Your search keyword '"Crustacea genetics"' showing total 29 results

1. Detection, movement and persistence of invertebrate eDNA in groundwater.

Author

Korbel KL, Hose GC, Karwautz C, Greenfield P, Wang H, Chariton AA, and Griebler C

Subjects

Animals, Biodiversity, Environmental Monitoring methods, Ecosystem, Crustacea genetics, Groundwater, DNA, Environmental analysis, DNA, Environmental genetics, Invertebrates genetics

Abstract

Sampling groundwater biodiversity is difficult because of limited access and issues with species identification. Environmental DNA (eDNA) provides a viable alternative to traditional sampling approaches, however limited knowledge of the abundance and fate of DNA in groundwater hinders the interpretation of data from these environments. Groundwater environments are dark and have lower oxygen concentrations and microbial activity than surface waters. Consequently, assumptions about DNA fate in surface ecosystems may not apply to groundwaters. Here, we test the longevity and transport of eDNA in groundwater within a static microcosm and a flow-through mesocosm. A variety of invertebrates were placed within a mesocosm and microcosm to enable DNA shedding, and then removed. DNA persisted for up to 5 weeks after their removal in the static experiment and was detected between 9 and 33 days in the flow-through experiment. Sediments and water both proved important for eDNA detection. Crustacean DNA was detected sporadically and unpredictably, whereas non-crustacean DNA was detected more frequently despite their lower densities. We suggest that detecting crustaceans poses a challenge to utilising eDNA approaches for stygofauna monitoring. This is confounded by the scarcity of sequences for stygofauna in reference databases. Further research is needed before eDNA alone can be routinely employed for stygofauna detection., (© 2024. The Author(s).)

Published

2024

2. Diversification of the shell shape and size in Baikal Candonidae ostracods inferred from molecular phylogeny.

Author

Karanovic I, Pham HTM, and Sitnikova T

Subjects

Animals, Phylogeny, RNA, Ribosomal, 16S genetics, Cluster Analysis, Crustacea genetics, Lakes

Abstract

Ostracod shells are used extensively in paleontology, but we know little about their evolution, especially in ancient lakes. Lake Baikal (LB) is the world's most important stronghold of Candonidae diversity. These crustaceans radiated here rapidly (12-5 Ma) and with an unprecedented morphological diversity. We reconstruct their molecular phylogeny with 46 species and two markers (18S and 16S rRNA), and use it to estimate the evolution of the shell shape and size with landmark-based geometric morphometrics (LBGM). High posterior probabilities support four major clades, which differ in node depth and morphospace clustering. After removing a significant allometry, the first three principal components (PCs) describe about 88% of total variability, suggesting a strong integration. Reconstructed ancestral shapes are similar for all four clades, indicating that diversification happened after colonization. Major evolutionary changes occurred from trapezoidal to elongated shapes. Sister species are separated in morphospace, by centroid size, or both, as well as by vertical and horizontal distributions in LB. Ostracod shell is a strongly integrated structure that exhibits high evolvability, with some extreme shapes, although mostly along the first PC. This is the first study that combines molecular phylogeny and LBGM for ostracods and for any LB group., (© 2023. The Author(s).)

Published

2023

3. Activity-dependent compensation of cell size is vulnerable to targeted deletion of ion channels.

Author

Gorur-Shandilya S, Marder E, and O'Leary T

Subjects

Animals, Arthropod Proteins genetics, Arthropod Proteins metabolism, Cell Size, Crustacea metabolism, Feedback, Physiological, Gene Deletion, Homeostasis, Ion Channels metabolism, Models, Theoretical, Crustacea genetics, Ion Channels genetics, Neurons physiology

Abstract

In many species, excitable cells preserve their physiological properties despite significant variation in physical size across time and in a population. For example, neurons in crustacean central pattern generators generate similar firing patterns despite several-fold increases in size between juveniles and adults. This presents a biophysical problem because the electrical properties of cells are highly sensitive to membrane area and channel density. It is not known whether specific mechanisms exist to sense membrane area and adjust channel expression to keep a consistent channel density, or whether regulation mechanisms that sense activity alone are capable of compensating cell size. We show that destabilising effects of growth can be specifically compensated by feedback mechanism that senses average calcium influx and jointly regulate multiple conductances. However, we further show that this class of growth-compensating regulation schemes is necessarily sensitive to perturbations that alter the expression of subsets of ion channel types. Targeted perturbations of specific ion channels can trigger a pathological response of the regulation mechanism and a failure of homeostasis. Our findings suggest that physiological regulation mechanisms that confer robustness to growth may be specifically vulnerable to deletions or mutations that affect subsets of ion channels.

Published

2020

4. Using larval barcoding to estimate stomatopod species richness at Lizard Island, Australia for conservation monitoring.

