Your search keyword '"Killifishes genetics"' showing total 25 results

1. Few Fixed Variants between Trophic Specialist Pupfish Species Reveal Candidate Cis-Regulatory Alleles Underlying Rapid Craniofacial Divergence.

Author

McGirr JA and Martin CH

Subjects

Animals, Female, Killifishes growth & development, Killifishes metabolism, Male, Species Specificity, Transcriptome, Biological Evolution, Gene Expression Regulation, Developmental, Killifishes genetics, Skull growth & development

Abstract

Investigating closely related species that rapidly evolved divergent feeding morphology is a powerful approach to identify genetic variation underlying variation in complex traits. This can also lead to the discovery of novel candidate genes influencing natural and clinical variation in human craniofacial phenotypes. We combined whole-genome resequencing of 258 individuals with 50 transcriptomes to identify candidate cis-acting genetic variation underlying rapidly evolving craniofacial phenotypes within an adaptive radiation of Cyprinodon pupfishes. This radiation consists of a dietary generalist species and two derived trophic niche specialists-a molluscivore and a scale-eating species. Despite extensive morphological divergence, these species only diverged 10 kya and produce fertile hybrids in the laboratory. Out of 9.3 million genome-wide SNPs and 80,012 structural variants, we found very few alleles fixed between species-only 157 SNPs and 87 deletions. Comparing gene expression across 38 purebred F1 offspring sampled at three early developmental stages, we identified 17 fixed variants within 10 kb of 12 genes that were highly differentially expressed between species. By measuring allele-specific expression in F1 hybrids from multiple crosses, we found that the majority of expression divergence between species was explained by trans-regulatory mechanisms. We also found strong evidence for two cis-regulatory alleles affecting expression divergence of two genes with putative effects on skeletal development (dync2li1 and pycr3). These results suggest that SNPs and structural variants contribute to the evolution of novel traits and highlight the utility of the San Salvador Island pupfish system as an evolutionary model for craniofacial development., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2021

2. The evolution of vertebrate eye size across an environmental gradient: phenotype does not predict genotype in a Trinidadian killifish.

Author

Beston SM, Wostl E, and Walsh MR

Subjects

Animals, Genotype, Organ Size, Biological Evolution, Eye anatomy & histology, Killifishes anatomy & histology, Killifishes genetics, Predatory Behavior

Abstract

Vertebrates exhibit substantial variation in eye size. Eye size correlates positively with visual capacity and behaviors that enhance fitness, such as predator avoidance. This foreshadows a connection between predation and eye size evolution. Yet, the conditions that favor evolutionary shifts in eye size, besides the well-known role for light availability, are unclear. We tested the influence of predation on the evolution of eye size in Trinidadian killifish, Rivulus hartii. Rivulus are located across a series of communities where they coexist with visually oriented piscivores ("high predation" sites), and no predators ("Rivulus-only" sites). Wild-caught Rivulus from high predation sites generally exhibited a smaller relative eye size than communities that lack predators. Yet, such differences were inconsistent across rivers. Second-generation common garden reared fish revealed repeatable decreases in eye size in Rivulus from high predation sites. We performed additional experiments that tested the importance of light and resources on eye size evolution. Sites that differ in light or resource availability did not differ in eye size. Our results argue that differences in predator-induced mortality underlie genetically-based shifts in vertebrate eye size. We discuss the drivers of eye size evolution in light of the nonparallel trends between the phenotypic and common garden results., (© 2017 The Author(s). Evolution © 2017 The Society for the Study of Evolution.)

Published

2017

3. Phylogenetics support an ancient common origin of two scientific icons: Devils Hole and Devils Hole pupfish.

Author

Sağlam İK, Baumsteiger J, Smith MJ, Linares-Casenave J, Nichols AL, O'Rourke SM, and Miller MR

Subjects

Animals, Conservation of Natural Resources, Desert Climate, Endangered Species, Gene Flow, Genomics, Models, Genetic, Mutation Rate, Polymorphism, Single Nucleotide, United States, Biological Evolution, Killifishes genetics, Phylogeny

Abstract

The Devils Hole pupfish (Cyprinodon diabolis; DHP) is an icon of conservation biology. Isolated in a 50 m(2) pool (Devils Hole), DHP is one of the rarest vertebrate species known and an evolutionary anomaly, having survived in complete isolation for thousands of years. However, recent findings suggest DHP might be younger than commonly thought, potentially introduced to Devils Hole by humans in the past thousand years. As a result, the significance of DHP from an evolutionary and conservation perspective has been questioned. Here we present a high-resolution genomic analysis of DHP and two closely related species, with the goal of thoroughly examining the temporal divergence of DHP. To this end, we inferred the evolutionary history of DHP from multiple random genomic subsets and evaluated four historical scenarios using the multispecies coalescent. Our results provide substantial information regarding the evolutionary history of DHP. Genomic patterns of secondary contact present strong evidence that DHP were isolated in Devils Hole prior to 20-10 ka and the model best supported by geological history and known mutation rates predicts DHP diverged around 60 ka, approximately the same time Devils Hole opened to the surface. We make the novel prediction that DHP colonized and have survived in Devils Hole since the cavern opened, and the two events (colonization and collapse of the cavern's roof) were caused by a common geologic event. Our results emphasize the power of evolutionary theory as a predictive framework and reaffirm DHP as an important evolutionary novelty, worthy of continued conservation and exploration., (© 2016 John Wiley & Sons Ltd.)

