106 results on '"N. Loire"'
Search Results
2. Overlapping action of T3 and T4 during Xenopus laevis development.
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Tribondeau, Alicia, Pasquier, David Du, Benchouaia, Médine, Blugeon, Corinne, Buisine, Nicolas, and Sachs, Laurent M.
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XENOPUS laevis ,LIFE cycles (Biology) ,THYROID hormones ,ENDOCRINE disruptors ,THYROID hormone receptors ,CELL proliferation - Abstract
Thyroid hormones are involved in many biological processes such as neurogenesis, metabolism, and development. However, compounds called endocrine disruptors can alter thyroid hormone signaling and induce unwanted effects on human and ecosystems health. Regulatory tests have been developed to detect these compounds but need to be significantly improved by proposing novel endpoints and key events. The Xenopus Eleutheroembryonic Thyroid Assay (XETA, OECD test guideline no. 248) is one such test. It is based on Xenopus laevis tadpoles, a particularly sensitive model system for studying the physiology and disruption of thyroid hormone signaling: amphibian metamorphosis is a spectacular (thus easy to monitor) life cycle transition governed by thyroid hormones. With a long-term objective of providing novel molecular markers under XETA settings, we propose first to describe the differential effects of thyroid hormones on gene expression, which, surprisingly, are not known. After thyroid hormones exposure (T
3 or T4 ), whole tadpole RNAs were subjected to transcriptomic analysis. By using standard approaches coupled to system biology, we found similar effects of the two thyroid hormones. They impact the cell cycle and promote the expression of genes involves in cell proliferation. At the level of the whole tadpole, the immune system is also a prime target of thyroid hormone action. [ABSTRACT FROM AUTHOR]- Published
- 2024
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3. Population genetics for insect conservation and control.
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Beaurepaire, Alexis L., Webster, Matthew T., and Neumann, Peter
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INSECT genetics ,INSECT conservation ,POPULATION genetics ,INSECT pest control ,CONSERVATION genetics ,ROADKILL ,POPULATION viability analysis - Abstract
Insects are essential not only for ecosystem functioning and food security but also comprise some of the world's most destructive invasive species. Therefore, both insect declines and invasions raise major conservation concerns globally and call for respective conservation or mitigation measures. However, studies of insects are hampered by intrinsic biological features of these organisms, which include extreme population fluctuations, a huge diversity of ecological strategies, and common cryptic species. Population genetics provides a large toolkit to adequately accommodate those features, thereby enabling researchers to inform and monitor the efficacy of conservation and mitigation programs. Here, we provide an overview of the molecular and analytical methods that are relevant to insect conservation or mitigation and highlight the challenges involved in their implementation. We detail how and why temporal changes in genetic diversity, population structure and migration, and the genetic basis of adaptation should be taken into account to inform insect management programs. Finally, we review the barriers to the broad adoption of population genetics in insect research and provide guidelines to facilitate the use of these methods by stakeholders. Overall, this review provides theoretical and practical guidelines for implementing population genetics in both insect conservation and control. [ABSTRACT FROM AUTHOR]
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- 2024
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4. Parental care shapes the evolution of molecular genetic variation.
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Mashoodh, Rahia, Trowsdale, Angela T, Manica, Andrea, and Kilner, Rebecca M
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GENETIC variation ,MOLECULAR shapes ,MOLECULAR evolution ,GENETIC transcription regulation ,NUCLEOTIDE sequencing ,BEHAVIOR genetics - Abstract
Cooperative social behaviors, such as parental care, have long been hypothesized to relax selection leading to the accumulation of genetic variation in populations. Although the idea has been discussed for decades, there has been relatively little experimental work to investigate how social behavior contributes to genetic variation in populations. Here, we investigate how parental care can shape molecular genetic variation in the subsocial insect, Nicrophorus vespilloides. Using whole-genome sequencing of populations that had evolved in the presence or absence of parental care for 30 generations, we show that parental care maintains levels of standing genetic variation. In contrast, under a harsh environment without care, strong directional selection caused a reduction in genetic variation. Furthermore, we show that adaptation to the loss of care is associated with genetic divergence between populations at loci related to stress, morphological development, and transcriptional regulation. These data reveal how social behavior is linked to the genetic processes that shape and maintain genetic diversity within populations, and provides rare empirical evidence for an old hypothesis. Lay Summary: Social behaviors, such as parental care, have long been hypothesized to result in the accumulation of genetic variation in populations. Here, we investigate how parental care can shape molecular genetic variation in a species that performs biparental care, Nicrophorus vespilloides. Using genome sequencing of populations that had evolved in the presence or absence of parental care for 30 generations, we show that parental care maintains levels of standing genetic variation. In contrast, under a harsh environment without care, populations lost genetic variation. Furthermore, we show that adaptation to the loss of care is associated with genetic divergence between populations at genes related to stress, morphological development, and transcriptional regulation. These data reveal how social behavior is linked to the genetic processes that shape and maintain genetic diversity within populations. [ABSTRACT FROM AUTHOR]
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- 2023
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5. Assessing the genetic composition of cotton‐top tamarins (Saguinus oedipus) before sweeping anthropogenic impact.
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Rasmussen, Linett, Fontsere, Claudia, Soto‐Calderón, Iván D., Guillen, Rosamira, Savage, Anne, Hansen, Anders Johannes, Hvilsom, Christina, and Gilbert, M. Thomas P.
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ANTHROPOGENIC effects on nature ,GENETIC load ,BIOLOGICAL extinction ,HOMOZYGOSITY ,INBREEDING ,POPULATION genetics - Abstract
During the last century, the critically endangered cotton‐top tamarin (Saguinus oedipus) has been threatened by multiple anthropogenic factors that drastically affected their habitat and population size. As the genetic impact of these pressures is largely unknown, this study aimed to establish a genetic baseline with the use of temporal sampling to determine the genetic makeup before detrimental anthropogenic impact. Genomes were resequenced from a combination of historical museum samples and modern wild samples at low‐medium coverage, to unravel how the cotton‐top tamarin population structure and genomic diversity may have changed during this period. Our data suggest two populations can be differentiated, probably separated historically by the mountain ranges of the Paramillo Massif in Colombia. Although this population structure persists in the current populations, modern samples exhibit genomic signals consistent with recent inbreeding, such as long runs of homozygosity and a reduction in genome‐wide heterozygosity especially in the greater northeast population. This loss is likely the consequence of the population reduction following the mass exportation of cotton‐top tamarins for biomedical research in the 1960s, coupled with the habitat loss this species continues to experience. However, current populations have not experienced an increase in genetic load. We propose that the historical genetic baseline established in this study can be used to provide insight into alteration in the modern population influenced by a drastic reduction in population size as well as providing background information to be used for future conservation decision‐making for the species. [ABSTRACT FROM AUTHOR]
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- 2023
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6. Genetic diversity varies with species traits and latitude in predatory soil arthropods (Myriapoda: Chilopoda).
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Bharti, D. K., Pawar, Pooja Yashwant, Edgecombe, Gregory D., and Joshi, Jahnavi
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GENETIC variation ,SPECIES diversity ,ANIMAL diversity ,MYRIAPODA ,CYTOCHROME oxidase ,TRACE fossils - Abstract
Aim: To investigate the drivers of intra‐specific genetic diversity in centipedes, a group of ancient predatory soil arthropods. Location: Asia, Australasia and Europe. Time Period: Present. Major Taxa Studied: Centipedes (Class: Chilopoda). Methods: We assembled a database of 1245 mitochondrial cytochrome c oxidase subunit I sequences representing 128 centipede species from all five orders of Chilopoda. This sequence dataset was used to estimate genetic diversity for centipede species and compare its distribution with estimates from other arthropod groups. We studied the variation in centipede genetic diversity with species traits and biogeography using a beta regression framework, controlling for the effect of shared evolutionary history within a family. Results: A wide variation in genetic diversity across centipede species (0–0.1713) falls towards the higher end of values among arthropods. Overall, 27.57% of the variation in mitochondrial COI genetic diversity in centipedes was explained by a combination of predictors related to life history and biogeography. Genetic diversity decreased with body size and latitudinal position of sampled localities, was greater in species showing maternal care and increased with geographic distance among conspecifics. Main Conclusions: Centipedes fall towards the higher end of genetic diversity among arthropods, which may be related to their long evolutionary history and low dispersal ability. In centipedes, the negative association of body size with genetic diversity may be mediated by its influence on local abundance or the influence of ecological strategy on long‐term population history. Species with maternal care had higher genetic diversity, which goes against expectations and needs further scrutiny. Hemispheric differences in genetic diversity can be due to historic climatic stability and lower seasonality in the southern hemisphere. Overall, we find that despite the differences in mean genetic diversity among animals, similar processes related to life‐history strategy and biogeography are associated with the variation within them. [ABSTRACT FROM AUTHOR]
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- 2023
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7. Genetic diversity and IUCN Red List status.
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Schmidt, Chloé, Hoban, Sean, Hunter, Margaret, Paz‐Vinas, Ivan, and Garroway, Colin J.
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GENETIC variation ,GENETIC drift ,BIOLOGICAL extinction ,INBREEDING ,GENETIC correlations ,ENDANGERED species - Abstract
Copyright of Conservation Biology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
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- 2023
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8. Global patterns and drivers of genetic diversity among marine habitat‐forming species.