Author

Palecanda S, Feller KD, and Porter ML

Subjects

Animals, Arthropod Proteins genetics, Australia, Conservation of Natural Resources, Crustacea genetics, Islands, Larva classification, Larva genetics, Larva growth & development, Phylogeny, Sequence Analysis, DNA, Crustacea classification, Crustacea growth & development, DNA Barcoding, Taxonomic methods, Electron Transport Complex IV genetics

Abstract

Stomatopods (Crustacea, Stomatopoda) are well studied for their aggressive behavior and unique visual system as well as their commercial importance in Asian and European countries. Like many crustaceans, stomatopods undergo indirect development, passing though several larval stages before reaching maturity. Adult stomatopods can be difficult to catch due to their inaccessible habitats and cryptic coloration. By sampling larvae from the planktonic community, less effort is required to obtain accurate measures of species richness within a region. Stomatopod larvae were collected between 2006 and 2015 from the waters around the Lizard Island reef platform in Eastern Australia. Cytochrome oxidase I (COI) mitochondrial DNA sequences were generated from each larval sample and compared to a database of COI sequences tied to adult specimens. Of the 20 species collected from Lizard Island as adults which have COI data available, 18 species were identified from larval sampling. One additional species identified from larval samples, Busquilla plantei, was previously unknown from Lizard Island. Nine larval OTUs were found not to match any published adult sequences. Sampling larval stomatopod populations provides a comparable picture of the adult population to benthic sampling methods and may include species richness beyond what is measurable by sampling adult populations.

Published

2020

5. Laboratory culture of the California Sea Firefly Vargula tsujii (Ostracoda: Cypridinidae): Developing a model system for the evolution of marine bioluminescence.

Author

Goodheart JA, Minsky G, Brynjegard-Bialik MN, Drummond MS, Munoz JD, Fallon TR, Schultz DT, Weng JK, Torres E, and Oakley TH

Subjects

Animals, Aquaculture methods, Aquatic Organisms metabolism, California, Crustacea embryology, Crustacea genetics, Crustacea growth & development, Female, Genetics, Population, Genome genetics, Genome, Mitochondrial genetics, Life Cycle Stages, Male, Mitochondria genetics, Whole Genome Sequencing, Biological Evolution, Crustacea metabolism, Luminescence

Abstract

Bioluminescence, or the production of light by living organisms via chemical reaction, is widespread across Metazoa. Laboratory culture of bioluminescent organisms from diverse taxonomic groups is important for determining the biosynthetic pathways of bioluminescent substrates, which may lead to new tools for biotechnology and biomedicine. Some bioluminescent groups may be cultured, including some cnidarians, ctenophores, and brittle stars, but those use luminescent substrates (luciferins) obtained from their diets, and therefore are not informative for determination of the biosynthetic pathways of the luciferins. Other groups, including terrestrial fireflies, do synthesize their own luciferin, but culturing them is difficult and the biosynthetic pathway for firefly luciferin remains unclear. An additional independent origin of endogenous bioluminescence is found within ostracods from the family Cypridinidae, which use their luminescence for defense and, in Caribbean species, for courtship displays. Here, we report the first complete life cycle of a luminous ostracod (Vargula tsujii Kornicker & Baker, 1977, the California Sea Firefly) in the laboratory. We also describe the late-stage embryogenesis of Vargula tsujii and discuss the size classes of instar development. We find embryogenesis in V. tsujii ranges from 25-38 days, and this species appears to have five instar stages, consistent with ontogeny in other cypridinid lineages. We estimate a complete life cycle at 3-4 months. We also present the first complete mitochondrial genome for Vargula tsujii. Bringing a luminous ostracod into laboratory culture sets the stage for many potential avenues of study, including learning the biosynthetic pathway of cypridinid luciferin and genomic manipulation of an autogenic bioluminescent system.

Published

2020

6. Post-Disturbance Genetic Changes: The Impact of the 2010 Mega-Earthquake and Tsunami on Chilean Sandy Beach Fauna.

Author

Brante A, Guzmán-Rendón G, Barría EM, Guillemin ML, Vera-Escalona I, and Hernández CE

Subjects

Amphipoda genetics, Animals, Bathing Beaches, Chile, Haplotypes genetics, Isopoda genetics, Larva, Sequence Alignment, Sequence Homology, Nucleic Acid, Crustacea genetics, Earthquakes, Gene Flow, Tsunamis

Abstract

Earthquake/tsunamis can have profound impacts on species and their genetic patterns. It is expected that the magnitude of this impact might depend on the species and the time since the disturbance occurs, nevertheless these assumptions remain mostly unexplored. Here we studied the genetic responses of the crustacean species Emerita analoga, Excirolana hirsuticauda, and Orchestoidea tuberculata to the 27F mega-earthquake/tsunami that occurred in Chile in February 2010. mtDNA sequence analyses revealed a lower haplotype diversity for E. analoga and E. hirsuticauda in impacted areas one month after the 27F, and the opposite for O. tuberculata. Three years after the 27F we observed a recovery in the genetic diversity of E. analoga and E. hirsuticauda and decrease in the genetic diversity in O. tuberculata in 2/3 of sampled areas. Emerita analoga displayed decrease of genetic differentiation and increase in gene flow explained by long-range population expansion. The other two species revealed slight increase in the number of genetic groups, little change in gene flow and no signal of population expansion associated to adult survival, rapid colonization, and capacity to burrow in the sand. Our results reveal that species response to a same disturbance event could be extremely diverse and depending on life-history traits and the magnitude of the effect.