Published

2016

4. Changes in growth rates of oral jaw elements produce evolutionary novelty in bahamian pupfish.

Author

Lencer ES, Riccio ML, and McCune AR

Subjects

Animals, Killifishes genetics, Killifishes growth & development, Sympatry, Biological Evolution, Jaw anatomy & histology, Killifishes anatomy & histology, Maxillofacial Development

Abstract

To understand the origins of novelty and the evolution of biological diversity, it is important to investigate the processes that generate phenotypic variation from genotypic variation. A number of path-breaking studies have revealed the genetic basis for phenotypic differences between distantly related taxa, but how qualitative change is produced during the early stages of divergence is largely unexplored. Here, we focus on striking differences in jaw morphology exhibited by three closely related sympatric pupfish species (genus Cyprinodon) from San Salvador Island, Bahamas as a basis for investigating the genetic sources of morphological variation in recently diverged species. San Salvador Island pupfish are trophically diverse and display derived jaw morphologies distinct from any other species in the genus. We illustrate these qualitative morphological differences between species with 3D-reconstructed CT-images and camera lucida drawings of the skulls of wild-caught fish. Quantitative data representing the size of individual bony skull elements in wild fish show how qualitatively novel morphologies arise as a consequence of changes to the size and shape of individual skull elements, particularly the dentary, premaxilla, and maxilla bones associated with the oral jaws. Consistent with these comparative data is that the growth rate of individual bony skull elements, measured on a developmental time series of lab-reared fish, differs between species. Our data provide a critical foundation for future studies developing San Salvador Cyprinodon pupfishes as a model system to understand the evolution and development of novel morphologies at the species level. J. Morphol. 277:935-947, 2016. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published

2016

5. Genomics: Fishing for the ageing secret.

Author

Lieben L

Subjects

Animals, Female, Humans, Male, Biological Evolution, Killifishes genetics, Sex Chromosomes

Published

2016

6. Genome Sequencing Fishes out Longevity Genes.

Author

Lakhina V and Murphy CT

Subjects

Animals, Female, Humans, Male, Biological Evolution, Killifishes genetics, Sex Chromosomes

Abstract

Understanding the molecular basis underlying aging is critical if we are to fully understand how and why we age-and possibly how to delay the aging process. Up until now, most longevity pathways were discovered in invertebrates because of their short lifespans and availability of genetic tools. Now, Reichwald et al. and Valenzano et al. independently provide a reference genome for the short-lived African turquoise killifish, establishing its role as a vertebrate system for aging research., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

7. Insights into Sex Chromosome Evolution and Aging from the Genome of a Short-Lived Fish.

Author

Reichwald K, Petzold A, Koch P, Downie BR, Hartmann N, Pietsch S, Baumgart M, Chalopin D, Felder M, Bens M, Sahm A, Szafranski K, Taudien S, Groth M, Arisi I, Weise A, Bhatt SS, Sharma V, Kraus JM, Schmid F, Priebe S, Liehr T, Görlach M, Than ME, Hiller M, Kestler HA, Volff JN, Schartl M, Cellerino A, Englert C, and Platzer M

Subjects

Aging, Animals, Female, Genome, Killifishes physiology, Male, Molecular Sequence Data, Sex Determination Processes, Biological Evolution, Killifishes genetics, Sex Chromosomes

Abstract

The killifish Nothobranchius furzeri is the shortest-lived vertebrate that can be bred in the laboratory. Its rapid growth, early sexual maturation, fast aging, and arrested embryonic development (diapause) make it an attractive model organism in biomedical research. Here, we report a draft sequence of its genome that allowed us to uncover an intra-species Y chromosome polymorphism representing-in real time-different stages of sex chromosome formation that display features of early mammalian XY evolution "in action." Our data suggest that gdf6Y, encoding a TGF-β family growth factor, is the master sex-determining gene in N. furzeri. Moreover, we observed genomic clustering of aging-related genes, identified genes under positive selection, and revealed significant similarities of gene expression profiles between diapause and aging, particularly for genes controlling cell cycle and translation. The annotated genome sequence is provided as an online resource (http://www.nothobranchius.info/NFINgb)., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

8. The African Turquoise Killifish Genome Provides Insights into Evolution and Genetic Architecture of Lifespan.

Author

Valenzano DR, Benayoun BA, Singh PP, Zhang E, Etter PD, Hu CK, Clément-Ziza M, Willemsen D, Cui R, Harel I, Machado BE, Yee MC, Sharp SC, Bustamante CD, Beyer A, Johnson EA, and Brunet A

