China based on mtDNA.

Author

Shao J, Xiong D, Chu Z, Wu J, Du H, Wang F, Wen S, and Wei Q

Subjects

Animal Distribution, Animals, China, DNA Barcoding, Taxonomic, Species Specificity, Extinction, Biological, Genome, Mitochondrial genetics, Rivers, Salmonidae classification, Salmonidae genetics

Abstract

Brachymystax tsinlingensis Li, distributed scatteredly in Qinling Mountains of China, is an ideal material for studies of conservation and phylogeography. In the present study, the genetic variations and phylogeographical patterns of B. tsinlingensis collecting from the Yangtze River ( n  = 30) and the Yellow River ( n  = 70) were compared based on 1082-1163 bp control region with partial tRNA and 912 bp cyt b partial sequence of mtDNA. Analysis of variance indicated that a high proportion of the total genetic variance (96.03%) was distributed among populations, supporting strong geographic structuring of mtDNA polymorphism. Ten haplotypes were assigned to two clades that were related to geographic regions. No haplotype shared between geographic populations from the Yangtze River and the Yellow River, and two clades related to geographic regions can be clearly found from phylogenetic analysis by Bayesian approach, one from individuals in the Yangtze River and the other from individuals in the Yellow River, which probably indicated artificial carrying not happened historically. The mitochondrial results revealed an obvious differentiation of genetic structure of B. tsinlingensis between populations of Yellow River and Yangtze River, and the estimated diverge time around 0.20 MY. It was suggested that each of the two evolutionarily distinct groups of B. tsinlingensis should be protected and crossing individuals between two river systems should be avoided for conservation purpose.

Published

2019

9. Testing the devil's impact on southern Baltic and North Sea basins whitefish (Coregonus spp.) diversity.

Author

Mehner T, Pohlmann K, Bittner D, and Freyhof J

Subjects

Animal Migration, Animals, Fisheries, Genetic Variation, Germany, Lakes, Microsatellite Repeats, North Sea, Phylogeny, Phylogeography, Rivers, Russia, Salmonidae classification, Salmonidae genetics

Abstract

Background: The diversity and phylogeny of whitefish of the genus Coregonus is complex, and includes many endemic species of high conservation concern. However, because of commercial importance of whitefish fisheries, stockings and translocations have occurred repeatedly, which challenges the identification of local populations as conservation units. This study analyses the phylogenetic relationships of 15 contemporary and two historical populations of lake-resident and anadromous whitefish (Coregonus spp.) from the southern Baltic and North Sea basins. We elucidated the complex history of Lake Schaal (northern Germany) whitefish, for which a local tale suggests that the devil threw whitefish from the Central European Lake Constance into this lake. Studies from the early twentieth century indeed suggested numerous stocking events for Lake Schaal from Lake Constance, from Estonian/Russian Lake Peipsi and from the anadromous whitefish of the Baltic Sea., Results: Analyses of 13 microsatellite markers showed that Lake Constance whitefish are unrelated to any northern Germany whitefish population, including the contemporary whitefish population from Lake Schaal. Comparison with four historical specimens further showed that the native Lake Schaal whitefish (C. holsatus) vanished from the lake, but has survived as a non-native population in the north German Lake Drewitz. The whitefish currently occurring in Lake Schaal and three adjacent lakes are identified as C. maraenoides, introduced from Lake Peipsi. The contemporary anadromous whitefish populations from the Baltic (German and Finnish coast) and the German River Treene (North Sea basin, stocked from Danish River Vida) grouped together, but showed significant genetic differentiation. The 14 historical specimens of C. oxyrinchus from Rivers Rhine and Schelde were assigned to several contemporary whitefish populations, but among them only one specimen was assigned to the contemporary River Treene population. Therefore, we do not support the view that the whitefish from River Vida/Treene are identical with the historical C. oxyrinchus., Conclusions: Our study demonstrates that lake and anadromous whitefish in the Baltic and North Sea basins reflect a complex phylogeography, which is further blurred by the effects of repeated stocking and translocations. To identify conservation units, the genetic identity of each population has to be scrutinized.

Published

2018

10. Development of sperm vitrification protocols for two endangered salmonid species: the Adriatic grayling, Thymallus thymallus, and the marble trout, Salmo marmoratus.

Author

Kása E, Lujić J, Marinović Z, Kollár T, Bernáth G, Bokor Z, Urbányi B, Lefler KK, Jesenšek D, and Horváth Á

Subjects

Animals, Cryoprotective Agents pharmacology, Fertilization, Male, Salmonidae classification, Cryopreservation veterinary, Endangered Species, Salmonidae physiology, Semen Analysis veterinary, Semen Preservation veterinary, Sperm Motility, Vitrification

Abstract

Vitrification was applied to the sperm of two endangered fish species of Soča River basin in Slovenia, the Adriatic grayling (Thymallus thymallus) and marble trout (Salmo marmoratus) following testing different cooling devices and vitrifying media. Sperm was collected, diluted in species-specific non-activating media containing cryoprotectants, and vitrified by plunging directly into liquid nitrogen without pre-cooling. Progressive motility, curvilinear velocity, and straightness of fresh and vitrified-warmed sperm were evaluated with computer-assisted sperm analysis (CASA). Fertilization trials were carried out to test the effectiveness of vitrification in the case of grayling. A protocol utilizing a glucose-based extender, 30% cryoprotectants (15% methanol + 15% propylene glycol), 1:1 dilution ratio, and droplets of 2 μl on a Cryotop as cooling device yielded the highest post-thaw motility values for both Adriatic grayling (7.5 ± 6.5%) and marble trout (26.6 ± 15.8%). Viable embryos were produced by fertilizing eggs with vitrified grayling sperm (hatching 13.1 ± 11.7%, control hatching 73.9 ± 10.4%). The vitrification protocol developed in this study can be utilized in the conservation efforts for the two species as an alternative to slow-rate freezing when working in field conditions or when specific equipment necessary for slow-rate freezing is not available.

Published

2018

11. Interspecific germ cell transplantation: a new light in the conservation of valuable Balkan trout genetic resources?

Author

Lujić J, Marinović Z, Bajec SS, Djurdjevič I, Urbányi B, and Horváth Á

Subjects

Animals, Balkan Peninsula, Cell Differentiation, Cell Transplantation methods, Conservation of Natural Resources, Embryo, Nonmammalian physiology, Embryonic Development, Oncorhynchus mykiss genetics, Salmonidae classification, Salmonidae genetics, Cell Transplantation veterinary, Embryo, Nonmammalian cytology, Germ Cells cytology, Germ Cells transplantation, Oncorhynchus mykiss embryology, Salmonidae embryology, Transplantation, Heterologous veterinary

Abstract

Interspecific transplantation of germ cells from the brown trout Salmo trutta m. fario and the European grayling Thymallus thymallus into rainbow trout Oncorhynchus mykiss recipients was carried out in order to improve current practices in conservation of genetic resources of endangered salmonid species in the Balkan Peninsula. Current conservation methods mainly include in situ efforts such as the maintenance of purebred individuals in isolated streams and restocking with purebred fingerlings; however, additional ex situ strategies such as surrogate production are needed. Steps required for transplantation such as isolation of high number of viable germ cells and fluorescent labeling of germ cells which are to be transplanted have been optimized. Isolated and labeled brown trout and grayling germ cells were intraperitoneally transplanted into 3 to 5 days post hatch rainbow trout larvae. Survival of the injected larvae was comparable to the controls. Sixty days after transplantation, fluorescently labeled donor cells were detected within the recipient gonads indicating successful incorporation of germ cells (brown trout spermatogonia and oogonia-27%; grayling spermatogonia-28%; grayling oogonia-23%). PCR amplification of donor mtDNA CR fragments within the recipient gonads additionally corroborated the success of incorporation. Overall, the transplantation method demonstrated in this study presents the first step and a possible onset of the application of the germ cell transplantation technology in conservation and revitalization of genetic resources of endangered and endemic species or populations of salmonid fish and thus give rise to new or improved management strategies for such species.

Published

2018

12. Salmo macrostigma (Teleostei, Salmonidae): Nothing more than a brown trout (S. trutta) lineage?

Author

Tougard C, Justy F, Guinand B, Douzery EJP, and Berrebi P

Subjects

Animals, Biological Evolution, Salmonidae genetics, Trout genetics, Phylogeny, Salmonidae classification

Abstract

We examined specimens of the macrostigma trout Salmo macrostigma, which refers to big black spots on the flanks, to assess whether it is an example of taxonomic inflation within the brown trout Salmo trutta complex. Using new specimens, publicly available data and a mitogenomic protocol to amplify the control and cytochrome b regions of the mitochondrial genome from degraded museum samples, including one syntype specimen, the present study shows that the macrostigma trout is not a valid species. Our results suggest the occurrence of a distinct evolutionary lineage of S. trutta in North Africa and Sicily. The name of the North African lineage is proposed for this lineage, which was found to be sister to the Atlantic lineage of brown trout, S. trutta., (© 2018 The Fisheries Society of the British Isles.)