Published

2019

7. EXCLUSIVE: Tiny animal carcasses found in buried Antarctic lake.

Author

Fox D

Subjects

Animals, Antarctic Regions, Diatoms genetics, Diatoms isolation & purification, History, Ancient, Ice Cover, Models, Theoretical, Radiometric Dating, Time Factors, Crustacea classification, Crustacea genetics, Geologic Sediments microbiology, Geologic Sediments parasitology, Lakes microbiology, Lakes parasitology

Published

2019

8. Identification of reference genes for RT-qPCR data normalization in Gammarus fossarum (Crustacea Amphipoda).

Author

Mehennaoui K, Legay S, Serchi T, Guérold F, Giamberini L, Gutleb AC, and Cambier S

Subjects

Animals, Crustacea drug effects, Fresh Water, Gene Expression drug effects, Metal Nanoparticles toxicity, Reference Standards, Silver toxicity, Water Pollutants, Chemical toxicity, Crustacea genetics, Ecotoxicology, Gene Expression genetics, Real-Time Polymerase Chain Reaction methods

Abstract

Gene expression profiling via RT-qPCR is a robust technique increasingly used in ecotoxicology. Determination and validation of optimal reference genes is a requirement for initiating RT-qPCR experiments. To our best knowledge, this study is the first attempt of identifying a set of reference genes for the freshwater crustacean Gammarus fossarum. Six candidate genes (Actin, TUB, UB, SDH, Clathrin and GAPDH) were tested in order to determine the most stable ones in different stress conditions and to increase the robustness of RT-qPCR data. SDH and Clathrin appeared as the most stable ones. A validation was performed using G. fossarum samples exposed for 15 days to AgNO 3 , silver nanoparticles (AgNPs) 40 nm and gold nanoparticles (AuNPs) 40 nm. Effects on HSP90 were evaluated and data normalized using Clathrin and SDH. A down-regulation of HSP90 was observed when G. fossarum were exposed to AuNPs 40 nm whereas no effects were observed when G. fossarum were exposed to AgNPs 40 nm. This study highlights the importance of the preliminary determination of suitable reference genes for RT-qPCR experiments. Additionally, this study allowed, for the first time, the determination of a set of valuable genes that can be used in other RT-qPCR studies using G. fossarum as model organism.

Published

2018

9. Phylogeography of Petrolisthes armatus, an invasive species with low dispersal ability.

Author

Hiller A and Lessios HA

Subjects

Animals, Gene Flow, Phylogeography, Species Specificity, Crustacea classification, Crustacea genetics, DNA, Mitochondrial genetics, Genetic Variation, Genetics, Population, Introduced Species

Abstract

Theoretically, species with high population structure are likely to expand their range, because marginal populations are free to adapt to local conditions; however, meta-analyses have found a negative relation between structure and invasiveness. The crab Petrolisthes armatus has a wide native range, which has expanded in the last three decades. We sequenced 1718 bp of mitochondrial DNA from native and recently established populations to determine the population structure of the former and the origin of the latter. There was phylogenetic separation between Atlantic and eastern Pacific populations, and between east and west Atlantic ones. Haplotypes on the coast of Florida and newly established populations in Georgia and South Carolina belong to a different clade from those from Yucatán to Brazil, though a few haplotypes are shared. In the Pacific, populations from Colombia and Ecuador are highly divergent from those from Panamá and the Sea of Cortez. In general, populations were separated hundreds to million years ago with little subsequent gene flow. High genetic diversity in the newly established populations shows that they were founded by many individuals. Range expansion appears to have been limited by low dispersal rather than lack of ability of marginal populations to adapt to extreme conditions.

Published

2017

10. Phylogenetic evidence that both ancient vicariance and dispersal have contributed to the biogeographic patterns of anchialine cave shrimps.

Author

Jurado-Rivera JA, Pons J, Alvarez F, Botello A, Humphreys WF, Page TJ, Iliffe TM, Willassen E, Meland K, Juan C, and Jaume D

Subjects

Animals, Genes, Mitochondrial, Geography, Crustacea classification, Crustacea genetics, Phylogeny, Phylogeography

Abstract

Cave shrimps from the genera Typhlatya, Stygiocaris and Typhlopatsa (Atyidae) are restricted to specialised coastal subterranean habitats or nearby freshwaters and have a highly disconnected distribution (Eastern Pacific, Caribbean, Atlantic, Mediterranean, Madagascar, Australia). The combination of a wide distribution and a limited dispersal potential suggests a large-scale process has generated this geographic pattern. Tectonic plates that fragment ancestral ranges (vicariance) has often been assumed to cause this process, with the biota as passive passengers on continental blocks. The ancestors of these cave shrimps are believed to have inhabited the ancient Tethys Sea, with three particular geological events hypothesised to have led to their isolation and divergence; (1) the opening of the Atlantic Ocean, (2) the breakup of Gondwana, and (3) the closure of the Tethys Seaway. We test the relative contribution of vicariance and dispersal in the evolutionary history of this group using mitochondrial genomes to reconstruct phylogenetic and biogeographic scenarios with fossil-based calibrations. Given that the Australia/Madagascar shrimp divergence postdates the Gondwanan breakup, our results suggest both vicariance (the Atlantic opening) and dispersal. The Tethys closure appears not to have been influential, however we hypothesise that changing marine currents had an important early influence on their biogeography.