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Figuerola‐Ferrando, Laura, Barreiro, Aldo, Montero‐Serra, Ignasi, Pagès‐Escolà, Marta, Garrabou, Joaquim, Linares, Cristina, and Ledoux, Jean‐Baptiste
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GENETIC variation ,MARINE biodiversity ,GENETIC correlations ,GENETIC databases ,MARINE parks & reserves ,SPECIES - Abstract
Aim: Intraspecific genetic diversity is one of the pillars of biodiversity, supporting the resilience and evolutionary potential of populations. Yet, our knowledge regarding the patterns of genetic diversity at macroecological scales, so‐called macrogenetic patterns, remains scarce, particularly in marine species. Marine habitat‐forming (MHF) species are key species in some of the most diverse but also most impacted marine ecosystems, such as coral reefs and marine forests. We characterize the patterns and drivers of genetic diversity in MHF species and provide a macrogenetic baseline, which can be used for conservation planning and for future genetic monitoring programmes. Location: Global. Time period: Contemporary. Major taxa studied: Bryozoans, hexacorals, hydrozoans, octocorals, seagrasses, seaweeds, sponges. Methods: We analysed a database including genetic diversity estimates based on microsatellites in more than 9,000 georeferenced populations from 140 species, which belong to seven animal and plant taxa. Focusing on expected heterozygosity, we used generalized additive models to test the effect of latitude, taxon, and conservation status. We tested the correlation between the species richness and the genetic diversity. Results: We reveal a significant but complex biogeographic pattern characterized by a bimodal latitudinal trend influenced by taxonomy. We also report a positive species genetic diversity correlation at the scale of the ecoregions. The difference in genetic diversity between protected and unprotected areas was not significant. Main conclusions: The contrasting results between MHF animals and plants suggest that the latitudinal genetic diversity patterns observed in MHF species are idiosyncratic, as reported in terrestrial species. Our results support the existence of shared drivers between genetic and species diversities, which remain to be formally identified. Concerning, these macrogenetic patterns are not aligned from the existing network of marine protected areas. Providing the first macrogenetic baseline in MHF species, this study echoes the call regarding the need to consider genetic diversity in biodiversity assessments and management. [ABSTRACT FROM AUTHOR]
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- 2023
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9. Genome‐wide phylogeography reveals cryptic speciation in the circumglobal planktonic calcifier Limacina bulimoides.
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Choo, L. Q., Spagliardi, G., Malinsky, M., Choquet, M., Goetze, E., Hoarau, G., and Peijnenburg, K. T. C. A.
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PHYLOGEOGRAPHY ,GENETIC speciation ,SINGLE nucleotide polymorphisms ,SNAIL shells ,GENETIC variation ,SYMPATRIC speciation - Abstract
Little is known about when and how planktonic species arise and persist in the open ocean without apparent dispersal barriers. Pteropods are planktonic snails with thin shells susceptible to dissolution that are used as bio‐indicators of ocean acidification. However, distinct evolutionary units respond to acidification differently, and defining species boundaries is therefore crucial for predicting the impact of changing ocean conditions. In this global population genomic study of the shelled pteropod Limacina bulimoides, we combined genetic (759,000 single nucleotide polymorphisms) and morphometric data from 161 individuals, revealing three major genetic lineages (FST = 0.29–0.41): an "Atlantic lineage" sampled across the Atlantic, an "Indo‐Pacific lineage" sampled in the North Pacific and Indian Ocean, and a "Pacific lineage" sampled in the North and South Pacific. A time‐calibrated phylogeny suggests that the lineages diverged about 1 million years ago, with estimated effective population size remaining high (~10 million) throughout Pleistocene glacial cycles. We do not observe any signatures of recent hybridization, even in areas of sympatry in the North Pacific. While the lineages are reproductively isolated, they are morphologically cryptic, with overlapping shell shape and shell colour distributions. Despite showing that the circumglobal L. bulimoides consists of multiple species with smaller ranges than initially thought, we found that these pteropods still possess high levels of genetic variability. Our study adds to the growing evidence that speciation is often overlooked in the open ocean, and suggests the presence of distinct biological species within many other currently defined circumglobal planktonic species. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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10. SNP discovery and genetic structure in blue mussel species using low coverage sequencing and a medium density 60 K SNP‐array.
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Nascimento‐Schulze, Jennifer C., Bean, Tim P., Peñaloza, Carolina, Paris, Josephine R., Whiting, James R., Simon, Alexis, Fraser, Bonnie A., Houston, Ross D., Bierne, Nicolas, and Ellis, Robert P.
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MYTILUS edulis ,AQUACULTURE ,GENOME-wide association studies ,REPRODUCTIVE isolation ,SHELLFISH fisheries ,SPECIES ,GENETIC variation ,INBREEDING - Abstract
Blue mussels from the genus Mytilus are an abundant component of the benthic community, found in the high latitude habitats. These foundation species are relevant to the aquaculture industry, with over 2 million tonnes produced globally each year. Mussels withstand a wide range of environmental conditions and species from the Mytilus edulis complex readily hybridize in regions where their distributions overlap. Significant effort has been made to investigate the consequences of environmental stress on mussel physiology, reproductive isolation, and local adaptation. Yet our understanding on the genomic mechanisms underlying such processes remains limited. In this study, we developed a multi species medium‐density 60 K SNP‐array including four species of the Mytilus genus. SNPs included in the platform were called from 138 mussels from 23 globally distributed mussel populations, sequenced using a whole‐genome low coverage approach. The array contains polymorphic SNPs which capture the genetic diversity present in mussel populations thriving across a gradient of environmental conditions (~59 K SNPs) and a set of published and validated SNPs informative for species identification and for diagnosis of transmissible cancer (610 SNPs). The array will allow the consistent genotyping of individuals, facilitating the investigation of ecological and evolutionary processes in these taxa. The applications of this array extend to shellfish aquaculture, contributing to the optimization of this industry via genomic selection of blue mussels, parentage assignment, inbreeding assessment and traceability. Further applications such as genome wide association studies (GWAS) for key production traits and those related to environmental resilience are especially relevant to safeguard aquaculture production under climate change. [ABSTRACT FROM AUTHOR]
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- 2023
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11. Spatial genetic differentiation correlates with species assemblage turnover across tropical reef fish lineages.
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Vilcot, Maurine, Albouy, Camille, Donati, Giulia Francesca Azzurra, Claverie, Thomas, Julius, Pagu, Manel, Stéphanie, Pellissier, Loïc, and Leprieur, Fabien
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REEFS ,REEF fishes ,BIOTIC communities ,SPATIAL variation ,LARVAL dispersal ,SINGLE nucleotide polymorphisms ,GENETIC variation - Abstract
Aim: Evaluating the similarity of diversity patterns across micro‐ to macroevolutionary scales in natural communities, such as species–genetic diversity correlations (SGDCs), may inform on processes shaping community assembly. However, whether SGDCs not only hold across communities but also across lineages has never been explored so far. Here we investigated SGDCs across co‐distributed taxa for different spatial components (α, β, γ), and formally tested the influence of dispersal traits on β‐SGDCs. Location: Western Indian Ocean. Time period: 2016–2017. Major taxa studied: Tropical reef fish species with contrasting dispersal traits. Methods: Using double‐digest restriction‐site associated DNA sequencing (ddRADseq) Single Nucleotide Polymorphism data for 20 tropical reef fishes and distribution data of 2,446 species belonging to 12 families, we analysed the correlations between within‐species genetic diversity and within‐family species diversity (i.e., lineage diversity) for the three spatial components (α, β, γ‐SGDCs). We then related the strength of β‐SGDCs per species to proxies of larval dispersal abilities. Results: We detected positive and significant lineage‐based SGDC only for the β component, that is, the families showing the greatest level of species turnover among sites contain the species with the greatest levels of genetic differentiation. We showed that the Monsoon Drift mainly explained the β‐diversity patterns at both intraspecific and interspecific levels. Higher β‐SGDCs were found for species with short pelagic larval duration and weak larval swimming capacity. Main conclusions: Our study reveals a strong correlation between genetic and species β‐diversity, a result explained by the presence of a 'soft' barrier and mediated by larval dispersal processes. This suggests that vicariance and dispersal limitation are major processes shaping β‐diversity patterns from microevolutionary to macroevolutionary scales in tropical reef fishes. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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12. Target enrichment of long open reading frames and ultraconserved elements to link microevolution and macroevolution in non‐model organisms.
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Ortiz‐Sepulveda, Claudia M., Genete, Mathieu, Blassiau, Christelle, Godé, Cécile, Albrecht, Christian, Vekemans, Xavier, and Van Bocxlaer, Bert
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POPULATION differentiation ,MICROEVOLUTION ,MACROEVOLUTION ,NUCLEOTIDE sequencing ,PHYLOGENY - Abstract
Despite the increasing accessibility of high‐throughput sequencing, obtaining high‐quality genomic data on non‐model organisms without proximate well‐assembled and annotated genomes remains challenging. Here, we describe a workflow that takes advantage of distant genomic resources and ingroup transcriptomes to select and jointly enrich long open reading frames (ORFs) and ultraconserved elements (UCEs) from genomic samples for integrative studies of microevolutionary and macroevolutionary dynamics. This workflow is applied to samples of the African unionid bivalve tribe Coelaturini (Parreysiinae) at basin and continent‐wide scales. Our results indicate that ORFs are efficiently captured without prior identification of intron‐exon boundaries. The enrichment of UCEs was less successful, but nevertheless produced substantial data sets. Exploratory continent‐wide phylogenetic analyses with ORF supercontigs (>515,000 parsimony informative sites) resulted in a fully resolved phylogeny, the backbone of which was also retrieved with UCEs (>11,000 informative sites). Variant calling on ORFs and UCEs of Coelaturini from the Malawi Basin produced ~2000 SNPs per population pair. Estimates of nucleotide diversity and population differentiation were similar for ORFs and UCEs. They were low compared to previous estimates in molluscs, but comparable to those in recently diversifying Malawi cichlids and other taxa at an early stage of speciation. Skimming off‐target sequence data from the same enriched libraries of Coelaturini from the Malawi Basin, we reconstructed the maternally‐inherited mitogenome, which displays the gene order inferred for the most recent common ancestor of Unionidae. Overall, our workflow and results provide exciting perspectives for integrative genomic studies of microevolutionary and macroevolutionary dynamics in non‐model organisms. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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13. Migratory behaviour is positively associated with genetic diversity in butterflies.