Published

2018

13. Inferring phylogenetic structure, hybridization and divergence times within Salmoninae (Teleostei: Salmonidae) using RAD-sequencing.

Author

Lecaudey LA, Schliewen UK, Osinov AG, Taylor EB, Bernatchez L, and Weiss SJ

Subjects

Animals, Base Sequence, Bayes Theorem, Calibration, Data Analysis, Fossils, Likelihood Functions, Time Factors, Genetic Variation, Hybridization, Genetic, Phylogeny, Restriction Mapping, Salmonidae classification, Salmonidae genetics, Sequence Analysis, DNA methods

Abstract

Phylogenetic studies focusing on Salmonidae have revealed significant obstacles in trying to clarify some interspecific relationships within the Salmoninae subfamily, due to a limited number of markers typed, conflicting phylogenetic signals and ancient hybridization events. To infer reliable phylogenetic relationships, evaluate several putative scenarios of ancient hybridization, and estimate divergence times within Salmoninae, we applied restriction-site associated DNA sequencing (RAD-seq) to 43 samples, including 26 genetic lineages across 21 species, largely representing the subfamily, with an emphasis on the genus Salvelinus. We identified 28,402 loci and 28,363 putatively unlinked SNPs, which were used in downstream analyses. Using an iterative k-means partitioned dataset and a Maximum Likelihood approach; we generated a well-supported phylogeny, providing clear answers to several previous phylogenetic uncertainties. We detected several significant introgression signals, presumably ancient, in the genus Salvelinus. The most recent common ancestor of Salmonidae dates back to approximately 58.9MY ago (50.8-64 MY) and the crown age of Salmoninae was estimated to be 37.7 MY (35.2-40.8 MY) using a Bayesian molecular dating analysis with a relaxed molecular clock. The divergence among genera of the subfamily occurred between the late Eocene and middle of the Miocene (≈38-11 MY) such as the divergence between the genus Oncorhynchus and Salvelinus, which we estimated to 21.2 MY ago (95% HPD: 19.8-23.0 MY), while species diversification took place mainly during the Neogene (≈22-1.5 MY), with more than half of these events occurring in the last 10 MY., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

14. Holobionts and ecological speciation: the intestinal microbiota of lake whitefish species pairs.

Author

Sevellec M, Derome N, and Bernatchez L

Subjects

Animals, Bacteria isolation & purification, Base Sequence, DNA, Bacterial genetics, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Bacteria classification, Bacteria genetics, Gastrointestinal Microbiome genetics, Intestines microbiology, Lakes microbiology, Salmonidae classification, Salmonidae microbiology

Abstract

Background: It is well established that symbionts have considerable impact on their host, yet the investigation of the possible role of the holobiont in the host's speciation process is still in its infancy. In this study, we compared the intestinal microbiota among five sympatric pairs of dwarf (limnetic) and normal (benthic) lake whitefish Coregonus clupeaformis representing a continuum in the early stage of ecological speciation. We sequenced the 16s rRNA gene V3-V4 regions of the intestinal microbiota present in a total of 108 wild sympatric dwarf and normal whitefish as well as the water bacterial community from five lakes to (i) test for differences between the whitefish intestinal microbiota and the water bacterial community and (ii) test for parallelism in the intestinal microbiota of dwarf and normal whitefish., Results: The water bacterial community was distinct from the intestinal microbiota, indicating that intestinal microbiota did not reflect the environment, but rather the intrinsic properties of the host microbiota. Our results revealed a strong influence of the host (dwarf or normal) on the intestinal microbiota with pronounced conservation of the core intestinal microbiota (mean ~ 44% of shared genera). However, no clear evidence for parallelism was observed, whereby non-parallel differences between dwarf and normal whitefish were observed in three of the lakes while similar taxonomic composition was observed for the two other species pairs., Conclusions: This absence of parallelism across dwarf vs. normal whitefish microbiota highlighted the complexity of the holobiont and suggests that the direction of selection could be different between the host and its microbiota.

Published

2018

15. Complete mitochondrial genome of Coregonus muksum.

Author

Xu GF, Zhen-Bo M, Qi-Rui H, and Han Y

Subjects

Animals, Base Composition, DNA, Mitochondrial, Fish Proteins chemistry, Fish Proteins genetics, Fish Proteins metabolism, Open Reading Frames genetics, Phylogeny, RNA, Ribosomal chemistry, RNA, Ribosomal genetics, RNA, Transfer chemistry, RNA, Transfer genetics, Salmonidae classification, Genome, Mitochondrial, Salmonidae genetics

Abstract

The complete mitochondrial genome of Coregonus muksum was determined in this study. The mitogenome is 16 736 bp in length and contains one D-loop region, 2 ribosomal RNA genes, 22 transfer RNA genes, and 13 protein-coding genes. The overall base composition of the heavy strand is 26.82% for A, 29.50% for C, 18.04% for G, and 25.68% for T. The percentage of G + C content is 47.54%. This is the first time of the mitochondrial genome sequencing for Coregonus muksum.

Published

2017

16. Global Salmonidae introductions reveal stronger ecological effects of changing intraspecific compared to interspecific diversity.

Author

Buoro M, Olden JD, and Cucherousset J

Subjects

Animals, Introduced Species, Species Specificity, Biodiversity, Salmonidae classification

Abstract

The introduction of organisms within the native range of wild conspecifics is a widespread phenomenon and locally modifies patterns in intraspecific diversity. However, our knowledge of the resulting ecological effects, as opposed to those caused by invasion-induced changes in interspecific diversity, is still limited. Here, we investigated the ecological effects of native and non-native invaders across levels of biological organisations and recipient organisms using the global and long history introductions of salmonids. Our meta-analysis demonstrated that the global effects of native species introductions exceeded those induced by non-native invaders. The impacts of native invaders were primarily manifested at the individual level on wild conspecifics, but remained largely unexplored on other native organisms and at the community and ecosystem levels. Overlooked and poorly appreciated, quantifying the impacts of native invaders has important implications because human-assisted introductions of domesticated organisms are ubiquitous and likely to proliferate in the future., (© 2016 John Wiley & Sons Ltd/CNRS.)

Published

2016

17. Complete mitochondrial genome of Coregonus cluncaformis.

Author

Jia ZH, Xue SQ, Chen WJ, and Zhang JY

Subjects

Animals, Base Composition, DNA, Mitochondrial chemistry, DNA, Mitochondrial isolation & purification, DNA, Mitochondrial metabolism, Databases, Genetic, Open Reading Frames genetics, Phylogeny, RNA, Ribosomal chemistry, RNA, Ribosomal genetics, RNA, Transfer chemistry, RNA, Transfer genetics, Salmonidae classification, Sequence Analysis, DNA, Genome, Mitochondrial, Salmonidae genetics

Abstract

The complete mitochondrial genome of Coregonus cluncaformis was determined in this study. The mitogenome is 16 736 bp in length and contains 1D-loop region, 2 ribosomal RNA genes, 22 transfer RNA genes, and 13 protein-coding genes. The overall base composition of the heavy strand is 26.79% for A, 29.49% for C, 18.07% for G and 25.66% for T, The percentage of G + C content is 47.56%. This is the first time of the mitochondrial genome sequencing for C. cluncaformis in this study.

Published

2016

18. Complete mitochondrial genome of Coregonus autumnalis.

Author

Yi-Fan L, Huai-Ning L, Qi Z, and Dan W

Subjects

Animals, Base Composition, Genes, Mitochondrial, Genome Size, Open Reading Frames, Phylogeny, Sequence Analysis, DNA, Whole Genome Sequencing, Genome, Mitochondrial, Salmonidae classification, Salmonidae genetics

Abstract

The complete mitochondrial genome of Coregonus autumnalis is determined in this study. The mitogenome is 16,736 bp in length and contains 13 protein-coding genes, 22 transfer RNA genes, 2 ribosomal RNA genes and a D-loop region. The overall base composition of the H-strand is 26.73% A, 29.44% C, 18.14% for G and 25.69% for T. The G+C content is 47.58%. In this article, the mitochondrial genome sequencing for Coregonus autumnalis is carried out for the first time.

Published

2016

19. Toll-like receptors in maraena whitefish: Evolutionary relationship among salmonid fishes and patterns of response to Aeromonas salmonicida.