Published

2017

11. Cryptic diversity in the Japanese mantis shrimp Oratosquilla oratoria (Crustacea: Squillidae): Allopatric diversification, secondary contact and hybridization.

Author

Cheng J and Sha ZL

Subjects

Animals, DNA, Mitochondrial, DNA, Ribosomal Spacer, Evolution, Molecular, Genetic Variation, Hybridization, Genetic, Phylogeny, Phylogeography, Biodiversity, Crustacea classification, Crustacea genetics

Abstract

Mounting evidence of cryptic species in the marine realm emphasizes the necessity to thoroughly revise our current perceptions of marine biodiversity and species distributions. Here, we used mitochondrial cytochrome oxidase subunit I (mtDNA COI) and nuclear ribosomal internal transcribed spacer (nrDNA ITS) to investigate cryptic diversity and potential hybridization in the Japanese mantis shrimp Oratosquilla oratoria in the Northwestern (NW) Pacific. Both mitochondrial and nuclear gene genealogies revealed two cryptic species in this morphotaxon, which was further confirmed by extensive population-level analyses. One cryptic species is restricted to cold waters with a distribution range corresponding to temperate affinities, while the other dwelled warm waters influenced by the Kuroshio Current. Their divergence was postulated to be attributable to the vicariant event which resulted from the isolation of the Sea of Japan during the middle Pliocene (c. 3.85 Mya, 95% HPD 2.23-6.07 Mya). Allopatric speciation was maintained by limited genetic exchange due to their habitat preferences. Furthermore, the observation of recombinant nrDNA ITS sequence and intra-individual ITS polymorphism suggested recent hybridization event of the two cryptic species occurred in sympatric areas. Our study also illustrated that the Changjiang River outflow might act as an oceanic barrier to gene flow and promoted allopatric diversification in O. oratoria species complex.

Published

2017

12. DNA barcoding identifies a cosmopolitan diet in the ocean sunfish.

Author

Sousa LL, Xavier R, Costa V, Humphries NE, Trueman C, Rosa R, Sims DW, and Queiroz N

Subjects

Animals, Atlantic Ocean, Cnidaria genetics, Cnidaria physiology, Crustacea genetics, Crustacea physiology, DNA genetics, Fishes genetics, Fishes physiology, Food Chain, Oceans and Seas, Plankton genetics, Plankton physiology, DNA Barcoding, Taxonomic methods, Diet, Feeding Behavior physiology, Predatory Behavior physiology, Tetraodontiformes physiology

Abstract

The ocean sunfish (Mola mola) is the world's heaviest bony fish reaching a body mass of up to 2.3 tonnes. However, the prey M. mola consumes to fuel this prodigious growth remains poorly known. Sunfish were thought to be obligate gelatinous plankton feeders, but recent studies suggest a more generalist diet. In this study, through molecular barcoding and for the first time, the diet of sunfish in the north-east Atlantic Ocean was characterised. Overall, DNA from the diet content of 57 individuals was successfully amplified, identifying 41 different prey items. Sunfish fed mainly on crustaceans and teleosts, with cnidarians comprising only 16% of the consumed prey. Although no adult fishes were sampled, we found evidence for an ontogenetic shift in the diet, with smaller individuals feeding mainly on small crustaceans and teleost fish, whereas the diet of larger fish included more cnidarian species. Our results confirm that smaller sunfish feed predominantly on benthic and on coastal pelagic species, whereas larger fish depend on pelagic prey. Therefore, sunfish is a generalist predator with a greater diversity of links in coastal food webs than previously realised. Its removal as fisheries' bycatch may have wider reaching ecological consequences, potentially disrupting coastal trophic interactions.

Published

2016

13. Phylogenetics reveals the crustacean order Amphionidacea to be larval shrimps (Decapoda: Caridea).

Author

De Grave S, Chan TY, Chu KH, Yang CH, and Landeira JM

Subjects

Animals, DNA Barcoding, Taxonomic, Genetic Markers, Larva, Crustacea classification, Crustacea genetics, Decapoda classification, Decapoda genetics, Phylogeny

Abstract

We present evidence that the single representative of the crustacean order Amphionidacea is a decapod shrimp and not a distinct order. After reviewing available morphological evidence, it is concluded that Amphionides is a larval form, but with an as yet unknown parentage. Although the most likely adult form is in the family Pandalidae, the limited molecular data available cannot fully resolve its affinity. We therefore propose to treat Amphionides reynaudii as incertae sedis within Caridea, rather than a separate family. In view of the large scale, tropical and subtropical distribution of the taxon, the possibility is discussed that Amphionides is more likely to be a composite taxon at generic level, rather than larvae of a single shrimp species.