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García‐Berro, Aurora, Talla, Venkat, Vila, Roger, Wai, Hong Kar, Shipilina, Daria, Chan, Kok Gan, Pierce, Naomi E., Backström, Niclas, and Talavera, Gerard
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GENETIC variation ,MIGRATORY animals ,HETEROZYGOSITY ,BUTTERFLIES ,POPULATION dynamics ,BIOLOGICAL fitness ,LEPIDOPTERA - Abstract
Migration is typically associated with risk and uncertainty at the population level, but little is known about its cost–benefit trade‐offs at the species level. Migratory insects in particular often exhibit strong demographic fluctuations due to local bottlenecks and outbreaks. Here, we use genomic data to investigate levels of heterozygosity and long‐term population size dynamics in migratory insects, as an alternative to classical local and short‐term approaches such as regional field monitoring. We analyse whole‐genome sequences from 97 Lepidoptera species and show that individuals of migratory species have significantly higher levels of genome‐wide heterozygosity, a proxy for effective population size, than do nonmigratory species. Also, we contribute whole‐genome data for one of the most emblematic insect migratory species, the painted lady butterfly (Vanessa cardui), sampled across its worldwide distributional range. This species exhibits one of the highest levels of genomic heterozygosity described in Lepidoptera (2.95 ± 0.15%). Coalescent modelling (PSMC) shows historical demographic stability in V. cardui, and high effective population size estimates of 2–20 million individuals 10,000 years ago. The study reveals that the high risks associated with migration and local environmental fluctuations do not seem to decrease overall genetic diversity and demographic stability in migratory Lepidoptera. We propose a "compensatory" demographic model for migratory r‐strategist organisms in which local bottlenecks are counterbalanced by reproductive success elsewhere within their typically large distributional ranges. Our findings highlight that the boundaries of populations are substantially different for sedentary and migratory insects, and that, in the latter, local and even regional field monitoring results may not reflect whole population dynamics. Genomic diversity patterns may elucidate key aspects of an insect's migratory nature and population dynamics at large spatiotemporal scales. [ABSTRACT FROM AUTHOR]
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- 2023
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14. Demographic changes and life‐history strategies predict the genetic diversity in crabs.
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Peres, Pedro A. and Mantelatto, Fernando L.
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LIFE history theory ,CYTOCHROME oxidase ,GENETIC variation ,DEMOGRAPHIC change ,INDEPENDENT variables ,MARINE invertebrates - Abstract
Uncovering what predicts genetic diversity (GD) within species can help us access the status of populations and their evolutionary potential. Traits related to effective population size show a proportional association to GD, but evidence supports life‐history strategies and habitat as the drivers of GD variation. Instead of investigating highly divergent taxa, focusing on one group could help to elucidate the factors influencing the GD. Additionally, most empirical data is based on vertebrate taxa; therefore, we might be missing novel patterns of GD found in neglected invertebrate groups. Here, we investigated the predictors of the GD in crabs (Brachyura) by compiling the most comprehensive cytochrome c oxidase subunit I (COI) available. Eight predictor variables were analysed across 150 species (16 992 sequences) using linear models (multiple linear regression) and comparative methods (PGLS). Our results indicate that population size fluctuation represents the most critical trait predicting GD, with species that have undergone bottlenecks followed by population expansion showing lower GD. Egg size, pelagic larval duration and habitat might play a role probably because of their association with how species respond to disturbances. Ultimately, K‐strategists that have undergone bottlenecks are the species showing lower GD. Some variables do not show an association with GD as expected, most likely due to the taxon‐specific role of some predictors, which should be considered in further investigations and generalizations. This work highlights the complexity underlying the predictors of GD and adds results from a marine invertebrate group to the current understanding of this topic. [ABSTRACT FROM AUTHOR]
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- 2023
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15. Genetic diversity of lacustrine populations of the snakehead gudgeon Giuris laglaizei (Gobiiformes: Eleotridae) in the Philippines based on mitochondrial DNA control region.
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Abdulmalik-Labe, Onaya P. and Quilang, Jonas P.
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MITOCHONDRIAL DNA ,GENETIC variation ,GOBIIDAE ,FISH conservation ,FISHERY resources ,FISHERY management - Abstract
The snakehead gudgeon, Giuris laglaizei, is a native species in the Philippines. Recently, this fish was also reported in Indonesia. This species is exploited for use as food and in some localities, even the fry are harvested in large numbers. In this study, the genetic diversity of six lacustrine populations of the species in the Philippines was examined based on the 852-bp full-length sequence of the mitochondrial DNA control region (mtDNA CR). A total of 107 haplotypes were recovered from 182 mtDNA CR sequences. High levels of nucleotide and haplotype diversities were found for the populations in Lake Mainit, Lake Taal, and Lake Naujan. The populations in Lake Lanao, Laguna de Bay, and Lake Paoay had high levels of haplotype diversity, but low levels of nucleotide diversity. The median-joining network showed geographic separation of the northern populations (Laguna de Bay, Taal, Naujan, and Paoay) from the southern populations (Lanao and Mainit). Pairwise F
ST value was lowest and non-significant (FST = 0.013; P = 0.149) between the populations from lakes Lanao and Mainit. This provides genetic support to previous claims that G. laglaizei in Lake Lanao came from Lake Mainit. On the other hand, significant genetic differentiation that ranged from moderate to very large (FST = 0.079–0.434) was detected among the northern populations. Despite the overall high levels of genetic diversity detected in this study, like any fishery resource, G. laglaizei still merits conservation and fishery management plans for sustainable harvest and to ensure the maintenance of high levels of genetic diversity. [ABSTRACT FROM AUTHOR]- Published
- 2023
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16. Polygamy and purifying selection in birds.
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Wanders, Kees, Chen, Guangji, Feng, Shaohong, Zhang, Guojie, Székely, Tamás, Bruford, Mike, Végvári, Zsolt, Eichhorn, Götz, and Urrutia, Araxi
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SEXUAL selection ,POLYGAMY ,NATURAL selection ,GENE conversion ,GENETIC variation ,POLYANDRY ,SPECIES - Abstract
Good genes theories of sexual selection predict that polygamy will be associated with more efficient removal of deleterious alleles (purifying selection), due to the alignment of sexual selection with natural selection. On the other hand, runaway selection theories expect no such alignment of natural and sexual selection, and may instead predict less efficient purifying selection in polygamous species due to higher reproductive variance. In an analysis of polymorphism data extracted from 150-bird genome assemblies, we show that polygamous species carry significantly fewer nonsynonymous polymorphisms, relative to synonymous polymorphisms, than monogamous bird species (p =.0005). We also show that this effect is independent of effective population size, consistent with the alignment of natural selection with sexual selection and "good genes" theories of sexual selection. Further analyses found no impact of polygamy on genetic diversity, while polygamy in females (polyandry) had a marginally significant impact (p =.045). We also recapitulate previous findings that smaller body mass and greater geographic range size are associated with more efficient purifying selection, more intense GC-biased gene conversion, and greater genetic diversity. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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17. Tour de France des assemblées.
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MAZUYER, FRANÇOIS and DA CRUZ, NATHALIE
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- 2023
18. Global genetic diversity status and trends: towards a suite of Essential Biodiversity Variables (EBVs) for genetic composition.
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Hoban, Sean, Archer, Frederick I., Bertola, Laura D., Bragg, Jason G., Breed, Martin F., Bruford, Michael W., Coleman, Melinda A., Ekblom, Robert, Funk, W. Chris, Grueber, Catherine E., Hand, Brian K., Jaffé, Rodolfo, Jensen, Evelyn, Johnson, Jeremy S., Kershaw, Francine, Liggins, Libby, MacDonald, Anna J., Mergeay, Joachim, Miller, Joshua M., and Muller‐Karger, Frank
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GENETIC variation ,BIODIVERSITY ,GLOBAL environmental change ,BIODIVERSITY monitoring ,ECOLOGICAL resilience ,METADATA ,DNA sequencing - Abstract
Biodiversity underlies ecosystem resilience, ecosystem function, sustainable economies, and human well‐being. Understanding how biodiversity sustains ecosystems under anthropogenic stressors and global environmental change will require new ways of deriving and applying biodiversity data. A major challenge is that biodiversity data and knowledge are scattered, biased, collected with numerous methods, and stored in inconsistent ways. The Group on Earth Observations Biodiversity Observation Network (GEO BON) has developed the Essential Biodiversity Variables (EBVs) as fundamental metrics to help aggregate, harmonize, and interpret biodiversity observation data from diverse sources. Mapping and analyzing EBVs can help to evaluate how aspects of biodiversity are distributed geographically and how they change over time. EBVs are also intended to serve as inputs and validation to forecast the status and trends of biodiversity, and to support policy and decision making. Here, we assess the feasibility of implementing Genetic Composition EBVs (Genetic EBVs), which are metrics of within‐species genetic variation. We review and bring together numerous areas of the field of genetics and evaluate how each contributes to global and regional genetic biodiversity monitoring with respect to theory, sampling logistics, metadata, archiving, data aggregation, modeling, and technological advances. We propose four Genetic EBVs: (i) Genetic Diversity; (ii) Genetic Differentiation; (iii) Inbreeding; and (iv) Effective Population Size (Ne). We rank Genetic EBVs according to their relevance, sensitivity to change, generalizability, scalability, feasibility and data availability. We outline the workflow for generating genetic data underlying the Genetic EBVs, and review advances and needs in archiving genetic composition data and metadata. We discuss how Genetic EBVs can be operationalized by visualizing EBVs in space and time across species and by forecasting Genetic EBVs beyond current observations using various modeling approaches. Our review then explores challenges of aggregation, standardization, and costs of operationalizing the Genetic EBVs, as well as future directions and opportunities to maximize their uptake globally in research and policy. The collection, annotation, and availability of genetic data has made major advances in the past decade, each of which contributes to the practical and standardized framework for large‐scale genetic observation reporting. Rapid advances in DNA sequencing technology present new opportunities, but also challenges for operationalizing Genetic EBVs for biodiversity monitoring regionally and globally. With these advances, genetic composition monitoring is starting to be integrated into global conservation policy, which can help support the foundation of all biodiversity and species' long‐term persistence in the face of environmental change. We conclude with a summary of concrete steps for researchers and policy makers for advancing operationalization of Genetic EBVs. The technical and analytical foundations of Genetic EBVs are well developed, and conservation practitioners should anticipate their increasing application as efforts emerge to scale up genetic biodiversity monitoring regionally and globally. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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19. Varied diversification patterns and distinct demographic trajectories in Ethiopian montane forest bird (Aves: Passeriformes) populations separated by the Great Rift Valley.