Author

Altmann S, Korytář T, Kaczmarzyk D, Nipkow M, Kühn C, Goldammer T, and Rebl A

Subjects

Aeromonas salmonicida physiology, Animals, Evolution, Molecular, Fish Proteins metabolism, Furunculosis immunology, Furunculosis microbiology, Gram-Negative Bacterial Infections genetics, Gram-Negative Bacterial Infections immunology, Gram-Negative Bacterial Infections microbiology, Immunity, Innate genetics, Phylogeny, Toll-Like Receptors metabolism, Fish Proteins genetics, Furunculosis genetics, Gram-Negative Bacterial Infections veterinary, Salmonidae classification, Toll-Like Receptors genetics

Abstract

Toll-like receptors (TLRs) interact directly with particular pathogenic structures and are thus highly important to innate immunity. The present manuscript characterises a suite of 14 TLRs in maraena whitefish (Coregonus maraena), a salmonid species with increasing importance for aquaculture. Whitefish TLRs were structurally and evolutionary analysed. The results revealed a close relationship with TLRs from salmonid fish species rainbow trout and Atlantic salmon. Profiling the baseline expression of TLR genes in whitefish indicated that mainly members of the TLR11 family were highly expressed across all investigated tissues. A stimulation model with inactivated Aeromonas salmonicida was used to induce inflammation in the peritoneal cavity of whitefish. This bacterial challenge induced the expression of pro-inflammatory cytokine genes and evoked a strong influx of granulated cells of myeloid origin into the peritoneal cavity. As a likely consequence, the abundance of TLR-encoding transcripts increased moderately in peritoneal cells, with the highest levels of transcripts encoding non-mammalian TLR22a and a soluble TLR5 variant. In the course of inflammation, the proportion of granulated cells increased in peripheral blood accompanied by elevated TLR copy numbers in spleen and simultaneously reduced TLR copy numbers in head kidney at day 3 post-stimulation. Altogether, the present study provides in-vivo evidence for relatively modest TLR response patterns, but marked trafficking of myeloid cells as an immunophysiological consequence of A. salmonicida inflammation in whitefish. The present results contribute to improved understanding of the host-pathogen interaction in salmonid fish., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

20. Real-time PCR identification of lake whitefish Coregonus clupeaformis in the Laurentian Great Lakes.

Author

Overdyk LM, Braid HE, Naaum AM, Crawford SS, and Hanner RH

Subjects

Animals, DNA Barcoding, Taxonomic, DNA Primers genetics, DNA, Mitochondrial genetics, Great Lakes Region, Lakes, Species Specificity, Real-Time Polymerase Chain Reaction, Salmonidae classification

Abstract

The purpose of this study was to develop a real-time PCR assay to specifically identify lake whitefish Coregonus clupeaformis in larval fish assemblages based on a 122 bp amplicon from the mitochondrial genome. The efficiency of the reaction, as calculated from the standard curve, was 90.77% with the standard curve having an r(2) value of 0.998. Specificity of the assay provided single melt peak in a melt-curve analysis and amplification of only the target species. The assay successfully identified target DNA in as low as 0.1% proportion of a DNA mixture. This assay was designed on the portable Smart Cycler II platform and can be used in both field and laboratory settings to successfully identify C. clupeaformis., (© 2016 The Fisheries Society of the British Isles.)

Published

2016

21. Comparative analysis of complete mitochondrial genomes suggests that relaxed purifying selection is driving high nonsynonymous evolutionary rate of the NADH2 gene in whitefish (Coregonus ssp.).

Author

Jacobsen MW, da Fonseca RR, Bernatchez L, and Hansen MM

Subjects

Animals, Ecology, Genes, Mitochondrial, Genetic Drift, Mutation Rate, Phylogeny, Polymorphism, Single Nucleotide, Salmonidae classification, Evolution, Molecular, Genome, Mitochondrial, NADH Dehydrogenase genetics, Salmonidae genetics, Selection, Genetic

Abstract

Several studies have recently reported evidence for positive selection acting on the mitochondrial genome (mitogenome), emphasizing its potential role in adaptive divergence and speciation. In this study we searched 107 full mitogenomes of recently diverged species and lineages of whitefish (Coregonus ssp.) for signals of positive selection. These salmonids show several distinct morphological and ecological differences that may be associated with energetics and therefore potentially positive selection at the mitogenome level. We found that purifying selection and genetic drift were the predominant evolutionary forces acting on the analyzed mitogenomes. However, the NADH dehydrogenase 2 gene (ND2) showed a highly elevated dN/dS ratio compared to the other mitochondrial genes, which was significantly higher in whitefish compared to other salmonids. We therefore further examined nonsynonymous evolution in ND2 by (i) mapping amino acid changes to a protein model structure which showed that they were located away from key functional residues of the protein, (ii) locating them in the sequences of other species of fish (Salmonidae, Anguillidae, Scombridae and Percidae) only to find pronounced overlap of nonsynonymous regions. We thus conclude that relaxed purifying selection is driving the evolution of ND2 by affecting mostly regions that have lower functional relevance., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2016

22. Rising from the ashes: Changes in salmonid fish assemblages after 30 months of the Puyehue-Cordon Caulle volcanic eruption.

Author

Lallement M, Macchi PJ, Vigliano P, Juarez S, Rechencq M, Baker M, Bouwes N, and Crowl T

Subjects

Animals, Chile, Salmonidae growth & development, Ecosystem, Environmental Monitoring, Rivers chemistry, Salmonidae classification, Volcanic Eruptions

Abstract

Events such as volcanic eruptions may act as disturbance agents modifying the landscape spatial diversity and increasing environmental instability. On June 4, 2011 the Puyehue-Cordon Caulle volcanic complex located on Chile (2236 m.a.s.l., 40° 02' 24" S- 70° 14' 26" W) experience a rift zone eruption ejecting during the first day 950 million metric tons into the atmosphere. Due to the westerly winds predominance, ash fell differentially upon 24 million ha of Patagonia Argentinean, been thicker deposits accumulated towards the West. In order to analyze changes on stream fish assemblages we studied seven streams 8, 19 and 30 months after the eruption along the ash deposition gradient, and compare those data to pre eruption ones. Habitat features and structure of the benthic macroinvertebrate food base of fish was studied. After the eruption, substantial environmental changes were observed in association with the large amount of ash fallout. In western sites, habitat loss due to ash accumulation, changes in the riparian zone and morphology of the main channels were observed. Turbidity was the water quality variable which reflected the most changes throughout time, with NTU values decreasing sharply from West to East sites. In west sites, increased Chironomid densities were recorded 8 months after the initial eruption as well as low EPT index values. These relationships were reversed in the less affected streams farther away from the volcano. Fish assemblages were greatly influenced both by habitat and macroinvertebrate changes. The eruption brought about an initial sharp decline in fish densities and the almost total loss of young of the year in the most western streams affecting recruitment. This effect diminished rapidly with distance from the emission center. Thirty months after the eruption, environmental changes are still occurring as a consequence of basin wide ash remobilization and transport.

Published

2016

23. Double-digest RAD sequencing using Ion Proton semiconductor platform (ddRADseq-ion) with nonmodel organisms.

Author

Recknagel H, Jacobs A, Herzyk P, and Elmer KR

Subjects

Animals, Computational Biology methods, Lizards classification, Phylogeny, Polymorphism, Genetic, Salmonidae classification, Trout classification, DNA Restriction Enzymes metabolism, Genotyping Techniques methods, High-Throughput Nucleotide Sequencing methods, Lizards genetics, Salmonidae genetics, Sequence Analysis, DNA methods, Trout genetics

Abstract

Research in evolutionary biology involving nonmodel organisms is rapidly shifting from using traditional molecular markers such as mtDNA and microsatellites to higher throughput SNP genotyping methodologies to address questions in population genetics, phylogenetics and genetic mapping. Restriction site associated DNA sequencing (RAD sequencing or RADseq) has become an established method for SNP genotyping on Illumina sequencing platforms. Here, we developed a protocol and adapters for double-digest RAD sequencing for Ion Torrent (Life Technologies; Ion Proton, Ion PGM) semiconductor sequencing. We sequenced thirteen genomic libraries of three different nonmodel vertebrate species on Ion Proton with PI chips: Arctic charr Salvelinus alpinus, European whitefish Coregonus lavaretus and common lizard Zootoca vivipara. This resulted in ~962 million single-end reads overall and a mean of ~74 million reads per library. We filtered the genomic data using Stacks, a bioinformatic tool to process RAD sequencing data. On average, we obtained ~11,000 polymorphic loci per library of 6-30 individuals. We validate our new method by technical and biological replication, by reconstructing phylogenetic relationships, and using a hybrid genetic cross to track genomic variants. Finally, we discuss the differences between using the different sequencing platforms in the context of RAD sequencing, assessing possible advantages and disadvantages. We show that our protocol can be used for Ion semiconductor sequencing platforms for the rapid and cost-effective generation of variable and reproducible genetic markers., (© 2015 John Wiley & Sons Ltd.)