Published

2015

14. Transition in sexual system and sex chromosome evolution in the tadpole shrimp Triops cancriformis.

Author

Mathers TC, Hammond RL, Jenner RA, Hänfling B, Atkins J, and Gómez A

Subjects

Animals, Crustacea physiology, Female, Genetic Markers, Hermaphroditic Organisms, Male, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Sex Determination Processes genetics, Biological Evolution, Crustacea genetics, Sex Chromosomes

Abstract

Transitions in sexual system and reproductive mode may affect the course of sex chromosome evolution, for instance by altering the strength of sexually antagonistic selection. However, there have been few studies of sex chromosomes in systems where such transitions have been documented. The European tadpole shrimp, Triops cancriformis, has undergone a transition from dioecy to androdioecy (a sexual system where hermaphrodites and males coexist), offering an excellent opportunity to test the impact of this transition on the evolution of sex chromosomes. To identify sex-linked markers, to understand mechanisms of sex determination and to investigate differences between sexual systems, we carried out a genome-wide association study using restriction site-associated DNA sequencing (RAD-seq) of 47 males, females and hermaphrodites from one dioecious and one androdioecious population. We analysed 22.9 Gb of paired-end sequences and identified and scored >3000 high coverage novel genomic RAD markers. Presence-absence of markers, single-nucleotide polymorphism association and read depth identified 52 candidate sex-linked markers. We show that sex is genetically determined in T. cancriformis, with a ZW system conserved across dioecious and androdioecious populations and that hermaphrodites have likely evolved from females. We also show that the structure of the sex chromosomes differs strikingly, with a larger sex-linked region in the dioecious population compared with the androdioecious population.

Published

2015

15. Novel transcriptome assembly and improved annotation of the whiteleg shrimp (Litopenaeus vannamei), a dominant crustacean in global seafood mariculture.

Author

Ghaffari N, Sanchez-Flores A, Doan R, Garcia-Orozco KD, Chen PL, Ochoa-Leyva A, Lopez-Zavala AA, Carrasco JS, Hong C, Brieba LG, Rudiño-Piñera E, Blood PD, Sawyer JE, Johnson CD, Dindot SV, Sotelo-Mundo RR, and Criscitiello MF

Subjects

Algorithms, Animals, Crustacea genetics, Crustacea metabolism, DNA Replication genetics, Daphnia metabolism, Databases, Genetic, Genomics, Immune System metabolism, Sequence Analysis, RNA, User-Computer Interface, Aquaculture, Penaeidae genetics, Penaeidae metabolism, Seafood, Transcriptome

Abstract

We present a new transcriptome assembly of the Pacific whiteleg shrimp (Litopenaeus vannamei), the species most farmed for human consumption. Its functional annotation, a substantial improvement over previous ones, is provided freely. RNA-Seq with Illumina HiSeq technology was used to analyze samples extracted from shrimp abdominal muscle, hepatopancreas, gills and pleopods. We used the Trinity and Trinotate software suites for transcriptome assembly and annotation, respectively. The quality of this assembly and the affiliated targeted homology searches greatly enrich the curated transcripts currently available in public databases for this species. Comparison with the model arthropod Daphnia allows some insights into defining characteristics of decapod crustaceans. This large-scale gene discovery gives the broadest depth yet to the annotated transcriptome of this important species and should be of value to ongoing genomics and immunogenetic resistance studies in this shrimp of paramount global economic importance.

Published

2014

16. R2 dynamics in Triops cancriformis (Bosc, 1801) (Crustacea, Branchiopoda, Notostraca): turnover rate and 28S concerted evolution.

Author

Mingazzini V, Luchetti A, and Mantovani B

Subjects

Animals, Crustacea classification, Molecular Sequence Data, Phylogeny, Crustacea genetics, DNA, Ribosomal genetics, Evolution, Molecular, Mutagenesis, Insertional, RNA, Ribosomal, 28S genetics, Retroelements

Abstract

The R2 retrotransposon is here characterized in bisexual populations of the European crustacean Triops cancriformis. The isolated element matches well with the general aspects of the R2 family and it is highly differentiated from that of the congeneric North American Triops longicaudatus. The analysis of 5' truncations indicates that R2 dynamics in T. cancriformis populations show a high turnover rate as observed in Drosophila simulans. For the first time in the literature, though, individuals harboring truncation variants, but lacking the complete element, are found. Present results suggest that transposition-mediated deletion mechanisms, possibly involving genomic turnover processes acting on rDNAs, can dramatically decrease the copy number or even delete R2 from the ribosomal locus. The presence of R2 does not seem to impact on the nucleotide variation of inserted 28S rDNA with respect to the uninserted genes. On the other hand, a low level of polymorphism characterizes rDNA units because new 28S variants continuously spread across the ribosomal array. Again, the interplay between transposition-mediated deletion and molecular drive may explain this pattern.

Published

2011

17. Mitochondrial and nuclear DNA variability in the living fossil Triops cancriformis (Bosc, 1801) (Crustacea, Branchiopoda, Notostraca).