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Manthey, Joseph D., Bourgeois, Yann, Meheretu, Yonas, and Boissinot, Stéphane
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MOUNTAIN forests ,BIRD populations ,POPULATION differentiation ,PASSERIFORMES ,RIFTS (Geology) ,SHAPE of the earth ,FOREST birds - Abstract
Taxon‐specific characteristics and extrinsic climatic and geological forces may both shape population differentiation and speciation. In geographically and taxonomically focused investigations, differentiation may occur synchronously as species respond to the same external conditions. Conversely, when evolution is investigated in taxa with largely varying traits, population differentiation and speciation is complex and shaped by interactions of Earth's template and species‐specific traits. As such, it is important to characterize evolutionary histories broadly across the tree of life, especially in geographic regions that are exceptionally diverse and under pressures from human activities such as in biodiversity hotspots. Here, using whole‐genome sequencing data, we characterize genomic variation in populations of six Ethiopian Highlands forest bird species separated by a lowland biogeographic barrier, the Great Rift Valley (GRV). In all six species, populations on either side of the GRV exhibited significant but varying levels of genetic differentiation. Species' dispersal ability was negatively correlated with levels of population differentiation. Isolation with migration models indicated varied patterns of population differentiation and connectivity among populations of the focal species. We found that demographic histories—estimated for each individual—varied by both species and population but were consistent between individuals of the same species and sampling region. We found that genomic diversity varied by half an order of magnitude across species, and that this variation could largely be explained by the harmonic mean of effective population size over the past 200,000 years. Overall, we found that even in highly dispersive species like birds, the GRV acts as a substantial biogeographic barrier. [ABSTRACT FROM AUTHOR]
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- 2022
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20. Seascape genomics of coastal bottlenose dolphins along strong gradients of temperature and salinity.
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Pratt, Eleanor A. L., Beheregaray, Luciano B., Bilgmann, Kerstin, Zanardo, Nikki, Diaz‐Aguirre, Fernando, Brauer, Chris, Sandoval‐Castillo, Jonathan, and Möller, Luciana M.
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BOTTLENOSE dolphin ,GENOMICS ,ION transport (Biology) ,PHILOPATRY ,OCEAN temperature - Abstract
Heterogeneous seascapes and strong environmental gradients in coastal waters are expected to influence adaptive divergence, particularly in species with large population sizes where selection is expected to be highly efficient. However, these influences might also extend to species characterized by strong social structure, natal philopatry and small home ranges. We implemented a seascape genomic study to test this hypothesis in Indo‐Pacific bottlenose dolphins (Tursiops aduncus) distributed along the environmentally heterogeneous coast of southern Australia. The data sets included oceanographic and environmental variables thought to be good predictors of local adaptation in dolphins and 8081 filtered single nucleotide polymorphisms (SNPs) genotyped for individuals sampled from seven different bioregions. From a neutral perspective, population structure and connectivity of the dolphins were generally influenced by habitat type and social structuring. Genotype‐environment association analysis identified 241 candidate adaptive loci and revealed that sea surface temperature and salinity gradients influenced adaptive divergence in these animals at both large‐ (1000 km) and fine‐scales (<100 km). Enrichment analysis and annotation of candidate genes revealed functions related to sodium‐activated ion transport, kidney development, adipogenesis and thermogenesis. The findings of spatial adaptive divergence and inferences of putative physiological adaptations challenge previous suggestions that marine megafauna is most likely to be affected by environmental and climatic changes via indirect, trophic effects. Our work contributes to conservation management of coastal bottlenose dolphins subjected to anthropogenic disturbance and to efforts of clarifying how seascape heterogeneity influences adaptive diversity and evolution in small cetaceans. [ABSTRACT FROM AUTHOR]
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- 2022
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21. Drivers of unique and asynchronous population dynamics in Malagasy herpetofauna.
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Kuhn, Arianna, Gehara, Marcelo, Andrianarimalala, Mamy S. M., Rabibisoa, Nirhy, Randriamahatantsoa, Bernard, Overcast, Isaac, Raxworthy, Christopher J., Ruane, Sara, and Burbrink, Frank T.
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POPULATION dynamics ,HERPETOFAUNA ,GLACIATION ,DEMOGRAPHY ,CLIMATE change - Abstract
Aim: A long history of isolation coupled with complex landscapes makes Madagascar ideal for exploring the historical factors that have shaped patterns of population diversity and endemism. Many species‐level studies have suggested Late Quaternary climate change may have influenced population dynamics in the tropics, but unique biomes and individual species properties may have driven idiosyncratic responses to these shifts. Here, we use community‐scale population genetic data to investigate the impact of Quaternary climate cycles on shared demographic response and investigate the contributions of both biotic and abiotic factors which shape these demographic trajectories. Location: Madagascar. Taxon Reptiles and Amphibians. Methods: Using community‐scale population genetic data, we implement a hierarchical approximate Bayesian computation approach to evaluate the degree of synchronous population expansion during glacial cycles across herpetofaunal assemblages both within and across discrete biomes and taxonomic groups. We use Bayesian model averaging to identify intrinsic and extrinsic conditions predictive of individualistic demographic change. Results: We find that demographic responses are not uniform across groups, with more than 50% of all populations showing signal of recent expansion. Our explanatory models indicate species occupying narrow elevational ranges had a higher probability of expansion, while amphibian assemblages showed higher genetic diversity and greater departures from population neutrality. Expansion events were largely asynchronous, with coexpansion found in less than half of all populations. Exceptionally, 69%–74% of all humid‐restricted populations coexpanded during the start of the Last Glacial Period at around 100 kya, supporting the hypothesis of a more extensive humid forest cover for Madagascar during this time. Main conclusions: We show that differences in life history and regional biogeography have contributed to patterns of richness and endemism found across Madagascar, and historical connectivity across humid forests has been an important factor in shaping present‐day diversity and endemism on Madagascar, particularly for amphibians. [ABSTRACT FROM AUTHOR]
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- 2022
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22. Predicting amphibian intraspecific diversity with machine learning: Challenges and prospects for integrating traits, geography, and genetic data.
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Barrow, Lisa N., Masiero da Fonseca, Emanuel, Thompson, Coleen E. P., and Carstens, Bryan C.
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AMPHIBIAN diversity ,MACHINE learning ,GENETIC variation ,GEOGRAPHY ,FOREST biodiversity - Abstract
The growing availability of genetic data sets, in combination with machine learning frameworks, offers great potential to answer long‐standing questions in ecology and evolution. One such question has intrigued population geneticists, biogeographers, and conservation biologists: What factors determine intraspecific genetic diversity? This question is challenging to answer because many factors may influence genetic variation, including life history traits, historical influences, and geography, and the relative importance of these factors varies across taxonomic and geographic scales. Furthermore, interpreting the influence of numerous, potentially correlated variables is difficult with traditional statistical approaches. To address these challenges, we analysed repurposed data using machine learning and investigated predictors of genetic diversity, focusing on Nearctic amphibians as a case study. We aggregated species traits, range characteristics, and >42,000 genetic sequences for 299 species using open‐access scripts and various databases. After identifying important predictors of nucleotide diversity with random forest regression, we conducted follow‐up analyses to examine the roles of phylogenetic history, geography, and demographic processes on intraspecific diversity. Although life history traits were not important predictors for this data set, we found significant phylogenetic signal in genetic diversity within amphibians. We also found that salamander species at northern latitudes contained low genetic diversity. Data repurposing and machine learning provide valuable tools for detecting patterns with relevance for conservation, but concerted efforts are needed to compile meaningful data sets with greater utility for understanding global biodiversity. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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23. Quantifying the relationship between genetic diversity and population size suggests natural selection cannot explain Lewontin's Paradox.
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Buffalo, Vince
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- 2021
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24. Evidence for genetic isolation and local adaptation in the field cricket Gryllus campestris.
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Tregenza, Tom, Rodríguez‐Muñoz, Rolando, Boonekamp, Jelle J., Hopwood, Paul E., Sørensen, Jesper Givskov, Bechsgaard, Jesper, Settepani, Virginia, Hegde, Vinayaka, Waldie, Callum, May, Emma, Peters, Caleb, Pennington, Zinnia, Leone, Paola, Munk, Emil M., Greenrod, Samuel T. E., Gosling, Joe, Coles, Harry, Gruffydd, Rhodri, Capria, Loris, and Potter, Laura
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GRYLLUS ,ALTITUDES ,SPECIES distribution ,HIGH temperatures ,PHYSIOLOGICAL adaptation - Abstract
Understanding how species can thrive in a range of environments is a central challenge for evolutionary ecology. There is strong evidence for local adaptation along large‐scale ecological clines in insects. However, potential adaptation among neighbouring populations differing in their environment has been studied much less. We used RAD sequencing to quantify genetic divergence and clustering of ten populations of the field cricket Gryllus campestris in the Cantabrian Mountains of northern Spain, and an outgroup on the inland plain. Our populations were chosen to represent replicate high and low altitude habitats. We identified genetic clusters that include both high and low altitude populations indicating that the two habitat types do not hold ancestrally distinct lineages. Using common‐garden rearing experiments to remove environmental effects, we found evidence for differences between high and low altitude populations in physiological and life‐history traits. As predicted by the local adaptation hypothesis, crickets with parents from cooler (high altitude) populations recovered from periods of extreme cooling more rapidly than those with parents from warmer (low altitude) populations. Growth rates also differed between offspring from high and low altitude populations. However, contrary to our prediction that crickets from high altitudes would grow faster, the most striking difference was that at high temperatures, growth was fastest in individuals from low altitudes. Our findings reveal that populations a few tens of kilometres apart have independently evolved adaptations to their environment. This suggests that local adaptation in a range of traits may be commonplace even in mobile invertebrates at scales of a small fraction of species' distributions. [ABSTRACT FROM AUTHOR]
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- 2021
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25. Establishing conservation units to promote recovery of two threatened freshwater mussel species (Bivalvia: Unionida: Potamilus).