Subjects

Aging, Animals, DNA Helicases genetics, Genome, Humans, Longevity, Molecular Sequence Annotation, Molecular Sequence Data, Selection, Genetic, Biological Evolution, Killifishes genetics

Abstract

Lifespan is a remarkably diverse trait ranging from a few days to several hundred years in nature, but the mechanisms underlying the evolution of lifespan differences remain elusive. Here we de novo assemble a reference genome for the naturally short-lived African turquoise killifish, providing a unique resource for comparative and experimental genomics. The identification of genes under positive selection in this fish reveals potential candidates to explain its compressed lifespan. Several aging genes are under positive selection in this short-lived fish and long-lived species, raising the intriguing possibility that the same gene could underlie evolution of both compressed and extended lifespans. Comparative genomics and linkage analysis identify candidate genes associated with lifespan differences between various turquoise killifish strains. Remarkably, these genes are clustered on the sex chromosome, suggesting that short lifespan might have co-evolved with sex determination. Our study provides insights into the evolutionary forces that shape lifespan in nature., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

9. A method for analysis of phenotypic change for phenotypes described by high-dimensional data.

Author

Collyer ML, Sekora DJ, and Adams DC

Subjects

Animals, Female, Killifishes anatomy & histology, Killifishes genetics, Male, Sex Characteristics, Statistics, Nonparametric, Biological Evolution, Models, Biological, Phenotype

Abstract

The analysis of phenotypic change is important for several evolutionary biology disciplines, including phenotypic plasticity, evolutionary developmental biology, morphological evolution, physiological evolution, evolutionary ecology and behavioral evolution. It is common for researchers in these disciplines to work with multivariate phenotypic data. When phenotypic variables exceed the number of research subjects--data called 'high-dimensional data'--researchers are confronted with analytical challenges. Parametric tests that require high observation to variable ratios present a paradox for researchers, as eliminating variables potentially reduces effect sizes for comparative analyses, yet test statistics require more observations than variables. This problem is exacerbated with data that describe 'multidimensional' phenotypes, whereby a description of phenotype requires high-dimensional data. For example, landmark-based geometric morphometric data use the Cartesian coordinates of (potentially) many anatomical landmarks to describe organismal shape. Collectively such shape variables describe organism shape, although the analysis of each variable, independently, offers little benefit for addressing biological questions. Here we present a nonparametric method of evaluating effect size that is not constrained by the number of phenotypic variables, and motivate its use with example analyses of phenotypic change using geometric morphometric data. Our examples contrast different characterizations of body shape for a desert fish species, associated with measuring and comparing sexual dimorphism between two populations. We demonstrate that using more phenotypic variables can increase effect sizes, and allow for stronger inferences.

Published

2015

10. Genetic connectivity and phenotypic plasticity in the cyprinodont Aphanius farsicus from the Maharlu Basin, south-western Iran.

Author

Gholami Z, Esmaeili HR, Erpenbeck D, and Reichenbacher B

Subjects

Animals, DNA, Mitochondrial genetics, Female, Iran, Male, Otolithic Membrane anatomy & histology, Phylogeny, Sequence Analysis, DNA, Biological Evolution, Genetics, Population, Killifishes genetics, Phenotype

Abstract

Meristic and morphometric characteristics, including otolith data, of the Farsi tooth-carp Aphanius farsicus, which is endemic to the endorheic Maharlu Basin in south-western Iran, were analysed for a sample of 92 individuals from four spring-streams; DNA sequence data (cytochrome b gene) are presented for 29 specimens. Some phenotypic variation was detected but the genetic data clearly indicate connectivity between the populations. Possible links between phenotypic variation and environmental variables such as water temperature, habitat size and absence or presence of predators and competitors are discussed. Based on a literature survey and the new data, it is concluded that population connectivity is maintained during times of droughts via large aquifers that formed during the late Pliocene to early Pleistocene, when the extant endorheic Maharlu Basin was created. Based on new data presented here and previous work, it is apparent that plastic and constant characteristics are present in Aphanius species, and that, if a population becomes isolated, a given trend of evolution may give rise to a taxonomically useful characteristic., (© 2015 The Fisheries Society of the British Isles.)

Published

2015

11. Hormones and phenotypic plasticity in an ecological context: linking physiological mechanisms to evolutionary processes.