Author

Mantovani B, Cesari M, Luchetti A, and Scanabissi F

Subjects

Alleles, Animals, Microsatellite Repeats genetics, Polymerase Chain Reaction, Polymorphism, Genetic, Cell Nucleus genetics, Crustacea genetics, DNA, Mitochondrial genetics

Abstract

The living fossil Triops cancriformis comprises bisexual (either gonochoric or hermaphroditic) and unisexual populations. Genetic surveys have recently revealed a general trend of low differentiation of 12S and 16S mitochondrial genes. We, therefore, surveyed further mitochondrial (COI gene and control region) and nuclear markers (dinucleotide microsatellites) to assess the genetic variability and to establish any relationship with the different reproductive modes found in European populations. The mitochondrial analyses confirmed the pattern of low variability. Hence, the low mitochondrial genetic variability appears as a common feature of the genus Triops. The microsatellite analysis found that Italian populations are monomorphic or exhibit little polymorphism, while other European samples display a higher degree of polymorphism and private alleles. Spanish, Austrian and Italian populations show patterns of Hardy-Weinberg disequilibrium that could be explained by the mode of reproduction, or by a higher frequency of null alleles in these populations. The low diversity and differentiation among Italian populations lead us to question the Monopolization Hypothesis. One microsatellite locus appears to be sex-linked, with heterozygotes detected only in males and hermaphrodites.

Published

2008

18. Clonal diversity in the ancient asexual ostracod Darwinula stevensoni assessed by RAPD-PCR.

Author

Van Doninck K, Schön I, Martens K, and Backeljau T

Subjects

Animals, Cluster Analysis, DNA Primers, Europe, Genotype, Random Amplified Polymorphic DNA Technique, Species Specificity, Crustacea genetics, Genetic Variation

Abstract

As Darwinulidae (Ostracoda) are considered to be ancient asexuals with a wide geographical and ecological distribution, they are expected to have accumulated mutations during a long timeframe. However, previous studies on genetic variability suggested a low genetic divergence within the darwinulid species Darwinula stevensoni. Here, overall genotopic diversity of D. stevensoni is estimated with the Random Amplified Polymorphic DNA (RAPD) technique. Using six primers revealing 47 consistently scorable polymorphic loci, substantial clonal diversity within this species is detected. Five of the seven surveyed populations are multiclonal. Moreover, the seven populations have a different clonal composition with almost all of the observed clonal genotypes being restricted to single populations, indicating the absence of a single widespread 'clone'. The observed clonal diversity seems to refute the existence of a widespread general purpose genotype for D. stevensoni. However, in light of previously detected uniformity at functional loci, we reconsider the definition of a GPG. We suggest that it need not imply a genome-wide fixed genotype, but rather consists of a set of ecologically relevant genes.

Published

2004

19. Genetic differentiation in the Antarctic coastal krill Euphausia crystallorophias.

Author

Jarman SN, Elliott NG, Nicol S, and McMinn A

Subjects

Animals, Antarctic Regions, Crustacea classification, DNA, Mitochondrial, Haplotypes, Mutation, Polymerase Chain Reaction, Polymorphism, Single-Stranded Conformational, Protein Subunits, Crustacea genetics, Electron Transport Complex IV genetics, Genetic Variation genetics

Abstract

The population genetics of the Antarctic neritic krill species Euphausia crystallorophias was examined by nucleotide sequence variation in its mitochondrial DNA. A 616 base pair region of the cytochrome c oxidase subunit I (COI) gene was screened for mutations by single-strand conformational polymorphism (SSCP) combined with restriction digestion. E. crystallorophias caught in three different regions of the Antarctic coastline were used--two samples from the Mertz Glacier Polynya and one sample each from the western side of the Antarctic Peninsula and from the Davis Sea. Significant genetic differences between krill samples were identified. However, the extent of these differences did not correlate with the degree of geographic separation between the sampling sites. This suggests that the genetic structuring may be the result of small-scale differentiation rather than differentiation between resident populations in separate parts of the Southern Ocean. The possibility that genetic differences between samples within a region are as important as differences between regions has implications for other studies of krill population genetics.

Published

2002

20. Intraindividual and intraspecies variability of ITS1 sequences in the ancient asexual Darwinula stevensoni (Crustacea: Ostracoda).

Author

Gandolfi A, Bonilauri P, Rossi V, and Menozzi P

Subjects

Analysis of Variance, Animals, Base Sequence, Biological Evolution, Cloning, Molecular, Conserved Sequence, Environment, Italy, Luxembourg, Molecular Sequence Data, Polymerase Chain Reaction, Polymorphism, Genetic genetics, Crustacea genetics, DNA, Intergenic genetics, DNA, Ribosomal genetics, Genetic Variation genetics, Reproduction, Asexual genetics

Abstract

The lack of variability in ITS regions within individuals and within species has been explained as the result of concerted evolution. In fact, many examples of intraindividual variation in the ITS regions have been reported. Here we report evidence of within-individual variation of the ITS1 region in the obligate parthenogenetic species Darwinula stevensoni. We analysed 46 clones obtained from 12 individuals of D. stevensoni, from three Italian sites and one site in Luxembourg. Seven nucleotides out of 366 were variable. Most variability (80%) was found among clones within individuals, and the remainder of the variability was observed among individuals. No difference was found among populations or between habitats. The low intraspecific variability and the observation of recombinant molecules are evaluated in light of the relevant literature. The high percentage of variation within individuals and the occurrence of recombination without meiosis are discussed by considering the ancient asexual "status" of the species.

