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1.
Mol Ecol ; 33(1): e17188, 2024 Jan.
Article in English | MEDLINE | ID: mdl-37921120

ABSTRACT

The commercially important Atlantic bluefin tuna (Thunnus thynnus), a large migratory fish, has experienced notable recovery aided by accurate resource assessment and effective fisheries management efforts. Traditionally, this species has been perceived as consisting of eastern and western populations, spawning respectively in the Mediterranean Sea and the Gulf of Mexico, with mixing occurring throughout the Atlantic. However, recent studies have challenged this assumption by revealing weak genetic differentiation and identifying a previously unknown spawning ground in the Slope Sea used by Atlantic bluefin tuna of uncertain origin. To further understand the current and past population structure and connectivity of Atlantic bluefin tuna, we have assembled a unique dataset including thousands of genome-wide single-nucleotide polymorphisms (SNPs) from 500 larvae, young of the year and spawning adult samples covering the three spawning grounds and including individuals of other Thunnus species. Our analyses support two weakly differentiated but demographically connected ancestral populations that interbreed in the Slope Sea. Moreover, we also identified signatures of introgression from albacore (Thunnus alalunga) into the Atlantic bluefin tuna genome, exhibiting varied frequencies across spawning areas, indicating strong gene flow from the Mediterranean Sea towards the Slope Sea. We hypothesize that the observed genetic differentiation may be attributed to increased gene flow caused by a recent intensification of westward migration by the eastern population, which could have implications for the genetic diversity and conservation of western populations. Future conservation efforts should consider these findings to address potential genetic homogenization in the species.


Subject(s)
Gene Flow , Tuna , Animals , Tuna/genetics , Mediterranean Sea , Gulf of Mexico , Atlantic Ocean
2.
Mol Ecol Resour ; 18(3): 620-638, 2018 May.
Article in English | MEDLINE | ID: mdl-29405659

ABSTRACT

The Atlantic bluefin tuna is a highly migratory species emblematic of the challenges associated with shared fisheries management. In an effort to resolve the species' stock dynamics, a genomewide search for spatially informative single nucleotide polymorphisms (SNPs) was undertaken, by way of sequencing reduced representation libraries. An allele frequency approach to SNP discovery was used, combining the data of 555 larvae and young-of-the-year (LYOY) into pools representing major geographical areas and mapping against a newly assembled genomic reference. From a set of 184,895 candidate loci, 384 were selected for validation using 167 LYOY. A highly discriminatory genotyping panel of 95 SNPs was ultimately developed by selecting loci with the most pronounced differences between western Atlantic and Mediterranean Sea LYOY. The panel was evaluated by genotyping a different set of LYOY (n = 326), and from these, 77.8% and 82.1% were correctly assigned to western Atlantic and Mediterranean Sea origins, respectively. The panel revealed temporally persistent differentiation among LYOY from the western Atlantic and Mediterranean Sea (FST  = 0.008, p = .034). The composition of six mixed feeding aggregations in the Atlantic Ocean and Mediterranean Sea was characterized using genotypes from medium (n = 184) and large (n = 48) adults, applying population assignment and mixture analyses. The results provide evidence of persistent population structuring across broad geographic areas and extensive mixing in the Atlantic Ocean, particularly in the mid-Atlantic Bight and Gulf of St. Lawrence. The genomic reference and genotyping tools presented here constitute novel resources useful for future research and conservation efforts.


Subject(s)
Polymorphism, Single Nucleotide , Tuna/genetics , Animal Migration , Animals , Atlantic Ocean , Chromosome Mapping , Gene Frequency , Genotyping Techniques , Mediterranean Sea , Population Dynamics , Sequence Analysis, DNA , Tuna/physiology
3.
Zootaxa ; 3702: 159-78, 2013.
Article in English | MEDLINE | ID: mdl-26146715

ABSTRACT

Sphyrna gilberti sp. nov. is described based on 54 specimens collected in the coastal waters of South Carolina, U.S.A. Morphologically, S. gilberti sp. nov. is separable from S. lewini (Griffith & Smith 1834) only in the number of precaudal vertebrae. Due to rarity of specimens and the highly migratory behavior of most sphyrnids, the range of S. gilberti sp. nov. is unknown.