Author

Lema SC

Subjects

Animals, Environment, Killifishes anatomy & histology, Killifishes genetics, Killifishes growth & development, Biological Evolution, Killifishes physiology, Phenotype, Signal Transduction, Thyroid Hormones metabolism

Abstract

Hormones are chemical signaling molecules that regulate patterns of cellular physiology and gene expression underlying phenotypic traits. Hormone-signaling pathways respond to an organism's external environment to mediate developmental stage-specific malleability in phenotypes, so that environmental variation experienced at different stages of development has distinct effects on an organism's phenotype. Studies of hormone-signaling are therefore playing a central role in efforts to understand how plastic phenotypic responses to environmental variation are generated during development. But, how do adaptive, hormonally mediated phenotypes evolve if the individual signaling components (hormones, conversion enzymes, membrane transporters, and receptors) that comprise any hormone-signaling pathway show expressional flexibility in response to environmental variation? What relevance do these components hold as molecular targets for selection to couple or decouple correlated hormonally mediated traits? This article explores how studying the endocrine underpinnings of phenotypic plasticity in an ecologically relevant context can provide insights into these, and other, crucial questions into the role of phenotypic plasticity in evolution, including how plasticity itself evolves. These issues are discussed in the light of investigations into how thyroid hormones mediate morphological plasticity in Death Valley's clade of pupfishes (Cyprinodon spp.). Findings from this work with pupfish illustrate that the study of hormone-signaling from an ecological perspective can reveal how phenotypic plasticity contributes to the generation of phenotypic novelty, as well as how physiological mechanisms developmentally link an organism's phenotype to its environmental experiences., (© The Author 2014. Published by Oxford University Press on behalf of the Society for Integrative and Comparative Biology. All rights reserved. For permissions please email: journals.permissions@oup.com.)

Published

2014

12. Two new species of the tooth-carp Aphanius (Teleostei: Cyprinodontidae) and the evolutionary history of the Iranian inland and inland-related Aphanius species .

Author

Esmaeili HR, Teimori A, Gholami Z, and Reichenbacher B

Subjects

Animal Distribution, Animal Structures anatomy & histology, Animals, Biodiversity, Ecosystem, Female, Iran, Killifishes anatomy & histology, Killifishes genetics, Male, Phylogeny, Biological Evolution, Killifishes classification

Abstract

Two new species of Aphanius are described from the Kol drainage in southern Iran (Aphanius darabensis n. sp.) and the endorheic Kavir Basin in northern Iran (A. kavirensis n. sp.), and compared with eight closely related species. Aphanius darabensis n. sp. is sister to A. shirini, from which it is distinguished by molecular characters (cytochrome b) and the combination of three morphological characters: 9-18 flank bars in males (vs. 7-10), females with irregular vertical patches of brown color on the flank (vs. prominent dark brown blotches of round or irregular shape), and symmetrically-shaped triangular to trapezoid otoliths with a rostrum distinctly longer than the antirostrum (vs. quadrangular to trapezoid otoliths with short and equally sized rostrum and antirostrum). Aphanius kavirensis n. sp. is closely related to a group containing A. sophiae, A. mesopotamicus and A. pluristriatus, from which it is distinguished by cytochrome b characters and the combination of three morphological characters: females with irregularly arranged large blotches of dark brown color on the flank, short pectoral fin in both sexes (13.4-18.1% SL in males, 11.2-18.3% SL in females), and asymmetrically shaped triangular to trapezoid otoliths with a pronounced predorsal region. Our tree based on the cytochrome b data demonstrates that the Iranian inland and inland-related Aphanius species (IIRAS) form a monophyletic clade with three subclades (A. vladykovi -, A. shirini -, A. sophiae subclades). The A. sophiae subclade, which is the most diverse of the three subclades, can be further divided into three lineages (A. isfahanensis -, A. farsicus -, A. sophiae lineages). The temporal diversification of the IIRAS clade is discussed and two evolutionary groups of Aphanius are depicted. Aphanius vladykovi, together with A. shirini, A. darabensis n. sp. and A. isfahanensis characterize the "old" evolutionary group. Their divergences may have happened 10-5 m.y. ago (Late Miocene-Early Pliocene). Aphanius farsicus, A. arakensis, A. sophiae, A. mesopotamicus, and A. pluristriatus, together with Aphanius kavirensis n. sp., represent the "young" evolutionary group, which developed in the Late Pleistocene (100,000-11,700 y. ago) and Early to Middle Holocene (c. 11,700-4,000 y. ago).

Published

2014

13. Multiple fitness peaks on the adaptive landscape drive adaptive radiation in the wild.

Author

Martin CH and Wainwright PC

Subjects

Animals, Bahamas, Crosses, Genetic, Ecosystem, Environment, Female, Genetic Speciation, Hybridization, Genetic, Lakes, Male, Models, Biological, Phenotype, Selection, Genetic, Adaptation, Physiological genetics, Biological Evolution, Genetic Fitness, Killifishes genetics, Killifishes physiology

Abstract

The relationship between phenotype and fitness can be visualized as a rugged landscape. Multiple fitness peaks on this landscape are predicted to drive early bursts of niche diversification during adaptive radiation. We measured the adaptive landscape in a nascent adaptive radiation of Cyprinodon pupfishes endemic to San Salvador Island, Bahamas, and found multiple coexisting high-fitness regions driven by increased competition at high densities, supporting the early burst model. Hybrids resembling the generalist phenotype were isolated on a local fitness peak separated by a valley from a higher-fitness region corresponding to trophic specialization. This complex landscape could explain both the rarity of specialists across many similar environments due to stabilizing selection on generalists and the rapid morphological diversification rate of specialists due to their higher fitness.