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Smith, Chase H., Johnson, Nathan A., Robertson, Clinton R., Doyle, Robert D., and Randklev, Charles R.
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FRESHWATER mussels ,BIVALVES ,SPECIES ,MUSSELS ,WATERSHEDS ,MITOCHONDRIAL DNA - Abstract
Population genomics has significantly increased our ability to make inferences about microevolutionary processes and demographic histories, which have the potential to improve protection and recovery of imperiled species. Freshwater mussels (Bivalvia: Unionida) represent one of the most imperiled groups of organisms globally. Despite systemic decline of mussel abundance and diversity, studies evaluating spatiotemporal changes in distribution, demographic histories, and ecological factors that threaten long‐term persistence of imperiled species remain lacking. In this study, we use genotype‐by‐sequencing (GBS) and mitochondrial sequence data (mtDNA) to define conservation units (CUs) for two highly imperiled freshwater mussel species, Potamilus amphichaenus and Potamilus streckersoni. We then synthesize our molecular findings with details from field collections spanning from 1901 to 2019 to further elucidate distributional trends, contemporary status, and other factors that may be contributing to population declines for our focal species. We collected GBS and mtDNA data for individuals of P. amphichaenus and P. streckersoni from freshwater mussel collections in the Brazos, Neches, Sabine, and Trinity drainages ranging from 2012 to 2019. Molecular analyses resolved disputing number of genetic clusters within P. amphichaenus and P. streckersoni; however, we find defensible support for four CUs, each corresponding to an independent river basin. Evaluations of historical and recent occurrence data illuminated a generally increasing trend of occurrence in each of the four CUs, which were correlated with recent increases in sampling effort. Taken together, these findings suggest that P. amphichaenus and P. streckersoni are likely rare throughout their respective ranges. Because of this, the establishment of CUs will facilitate evidence‐based recovery planning and ensure potential captive propagation and translocation efforts are beneficial. Our synthesis represents a case study for conservation genomic assessments in freshwater mussels and provides a model for future studies aimed at recovery planning for these highly imperiled organisms. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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26. Macroecological trend of increasing values of intraspecific genetic diversity and population structure from temperate to tropical streams.
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Salinas‐Ivanenko, Sofia, Múrria, Cesc, and Baselga, Andres
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GENETIC variation ,GENETIC drift ,NUMBERS of species ,DISPERSAL (Ecology) ,PLEISTOCENE Epoch ,GENE flow ,PHYLOGEOGRAPHY - Abstract
Aim: Assuming genetic variants are selectively neutral, estimates of intraspecific genetic diversity and population structure should increase simultaneously in parallel to coalescent time, population size and gene flow. However, other processes, such as genetic drift associated with demographic fluctuations, might cause a loss of genetic diversity while not affecting population structure. In this study, we assess large‐scale patterns of estimates of intraspecific genetic variation across species to determine the roles of dispersal, biogeography, divergence time and demographic fluctuations in decoupling genetic diversity and population structure. Location: Pristine first‐order streams distributed in seven regions from Neotropical to boreal climate, covering a gradient of habitat persistence through major biogeographical changes (e.g., Pleistocene glaciations). Time period: 2008–2010. Major taxa studied: Freshwater insect lineages that differ in dispersal propensity. Methods: Intraspecific nucleotide diversity (π) and population structure (ΦST) were estimated for 33 species using 2,128 sequences of the cox1 gene. The correlation between π and ΦST was tested using linear regression models. The geographical distribution of haplotypes was represented in networks. Phylogenetic trees were time calibrated to determine divergence time. Results: At a global scale, a positive relationship between π and ΦST was found. Neotropical species showed the highest values of π and ΦST, probably owing to historical environmental stability. Across Europe, the low estimates of π and the wide array of ΦST values and haplotype networks found across species, lineages and latitude were contrary to the biogeographical and dispersal paradigms. Main conclusions: Beyond the macroecological trend found, genetic trajectories of co‐distributed temperate species were disassociated from their functional traits and probably caused by persistent demographic fluctuations associated with local‐scale habitat instability. Overall, the idiosyncratic relationship between π and ΦST across species prevents the establishment of conclusive global patterns and questions the phylogeographical patterns established when studying a reduced number of co‐distributed species. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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27. The Multilocus Multispecies Coalescent: A Flexible New Model of Gene Family Evolution.
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Li, Qiuyi, Scornavacca, Celine, Galtier, Nicolas, and Chan, Yao-Ban
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HORIZONTAL gene transfer ,DNA copy number variations ,CHROMOSOME duplication ,GENE families - Abstract
Incomplete lineage sorting (ILS), the interaction between coalescence and speciation, can generate incongruence between gene trees and species trees, as can gene duplication (D), transfer (T), and loss (L). These processes are usually modeled independently, but in reality, ILS can affect gene copy number polymorphism, that is, interfere with DTL. This has been previously recognized, but not treated in a satisfactory way, mainly because DTL events are naturally modeled forward-in-time, while ILS is naturally modeled backward-in-time with the coalescent. Here, we consider the joint action of ILS and DTL on the gene tree/species tree problem in all its complexity. In particular, we show that the interaction between ILS and duplications/transfers (without losses) can result in patterns usually interpreted as resulting from gene loss, and that the realized rate of D, T, and L becomes nonhomogeneous in time when ILS is taken into account. We introduce algorithmic solutions to these problems. Our new model, the multilocus multispecies coalescent , which also accounts for any level of linkage between loci, generalizes the multispecies coalescent (MSC) model and offers a versatile, powerful framework for proper simulation, and inference of gene family evolution. [Gene duplication; gene loss; horizontal gene transfer; incomplete lineage sorting; multispecies coalescent; hemiplasy; recombination.] [ABSTRACT FROM AUTHOR]
- Published
- 2021
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28. Genetic diversity of North American vertebrates in protected areas.
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Thompson, Coleen E P, Pelletier, Tara A, and Carstens, Bryan C
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PROTECTED areas ,NUMBERS of species ,BIODIVERSITY conservation ,NULL hypothesis ,VERTEBRATES ,FRESHWATER biodiversity - Abstract
Protected areas play a crucial role in the conservation of biodiversity; however, it is unclear if these areas have an influence on genetic diversity. As a first step towards addressing this issue, we compare the genetic diversity inside and outside of protected areas. We tested the null hypothesis that there is no difference between genetic diversity inside compared to outside of protected areas in 44 vertebrate species. By automatically skimming the Global Biodiversity Information Facility (GBIF) and the National Center for Biotechnology Information (NCBI) GenBank we obtained genetic and geographical data to be repurposed and reanalysed. Novel pipelines were used to automate the process of assigning individuals to inside or outside of protected areas and then used to calculate different measures of intraspecific diversity. Forty-eight percent of examined species showed a significant difference in the amount of nucleotide diversity they contained inside compared to outside of protected areas, with similar numbers of species containing more or less genetic diversity inside compared to outside. Although our simulation testing suggests that this result is not an artefact of sampling, it is unclear what factors influence the relative amount of genetic diversity in protected areas across species. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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29. Breeding systems and genetic diversity in tropical carpenter ant colonies: different strategies for similar outcomes in Brazilian Cerrado savanna.
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Azevedo-Silva, Marianne, Mori, Gustavo M, Carvalho, Carolina S, Côrtes, Marina C, Souza, Anete P, and Oliveira, Paulo S
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CARPENTER ants ,ANT colonies ,QUEEN honeybees ,SAVANNAS ,POPULATION ecology ,POLYGYNY ,INSECT diversity ,BEE colonies - Abstract
Eusocial insects tend to present low genetic diversity (GD) within colonies, which can increase with the co-occurrence of multiple queens (polygyny) or with multiple mating by a single queen (polyandry). Therefore, it is important to elucidate how these strategies influence GD, which in turn mediate population ecology and how organisms respond to their environment. We studied two carpenter ant species from the Brazilian savanna, Camponotus renggeri and C. rufipes. Using microsatellites, we evaluated the number of breeders, the genetic relatedness and the contribution of polygyny and polyandry to GD within colonies. Both species exhibited facultative polygyny. In C. renggeri , low related queens formed colonies jointly and present low mating frequency. In this species, colony GD increased with the number of queens. Contrastingly, closely related queens of C. rufipes formed polygynous colonies, exhibiting high mating frequency. In C. rufipes , both queens and males contributed to colony GD. Despite the differences, the two species have similar GD at the colony scale. Under low mating frequency, our data support that polygyny has evolutionary importance for increasing GD in ant colonies, a mechanism mainly conferred to polyandry. Although the impact of GD in variable ecological and adaptive contexts remains uncertain, this study highlights how distinct reproductive strategies may generate similar patterns of GD in ants. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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30. Disseminated Primary Pulmonary Choriocarcinoma Successfully Treated by Chemotherapy: A Case Report and Literature Review.
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Kim, Ji-Hye, Cha, Min-Jae, Kim, Mi-Kyung, Chung, Yun Jae, and Lee, Eun-Ju
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CANCER chemotherapy ,CHORIOCARCINOMA ,CHORIONIC gonadotropins ,DIFFERENTIAL diagnosis ,LUNG tumors ,RESEARCH funding ,TREATMENT effectiveness ,DESCRIPTIVE statistics - Abstract
Primary pulmonary choriocarcinoma (PPC) is frequently fatal due to difficulties in diagnosis. Few cases of PPC are bilateral and involve exceptionally large nodules. Here, we report an unusual case of PPC involving disseminated bilateral nodules, which was misdiagnosed as tuberculosis, but successfully treated using chemotherapy. A review of 65 cases revealed six cases of bilateral disease, including the present one. Patients treated with surgery, chemotherapy, or a combination of both showed similar treatment outcomes; however, chemotherapy may be the preferred option. Despite its rarity, PPC should be included in the differential diagnosis for all lung nodules to enable early detection. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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31. Transgenic Medaka Identify Embryonic Periods Sensitive to Disruption of Sex Determination.
