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11. despite similar life cycles

Author

Perrot-Minnot, MJ, Spakulova, M, Wattier, R, Kotlik, P, Dusen, S, Aydogdu, A, and Tougard, C

Subjects
Pomphorhynchus, Ponto-Caspian, amphipod, British islands, comparative phylogeography, Cyprinidae, Danube, helminth, Mediterranean, Messinian salinity crisis
Abstract

Aim: We used comparative phylogeography of two intestinal parasites of freshwater fish to test whether similarity in life cycle translates into concordant phylogeographical history. The thorny-headed worms Pomphorhynchus laevis and P. tereticollis (Acanthocephala) were formerly considered as a single species with a broad geographical and host range within the Western Palaearctic. Location: Central and eastern parts of Northern Mediterranean area, Western and Central Europe, Ponto-Caspian Europe. Methods: A mitochondrial marker (COI) was sequenced for 111 P. laevis and 50 P. tereticollis individuals and nuclear ITS1 and ITS2 sequences were obtained for 37 P. laevis and 21 P. tereticollis. Genetic divergence, phylogenetic relationships and divergence time were estimated for various lineages within each species, and their phylogeographical patterns were compared to known palaeogeographical events in Western Palaearctic. Biogeographical histories of each species were inferred. Results: The two species show very different phylogeographical patterns. Five lineages were identified in P. laevis, partially matching several major biogeographical regions defined in the European riverine fish fauna. The early stages of P. laevis diversification occurred in the peri-Mediterranean area, during the Late Miocene. Subsequent expansion across Western Europe and Russia was shaped by dispersal and vicariant events, from Middle Pliocene to Middle Pleistocene. By contrast, P. tereticollis has differentiated more recently within the Western and Central parts of Europe, and shows weak geographical and genetic structuring. Conclusion: Our study highlights weak to moderate similarity in the phylogeographical pattern of these acanthocephalan parasites compared to their amphipod and fish hosts. The observed differences in the timing of dispersion and migration routes taken may reflect the use of a range of final hosts with different ecologies and dispersal capabilities. By using a group underrepresented in phylogeographical studies, our study is a valuable contribution to revealing the biogeography of host-parasite interactions in continental freshwaters.

Published
2018

12. Tracking zoonotic pathogens using bloodsucking flies as 'flying syringes'

Author

Bitome-Essono, P. Y., Ollomo, B., Arnathau, C., Durand, P., Mokoudoum, N. D., Yacka-Mouele, L., Okouga, A. P., Boundenga, L., Mve-Ondo, B., Obame-Nkoghe, J., Mbehang-Nguema, P., Njiokou, F., Makanga, B., Wattier, R., Ayala, Diego, Ayala, F. J., Prugnolle, F., and Paupy, Christophe

Subjects
fungi
Abstract

About 60% of emerging infectious diseases in humans are of zoonotic origin. Their increasing number requires the development of new methods for early detection and monitoring of infectious agents in wildlife. Here, we investigated whether blood meals from hematophagous flies could be used to identify the infectious agents circulating in wild vertebrates. To this aim, 1230 blood-engorged flies were caught in the forests of Gabon. Identified blood meals (30%) were from 20 vertebrate species including mammals, birds and reptiles. Among them, 9% were infected by different extant malaria parasites among which some belonged to known parasite species, others to new parasite species or to parasite lineages for which only the vector was known. This study demonstrates that using hematophagous flies as 'flying syringes' constitutes an interesting approach to investigate blood-borne pathogen diversity in wild vertebrates and could be used as an early detection tool of zoonotic pathogens.

Published
2017

13. Variability of Cd-sensitivity and phylogenetic diversity of field populations throughout the Gammarus fossarum/pulex species complex

Author

Vigneron, A., Olivier, Geffard, Pellerin, H., Recoura Massaquant, R., Francois, A., Quéau, H., Rigaud, Thierry, Wattier, R., Chaumot, Arnaud, Milieux aquatiques, écologie et pollutions (UR MALY), Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), and Université de Bourgogne (UB)