Published

2013

14. Experimentally induced life-history evolution in a killifish in response to the introduction of guppies.

Author

Walsh MR and Reznick DN

Subjects

Age Factors, Animals, Killifishes genetics, Poecilia physiology, Population Density, Predatory Behavior physiology, Reproduction genetics, Sexual Maturation genetics, Trinidad and Tobago, Biological Evolution, Ecosystem, Killifishes growth & development, Phenotype, Reproduction physiology, Selection, Genetic

Abstract

Life-history theory predicts that increased predation on juvenile age/size-classes favors delayed maturation and decreased reproductive investment. Although this theory has received correlative support, experimental tests in nature are rare. In 1976 and 1981, guppies (Poecilia reticulata) were transplanted into localities that previously only contained a killifish, Rivulus hartii. This situation presents an opportunity to experimentally test this life-history prediction because guppies prey upon young Rivulus. We evaluated the response to selection in Rivulus by measuring phenotypic and genotypic divergence between introduction and upstream "control" localities that lack guppies. Contrary to expectations, Rivulus from the introduction sites evolved earlier maturation and increased reproductive investment within 25 years. Such evolutionary changes parallel previous investigations on natural communities of Rivulus, but do not comply with predictions of age/size-specific theory. Guppies also caused reduced densities and increased growth rates of Rivulus, which are hypothesized indirect effects of predation. Additional life-history theories show that changes in density and growth can interact with predator-induced mortality to alter the predicted trajectory of evolution. We discuss how these latter frameworks improve the fit between theory and evolution in Rivulus., (© 2010 The Author(s). Evolution© 2010 The Society for the Study of Evolution.)

Published

2011

15. Contemporary evolutionary divergence for a protected species following assisted colonization.

Author

Collyer ML, Heilveil JS, and Stockwell CA

Subjects

Animals, Female, Killifishes anatomy & histology, Male, Multivariate Analysis, Species Specificity, Biological Evolution, Ecosystem, Endangered Species, Genetic Variation, Killifishes genetics

Abstract

Background: Contemporary evolution following assisted colonization may increase the probability of persistence for refuge populations established as a bet-hedge for protected species. Such refuge populations are considered "genetic replicates" that might be used for future re-colonization in the event of a catastrophe in the native site. Although maladaptive evolutionary divergence of captive populations is well recognized, evolutionary divergence of wild refuge populations may also occur on contemporary time scales. Thus, refuge populations may lose their "value" as true genetic replicates of the native population. Here, we show contemporary evolutionary divergence in body shape in an approximately 30-year old refuge population of the protected White Sands pupfish (Cyprinodon tularosa) resulting in a body-shape mismatch with its native environment., Methodology/principal Findings: Geometric morphometic data were collected from C. tularosa cultures raised in experimental mesocosms. Cultures were initiated with fish from the two native populations, plus hybrids, in high or low salinity treatments representing the salinities of the two native habitats. We found that body shape was heritable and that shape variation due to phenotypic plasticity was small compared to shape variation due to population source. C. tularosa from the high salinity population retained slender body shapes and fish from the low salinity population retained deep body shapes, irrespective of mesocosm salinity. These data suggest that the observed divergence of a recently established pupfish population was not explained by plasticity. An analysis of microsatellite variation indicated that no significant genetic drift occurred in the refuge population, further supporting the adaptive nature of changes in body shape. These lines of evidence suggest that body shape divergence of the refuge population reflects a case of contemporary evolution (over a 30-year period)., Conclusions/significance: These results suggest assisted colonization can introduce novel, and/or relaxed selection, and lead to unintended evolutionary divergence.

Published

2011

16. Influence of the indirect effects of guppies on life-history evolution in Rivulus hartii.

Author

Walsh MR and Reznick DN

Subjects

Animals, Female, Food, Killifishes growth & development, Male, Multivariate Analysis, Predatory Behavior, Biological Evolution, Ecosystem, Killifishes genetics, Oviparity, Poecilia

Abstract

Early theories of life-history evolution predict that increased predation on young/small individuals selects for delayed maturation and decreased reproductive effort, but such theory only considers changes in mortality. Predators reduce prey abundance and increase food to survivors. Theory that incorporates such indirect effects yields different predictions. Trinidadian killifish, Rivulus hartii, inhabit communities with and without guppies. Guppies prey on young Rivulus and Rivulus densities decline and growth rates increase when guppies are present. Prior work showed that Rivulus phenotypes from communities with guppies matured earlier and had higher fecundity, consistent with theories that incorporate indirect effects. Here we examined the genetic basis of these differences by rearing 2nd generation, laboratory-born Rivulus from sites with and without guppies under two food levels that match natural differences in growth. Many locality x food interactions were significant, often reversing the relationship between communities. Such interactions imply that there are fitness trade-offs associated with adaptation to high or low resource environments. On high food, Rivulus from localities with guppies matured earlier, produced many small eggs, and exhibited increased reproductive investment; these differences reversed on low food. Our results suggest that indirect effects mold Rivulus evolution and thereby highlight connections between community processes and evolutionary change.