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Spirhanzlova, Petra, Trébulle, Pauline, Lallement, Justine, Sébillot, Anthony, Kanamori, Akira, Lemkine, Gregory F., and Tindall, Andrew J.
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ORYZIAS latipes ,GREEN fluorescent protein ,HUMAN sexuality ,GOLGI apparatus ,STEROID hormones ,ESTROGEN - Abstract
Gonadal development in medaka (Oryzias latipes) is dependent on the synergy between estrogens and androgens. Disruption of steroid hormone levels can lead to ovo‐testis. To determine the sensitive windows for hormonally induced sex reversal in medaka, we developed a novel 42sp50‐GFP_ChgH‐GFP transgenic medaka line, allowing the identification of female gonadal tissue by fluorescence present in developing oocytes. Germinal transgenesis resulted in a stable line exhibiting a strong green fluorescent protein signal constitutively in the ovaries and in the liver in response to estrogens. The sensitivity of this line to disruption of sex determination following 16‐d chronic exposures was in the nanograms per liter range. To identify the developmental period sensitive to exogenous agents, fry were exposed to 24‐h pulses of high concentrations of 17β‐estradiol (E2) or 5α‐dihydrotestosterone (DHT) at various time points between days postfertilization (dpf) 0 and 12. Evaluation of phenotype followed by genotyping at 16 dpf revealed sensitivity to E2 between 1 and 8 dpf as well as 2 periods of susceptibility to DHT between 0 and 1 dpf and 4 and 8 dpf. No phenotypic sex reversal was detected after exposure to DHT or E2 on 11 or 12 dpf. The observed effects persisted to at least 24 dpf. The identified sensitive embryonic time periods for disruption of sex determination will aid future research on sex determination and the development of screening assays using early embryonic life stages. Environ Toxicol Chem 2020;39:842–851. © 2020 SETAC [ABSTRACT FROM AUTHOR]
- Published
- 2020
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32. Global determinants of freshwater and marine fish genetic diversity.
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Manel, Stéphanie, Guerin, Pierre-Edouard, Mouillot, David, Blanchet, Simon, Velez, Laure, Albouy, Camille, and Pellissier, Loïc
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MARINE fishes ,FISH diversity ,FRESHWATER fishes ,MARINE species diversity ,SPECIES diversity ,OCEAN temperature ,GEODIVERSITY - Abstract
Genetic diversity is estimated to be declining faster than species diversity under escalating threats, but its spatial distribution remains poorly documented at the global scale. Theory predicts that similar processes should foster congruent spatial patterns of genetic and species diversity, but empirical studies are scarce. Using a mined database of 50,588 georeferenced mitochondrial DNA barcode sequences (COI) for 3,815 marine and 1,611 freshwater fish species respectively, we examined the correlation between genetic diversity and species diversity and their global distributions in relation to climate and geography. Genetic diversity showed a clear spatial organisation, but a weak association with species diversity for both marine and freshwater species. We found a predominantly positive relationship between genetic diversity and sea surface temperature for marine species. Genetic diversity of freshwater species varied primarily across the regional basins and was negatively correlated with average river slope. The detection of genetic diversity patterns suggests that conservation measures should consider mismatching spatial signals across multiple facets of biodiversity. Biogeographic patterns of genetic diversity are poorly documented, especially for fish species. Here the authors show that (mitochondrial) genetic diversity has global spatial organization patterns with different environmental drivers for marine and freshwater fishes, where genetic diversity is only partly congruent with species richness. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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33. Strengthening the genetic diversity conservation narrative in Indonesia: challenges and prospects.
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Ragamustari, Safendrri Komara and Sukara, Endang
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GERMPLASM ,CONVENTION on Biological Diversity (1992) ,SYNTHETIC biology ,SYSTEMS biology ,BIODIVERSITY - Abstract
In possessing a significant proportion of the world's biological diversity, Indonesia represents a fulcrum for global biological diversity conservation. However, despite being a member of global coalitions on biological diversity conservation efforts, due to the lack of a clear narrative, especially in regards to genetic diversity conservation, Indonesia is continuously losing its biological diversity. In this paper, we highlight the importance of genetic diversity and possible strategies for its conservation from an Indonesian perspective. We address the relationship between Indonesian national regulations/strategies for genetic diversity conservation with the most dominant international agreement on the topic, the Convention on Biological Diversity. A review of Indonesian national regulations and strategies highlight the importance of elaborating on the definition of "genetic diversity and resources" in the Indonesian conservation narrative to create improved strategies for genetic diversity conservation. Furthermore, the addition and optimization of genetic resource conservation facilities can also improve genetic diversity conservation in Indonesia. We also explore strategies connected to stimulating economic growth using Indonesian genetic diversity through metabolic engineering, synthetic biology, and systems biology. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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34. Persistence of remnant patches and genetic loss at the distribution periphery in island and mainland populations of the quokka.
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Spencer, Peter B. S., Bain, Karlene, Hayward, Matthew W., Hillyer, Mia, and Friend, J. A. Tony
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ANIMAL diversity ,GEOLOGIC hot spots ,COASTAL plains ,ENDANGERED species ,PLANT germplasm ,ISLANDS ,PERSISTENCE - Abstract
Understanding the spatial structure of populations is important in developing effective management options for threatened species, and for managing habitat connectivity for metapopulation function, and for demographic and genetic heterogeneity. We used genetic information to investigate the structure of populations of the quokka, Setonix brachyurus , in south-west Western Australia. We hypothesised that movement between known populations would be relatively rare and result in significant genetic structuring. Genetic analyses from 412 adult individuals at 14 nuclear markers (microsatellite) from 33 sampling locations identified structure, diversity and spatial separation of quokkas across their mainland distribution and on two islands. We identified nine inferred (K = 9) populations of quokka that would be otherwise difficult to define with standard ecological techniques. The highest genetic diversity was evident in a large central population of quokka in the southern forest area and genetic diversity was lower at the peripheries of the distribution. The Rottnest Island population contained 70% of the genetic diversity of the mainland populations but the genetic diversity of animals on Bald Island was markedly lower. Populations of quokka in the northern jarrah forest were the only ones to show evidence of recent or long-term population bottlenecking. Of particular interest was the recently identified population at the Muddy Lakes area (the only remaining locality on the Swan Coastal Plain), which was identified as being genetically associated with the southern forest population. Overall, spatial and population cluster analysis showed small insular populations in the northern jarrah forest area, but in the southern forests there appears to be a large panmictic population. The 'world's happiest animal', the quokka, is a highly charismatic, monotypic species found in the biodiversity hotspot region of south-west Western Australia, but their genetic diversity remains poorly documented. We use genetic information from a large sample of quokkas from around their ~800-km range to identify population fragmentation problems, including the role that island populations contribute to their conservation. Overall, spatial and population cluster analysis showed small insular populations in the northern jarrah forest area, but in the southern forests there appears to be a large panmictic population. Photo by Rottnest Island Authority. [ABSTRACT FROM AUTHOR]
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- 2019
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35. Mantle transcriptome sequencing of Mytilus spp. and identification of putative biomineralization genes.
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Malachowicz, Magdalena and Wenne, Roman
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BIOMINERALIZATION ,GENETIC markers in plants ,MYTILUS ,MICROSATELLITE repeats ,SINGLE nucleotide polymorphisms ,MYTILIDAE ,NUCLEOTIDE sequence - Abstract
In molluscs, the shell secreted by mantle tissue during the biomineralization process is the first barrier against predators and mechanical damage. Changing environmental conditions, such as ocean acidification, influence shell strength and thus protection of the soft body within. Mussels are marine bivalves with important commercial and ecological value worldwide. Despite this importance, the proteins involved in the biomineralization and pigmentation processes in Mytilus spp. remain unclear, as does taxonomy of Mytilus taxa, though there have been many molecular studies. To further understanding in these areas, this study aimed to characterize and compare mantle transcriptomes of four mussel taxa using next generation sequencing. Mussels representing four taxa, were collected from several localities and RNA from mantle tissue was extracted. RNA sequences obtained were assembled, annotated and potential molecular markers, including simple sequence repeats (SSRs) and single nucleotide polymorphisms (SNPs) were identified. Candidate contigs putatively related to biomineralization and pigmentation processes were then selected and several transcripts were chosen for phylogenetic analyses from the Bivalvia class. Transcriptome comparisons between Mytilus taxa, including gene ontology (GO) enrichment analysis and orthologues identification were performed. Of assembled contigs, 46.57%, 37.28% and 17.53% were annotated using NCBI NR, GO and Kyoto Encyclopedia of Genes and Genomes databases, respectively. Potential SSRs (483) and SNPs (1,497) were identified. Results presented a total of 1,292 contigs putatively involved in biomineralization and melanogenesis. Phylogenetic analyses of a-carbonic anhydrase, chitinase and tyrosinase revealed complex evolutionary history and diversity of these genes, which may be a result of duplication events or adaptation to different environments in mussels and other bivalves. Enrichment analyses revealed GO terms associated with pH and thermal response inMytilus edulis from the North Sea andM. galloprovincialis from the Mediterranean Sea. The phylogenetic analysis within the genus Mytilus revealedM. californianus and M. coruscus to be genetically more distant fromthe other taxa:M. trossulus,M. edulis,M. chilensis and M. galloprovincialis. This work represents the first mantle transcriptome comparison between Mytilus taxa and provides contigs putatively involved in biomineralization. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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36. Evidence of genetic connectivity between fragmented pig populations in a tropical urban city-state.