Published

2001

21. Wolbachia diversity in the Porcellionides pruinosus complex of species (Crustacea: Oniscidea): evidence for host-dependent patterns of infection.

Author

Michel-Salzat A, Cordaux R, and Bouchon D

Subjects

Animals, Bacterial Infections microbiology, Base Sequence, Biological Evolution, DNA, Mitochondrial genetics, Ecosystem, Genes, Bacterial genetics, Haplotypes genetics, Likelihood Functions, Male, Molecular Sequence Data, Phylogeny, Sequence Homology, Nucleic Acid, Species Specificity, Symbiosis genetics, Wolbachia classification, Crustacea genetics, Crustacea microbiology, Genetic Variation genetics, Host-Parasite Interactions genetics, Wolbachia genetics

Abstract

Porcellionides pruinosus is a cosmopolitan woodlouse. It is known to exhibit patterns of geographical variation between populations, and has been suspected to consist of several very closely related species. This species was found to carry Wolbachia endosymbionts, alpha-proteobacteria which are known to modify the reproduction of their crustacean hosts by inducing cytoplasmic incompatibility or feminization. In the P. pruinosus complex, Wolbachia induced feminization, but two different patterns of infection were reported: high prevalence and presence of infected males, or low prevalence and absence of infected males. In this study we investigated nine populations described as Porcellionides pruinosus carrying different Wolbachia strains, with the aim of investigating the possibility of coevolution between symbionts and hosts. Molecular analyses were carried out on both Wolbachia DNA (wsp gene) and host mitochondrial DNA (mt LSU rDNA). We show that (1) the nine host populations exhibited a high genetic differentiation so that they have to be split into two sibling species; (2) three different Wolbachia strains were found in the host complex but were not species-specific; and (3) the pattern of infection by Wolbachia was more host-dependent than symbiont-dependent.

Published

2001

22. Evolutionary implications of the relationship between genome size and body size in flatworms and copepods.

Author

Gregory TR, Hebert PD, and Kolasa J

Subjects

Animals, Diploidy, Genetic Variation, Models, Genetic, Crustacea genetics, Evolution, Molecular, Genome, Platyhelminths genetics

Abstract

Genome and body sizes were measured in 38 species of turbellarian flatworms and 16 species of copepod crustaceans. Significant positive relationships existed between genome size and body size in both groups. The slopes of these regressions indicated that increases in cell volume are reinforced by increased cell numbers, or that cell volumes show positive allometric variation with genome size. Genome sizes appear to vary in a discontinuous fashion among congeneric species in both groups, indicating that such changes have occurred rapidly, and with potentially profound effects on important morphological characters.

Published

2000

23. Gene translocation links insects and crustaceans.

Author

Boore JL, Lavrov DV, and Brown WM

Subjects

Animals, DNA, Mitochondrial, Biological Evolution, Crustacea genetics, Insecta genetics, Translocation, Genetic

Published

1998

24. Crustacean appendage evolution associated with changes in Hox gene expression.

Author

Averof M and Patel NH

Subjects

Animals, Body Patterning, DNA-Binding Proteins genetics, Homeodomain Proteins genetics, Insect Proteins, Mouth, Phylogeny, Biological Evolution, Crustacea genetics, Drosophila Proteins, Gene Expression, Genes, Homeobox, Nuclear Proteins, Transcription Factors

Abstract

Homeotic (Hox) genes specify the differential identity of segments along the body axis of insects. Changes in the segmental organization of arthropod bodies may therefore be driven by changes in the function of Hox genes, but so far this has been difficult to demonstrate. We show here that changes in the expression pattern of the Hox genes Ubx and AbdA in different crustaceans correlate well with the modification of their anterior thoracic limbs into feeding appendages (maxillipeds). Our observations provide direct evidence that major morphological changes in arthropod body plans are associated with changes in Hox gene regulation. They suggest that homeotic changes may play a role in the normal process of adaptive evolutionary change.

Published

1997

25. Hox genes and the diversification of insect and crustacean body plans.

Author

Averof M and Akam M

Subjects

Amino Acid Sequence, Animals, Antennapedia Homeodomain Protein, Artemia anatomy & histology, Artemia genetics, Crustacea anatomy & histology, Crustacea embryology, DNA-Binding Proteins genetics, Gene Expression Regulation, Developmental, Genetic Variation, Immunologic Techniques, In Situ Hybridization, Insecta anatomy & histology, Insecta embryology, Molecular Sequence Data, Proteins genetics, Biological Evolution, Crustacea genetics, Drosophila Proteins, Genes, Homeobox, Homeodomain Proteins, Insecta genetics, Nuclear Proteins, Transcription Factors

Abstract

Crustaceans and insects share a common origin of segmentation, but the specialization of trunk segments appears to have arisen independently in insects and various crustacean subgroups. Such macroevolutionary changes in body architecture may be investigated by comparative studies of conserved genetic markers. The Hox genes are well suited for this purpose, as they determine positional identity along the body axis in a wide range of animals. Here we examine the expression of four Hox genes in the branchiopod crustacean Artemia franciscana, and compare this with Hox expression patterns from insects. In Artemia the three 'trunk' genes Antp, Ubx and abdA are expressed in largely overlapping domains in the uniform thoracic region, whereas in insects they specify distinct segment types within the thorax and abdomen. Our comparisons suggest a multistep process for the diversification of these Hox gene functions, involving early differences in tissue specificity and the later acquisition of a role in defining segmental differences within the trunk. We propose that the branchiopod thorax may be homologous to the entire pregenital (thoracic and abdominal) region of the insect trunk.