Published

2010

17. Evidence for four Hox clusters in the killifish Fundulus heteroclitus (teleostei).

Author

Misof BY and Wagner GP

Subjects

Amino Acid Sequence, Animals, Base Sequence, DNA Primers, Fishes, Humans, Kinetics, Mice, Models, Genetic, Molecular Sequence Data, Phylogeny, Polymerase Chain Reaction, Probability, Sequence Homology, Amino Acid, Sequence Homology, Nucleic Acid, Biological Evolution, Genes, Homeobox, Homeodomain Proteins genetics, Killifishes genetics, Multigene Family

Abstract

We analyzed the HOM/Hox cluster composition of the teleost Fundulus heteroclitus (Killifish) using a PCR survey. We found a total number of 30 unique homeobox sequences which could be assigned to specific cognate groups of the Hox clusters by sequence comparisons. One sequence was of the msh group. Ten homeobox fragments could be identified as orthologs with specific mammalian Hox genes of cluster A-D. The number of representatives in cognate groups 1, 4, 5, 6, 7, 8 and 9 differed from those of human and mouse. For groups 1 and 9 we found four representatives, which provides the first evidence for possible four Hox clusters in a diploid teleost, a lower vertebrate. Furthermore, it demonstrates significant differences of the Fundulus clusters compared to those of mouse and humans. The implications of our data for the interpretation of the evolution of Hox clusters are discussed.

Published

1996

18. Fundulus heteroclitus vitellogenin: the deduced primary structure of a piscine precursor to noncrystalline, liquid-phase yolk protein.

Author

LaFleur GJ Jr, Byrne BM, Kanungo J, Nelson LD, Greenberg RM, and Wallace RA

Subjects

Amino Acid Sequence, Animals, Base Sequence, Chickens genetics, Codon genetics, DNA, Complementary, Egg Proteins chemistry, Female, Lampreys genetics, Liver metabolism, Male, Molecular Sequence Data, Oncorhynchus mykiss genetics, Open Reading Frames, Protein Precursors biosynthesis, Protein Precursors genetics, Sequence Homology, Amino Acid, Vitellogenins chemistry, Xenopus laevis genetics, Biological Evolution, Egg Proteins genetics, Killifishes genetics, Vitellogenins genetics

Abstract

We have cloned and sequenced a cDNA encoding a vitellogenin (Vtg) from the mummichog, Fundulus heteroclitus, an estuarine teleost. We constructed a liver cDNA library against RNA from estrogen-treated male mummichogs. Five overlapping cDNA clones totalling 5,197 bp were isolated through a combination of degenerate oligonucleotide probing of the library and PCR. The cDNA sequence contains a 5,112 bp open reading frame. The predicted primary structure of the deduced 1,704-amino-acid protein is 30-40% identical to other documented chordate Vtgs, establishing this Vtg as a member of the ancient Vtg gene family. Of the previously reported chordate Vtg sequences (Xenopus laevis, Gallus domesticus, Ichthyomyzon unicuspis, and Acipenser transmontanus), all four act as precursor proteins to a yolk which is eventually rendered insoluble under physiological conditions, either as crystalline platelets or as noncrystalline granules. The yolk of F. heteroclitus, on the other hand, remains in a soluble state throughout oocyte growth. The putative F. heteroclitus Vtg contains a polyserine region with a relative serine composition that is 10-20% higher than that observed for the other Vtgs. The trinucleotide repeats encoding the characteristic polyserine tracts of the phosvitin region follow a previously reported trend: TCX codons on the 5' end and AGY codons toward the 3' end. Whether the difference in Vtg primary structure between F. heteroclitus and that of other chordates is responsible for the differences in yolk structure remains to be elucidated. As the first complete teleost Vtg to be reported, these data will aid in designing nucleotide and immunological probes for detecting Vtg as a reproductive status indicator in F. heteroclitus and other piscine species.

Published

1995

19. Evolutionary relations among vertebrate muscle-type lactate dehydrogenases.

Author

Quattro JM, Pollock DD, Powell M, Woods HA, and Powers DA

Subjects

Amino Acid Sequence, Animals, Base Sequence, Fishes genetics, Gene Library, Humans, Isoenzymes, Killifishes genetics, Mammals genetics, Molecular Sequence Data, Phylogeny, Biological Evolution, L-Lactate Dehydrogenase genetics, Muscle, Skeletal enzymology, Vertebrates genetics

Abstract

Gene duplication has produced two lactate dehydrogenase (LDH) isozymes, LDH-A and LDH-B, that are found in essentially all vertebrates. On the basis of the biochemical properties of the LDH-A and LDH-B isozymes, it has been suggested that each locus is orthologous among all vertebrates. However, phylogenetic studies have not supported a common evolutionary history among the LDH-A isozymes, particularly when those from lower vertebrates are examined. We present here the sequence of a muscle-type LDH from Fundulus heteroclitus, a teleost fish for which the LDH-B sequence has been determined and shown to be unrelated phylogenetically to tetrapod LDH-A isozymes. Although the sequence of the teleost muscle LDH shares certain features with the LDH-A of tetrapods, phylogenetic analyses do not support an orthologous relation among the LDH-A isozymes of teleost fish and tetrapod vertebrates.