Subject(s)
Sharks/anatomy & histology , Sharks/classification , Animals , Atlantic Ocean , Female , Male , Phylogeny , Principal Component Analysis , Radiography , Skull/anatomy & histology , Skull/diagnostic imaging , South Carolina , Spine/anatomy & histology , Spine/diagnostic imaging
4.
J Mol Evol ; 75(5-6): 198-213, 2012 Dec.
Article in English | MEDLINE | ID: mdl-23183893

ABSTRACT

Isozymes, homologous enzymes coded by separate loci within a genome, present interesting systems for examining molecular and functional divergence through natural selection. Isozyme pairs for a number of metabolic enzymes, including Triosephosphate isomerase (Tpi), Malate dehydrogenase (Mdh), Phosphoglucose isomerase (Pgi), and Guanylate kinase (Guk), appear to all result from a single, large duplication event early in teleost evolution. These small gene families include two forms, a generally expressed form with no apparent charge and a neurally expressed form with a pronounced negative charge although the canalization of expression of the second form varies across families. Using ancestral sequence reconstructions and standard comparisons of rates of nonsynonymous and synonymous change, combined with the examination of the specific amino acid changes observed and predicted we examined the evolution of the Tpi and Guk families using all available vertebrate sequences and all four families using a smaller, common, dataset. We find that post-duplication, the neural Tpi and Guk isozymes evolved through similar periods of positive selection as evidenced by elevated rates of nonsynonymous change and accumulation of negative amino acids. Over the same evolutionary period our analysis suggests that Mdh and Pgi isozymes appear to have evolved under a less divergent pattern of selection. These distinct results likely reflect functional differences between the isozymes, possibly a result of differences in expression patterns.


Subject(s)
Evolution, Molecular , Fishes/genetics , Isoenzymes/genetics , Amino Acid Sequence , Animals , Fishes/classification , Guanylate Kinases/chemistry , Guanylate Kinases/genetics , Isoenzymes/chemistry , Molecular Sequence Data , Phylogeny , Selection, Genetic , Sequence Alignment , Triose-Phosphate Isomerase/chemistry , Triose-Phosphate Isomerase/genetics
5.
Biol Reprod ; 87(3): 67, 2012 Sep.
Article in English | MEDLINE | ID: mdl-22786822

ABSTRACT

Fish vitellogenin synthesized and released from the liver of oviparous animals is taken up into oocytes by the vitellogenin receptor. This is an essential process in providing nutrient yolk to developing embryos to ensure successful reproduction. Here we disclose the full length vtgr cDNA sequence for largemouth bass (LMB) that reveals greater than 90% sequence homology with other fish vtgr sequences. We classify LMB Vtgr as a member of the low density lipoprotein receptor superfamily based on conserved domains and categorize as the short variant that is devoid of the O-glycan segment. Phylogenetic analysis places LMB Vtgr sequence into a well-supported monophyletic group of fish Vtgr. Real-time PCR showed that the greatest levels of LMB vtgr mRNA expression occurred in previtellogenic ovarian tissues. In addition, we reveal the effects of insulin, 17beta-estradiol (E(2)), and 11-ketotestosterone (11-KT) in modulation of vtgr, esr, and ar mRNAs in previtellogenic oocytes. Insulin increased vtgr expression levels in follicles ex vivo while exposure to E(2) or 11-KT did not result in modulation of expression. However, both steroids were able to repress insulin-induced vtgr transcript levels. Coexposure with insulin and E(2) or of insulin and 11-KT increased ovarian esr2b and ar mRNA levels, respectively, which suggest a role for these nuclear receptors in insulin-mediated signaling pathways. These data provide the first evidence for the ordered stage-specific expression of LMB vtgr during the normal reproductive process and the hormonal influence of insulin and sex steroids on controlling vtgr transcript levels in ovarian tissues.


Subject(s)
Bass , Egg Proteins/genetics , Gonadal Steroid Hormones/pharmacology , Insulin/pharmacology , Oocytes/drug effects , Receptors, Cell Surface/genetics , Amino Acid Sequence , Animals , Bass/genetics , Bass/metabolism , Bass/physiology , Cloning, Molecular , Egg Proteins/metabolism , Female , Gene Expression Regulation, Developmental/drug effects , Molecular Sequence Data , Oocytes/metabolism , Oocytes/physiology , Oogenesis/drug effects , Oogenesis/genetics , Phylogeny , Receptors, Cell Surface/metabolism , Sequence Homology, Amino Acid , Transcription, Genetic/drug effects , Transcription, Genetic/physiology
6.
J Hered ; 100(5): 526-32, 2009.
Article in English | MEDLINE | ID: mdl-19502472