Published

1995

26. N-banding and nucleolus organisers in Asellus aquaticus (Crust. Isop.).

Author

Di Castro M, Prantera G, Marchetti E, and Rocchi A

Subjects

Animals, Chromosome Mapping, DNA, Satellite genetics, Male, Meiosis, Mitosis, Staining and Labeling, Testis cytology, Cell Nucleolus ultrastructure, Chromosomes ultrastructure, Crustacea genetics, RNA, Ribosomal genetics

Abstract

The N-banding technique was used to stain the nucleolus organiser of the karyotype of Asellus aquaticus (crust. Isop.). Observations were made on the morphological expression of nucleolus organisers as secondary constrictions and the presence of nucleoli in mitotic prophase. An attempt was made to correlate the various results and it seems likely that N-banding is not a reflection of NO activity.

Published

1977

27. Dynamics of an enzyme polymorphism in the isopod, Sphaeroma rugicauda (Leach). I. Temporal variation in genotype frequencies.

Author

Edwards JP and Heath DJ

Subjects

Animals, Crustacea enzymology, Female, Gene Frequency, Genotype, Male, Polymorphism, Genetic, Seasons, Crustacea genetics, Glucose-6-Phosphate Isomerase genetics

Abstract

A 27 month study (November, 1978 through January, 1981) of the diallelic enzyme locus, phosphoglucose isomerase (Pgi), in the estuarine isopod Sphaeroma rugicauda (Leach) revealed seasonal changes in the frequencies of the three genotypes (fast/fast, fast/slow and slow/slow). A comparison of genotype frequencies in the newly-released offspring (August) to the frequencies in the same animals ten months later during the breeding season (June), revealed a decline in heterozygote frequency and a corresponding increase in the frequency of the s/s homozygote both of which appeared to be initiated at the onset of winter, a period characterised by low temperatures and salinity. Survivorship experiments in the laboratory suggested that the increase in frequency of the s/s homozygote, at least, could be explained by this genotype being favoured at low temperatures.

Published

1983

28. Population genetics of Polyphemus pediculus (Cladocera: Polyphemidae).

Author

Weider LJ

Subjects

Alleles, Animals, Breeding, Female, Polymorphism, Genetic, Crustacea genetics, Gene Frequency, Genetic Variation

Abstract

Population genetic studies of cyclically parthenogenetic organisms have focussed on members of the freshwater cladoceran crustaceans, and mainly on those populations which inhabit intermittent or permanent ponds. Little is known of the genetic structure of large-lake populations. The genetic structure of populations of the predatory freshwater littoral-zone cladoceran, Polyphemus pediculus from 20 palearctic lakes in Northern Germany was examined by electrophoresis to determine its breeding system and level of genetic polymorphism, and to compare its genetic structure with those of other Cladocera. Polyphemus was polymorphic for three of eight enzyme loci and most (20/23) genotypic frequencies were in Hardy-Weinberg equilibrium. These populations are thus panmictic, and most likely reproduce by cyclical parthenogenesis. There were heterozygote deficiencies at each of the polymorphic loci in the three deviant populations. Genetic differentiation between populations was evident at each locus, with significant spatial autocorrelation found at the Pgm locus. Population heterozygosity averaged 9.2 per cent with a mean of 1.5 alleles/locus. Mean number of composite genotypes per population was 6.0+/-1.0 (S.E.) with a range of 1-17 clones per population. P. pediculus thus has a population genetic structure similar to that of large-lake Daphnia populations.

Published

1989

29. Dynamics of an enzyme polymorphism in the isopod, Sphaeroma rugicauda (Leach). II. Sexual, gametic and fecundity selection.

Author

Edwards JP and Heath DJ

Subjects

Animals, Crustacea enzymology, Female, Fertility, Genotype, Male, Polymorphism, Genetic, Selection, Genetic, Sex, Crustacea genetics, Glucose-6-Phosphate Isomerase genetics

Abstract

The estuarine isopod Sphaeroma rugicauda (Leach) exhibits a diallelic polymorphism at the locus coding for the enzyme Pgi. An investigation carried out during the animal's breeding season (June-July) in 1979 and 1980 indicated that the animals were mating at random. It also showed the s/s-homozygote females to be the earliest to release offspring and to be the most fecund of the three genotypes (f/f, f/s and s/s). Further, data from the wild population in 1980 and laboratory experiments indicated that male s-gametes were selected against in s/s females, resulting in offspring ratio distortions in f/s (male) X s/s (female) crosses, in favour of heterozygotes. The net effect of these selective pressures did not, however, significantly alter the genotype frequencies (found in the offspring) from expected values.

Published

1983