Published

2015

24. Revalidation and redescription of Brachymystax tsinlingensis Li, 1966 (Salmoniformes: Salmonidae) from China.

Author

Xing YC, Lv BB, Ye EQ, Fan EY, Li SY, Wang LX, Zhang CG, and Zhao YH

Subjects

Animal Distribution, Animal Structures anatomy & histology, Animal Structures growth & development, Animals, Body Size, China, Ecosystem, Female, Male, Organ Size, Phylogeny, Salmonidae anatomy & histology, Salmonidae genetics, Salmonidae growth & development, Salmonidae classification

Abstract

Brachymystax tsinlingensis Li, 1966 is revalidated and redescribed. It can be distinguished from all congeners by the following combination of characteristics: no spots on operculum; gill rakers 15-20; lateral-line scales 98-116; pyloric caeca 60-71. Unique morphological characters and genetic divergence of this species are discussed. This species has a limited distribution in several streams of the middle part of the Qinling Mountains in China. Methods for management and protection of B. tsinlingensis need to be re-evaluated.

Published

2015

25. Complete mitochondrial genome of Thymallus grubii (Salmonidae: Thymallinae).

Author

Ma B, Jiang H, Sun P, and Chen J

Subjects

Animals, Base Sequence, DNA, Mitochondrial genetics, Molecular Sequence Data, Salmonidae classification, Sequence Analysis, DNA, Genome, Mitochondrial, Salmonidae genetics

Abstract

The complete mitochondrial DNA sequence of Thymallus grubii (Salmonidae: Thymallinae) was determined in this study. The complete mtDNA sequence of T. grubii was 16,657 bp in length, consisted of 13 protein-coding genes, 22 tRNA genes, 2 rRNA genes and 1 control region. Intergenic spacer and overlapping sequences were found in mtDNA of T. grubii. The base composition of the whole mtDNA was 27.9% A, 27.2% T, 27.5% C and 17.4% G, with a slightly A+T bias of 55.1%. Seven protein-coding genes had an incomplete stop codon in T. grubii.

Published

2015

26. Genome duplication and multiple evolutionary origins of complex migratory behavior in Salmonidae.

Author

Alexandrou MA, Swartz BA, Matzke NJ, and Oakley TH

Subjects

Animals, Bayes Theorem, Genome, Likelihood Functions, Models, Genetic, Salmonidae classification, Sequence Analysis, DNA, Animal Migration, Biological Evolution, Gene Duplication, Phylogeny, Salmonidae genetics

Abstract

Multiple rounds of whole genome duplication have repeatedly marked the evolution of vertebrates, and correlate strongly with morphological innovation. However, less is known about the behavioral, physiological and ecological consequences of genome duplication, and whether these events coincide with major transitions in vertebrate complexity. The complex behavior of anadromy - where adult fishes migrate up rivers from the sea to their natal site to spawn - is well known in salmonid fishes. Some hypotheses suggest that migratory behavior evolved as a consequence of an ancestral genome duplication event, which permitted salinity tolerance and osmoregulatory plasticity. Here we test whether anadromy evolved multiple times within salmonids, and whether genome duplication coincided with the evolution of anadromy. We present a method that uses ancestral character simulation data to plot the frequency of character transitions over a time calibrated phylogenetic tree to provide estimates of the absolute timing of character state transitions. Furthermore, we incorporate extinct and extant taxa to improve on previous estimates of divergence times. We present the first phylogenetic evidence indicating that anadromy evolved at least twice from freshwater salmonid ancestors. Results suggest that genome duplication did not coincide in time with changes in migratory behavior, but preceded a transition to anadromy by 55-50 million years. Our study represents the first attempt to estimate the absolute timing of a complex behavioral trait in relation to a genome duplication event., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

27. Understanding salmonid biology from the Atlantic salmon genome.

Author

Davidson WS

Subjects

Animals, Female, Gene Duplication, Genomics, Male, Phylogeny, Salmo salar physiology, Salmonidae classification, Salmonidae growth & development, Sex Determination Processes, Genome, Salmo salar genetics, Salmonidae physiology

Published

2013

28. Design and evaluation of a unique RT-qPCR assay for diagnostic quality control assessment that is applicable to pathogen detection in three species of salmonid fish.

Author

Sepúlveda D, Bohle H, Labra A, Grothusen H, and Marshall SH

Subjects

Animals, Base Sequence, Genetic Variation, Molecular Sequence Data, Peptide Elongation Factor 1 genetics, Peptide Elongation Factor 1 metabolism, Quality Control, Reproducibility of Results, Sequence Alignment, Species Specificity, Fish Diseases diagnosis, Real-Time Polymerase Chain Reaction veterinary, Reverse Transcriptase Polymerase Chain Reaction veterinary, Salmonidae classification

Abstract

Background: The detection of pathogens at early stages of infection is a key point for disease control in aquaculture. Therefore, accurate diagnostic procedures are a must. Real-time PCR has been a mainstay in diagnostics over the years due to its speed, specificity, sensitivity, reproducibility and throughput; as such, real-time PCR is a target for improvement. Nevertheless, to validate a novel diagnostic tool, correct setup of the assay, including proper endogenous controls to evaluate the quantity and quality of the samples and to detect possible sample degradation, is compulsory. This work aims to design a unique RT-qPCR assay for pathogen detection in the three salmonid species reared in Chile. The assay uses elongation factor 1 alpha as the single endogenous control, thus avoiding the need for multiple endogenous controls, as well as multiple validations and non-comparable quality control parameters., Results: The in vivo and in vitro analyses of samples from Salmo salar, Oncorhynchus mykiss and Oncorhynchus kisutch showed that when primers were accurately selected to target conserved regions of the elongation factor 1 alpha (ELF1α) gene, a single novel RT-qPCR assay yielding similar and reproducible Ct values between the three species could be designed. The opposite occurred when an assay originally designed for Salmo salar was tested in samples from the two species of the genus Oncorhynchus., Conclusions: Here, we report the design and evaluation of an accurate trans-species RT-qPCR assay that uses the elongation factor 1 alpha (ELF1α) gene as an endogenous control and is applicable for diagnostic purposes in samples obtained from the three salmonid species reared in Chile.

Published

2013

29. Mitochondrial DNA variation and introgression in Siberian taimen Hucho taimen.

Author

Balakirev ES, Romanov NS, Mikheev PB, and Ayala FJ

Subjects

Animals, Base Sequence, Genes, Mitochondrial, Genome, Mitochondrial, Haplotypes, Molecular Sequence Data, Open Reading Frames, Phylogeny, Polymorphism, Genetic, Recombination, Genetic, Salmonidae classification, Sequence Alignment, DNA, Mitochondrial, Genetic Variation, Salmonidae genetics

Abstract

Siberian taimen Hucho taimen is the largest representative of the family Salmonidae inhabiting rivers of northern Eurasia. The species is under intensive aquaculture activity. To monitor natural taimen populations we have sequenced a portion (8,141 bp) of the mitochondrial (mt) genome in 28 specimens of H. taimen from six localities in the Amur River basin. Nucleotide variability is low (π = 0.0010), but structured in two divergent haplotype groups. A comparison of the data with the GenBank H. taimen mt genome (HQ897271) reveals significant differences between them in spite of the fact that the fish specimens come from neighboring geographical areas. The distribution of divergence is non-uniform with two highly pronounced divergent regions centered on two genes, ND3 and ND6. To clarify the pattern of divergence we sequenced the corresponding portion of the mt genome of lenok Brachymystax tumensis and analyzed the GenBank complete mt genomes of related species. We have found that the first and second divergent regions are identical between the GenBank H. taimen and two lenok subspecies, B. lenok and B. lenok tsinlingensis, respectively. Consequently, both divergent regions represent introgressed mtDNA resulting from intergeneric hybridization between the two lenok subspecies and H. taimen. Introgression is, however, not detected in our specimens. This plus the precise identity of the introgressed fragments between the donor and the recipient GenBank sequence suggests that the introgression is local and very recent, probably due to artificial manipulations involving taimen-lenok intergeneric hybridization. Human-mediated hybridization may become a major threat to aquatic biodiversity. Consequently we suggest that due attention needs to be given to this threat by means of responsible breeding program management, so as to prevent a potential spread of hybrid fishes that could jeopardize the resilience of locally adapted gene pools of the native H. taimen populations.

Published

2013

30. Divergence of introns in the paralogous growth hormone genes of salmonid fish indicates the effect of selection.

Author

Pankova MV and Brykov VA

Subjects

Animals, Evolution, Molecular, Salmonidae classification, Growth Hormone genetics, Introns genetics, Salmonidae genetics, Selection, Genetic genetics

Published

2013

31. Molecular cloning and genomic characterization of novel leptin-like genes in salmonids provide new insight into the evolution of the Leptin gene family.