ABSTRACT

DNA sequence variation at a mitochondrial and a nuclear intron locus was surveyed within and among multiple populations of the inland silverside (Menidia beryllina) from the southeastern United States and revealed discordant phylogenetic patterns but similar patterns of population genetic variation across nuclear and mitochondrial loci. Mitochondrial variation was geographically structured, with strongly supported monophyletic assemblages among Gulf of Mexico population samples and a close association of the St John's River (SJ) population with these same samples. Nuclear alleles were not strongly structured geographically, with little support for monophyly within or across basins. Conversely, population genetic parameters indicate that the bulk of genetic diversity for both genomes resides within and among Gulf of Mexico populations and that diversity within the Atlantic is largely restricted to the SJ population. The contrast in genetic variation and population phylogenies appears to be a function of historical demographic processes, most likely directed by fluctuating geomorphology of the Florida peninsula in response to North American glaciation cycles.


Subject(s)
DNA, Mitochondrial/genetics , Genetic Variation , Phylogeny , Smegmamorpha/genetics , Actins/genetics , Animals , Southeastern United States
7.
Genome ; 51(2): 113-9, 2008 Feb.
Article in English | MEDLINE | ID: mdl-18356945

ABSTRACT

A karyotype analysis by several staining techniques was carried out on triplicate samples of the shortnose sturgeon, Acipenser brevirostrum. The chromosome number was found to be 2n = 372 +/- 6. A representative karyotype of 374 chromosomes was composed of 178 metacentrics/submetacentrics and 196 telocentrics/acrocentrics and microchromosomes. The signals of fluorescent in situ hybridization (FISH) with a HindIII satellite DNA probe were visible on 14 chromosomes. The signals obtained with a PstI satellite DNA probe appeared on 12 chromosomes. The FISH with a 5S rDNA probe revealed fluorescent signals on 6 chromosomes. These last results, compared with 2 signals in species with about 120 chromosomes and 4 in species with 240, support the hypothesis that A. brevirostrum is a hexaploid species, probably of hybrid origin. Based on these results, we propose a model explaining speciation events occurring in sturgeons by hybridization, genome duplication, and diploidization.


Subject(s)
Fishes/genetics , Polyploidy , Animals , DNA, Ribosomal/genetics , Gene Duplication , Genome , Karyotyping , Mitosis , Nucleic Acid Hybridization
8.
Evolution ; 59(7): 1479-91, 2005 Jul.
Article in English | MEDLINE | ID: mdl-16153033

ABSTRACT

The deep sea is the largest ecosystem on Earth. Recent exploration has revealed that it supports a highly diverse and endemic benthic invertebrate fauna, yet the evolutionary processes that generate this remarkable species richness are virtually unknown. Environmental heterogeneity, topographic complexity, and morphological divergence all tend to decrease with depth, suggesting that the potential for population differentiation may decrease with depth. To test this hypothesis, we use mitochondrial DNA (16S rRNA gene) to examine patterns of population differentiation in four species of protobranch bivalves (Nuculoma similis, Deminucula atacellana, Malletia abyssorum, and Ledella ultima) distributed along a depth gradient in the western North Atlantic. We sequenced 268 individuals from formalin-fixed samples and found 45 haplotypes. The level of sequence divergence among haplotypes within species was similar, but shifted from between populations at bathyal depths to within populations at abyssal depths. Levels of population structure as measured by phiST were considerably greater in the upper bathyal species (N. similis = 0.755 and D. atacellana = 0.931; 530-3834 m) than in the lower bathyal/abyssal species (M. abyssorum = 0.071 and L. ultima = 0.045; 2864-4970 m). Pairwise genetic distances among the samples within each species also decreased with depth. Population trees (UPGMA) based on modified coancestry coefficients and nested clade analysis both indicated strong population-level divergence in the two upper bathyal species but little for the deeper species. The population genetic structure in these protobranch bivalves parallels depth-related morphological divergence observed in deep-sea gastropods. The higher level of genetic and morphological divergence, coupled with the strong biotic and abiotic heterogeneity at bathyal depths, suggests this region may be an active area of species formation. We suggest that the steep, topographically complex, and dynamic bathyal zone, which stretches as a narrow band along continental margins, plays a more important role in the evolutionary radiation of the deep-sea fauna than the much more extensive abyss.


Subject(s)
Bivalvia/genetics , Environment , Genetic Variation , Genetics, Population , Phylogeny , Analysis of Variance , Animals , Atlantic Ocean , Base Sequence , Cluster Analysis , Geography , Haplotypes/genetics , Molecular Sequence Data , RNA, Ribosomal, 16S/genetics , Sequence Analysis, DNA , Species Specificity
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