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Koh, Joshua J-M., Rheindt, Frank E., Ng, Elize Y. X., and Webb, Edward L.
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CITY dwellers ,WILD boar ,GENE flow ,ANIMAL populations ,PLANT diversity ,SEED dispersal ,SWINE - Abstract
Forest fragmentation as a result of urbanisation can adversely affect gene flow between wildlife populations. Although gene flow among fragmented populations has been investigated for many species, there has been little research into the effects of urbanisation on gene flow in large mammals. Singapore is a small, densely urbanised tropical city-state where more than 99% of its original forest has been cleared. The wild pig is currently the largest native terrestrial mammal in Singapore and has important roles in maintaining plant diversity and seed dispersal. Pigs are widespread and present in the Central Catchment Nature Reserve (CCNR) as well as other forest patches in Singapore. Due to the extent of urbanisation, it is unclear if genetic connectivity exists between the CCNR and other forest fragments. In this study, genome libraries from 48 samples of pig blood were collected from two sites: 1) the CCNR and 2) forest fragments in the northeast of Singapore. Genome-wide SNP loci were used to understand the population genomics of the two pig populations. The results indicated that the pig populations formed two distinct genetic clusters that did not align with the respective sites. Both sites included individuals with signatures from both genetic clusters, although with different frequencies. This suggests that pigs can move across heavily urbanised landscapes. Future studies should involve long term collaring studies to identify specific corridors used by the pigs for dispersal, and a larger population genomic assessment to understand pig dispersal and gene flow to and from forest patches other than the CCNR and the Northeast. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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- View/download PDF
37. Runs of homozygosity have utility in mammalian conservation and evolutionary studies.
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Brüniche-Olsen, Anna, Kellner, Kenneth F., Anderson, Chase J., and DeWoody, J. Andrew
- Subjects
SPECIES diversity ,BIODIVERSITY ,GENETICS ,GENOMES ,GENOMICS ,HOMOZYGOSITY - Abstract
Runs of homozygosity (ROHs) arise due the transmission from parents to offspring of segments that are either identical by decent (IBD) or identical by state (IBS). The former is due to consanguineous matings whereas the latter is due to demographic processes. ROHs reduce individual nucleotide diversity (θ) as a function of homozygosity, and thus ROH distributions and θ are expected to vary among species because inbreeding levels, recombination rates, and demographic histories vary widely. To help interpret genetic diversity within and among species, we utilized genome sequence data from 78 mammalian species to compare θ and ROH burden (i.e., number and length of ROHs in the genome) among groups of mammals to assess genomic signatures of inbreeding. We compared θ and ROHs: (i) among threatened and non-threatened mammals to determine the significance of contemporary conservation status; (ii) among carnivorous and non-carnivorous mammals to determine the relevance of trophic effects; (iii) relative to body size because mutation rates generally vary with body mass; and (iv) across mammals from different latitudes to test for gradients in genomic diversity (e.g., due to effects of historic climatic regimes). Our results illustrate the considerable variance in genomic diversity across mammals, and that trophic level, body mass, and latitude have significant effects on θ and ROH burden. However, conservation status was not a reliable indicator of genomic diversity. We argue that genetic or genomic diversity should be an explicit component of conservation status, as such diversity is critical to the long-term sustainability of populations, and anticipate that ROHs will become more commonly used to estimate inbreeding in wild animals. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
38. Relationship Among Intron Length, Gene Expression, and Nucleotide Diversity in the Pacific Oyster Crassostrea gigas.
- Author
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Song, Kai, Li, Li, and Zhang, Guofan
- Abstract
Crassostrea gigas is a model mollusk, but its genetic features have not been studied comprehensively. In this study, we used whole-genome resequencing data to identify and characterize nucleotide diversity and population recombination rate in a diverse collection of 21 C. gigas samples. Our analyses revealed that C. gigas harbors both extremely high genetic diversity and recombination rates across the whole genome as compared with those of the other taxa. The noncoding regions, introns, intergenic spacers, and untranslated regions (UTRs) showed a lower level diversity than the synonymous sites. The larger introns tended to have lower diversity. Moreover, we found a negative association of the non-synonymous diversity with gene expression, which suggested that purifying selection played an important role in shaping genetic diversity. The nucleotide diversity at the 100- and 50-kb levels was positively correlated with population recombination rates, which was expected if the diversity was shaped by purifying selection or hitchhiking of advantageous mutants. Our work gives a general picture of the oyster’s polymorphism pattern and its association with recombination rates. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
39. Genetic Differentiation of the Daurian Ground Squirrel Spermophilus dauricus Brandt, 1843 according to Variability of the Mitochondrial DNA Control Region.
- Author
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Kapustina, S. Yu., Adiya, Ya., and Brandler, O. V.
- Subjects
MITOCHONDRIAL DNA analysis ,GROUND squirrels ,GENETIC polymorphism research ,HAPLOTYPES ,COMPARATIVE studies - Abstract
Nucleotide sequences of the mtDNA control region were studied in 64 Daurian ground squirrels of the Spermophilus dauricus dauricus subspecies from 20 localities from the territory of Mongolia and Transbaikalia of the Russian Federation. A large number of slightly different haplotypes were detected. It was found that genetic polymorphism is not associated with geographical variability. It seems that the Kherlen River is not an ecological and geographical barrier for Daurian ground squirrels, while an exchange between Mongolian and Chinese populations probably occurs within the southwest end of the Greater Khingan Range. By comparative analysis of a number of molecular genetic markers, it was found that the mitochondrial genome numbered KR534854 (GenBank NCBI) belongs not to S. dauricus, but to one of the members of the Sciurus genus. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
40. The influence of paleoclimate on the distribution of genetic variability and demography of fishes in a large and highly fragmented neotropical river.
- Author
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Pil, Maria W., Baggio, Rafael A., Tschá, Marcel K., Marteleto, Flávio M., Orélis-Ribeiro, Raphael, Patella, Luciana, Chammas, Marcelo, Ostrensky, Antonio, and Boeger, Walter A.
- Subjects
PALEOCLIMATOLOGY ,FISH genetics ,FISH populations ,RIVER ecology - Abstract
The present study sought to identify general patterns of genetic variability and structure of fish stocks (migratory and non-migratory species) along one of the largest Brazilian rivers, the São Francisco. Given that genetic variability of populations of all organisms is governed by both present and past influences, herein we investigate both these aspects by evaluating the current genetic differences between populations of five species ( Leporinus piau, Megaleporinus reinhardti, Pimelodus maculatus, Prochilodus argenteus, and Pygocentrus piraya) along the entire extension of the river, as well as their demographic history. Analyses were done through sequences of two mitochondrial fragments and microsatellite data. In general, the data showed no support for recent fragmentation of stocks by the dams present in this river, and that all species show signs of past population expansion. We discuss the possible reasons for the common patterns found between these species, including the influence of the river's topography and history. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
41. Genomic Signature of an Avian Lilliput Effect across the K-Pg Extinction.
- Author
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BERV, JACOB S. and FIELD, DANIEL J.
- Subjects
TOXOLASMA parvum ,GENOMICS ,MOLECULAR evolution ,METABOLISM ,LIFE history theory - Abstract
Survivorship following major mass extinctions may be associated with a decrease in body size--a phenomenon called the Lilliput Effect. Body size is a strong predictor of many life history traits (LHTs), and is known to influence demography and intrinsic biological processes. Pronounced changes in organismal size throughout Earth history are therefore likely to be associated with concomitant genome-wide changes in evolutionary rates. Here, we report pronounced heterogeneity in rates of molecular evolution (varying up to ~20-fold) across a large-scale avian phylogenomic data set and show that nucleotide substitution rates are strongly correlated with body size and metabolic rate. We also identify potential body size reductions associated with the Cretaceous-Paleogene (K-Pg) transition, consistent with a Lilliput Effect in the wake of that mass extinction event. We posit that selection for reduced body size across theK-Pg extinction horizon may have resulted in transient increases in substitution rate along the deepest branches of the extant avian tree of life. This "hidden" rate acceleration may result in both strict and relaxed molecular clocks over-estimating the age of the avian crown group through the relationship between life history and demographic parameters that scale with molecular substitution rate. If reductions in body size (and/or selection for related demographic parameters like short generation times) are a common property of lineages surviving mass extinctions, this phenomenon may help resolve persistent divergence time debates across the tree of life. Furthermore, our results suggest that selection for certain LHTs may be associated with deterministic molecular evolutionary outcomes. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
42. Metazoan parasite communities in Alosa alosa (Linnaeus, 1758) and Alosa fallax (Lacépède, 1803) (Clupeidae) from North-East Atlantic coastal waters and connected rivers.
- Author
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Gérard, Claudia, Hervé, Maxime, Gay, Mélanie, Bourgau, Odile, Feunteun, Eric, Acou, Anthony, and Réveillac, Elodie
- Subjects
METAZOA ,HELMINTHS ,PARASITES ,PARASITOLOGY ,SPECIES - Abstract
Metazoan parasites were studied in 96 Alosa alosa and 78 Alosa fallax from North-East Atlantic coastal waters and connected rivers (among them three sympatric sites) in order to increase knowledge on these anadromous endangered fish and measure the parasitic impact on host condition. All shads were infected by one to six metazoan parasite taxa among the 12 identified in the whole sampling, with a mean abundance of parasites higher for A. alosa (167 ± 10) than for A. fallax (112 ± 11). Helminths, mostly trophically transmitted, were the best represented (eight taxa, prevalence up to 99%) in contrast with crustaceans and Petromyzontidae that rarely occurred (four taxa, prevalence <6%). Despite some quantitative differences, metazoan parasite communities of A. alosa and A. fallax remained stable in composition whatever the host developmental stage, sex, sample site, and salinity. Among the nine parasite taxa harbored by each Alosa species, six were shared with some differences in distribution patterns including in sympatric conditions, suggesting increasing dissimilarities between A. alosa and A. fallax with the age. Information on feeding ecology provided by trophically transmitted helminths confirmed euryphagous opportunistic diet of immatures and adults of both shad species, and assessed feeding of adults during spawning migrations. Our study also revealed the significant negative impact of Hemiurus appendiculatus on A. alosa and Pronoprymna ventricosa on A. fallax. Because helminth parasites are omnipresent in the shads and decrease their fitness, parasitological data must be included in further investigations and management programs on A. alosa and A. fallax. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
43. Primary pulmonary choriocarcinoma.
- Author
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Snoj, Ziga, Kocijancic, Igor, and Skof, Erik
- Abstract
The article focuses on primary pulmonary choriocarcinoma (PPC). Topics discussed include diagnosis of the choriocarcinoma, pulmonary tumour and examination of reproductive organs. In addition, other topics which includes treatment of patients with PPC, patient's prognosis and chemotherapy are also discussed.