Author

Angotzi AR, Stefansson SO, Nilsen TO, Rathore RM, and Rønnestad I

Subjects

Animals, Cloning, Molecular, Evolution, Molecular, Fish Proteins genetics, Oncorhynchus mykiss genetics, Phylogeny, Salmonidae classification, Trout genetics, Leptin genetics, Salmonidae genetics

Abstract

In the current study we describe the identification of novel leptin B homologous gene/s in the four salmonid species Atlantic salmon (Salmo salar), rainbow trout (Oncorhynchus mykiss), brown trout (Salmo trutta) and Arctic charr (Salvelinus alpinus). Homology modeling of Salmo salar (Ss) LepB1/B2 suggests that the protein satisfies parameters as long-chain four helical cytokine family and that the basic structural pattern of the protein follows that of human leptin (Zhang et al., 1997). Importantly, the docking studies suggested the SsLepB has binding affinity to the AA residues that identify the leptin binding and FNIII domains of the SsLep receptor (Rønnestad et al., 2010). Phylogenetic analyses support that LepB paralogs have most probably originated by 4R whole genome duplication (WGD) before speciation of the salmonid lineages. LepB1 and LepB2 genes are both present in the two closest relatives, the Atlantic salmon and the brown trout, while rainbow trout and charr have only preserved the long LepB1 variant in their genome. We have defined the sites of SsLepB mRNA expression at key life stages in Atlantic salmon and found that SsLepB1 and SsLepB2, although to different extent, were expressed in redundant and mostly complementary fashion in brain and gills throughout the lifecycle, suggesting that this pair of paralogs is likely undergoing early stages of subfunctionalization. Furthermore, we have quantified the expression profiles of SsLepB genes and of other two recently duplicated salmon leptins (SsLepA1, SsLepA2) during early development and show evidence that in fish, as in mammals and amphibians, leptin could play important roles in growth and development. This study provides an essential groundwork to further elucidate structural and functional evolution of this important hormone in salmonids as well as in other teleosts., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

32. [Phylogeny of salmonids (Salmoniformes, Salmonidae) and molecular dating: analysis of mtDNA data].

Author

Shedko SV, Miroshnichenko IL, and Nemkova GA

Subjects

Animals, Evolution, Molecular, Genetic Speciation, Salmonidae genetics, DNA, Mitochondrial genetics, Phylogeny, Salmonidae classification

Abstract

Phylogenetic relationships among 41 species of salmonid fish and some aspects of their diversification-time history were studied using the GenBank and original mtDNA data. The position of the root of the Salmonidae phylogenetic tree was uncertain. Among the possible variants, the most reasonable seems to be that in which thymallins are grouped into the same clade as coregonins and the lineage of salmonins occupied a basal position relative to this clade. The genera of Salmoninae formed two distinct clades, i.e., (Brachymystax, Hucho) and (Salmo, Parahucho, (Salvelinus, Oncorhynchus)). Furthermore, the genera Parasalmo and Oncorhynchus were reciprocally monophyletic. The congruence of Salmonidae phylogenetic trees obtained using different types of phylogenetic markers is discussed. According to Bayesian dating, ancestral lineages of salmonids and their sister esocids radiated about 106 million years ago. Sometime after, probably 100-70 million years ago, the salmonid-specific whole genome duplication took place. The divergence of salmonid lineages on the genus level occurred much later, within the time interval of 42-20 million years ago. The main wave of the diversification of salmonids at the species level occurred during the last 12 million years. The possible effect of genome duplication on the Salmonidae diversification pattern is discussed.

Published

2013

33. Gene coexpression networks reveal key drivers of phenotypic divergence in lake whitefish.

Author

Filteau M, Pavey SA, St-Cyr J, and Bernatchez L

Subjects

Animals, Brain metabolism, Brain Chemistry, Cluster Analysis, Female, Fish Proteins genetics, Fish Proteins metabolism, Gene Expression Profiling, Genetic Speciation, Male, Muscles chemistry, Muscles metabolism, Oligonucleotide Array Sequence Analysis, Phenotype, Principal Component Analysis, Salmonidae classification, Salmonidae metabolism, Gene Regulatory Networks, Salmonidae genetics

Abstract

A functional understanding of processes involved in adaptive divergence is one of the awaiting opportunities afforded by high-throughput transcriptomic technologies. Functional analysis of coexpressed genes has succeeded in the biomedical field in identifying key drivers of disease pathways. However, in ecology and evolutionary biology, functional interpretation of transcriptomic data is still limited. Here, we used Weighted Gene Co-Expression Network Analysis (WGCNA) to identify modules of coexpressed genes in muscle and brain tissue of a lake whitefish backcross progeny. Modules were connected to gradients of known adaptive traits involved in the ecological speciation process between benthic and limnetic ecotypes. Key drivers, that is, hub genes of functional modules related to reproduction, growth, and behavior were identified, and module preservation was assessed in natural populations. Using this approach, we identified modules of coexpressed genes involved in phenotypic divergence and their key drivers, and further identified a module part specifically rewired in the backcross progeny. Functional analysis of transcriptomic data can significantly contribute to the understanding of the mechanisms underlying ecological speciation. Our findings point to bone morphogenetic protein and calcium signaling as common pathways involved in coordinated evolution of trophic behavior, trophic morphology (gill rakers), and reproduction. Results also point to pathways implicating hemoglobins and constitutive stress response (HSP70) governing growth in lake whitefish.

Published

2013

34. Novel real-time PCR method based on growth hormone gene for identification of Salmonidae ingredient in food.

Author

Li X, Li J, Zhang S, He Y, and Pan L

Subjects

Animals, Salmonidae classification, Fish Proteins genetics, Food Contamination analysis, Growth Hormone genetics, Real-Time Polymerase Chain Reaction methods, Salmonidae genetics, Seafood analysis

Abstract

To avoid fraudulent substitutions in fish markets, the proper methods are needed to test the authenticity of the ingredients. As a preferable methodology, a quantitative real-time polymerase chain reaction (qPCR) method was used in this study to identify species from the Salmonidae family based on the salmon growth hormone gene. Fish samples of six genera from the Salmonidae family were tested to identify the specificity, sensitivity, and applicability of the established method. Results showed that the method was highly specific for salmonid detection. Ct values were obtained only from 31 Salmonidae fish species samples. The relative and absolute limits of detection were 0.01% and 25 pg of genomic DNA, respectively, which could meet with the requirements of routine detections. To test the applicability of the method, the content of salmonid ingredients in 16 commercial food products was quantified from standard curves constructed from DNA of two Salmonidae species. The results revealed that the salmonid ingredient was detected in 12 samples, indicating that 25% of the labels are inauthentic. These results demonstrate that the developed qPCR method is suitable for identification of Salmonidae ingredients.

Published

2013

35. Genome differentiation in a species pair of coregonine fishes: an extremely rapid speciation driven by stress-activated retrotransposons mediating extensive ribosomal DNA multiplications.

Author

Symonová R, Majtánová Z, Sember A, Staaks GB, Bohlen J, Freyhof J, Rábová M, and Ráb P

Subjects

Animals, Comparative Genomic Hybridization, DNA, Ribosomal genetics, Gene Dosage, Germany, In Situ Hybridization, Fluorescence, Karyotype, Lakes, RNA, Ribosomal genetics, Salmonidae genetics, Sequence Analysis, DNA, Genetic Speciation, Retroelements, Salmonidae classification, Sympatry

Abstract

Background: Sympatric species pairs are particularly common in freshwater fishes associated with postglacial lakes in northern temperate environments. The nature of divergences between co-occurring sympatric species, factors contributing to reproductive isolation and modes of genome evolution is a much debated topic in evolutionary biology addressed by various experimental tools. To the best of our knowledge, nobody approached this field using molecular cytogenetics. We examined chromosomes and genomes of one postglacial species pair, sympatric European winter-spawning Coregonus albula and the local endemic dwarf-sized spring-spawning C. fontanae, both originating in Lake Stechlin. We have employed molecular cytogenetic tools to identify the genomic differences between the two species of the sympatric pair on the sub-chromosomal level of resolution., Results: Fluorescence in situ hybridization (FISH) experiments consistently revealed a distinct variation in the copy number of loci of the major ribosomal DNA (the 45S unit) between C. albula and C. fontanae genomes. In C. fontanae, up to 40 chromosomes were identified to bear a part of the major ribosomal DNA, while in C. albula only 8-10 chromosomes possessed these genes. To determine mechanisms how such extensive genome alternation might have arisen, a PCR screening for retrotransposons from genomic DNA of both species was performed. The amplified retrotransposon Rex1 was used as a probe for FISH mapping onto chromosomes of both species. These experiments showed a clear co-localization of the ribosomal DNA and the retrotransposon Rex1 in a pericentromeric region of one or two acrocentric chromosomes in both species., Conclusion: We demonstrated genomic consequences of a rapid ecological speciation on the level undetectable by neither sequence nor karyotype analysis. We provide indirect evidence that ribosomal DNA probably utilized the spreading mechanism of retrotransposons subsequently affecting recombination rates in both genomes, thus, leading to a rapid genome divergence. We attribute these extensive genome re-arrangements associated with speciation event to stress-induced retrotransposons (re)activation. Such causal interplay between genome differentiation, retrotransposons (re)activation and environmental conditions may become a topic to be explored in a broader genomic context in future evolutionary studies.