Published

1995

20. Evolutionary conservation of the vertebrate Ah (dioxin) receptor: amplification and sequencing of the PAS domain of a teleost Ah receptor cDNA.

Author

Hahn ME and Karchner SI

Subjects

Amino Acid Sequence, Animals, Base Sequence, Conserved Sequence, DNA Primers, DNA, Complementary, Gene Expression, Humans, Male, Mammals genetics, Mice, Molecular Sequence Data, Phylogeny, Polymerase Chain Reaction, Rats, Sequence Homology, Amino Acid, Biological Evolution, Killifishes genetics, Receptors, Aryl Hydrocarbon biosynthesis, Receptors, Aryl Hydrocarbon genetics

Abstract

The PAS domain of a teleost Ah receptor was amplified using reverse transcription-PCR with degenerate primers containing inosine. The deduced amino acid sequence of the amplified cDNA fragment was 62-64% identical with the PAS domains of mammalian Ah receptors. These data demonstrate the homology of Ah receptors in mammals and fish, and reveal regions of this protein that are highly conserved between these diverse vertebrate groups.

Published

1995

21. Concerted evolution at the population level: pupfish HindIII satellite DNA sequences.

Author

Elder JF Jr and Turner BJ

Subjects

Animals, Atlantic Ocean, Base Sequence, Cloning, Molecular, DNA genetics, Deoxyribonuclease HindIII, Gene Frequency, Genetic Variation, Genetics, Population, Molecular Sequence Data, Repetitive Sequences, Nucleic Acid, Biological Evolution, DNA, Satellite genetics, Killifishes genetics

Abstract

The canonical monomers (approximately 170 bp) of an abundant (1.9 x 10(6) copies per diploid genome) satellite DNA sequence family in the genome of Cyprinodon variegatus, a "pupfish" that ranges along the Atlantic coast from Cape Cod to central Mexico, are divergent in base sequence in 10 of 12 samples collected from natural populations. The divergence involves substitutions, deletions, and insertions, is marked in scope (mean pairwise sequence similarity = 61.6%; range = 35-95.9%), is largely confined to the 3' half of the monomer, and is not correlated with the distance among collecting sites. Repetitive cloning and direct genomic sequencing experiments failed to detect intrapopulation and intraindividual variation, suggesting high levels of sequence homogeneity within populations. The satellite sequence has therefore undergone "concerted evolution," at the level of the local population. Concerted evolution has previously almost always been discussed in terms of the divergence of species or higher taxa; its intraspecific occurrence apparently has not been reported previously. The generality of the observation is difficult to evaluate, for although satellite DNAs from a large number of organisms have been studied in detail, there appear to be little or no other data on their sequence variation in natural populations. The relationship (if any) between concerted, population level, satellite DNA divergence and the extent of gene flow/genetic isolation among conspecific natural populations remains to be established.

Published

1994

22. The evolution of copulatory organs, internal fertilization, placentae and viviparity in killifishes (Cyprinodontiformes) inferred from a DNA phylogeny of the tyrosine kinase gene X-src.

Author

Meyer A and Lydeard C

Subjects

Animals, Base Sequence, Cypriniformes classification, DNA analysis, DNA Primers, Exons, Killifishes classification, Molecular Sequence Data, Phylogeny, Placenta, Polymerase Chain Reaction, Biological Evolution, Cypriniformes genetics, DNA genetics, Fertilization, Genes, src, Killifishes genetics, Killifishes physiology, Protein-Tyrosine Kinases genetics, Reproduction

Abstract

Cyprinodontiforms are a diverse group of approximately 900 pantropical and temperate fishes, mostly found in freshwater. Whereas the vast majority of fishes lay eggs (i.e. are oviparous), this group is unusual in that four groups of cyprinodont fishes give birth to living young (i.e. are viviparous). A molecular phylogenetic hypothesis was based on partial DNA sequences of the tyrosine kinase gene X-src. The study included the major lineages of fishes of the suborder Cyprinodontoidei, order Cyprinodontiformes. Our phylogeny agrees with some but not all of the conclusions of a previous morphological cladistic analysis (Parenti (Bull. Am. Mus. nat. Hist. 168, 335 (1981)). The differences are: (i) the Profundulidae are the sister group to the Goodeidae, not the sister group to all other cyprinodontoids; (ii) Fundulidae are the sister group to the Profundulidae and Goodeidae; (iii) Cubanichthys and the Cyprinodontinae might not be sister taxa; (iv) Cubanichthys, and not the Profundulidae, might be the most basal member of the cyprinodontoids; and (v) the Anablepinae and Poeciliinae might be sister groups. The molecular phylogeny was used to reconstruct the evolution of major life-history traits such as internal fertilization, copulatory organs, livebearing and placentas. Internal fertilization, modifications of the male's anal fin to form a copulatory organ, and viviparity probably evolved independently three times in cyprinodontiform fishes: in the subfamilies Goodeinae, Anablepinae and Poeciliinae (sensu Parenti 1981). The evolution of bundled sperm, spermatozeugmata, is probably not a prerequisite for internal fertilization because at least one species with internal fertilization has free spermatozoa. Livebearing (viviparity), which takes the form of ovoviviparity (where embryos are nourished by their yolk sac only), evolved only in the subfamily Poeciliinae. Advanced forms of viviparity, in which the mother provides additional nourishment to the embryos through placenta-like structures, apparently evolved at least three times from egg-laying ancestors: in the subfamilies Goodeinae, Anablepinae, and more than once in the Poeciliinae.