- Published
- 2017
- Full Text
- View/download PDF
44. Comparative transcriptomics of elasmobranchs and teleosts highlight important processes in adaptive immunity and regional endothermy.
- Author
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Marra, Nicholas J., Richards, Vincent P., Early, Angela, Bogdanowicz, Steve M., Pavinski Bitar, Paulina D., Stanhope, Michael J., and Shivji, Mahmood S.
- Subjects
CHONDRICHTHYES ,IMMUNITY ,RNA ,PEPTIDES ,ANTHOPLEURIN ,IMMUNOLOGY - Abstract
Background: Comparative genomic and/or transcriptomic analyses involving elasmobranchs remain limited, with genome level comparisons of the elasmobranch immune system to that of higher vertebrates, non-existent. This paper reports a comparative RNA-seq analysis of heart tissue from seven species, including four elasmobranchs and three teleosts, focusing on immunity, but concomitantly seeking to identify genetic similarities shared by the two lamnid sharks and the single billfish in our study, which could be linked to convergent evolution of regional endothermy. Results: Across seven species, we identified an average of 10,877 Swiss-Prot annotated genes from an average of 32,474 open reading frames within each species' heart transcriptome. About half of these genes were shared between all species while the remainder included functional differences between our groups of interest (elasmobranch vs. teleost and endotherms vs. ectotherms) as revealed by Gene Ontology (GO) and selection analyses. A repeatedly represented functional category, in both the uniquely expressed elasmobranch genes (total of 259) and the elasmobranch GO enrichment results, involved antibody-mediated immunity, either in the recruitment of immune cells (Fc receptors) or in antigen presentation, including such terms as "antigen processing and presentation of exogenous peptide antigen via MHC class II", and such genes as MHC class II, HLA-DPB1. Molecular adaptation analyses identified three genes in elasmobranchs with a history of positive selection, including legumain (LGMN), a gene with roles in both innate and adaptive immunity including producing antigens for presentation by MHC class II. Comparisons between the endothermic and ectothermic species revealed an enrichment of GO terms associated with cardiac muscle contraction in endotherms, with 19 genes expressed solely in endotherms, several of which have significant roles in lipid and fat metabolism. Conclusions: This collective comparative evidence provides the first multi-taxa transcriptomic-based perspective on differences between elasmobranchs and teleosts, and suggests various unique features associated with the adaptive immune system of elasmobranchs, pointing in particular to the potential importance of MHC Class II. This in turn suggests that expanded comparative work involving additional tissues, as well as genome sequencing of multiple elasmobranch species would be productive in elucidating the regulatory and genome architectural hallmarks of elasmobranchs. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
45. Population genetic structure of the Amazonian black flannelmouth characin (Characiformes, Prochilodontidae: Prochilodus nigricans Spix & Agassiz, 1829): contemporary and historical gene flow of a migratory and abundant fishery species.
- Author
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Machado, Valéria, Willis, Stuart, Teixeira, Aylton, Hrbek, Tomas, and Farias, Izeni
- Subjects
CHARACIDAE ,ANIMAL population genetics ,GENE flow ,MIGRATORY fishes ,LIFE history theory ,FISHES - Abstract
In the present study, sequences of the mtDNA control region (834 bp) were analyzed from 337 specimens of Prochilodus nigricans from sites along the main channel of the Amazonas River and three major tributaries, Madeira, Purus, and Juruá. The results of the analysis of molecular variance revealed that a large part of the genetic variation occurred within the populations analyzed (~85 %). Analysis with SAMOVA and Barriers suggested that the upper Madeira River and Purus Rivers had diverged genetically from the other samples, indicating restricted gene flow among these areas, while sites within the remaining range exhibited relatively little population structure. The high degree of structuring observed in the Madeira River basin population may be attributed to the presence of rapids along its upper course, while the genetic divergence found in the upper Purus River suggests historical connection between the upper Purus and upper Madeira Rivers followed by slow genetic drift due to large effective population sizes. However, given the life history and hypothesized evolutionary strategy of this species, we urge caution in interpreting that this targeted species is not at risk of overexploitation due to contemporary abundance. In order to preserve genetic diversity, we recommend enforcement of management regimes for regional stocks. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
46. Primary pulmonary choriocarcinoma in a male that was successfully diagnosed and treated: A case report and review of the literature.
- Author
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Ran Zhu, Congwei Jia, Jie Yan, Yufeng Luo, Zhen Huo, Zhu, Ran, Jia, Congwei, Yan, Jie, Luo, Yufeng, and Huo, Zhen
- Published
- 2016
- Full Text
- View/download PDF
47. Comparative phylogeographies of six species of hinged terrapins ( Pelusios spp.) reveal discordant patterns and unexpected differentiation in the P. castaneus/P. chapini complex and P. rhodesianus.
- Author
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Kindler, Carolin, Moosig, Maggie, Branch, William R., Harvey, James, Kehlmaier, Christian, Nagy, Zoltán T., Prokop, Hynek, Široký, Pavel, and Fritz, Uwe
- Subjects
TURTLES ,PHYLOGEOGRAPHY ,ANIMAL species ,MITOCHONDRIAL DNA ,NUCLEAR DNA ,ZOOGEOGRAPHY - Abstract
Using up to 2117 bp of mitochondrial DNA and up to 2012 bp of nuclear DNA, we analysed phylogeographic differentiation of six widely distributed species of African hinged terrapins ( Pelusios spp.) representing different habitat types. Two taxa each live in savannahs or in forests and mesic savannahs, respectively, and the remaining two species occur in intermediate habitats. The species living in forests and mesic savannahs do not enter dry savannahs, whereas the savannah species may occur in dry and wet savannahs and even in semi-arid steppe regions. We found no obvious correlation between habitat type and phylogeographic pattern: one savannah species ( P. rhodesianus) shows phylogeographic structure, i.e. pronounced genetic differences among geographically distinct populations, and the other ( P. nanus) not. One species inhabiting forests and mesic savannahs ( P. carinatus) has phylogeographic structure, the other ( P. gabonensis) not. The same pattern is true for the two ecologically intermediate species, with phylogeographic structure present in P. castaneus and absent in P. chapini. Nuclear evidence suggests that the latter two taxa with abutting and partially overlapping ranges are distinct, while mt DNA is only weakly differentiated. Pelusios castaneus shows pronounced phylogeographic structure, which could reflect Pleistocene range interruptions correlated with the fluctuating forest cover in West and Central Africa. Our results do not support the recognition of an extinct subspecies of P. castaneus for the Seychelles. Pelusios carinatus contains two well supported clades, which are separated by the Congo River. This species is closely related to P. rhodesianus, a taxon consisting of two deeply divergent mitochondrial clades. One of these clades is paraphyletic with respect to P. carinatus, but the two clades of P. rhodesianus are not differentiated in the studied nuclear markers and, again, paraphyletic with respect to P. carinatus. Using mt DNA sequences from the type material of P. rhodesianus, we were able to allocate this name to one of the two clades. However, owing to the confusing relationships of P. rhodesianus and P. carinatus, we refrain from taxonomic decisions. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
48. ENVELOPPES: LA PEAU QUE NOUS HABITONS.
- Author
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Malras, Pauline and Urata, Kaoru
- Subjects
DOMESTIC architecture ,PUBLIC architecture ,MUSEUM architecture - Published
- 2017
49. Spontaneous Resolution of Amoebic Liver Abscess Following Hepatogastric Fistula.
- Author
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NAIK, SUPRAVA, SINGH, ARASHDEEP, MOHAKUD, SUDIPTA, MISHRA, TUSHAR S., NAIK, PRABHASH KUMAR, and DEEP, N.
- Published
- 2018
- Full Text
- View/download PDF
50. Next-generation sequencing and the expanding domain of phylogeography.
- Author
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EDWARDS, Scott V., SHULTZ, Allison J., and CAMPBELL-STATON, Shane C.
- Abstract
Phylogeography is experiencing a revolution brought on by next-generation sequencing methods. A historical survey of the phylogeographic literature suggests that phylogeography typically incorporates new questions, expanding on its classical domain, when new technologies offer novel or increased numbers of molecular markers. A variety of methods for subsampling genomic variation, including restriction site associated DNA sequencing (Rad-seq) and other next generation approaches, are proving exceptionally useful in helping to define major phylogeographic lineages within species as well as details of historical demography. Next-generation methods are also blurring the edges of phylogeography and related fields such as association mapping of loci under selection, and the emerging paradigm is one of simultaneously inferring both population history across geography and genomic targets of selection. However, recent examples, including some from our lab on Anolis lizards and songbirds, suggest that genome subsampling methods, while extremely powerful for the classical goals of phylogeography, may fail to allow phylogeography to fully achieve the goals of this new, expanded domain. Specifically, if genome-wide linkage disequilibrium is low, as is the case in many species with large population sizes, most genome subsampling methods will not sample densely enough to detect selected variants, or variants closely linked to them. We suggest that whole-genome resequencing methods will be essential for allowing phylogeographers to robustly identify loci involved in phenotypic divergence and speciation, while at the same time allowing free choice of molecular markers and further resolution of the demographic history of species. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
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