Published

2013

36. Assessing natural and disturbed population structure in European grayling Thymallus thymallus: melding phylogeographic, population genetic and jurisdictional perspectives for conservation planning.

Author

Weiss SJ, Kopun T, and Bajec SS

Subjects

Animals, DNA, Mitochondrial genetics, Europe, Genetic Variation, Genotype, Microsatellite Repeats genetics, Phylogeny, Salmonidae classification, Salmonidae genetics, Conservation of Natural Resources, Genetics, Population, Phylogeography, Salmonidae physiology

Abstract

Natural and human-mediated population structure of European grayling Thymallus thymallus was assessed in primarily Austrian reaches of the Danube River catchment. Data on phylogeographic structure based on mitochondrial DNA (mtDNA) were combined with variation found across 13 microsatellite loci to assess introgression stemming from stocking activities. Populations north of the Alps generally showed no signs of long-term introgression from allochthonous stocks, although one population comprised two distinct genotypic groups, one of which may stem from recently stocked material. South of the Alps, levels of introgression with stocks from the north were extensive and only one of six populations is believed to represent a reference state. Allelic diversity and expected heterozygosity were positively correlated with mtDNA admixture supporting more recent introgression and that there is little or no reproductive barrier between these two major lineages north and south of the Alps. A third unrelated mtDNA lineage is described from the Lafnitz, a tributary of the Raab drainage. The high lineage diversity in the upper Austrian Danube is not concordant with an existing model of T. thymallus evolutionarily significant units in Europe. Caveats in naming such units or following a strict hierarchical conservation unit structure for broadly distributed species with complex phylogeographic distributions stretching over various jurisdictions are discussed. The necessity of using both phylogeographic and population genetic approaches in evaluating the history and conservation value of populations in a conservation context is additionally highlighted., (© 2013 The Authors. Journal of Fish Biology © 2013 The Fisheries Society of the British Isles.)

Published

2013

37. The salmonid myostatin gene family: a novel model for investigating mechanisms that influence duplicate gene fate.

Author

Lawson CB, Niino T, Hermansen RA, Brok-Volchanskaya V, Jackson MF, Garikipati DK, Liberles DA, and Rodgers BD

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cloning, Molecular, Fish Proteins classification, Genes, Duplicate, Genetic Variation, Models, Genetic, Molecular Sequence Data, Myostatin classification, Oncorhynchus mykiss genetics, Phylogeny, Protein Isoforms classification, Protein Isoforms genetics, Salmonidae classification, Sequence Analysis, DNA, Sequence Homology, Amino Acid, Species Specificity, Trout genetics, Fish Proteins genetics, Multigene Family, Myostatin genetics, Salmonidae genetics

Abstract

Background: Most fishes possess two paralogs for myostatin, a muscle growth inhibitor, while salmonids are presumed to have four: mstn1a, mstn1b, mstn2a and mstn2b, a pseudogene. The mechanisms responsible for preserving these duplicates as well as the depth of mstn2b nonfunctionalization within the family remain unknown. We therefore characterized several genomic clones in order to better define species and gene phylogenies., Results: Gene organization and sequence conservation was particularly evident among paralog groupings and within salmonid subfamilies. All mstn2b sequences included in-frame stop codons, confirming its nonfunctionalization across taxa, although the indels and polymorphisms responsible often differed. For example, the specific indels within the Onchorhynchus tshawytscha and O. nerka genes were remarkably similar and differed equally from other mstn2b orthologs. A phylogenetic analysis weakly established a mstn2b clade including only these species, which coupled with a shared 51 base pair deletion might suggest a history involving hybridization or a shared phylogenetic history. Furthermore, mstn2 introns all lacked conserved splice site motifs, suggesting that the tissue-specific processing of mstn2a transcripts, but not those of mstn2b, is due to alternative cis regulation and is likely a common feature in salmonids. It also suggests that limited transcript processing may have contributed to mstn2b nonfunctionalization., Conclusions: Previous studies revealed divergence within gene promoters while the current studies provide evidence for relaxed or positive selection in some coding sequence lineages. These results together suggest that the salmonid myostatin gene family is a novel resource for investigating mechanisms that regulate duplicate gene fate as paralog specific differences in gene expression, transcript processing and protein structure are all suggestive of active divergence.

Published

2012

38. Are phenotypic traits useful for differentiating among a priori Coregonus taxa?

Author

Etheridge EC, Adams CE, Bean CW, Durie NC, Gowans AR, Harrod C, Lyle AA, Maitland PS, and Winfield IJ

Subjects

Animals, England, Genetic Variation, Salmonidae genetics, Scotland, Wales, Genetic Speciation, Phenotype, Salmonidae classification

Abstract

A key for three putative species apparently found in three geographic areas, i.e. Coregonus clupeoides (in Scotland), Coregonus stigmaticus (in England), and Coregonus pennantii (in Wales) given in a recent review was tested quantitatively using 544 individuals from nine populations. The classification success of the key was very low (27%). It was concluded that there is currently no robust evidence for the recognition of the three putative species. Furthermore, the use of phenotypic characters alone to distinguish putative species in postglacial fish species such as those of the genus Coregonus that show homoplasy in many of these traits is questioned. In the absence of further evidence, it was concluded that a single highly variable species best describes the pattern of phenotypic variation in these U.K. populations. On this basis it is argued that taxonomic subdivision of U.K. European coregonids is inappropriate and that Coregonus lavaretus should prevail as the species name applicable to all populations., (© 2012 The Authors. Journal of Fish Biology © 2012 The Fisheries Society of the British Isles.)

Published

2012

39. Framing the Salmonidae family phylogenetic portrait: a more complete picture from increased taxon sampling.

Author

Crête-Lafrenière A, Weir LK, and Bernatchez L

Subjects

Animals, Bayes Theorem, Cytochromes b genetics, Electron Transport Complex IV genetics, Fish Proteins genetics, Genetic Speciation, Models, Genetic, Multilocus Sequence Typing, Salmonidae classification, Signal-To-Noise Ratio, Phylogeny, Salmonidae genetics

Abstract

Considerable research efforts have focused on elucidating the systematic relationships among salmonid fishes; an understanding of these patterns of relatedness will inform conservation- and fisheries-related issues, as well as provide a framework for investigating evolutionary mechanisms in the group. However, uncertainties persist in current Salmonidae phylogenies due to biological and methodological factors, and a comprehensive phylogeny including most representatives of the family could provide insight into the causes of these difficulties. Here we increase taxon sampling by including nearly all described salmonid species (n = 63) to present a time-calibrated and more complete portrait of Salmonidae using a combination of molecular markers and analytical techniques. This strategy improved resolution by increasing the signal-to-noise ratio and helped discriminate methodological and systematic errors from sources of difficulty associated with biological processes. Our results highlight novel aspects of salmonid evolution. First, we call into question the widely-accepted evolutionary relationships among sub-families and suggest that Thymallinae, rather than Coregoninae, is the sister group to the remainder of Salmonidae. Second, we find that some groups in Salmonidae are older than previously thought and that the mitochondrial rate of molecular divergence varies markedly among genes and clades. We estimate the age of the family to be 59.1 MY (CI: 63.2-58.1 MY) old, which likely corresponds to the timing of whole genome duplication in salmonids. The average, albeit highly variable, mitochondrial rate of molecular divergence was estimated as ~0.31%/MY (CI: 0.27-0.36%/MY). Finally, we suggest that some species require taxonomic revision, including two monotypic genera, Stenodus and Salvethymus. In addition, we resolve some relationships that have been notoriously difficult to discern and present a clearer picture of the evolution of the group. Our findings represent an important contribution to the systematics of Salmonidae, and provide a useful tool for addressing questions related to fundamental and applied evolutionary issues.

Published

2012

40. [Analysis of genetic diversity on 9 wild stocks of taimen (Hucho taimen) by microsatellite markers].

Author

Liu B, Kuang YY, Tong GX, and Yin JS

Subjects

Animals, Animals, Wild classification, Animals, Wild genetics, China, Phylogeny, Polymorphism, Genetic, Salmonidae classification, Genetic Variation, Microsatellite Repeats, Salmonidae genetics

Abstract

Taimen (Hucho taimen) is a native fish species in China and it is in the state of endangerment. To explain clearly the genetic diversity and genetic structure, 9 wild populations of taimen were investigated using 20 microsatellite markers. The results showed that their observed heterozygosity ranged from 0.0994 to 0.8882, the expected heterozygosity varied from 0.2005 to 0.8759, and the range of PIC index was from 0.3432 to 0.5261 while population from Huma River had low genetic diversity. Fst of matching group ranged from 0.0246 to 0.2333 (P <0.0001)and Nm varied among 0.8216 to 9.9292, which indicated that the genetic differentiation was remarkable among populations.The half/full-sib family tests detected a proportion of half/full-sib family groups varying among 27.78% to 90.91%, showing a high inbred pressure and a risk of bottlenecks experienced by most groups. The AMOVA results showed that the global Fst was 0.1081; the clustering result showed that individuals from Beiji tributary of Heilongjiang River clustered as one clade, all individuals from Huma River and Wusuli River clustered as one clade and all individuals from the upper reaches of the Heilongjiang River clustered as another clade. All these results indicated that the decrease of taimen resource has affected the gene exchange among their populations. In order to achieve full protection of taimen germplasm resources, we should put an end to the destructive fishing for taimen and promotegene exchange among their populations.