Published

1993

23. Evolutionary adaptation to different thermal environments via transcriptional regulation.

Author

Crawford DL and Powers DA

Subjects

Analysis of Variance, Animals, Gene Expression Regulation, Enzymologic, Isoenzymes, Killifishes genetics, Kinetics, L-Lactate Dehydrogenase genetics, L-Lactate Dehydrogenase metabolism, Liver metabolism, RNA, Messenger genetics, Adaptation, Biological genetics, Biological Evolution, Killifishes physiology, Temperature, Transcription, Genetic

Abstract

Populations of the teleost fish Fundulus heteroclitus are subjected to the clinical variation in environmental temperatures that occurs along the eastern seacoast of North America. In concordance with this change in temperature is the clinal variation in the enzyme concentration of the heart-type lactate dehydrogenase (LDH-B; E.C.1.1.1.27). Previously we have shown that the compensating change in the LDH-B enzyme concentration is due to a change in the amount of LDH-B mRNA, but we did not define whether this was due to differences in mRNA stability or to differences in rate of transcription. The results presented here help clarify the molecular mechanism responsible for the variation in Ldh-B gene expression: the rate of transcription from the Ldh-B locus is significantly different between populations, and this difference is responsible for the compensatory change in LDH-B enzyme concentration.

Published

1992

24. Molecular basis of evolutionary adaptation at the lactate dehydrogenase-B locus in the fish Fundulus heteroclitus.

Author

Crawford DL and Powers DA

Subjects

Animals, Blotting, Northern, Blotting, Southern, Gene Frequency, Genes, Isoenzymes, L-Lactate Dehydrogenase metabolism, Liver enzymology, RNA, Messenger genetics, Transcription, Genetic, Adaptation, Physiological, Biological Evolution, Cyprinodontiformes genetics, Killifishes genetics, L-Lactate Dehydrogenase genetics

Abstract

At the extremes of its natural distribution, populations of the common killifish Fundulus heteroclitus experience a difference of more than 15 degrees C in mean annual temperature. These populations are virtually fixed for two different codominant alleles at the heart-type lactate dehydrogenase locus (Ldh-B) which code for allozymes with different and adaptive kinetic responses to temperature. Two populations near the extremes of the species range (i.e., Maine and Georgia) were further studied for thermal adaptation at this locus. In the absence of any kinetic differences one would predict that to maintain a constant reaction velocity, 2 to 3 times as much enzyme would be required for each 10 degrees C decrease in environmental temperature. Consistent with this adaptive strategy and in addition to the adaptive kinetic characteristics, the LDH-B4 enzyme (EC 1.1.1.27) concentration and its mRNA concentration were approximately twice as great in the northern population as in the southern population. Acclimation experiments allow us to conclude that these differences are due to a combination of fixed genetic traits (evolutionary adaptation) and plastic responses to temperature (physiological acclimation). Furthermore, our calculations show that the LDH-B4 reaction velocities are essentially equivalent for these two populations, even though they live in significantly different thermal environments.

Published

1989

25. Lactate dehydrogenase-B cDNA from the teleost Fundulus heteroclitus: evolutionary implications.

Author

Crawford DL, Constantino HR, and Powers DA

Subjects

Amino Acid Sequence, Animals, Base Sequence, DNA genetics, Isoenzymes, Molecular Sequence Data, Myocardium enzymology, Phylogeny, Sequence Homology, Nucleic Acid, Biological Evolution, Cyprinodontiformes genetics, Killifishes genetics, L-Lactate Dehydrogenase genetics

Abstract

A cDNA that encodes the heart-type lactate dehydrogenase (LDH-B) from the teleost fish Fundulus heteroclitus was cloned and sequenced. The protein encoded by the cDNA was analyzed in relation to 13 LDH proteins from a variety of taxa. One of the deductions from this analysis is that LDH-B proteins have residues in the active site that are unique and that may be important in determining the biochemistry of the heart-type isozyme. Phylogenetic analysis of the LDH sequences indicates that the branch lengths are greater in lower vertebrates, suggesting that the amino acid replacement rates vary depending on the evolutionary constraints within each taxon. Furthermore, the analysis suggests that LDH-C arose prior to the divergence of the LDH-A and LDH-B isozymes and thus that it is probably ancestral to these isozymes.

Published

1989