Published

2011

41. Hybridization and restricted gene flow between native and introduced stocks of Alpine whitefish (Coregonus sp.) across multiple environments.

Author

Winkler KA, Pamminger-Lahnsteiner B, Wanzenböck J, and Weiss S

Subjects

Animals, Austria, Bayes Theorem, DNA, Mitochondrial genetics, Environment, Genetic Variation, Genotype, Haplotypes genetics, Lakes, Microsatellite Repeats genetics, Phenotype, Phylogeography, Salmonidae classification, Species Specificity, Gene Flow genetics, Hybridization, Genetic genetics, Salmonidae genetics

Abstract

Translocations of Baltic whitefish (Coregonus sp.) into Austrian Alpine lakes have created 'artificial hybrid zones', threatening the genetic integrity of native lineages. We evaluate the genetic structure of Coregonus in Austrian lakes and characterize hybridization and introgression between native and introduced lineages. Fifteen populations (N=747) were assessed for allelic variation at eight microsatellite loci and a reduced set (N=253) for variation across two mtDNA genes (cyt b and NADH-3). Bayesian approaches were used to estimate individual admixture proportions (q-values) and classify genotypes as native, introduced or hybrids. q-value distributions varied among populations highlighting differential hybridization and introgression histories. Many lakes revealed a clear distinction between native and introduced genotypes despite hybridization, whereas some locations revealed hybrid swarms. Genetic structure among lakes was congruent with morphological divergence and novelty raising speculation of multiple taxa, including a population south of the Alps, outside the putative native range of Coregonus. Although statistically congruent with inferences based on nuclear markers, mitochondrial haplotype data was not diagnostic with respect to native and non-native lineages, supporting that the Alpine region was colonized post-glacially by an admixture of mtDNA lineages, which coalesce >1 Ma. Mechanisms promoting or eroding lineage isolation are discussed, as well as a high potential to conserve native Alpine lineages despite the extensive historical use of introduced Baltic stocks., (© 2010 Blackwell Publishing Ltd.)

Published

2011

42. Genetic differentiation of European grayling (Thymallus thymallus) populations in Serbia, based on mitochondrial and nuclear DNA analyses.

Author

Marić S, Razpet A, Nikolić V, and Simonović P

Subjects

Animals, Cluster Analysis, DNA, Mitochondrial genetics, Locus Control Region, Microsatellite Repeats, Mitochondrial Proton-Translocating ATPases genetics, Phylogeny, Serbia, Salmonidae classification, Salmonidae genetics

Abstract

Background: The structure and diversity of grayling (Thymallus thymallus) populations have been well studied in most of its native habitat; however the southernmost populations of the Balkan Peninsula remain largely unexplored. The purpose of this study was to assess the genetic diversity of Serbian grayling populations, detect the impact of stocking and provide guidelines for conservation and management., Methods: Eighty grayling individuals were collected from four rivers (Ibar, Lim, Drina and Rzav). The mitochondrial DNA control region (CR; 595 bp of the 3'end and 74 bp of flanking tRNA) and the ATP6 gene (630 bp fragment) were sequenced for 20 individuals (five from each locality). In addition, all individuals were genotyped with 12 microsatellite loci. The diversity and structure of the populations as well as the recent and ancient population declines were studied using specialized software., Results: We detected three new haplotypes in the mtDNA CR and four haplotypes in the ATP6 gene of which three had not been described before. Previously, one CR haplotype and two ATP6 gene haplotypes had been identified as allochthonous, originating from Slovenia. Reconstruction of phylogenetic relations placed the remaining two CR haplotypes from the River Danube drainage of Serbia into a new clade, which is related to the previously described sister Slovenian clade. These two clades form a new Balkan clade. Microsatellite marker analysis showed that all four populations are genetically distinct from each other without any sign of intra-population structure, although stocking of the most diverse population (Drina River) was confirmed by mtDNA analysis. Recent and historical population declines of Serbian grayling do not differ from those of other European populations., Conclusions: Our study shows that (1) the Ibar, Lim and Drina Rivers grayling populations are genetically distinct from populations outside of Serbia and thus should be managed as native populations in spite of some introgression in the Drina River population and (2) the Rzav River population is not appropriate for further stocking activities since it originates from stocked Slovenian grayling. However, the Rzav River population does not represent an immediate danger to other populations because it is physically isolated from these.

Published

2011

43. MHC evolution in three salmonid species: a comparison between class II alpha and beta genes.

Author

Gómez D, Conejeros P, Marshall SH, and Consuegra S

Subjects

Alleles, Amino Acid Sequence, Animals, Base Sequence, DNA genetics, DNA Primers genetics, Fish Proteins genetics, Fish Proteins immunology, Genetic Variation, Histocompatibility Antigens Class II genetics, Models, Genetic, Molecular Sequence Data, Oncorhynchus kisutch genetics, Oncorhynchus kisutch immunology, Oncorhynchus mykiss genetics, Oncorhynchus mykiss immunology, Recombination, Genetic, Salmo salar genetics, Salmo salar immunology, Salmonidae classification, Selection, Genetic, Sequence Homology, Amino Acid, Species Specificity, Evolution, Molecular, Genes, MHC Class II, Salmonidae genetics, Salmonidae immunology

Abstract

The genes of the major histocompatibility complex (MHC) are amongst the most variable in vertebrates and represent some of the best candidates to study processes of adaptive evolution. However, despite the number of studies available, most of the information on the structure and function of these genes come from studies in mammals and birds in which the MHC class I and II genes are tightly linked and class II alpha exhibits low variability in many cases. Teleost fishes are among the most primitive vertebrates with MHC and represent good organisms for the study of MHC evolution because their class I and class II loci are not physically linked, allowing for independent evolution of both classes of genes. We have compared the diversity and molecular mechanisms of evolution of classical MH class II alpha and class II beta loci in farm populations of three salmonid species: Oncorhynchus kisutch, Oncorhynchus mykiss and Salmo salar. We found single classical class II loci and high polymorphism at both class II alpha and beta genes in the three species. Mechanisms of evolution were common for both class II genes, with recombination and point mutation involved in generating diversity and positive selection acting on the peptide-binding residues. These results suggest that the maintenance of variability at the class IIalpha gene could be a mechanism to increase diversity in the MHC class II in salmonids in order to compensate for the expression of one single classical locus and to respond to a wider array of parasites.

Published

2010

44. [Applicability of microsatellite DNA markers to the parental identification of Hucho taimen (Pallas)].

Author

Zhang CL, Tong GX, Kuang YY, Zhang C, and Yin JS

Subjects

Animals, Polymerase Chain Reaction, Salmonidae classification, Microsatellite Repeats genetics, Salmonidae genetics

Abstract

Using seven pairs of microsatellite markers we studied the relationship between the size of the the candidate groups and the microsatellite paternity testing accuracy by separate breed or the microsatellite paternity appraisal ability by mixed breed. By computer software analysis, the appraisal ability decreased with the candidate groups increase. For the 81 putative parents the microsatellite paternity testing accuracy was 80% and the microsatellite paternity appraisal ability was 78.9%; for the 9 putative parents, the testing accuracy was 93.3% and the appraisal ability was 92.2%. The results indicated that the microsatellite DNA markers can be used for the parentage determination of Hucho taimen Pallas.

Published

2010

45. Differences in population size variability among populations and species of the family Salmonidae.

Author

Dochtermann NA and Peacock MM

Subjects

Animals, Population Density, Species Specificity, Classification, Salmonidae classification

Abstract

1. How population sizes vary with time is an important ecological question with both practical and theoretical implications. Because population size variability corresponds to the operation of density-dependent mechanisms and the presence of stable states, numerous researchers have attempted to conduct broad taxonomic comparisons of population size variability. 2. Most comparisons of population size variability suggest a general lack of taxonomic differences. However, these comparisons may conflate differences within taxonomic levels with differences among taxonomic levels. Further, the degree to which intraspecific differences may affect broader inferences has generally not been estimated and has largely been ignored. 3. To address this uncertainty, we examined intraspecific differences in population size variability for a total of 131 populations distributed among nine species of the Salmonidae. We extended this comparison to the interspecific level by developing species level estimates of population size variability. 4. We used a jackknife (re-sampling) approach to estimate intra- and interspecific variation in population size variability. We found significant intraspecific differences in how population sizes vary with time in all six species of salmonids where it could be tested as well as clear interspecific differences. Further, despite significant interspecific variation, the majority of variation present was at the intraspecific level. Finally, we found that classic and recently developed measures of population variability lead to concordant inferences. 5. The presence of significant intraspecific differences in all species examined suggests that the ability to detect broad taxonomic patterns in how population sizes change over time may be limited if variance is not properly partitioned among and within taxonomic levels.

Published

2010

46. On the origin of species: insights from the ecological genomics of lake whitefish.

Author

Bernatchez L, Renaut S, Whiteley AR, Derome N, Jeukens J, Landry L, Lu G, Nolte AW, Ostbye K, Rogers SM, and St-Cyr J

Subjects

Adaptation, Physiological, Animals, Ecosystem, Female, Fresh Water, Gene Expression Profiling, Genomics trends, Male, Models, Genetic, Phenotype, Quantitative Trait Loci, Reproduction genetics, Salmonidae classification, Salmonidae physiology, Selection, Genetic, Genetic Speciation, Salmonidae genetics

Abstract

In contrast to the large amount of ecological information supporting the role of natural selection as a main cause of population divergence and speciation, an understanding of the genomic basis underlying those processes is in its infancy. In this paper, we review the main findings of a long-term research programme that we have been conducting on the ecological genomics of sympatric forms of whitefish (Coregonus spp.) engaged in the process of speciation. We present this system as an example of how applying a combination of approaches under the conceptual framework of the theory of adaptive radiation has yielded substantial insight into evolutionary processes in a non-model species. We also discuss how the joint use of recent biotechnological developments will provide a powerful means to address issues raised by observations made to date. Namely, we present data illustrating the potential offered by combining next generation sequencing technologies with other genomic approaches to reveal the genomic bases of adaptive divergence and reproductive isolation. Given increasing access to these new genomic tools, we argue that non-model species studied in their ecological context such as whitefish will play an increasingly important role in generalizing knowledge of speciation.

Published

2010

47. Genetic population structure of sympatric and allopatric populations of Baltic ciscoes (Coregonus albula complex, Teleostei, Coregonidae).

Author

Mehner T, Pohlmann K, Elkin C, Monaghan MT, Nitz B, and Freyhof J

Subjects

Amplified Fragment Length Polymorphism Analysis, Animals, Gene Flow, Genetic Variation, Germany, Hybridization, Genetic, Salmonidae classification, Sequence Analysis, DNA, Species Specificity, Evolution, Molecular, Genetic Speciation, Genetics, Population, Salmonidae genetics

Abstract

Background: Teleost fishes of the Coregonidae are good model systems for studying postglacial evolution, adaptive radiation and ecological speciation. Of particular interest is whether the repeated occurrence of sympatric species pairs results from in-situ divergence from a single lineage or from multiple invasions of one or more different lineages. Here, we analysed the genetic structure of Baltic ciscoes (Coregonus albula complex), examining 271 individuals from 8 lakes in northern Germany using 1244 polymorphic AFLP loci. Six lakes had only one population of C. albula while the remaining two lakes had C. albula as well as a sympatric species (C. lucinensis or C. fontanae)., Results: AFLP demonstrated a significant population structure (Bayesian thetaB = 0.22). Lower differentiation between allopatric (thetaB = 0.028) than sympatric (0.063-0.083) populations contradicts the hypothesis of a sympatric origin of taxa, and there was little evidence for stocking or ongoing hybridization. Genome scans found only three loci that appeared to be under selection in both sympatric population pairs, suggesting a low probability of similar mechanisms of ecological segregation. However, removal of all non-neutral loci decreased the genetic distance between sympatric pairs, suggesting recent adaptive divergence at a few loci. Sympatric pairs in the two lakes were genetically distinct from the six other C. albula populations, suggesting introgression from another lineage may have influenced these two lakes. This was supported by an analysis of isolation-by-distance, where the drift-gene flow equilibrium observed among allopatric populations was disrupted when the sympatric pairs were included., Conclusions: While the population genetic data alone can not unambiguously uncover the mode of speciation, our data indicate that multiple lineages may be responsible for the complex patterns typically observed in Coregonus. Relative differences within and among lakes raises the possibility that multiple lineages may be present in northern Germany, thus understanding the postglacial evolution and speciation in the C. albula complex requires a large-scale phylogenetic analysis of several potential founder lineages.

Published

2010

48. Mining transcriptome sequences towards identifying adaptive single nucleotide polymorphisms in lake whitefish species pairs (Coregonus spp. Salmonidae).

Author

Renaut S, Nolte AW, and Bernatchez L

Subjects

Adaptation, Biological genetics, Animals, Chimera, Contig Mapping, DNA Transposable Elements, Data Mining, Energy Metabolism genetics, Gene Frequency, Genotype, Phenotype, Quantitative Trait Loci, Salmonidae classification, Selection, Genetic, Sequence Analysis, DNA methods, Gene Expression Profiling, Genetics, Population, Polymorphism, Single Nucleotide, Salmonidae genetics

Abstract

Next-generation sequencing allows the discovery of large numbers of single nucleotide polymorphisms (SNPs) in species where little genomic information was previously available. Here, we assembled, de novo, over 130 mb of non-normalized cDNA using 454 pyrosequencing data from dwarf and normal lake whitefish and backcross hybrids. Our main goals were to gather a large data set of SNP markers, document their distribution within coding regions, evaluate the effect of species divergence on allele frequencies and combine results with previous genomic studies to identify candidate genes underlying the adaptive divergence of lake whitefish. We identified 6094 putative SNPs in 2674 contigs (mean size: 576 bp, range: 101-6116) and 1540 synonymous and 1734 non-synonymous mutations for a genome-wide non-synonymous to synonymous substitution rate ratio (p(N)/p(S)) of 0.37. As expected based on the young age (<15 000 years) of whitefish species pair, the overall level of divergence between them was relatively weak. Yet, 89 SNPs showed pronounced allele frequency differences between sympatric normal and dwarf whitefish. Among these, SNPs in genes annotated to energy metabolic functions were the most abundant and this, in addition to previous experimental data at the gene expression and phenotypic level, brings compelling evidence that genes involved in energy metabolism are prime candidates explaining the adaptive divergence of lake whitefish species pairs. Finally, we unexpectedly identified 44 contigs annotated to transposable elements and these were predominantly composed of backcross hybrids sequences. This indicates an elevated activity of transposable elements, which could potentially contribute to the reduced fitness of hybrids previously documented.

Published

2010

49. Grayling (Thymallinae) phylogeny within salmonids: complete mitochondrial DNA sequences of Thymallus arcticus and Thymallus thymallus.

Author

Yasuike M, Jantzen S, Cooper GA, Leder E, Davidson WS, and Koop BF

Subjects

Animals, Molecular Sequence Data, Genome, Mitochondrial genetics, Phylogeny, Salmonidae classification, Salmonidae genetics

Abstract

The phylogenetic relationships among the three subfamilies (Salmoninae, Coregoninae and Thymallinae) in the Salmonidae have not been addressed extensively at the molecular level. In this study, the whole mitochondrial genomes of two Thymallinae species, Thymallus arcticus and Thymallus thymallus were sequenced, and the published mitochondrial genome sequences of other salmonids were used for Bayesian and maximum-likelihood phylogenetic analyses. These results support an ancestral Coregoninae, branching within the Salmonidae, with Thymallinae as the sister group to Salmoninae.

Published

2010

50. Morphological differences between two ecologically similar sympatric fishes.

Author

Helland IP, Vøllestad LA, Freyhof J, and Mehner T

Subjects

Animals, Body Size, Discriminant Analysis, Female, Fresh Water, Germany, Male, Salmonidae classification, Ecosystem, Salmonidae anatomy & histology

Abstract

Morphological differentiation and microhabitat segregation of two ecologically similar populations of pelagic planktivorous fishes, Coregonus albula and the smaller Coregonus fontanae, were studied in Lake Stechlin (northern Germany). Both populations performed diel vertical migrations, although C. fontanae was always situated in deeper pelagic water than C. albula both during day and night. Landmark-based geometric morphometrics revealed that sympatric C. albula and C. fontanae differ in external morphology, with main differences found in head length and eye position, as well as in length and width of the caudal peduncle. Moreover, while C. albula has a similar morphology over all sizes, the shape of C. fontanae changes with size. Accordingly, the morphology of the two is most different at smaller size. Although the morphological differences may reflect adaptations to the slightly differing microhabitats of the two populations, there is no conclusive evidence that this correspondence between ecology and morphology is the main mechanism behind the coexistence of the closely related coregonids in Lake Stechlin.

Published

2009