Subjects
[SDE]Environmental Sciences
Abstract

International audience; Gammarids from the pulex group (e.g. G. pulex, G. fossarum) are commonly used in ecotoxicological tests (both for laboratory and in situ assessment of contaminant toxicity). But this taxonomic group is known to be a highly diversified complex of cryptic species, and affiliation to a cryptic lineage is claimed to be a driving factor for toxicant sensitivity. On one hand, this could contribute to the reported between-population variability in response to contamination in gammarids, and on the other hand, it challenges the representativeness of toxicity tests performed with one experimental population. However studies addressing this issue are often based on few populations, while a quantitative knowledge of the natural range of between-population variability of sensitivity to toxicants is necessary to conclude about the potential confounding effect of the phylogenetic signal in this species group. Unfortunately, such a reliable quantification is often lacking. To answer these questions we proceed here in three steps. First, a broad sample of 18 field populations of G. fossarum/pulex complex has been selected. Particular attention was paid to the selection of populations inhabiting pristine stations spread out at a regional scale taking into account confounding factors. Second, we established lethal responses to cadmium for each population (time- and dose-response curves). Third, we investigated the genetic diversity among and within populations by evaluating nucleotide sequence variation in a neutral marker (COI). From this, the variability of acute Cd-sensitivity appeared to be weak. Genotyping and phylogenetic analysis revealed that our sample of populations covers a wide diversity in the G. fossarum/pulex species complex, notably in lights of reported sequences in literature. Indeed, a high haplotype diversity within and among study populations with several cryptic lineages that can occur sympatrically have been identified. Genetic divergence between cryptic lineages revealed in our study are comparable to interspecific level. Overall, our results sustain that in the particular case of acute Cd toxicity, the phylogenetic signal within the Gammarus fossarum species complex is very weak, and that cryptic interspecies heterogeneity does not constitute a systematic bias in toxicity assessment. In contrast local ecological adaptations should be investigated to understand potential between-population heterogeneity in sensitivity to contaminants in gammarids.; L’exposition chronique des populations aux contaminants peut conduire à des modifications de leur sensibilité toxicologique et des changements de leurs traits d’histoire de vie. La possibilité de telles modifications questionne la représentativité environnementale des tests écotoxicologiques, notamment obtenus au laboratoire, et pose la question de l’importance des processus évolutifs en écotoxicologie. Comprendre ces phénomènes, les mécanismes sous-jacents (adaptation, acclimatation), et leurs éventuels effets indirects sur la vulnérabilité des populations, en particulier dans les milieux, est devenu essentiel pour assurer une évaluation du risque écologique associé à la contamination chimique pertinente. Au cours de précédents travaux, nous avons identifié une population de Gammarus fossarum historiquement exposée au cadmium (Cd) (fond géochimique), nous permettant ainsi d’étudier les processus évolutifs induit par la contamination dans un contexte environnemental. Pour répondre à ces questions, nous avons adopté une démarche rétrospective consistant à comparer les niveaux de tolérance au Cd et les traits d’histoire de vie de cette population test vis-à-vis de la variabilité existante entre populations de milieu non contaminé (populations de référence). Pour cela, une vingtaine de populations du groupe Gammarus fossarum-pulex naïves vis-à-vis du Cd ont été sélectionnées à l'échelle régionale (Bourgogne, Rhône-Alpes). Un génotypage des populations (COI) a également été réalisé. Des expositions aigues au Cd au laboratoire, ainsi que des protocoles de génétique quantitative (half-sib design) ont été conduits. Ces expériences ont permis de mettre évidence une augmentation de la tolérance au Cd au sein de la population exposée, tolérance transmissible à la descendance (F1 produits en conditions non-contaminées). Cependant, cette tolérance ne semble pas pouvoir s'expliquer par une adaptation génétique (faible héritabilité de la sensibilité au Cd au sein des populations naïves), mais par une acclimatation physiologique accompagnée d’effets transgénérationnels via l’exposition maternelle. Un suivi de population et la mesure de traits d’histoire de vie ont également révélé une divergence de la population tolérante au Cd par rapport aux populations de référence (décalage dans les distributions de tailles, tendance à une plus grande fertilité et une croissance plus faible). Ces modifications peuvent être interprétées soit comme des coûts de fitness associés à la tolérance au Cd, soit comme une adaptation de la dynamique de cette population. Ces résultats montrent qu'une exposition chronique à la contamination dans le milieu d’une population peut non seulement induire des modifications des sensibilités toxicologiques mais aussi des traits d’histoires de vie, et soulignent l’importance de prendre en compte ces phénomènes dans un cadre écotoxicologique.

Published
2014

14. Permanent genetic resources added to Molecular Ecology Resources Database 1 december 201231 january 2013

Author

Arranz, S. E., Avarre, Jean-Christophe, Balasundaram, C., Bouza, C., Calcaterra, N. B., Cezilly, F., Chen, S. L., Cipriani, G., Cruz, V. P., D'Esposito, D., Daniel, C., Dejean, A., Dharaneedharan, S., Diaz, J., Du, M., Durand, Jean-Dominique, Dziadek, J., Foresti, F., Fu, P. C., Gao, Q. B., Garcia, G., Gauffre-Autelin, P., Giovino, A., Goswami, M., Guarino, C., Guerra-Varela, J., Gutierrez, V., Harris, D. J., Heo, M. S., Khan, G., Kim, M., Lakra, W. S., Lauth, J., Leclercq, P., Lee, J., Lee, S. H., Lee, S., Lee, T., Li, Y. H., Liu, H. B., Liu, S. F., Male, P. J. G., Mandhan, R. P., Martinez, P., Mayer, V. E., Mendel, J., Mendes, N. J., Mendonca, F. F., Minias, A., Minias, P., Oh, K. S., Oliveira, C., Orivel, J., Orsini, L., Pardo, B. G., Perera, A., Procaccini, G., Rato, C., Rios, N., Scibetta, S., Sharma, B. S., Sierens, T., Singh, A., Terer, T., Triest, L., Urbankova, S., Vera, M., Villanova, G. V., Voglmayr, H., Vyskocilova, M., Wang, H. Y., Wang, J. L., Wattier, R. A., Xing, R., Yadav, K., Yin, G. B., Yuan, Y. J., Yun, J. C., Zhang, F. Q., Zhang, J. H., and Zhuang, Z. M.

Abstract

This article documents the addition of 268 microsatellite marker loci to the Molecular Ecology Resources Database. Loci were developed for the following species: Alburnoidesbipunctatus, Chamaeropshumilis, Chlidoniashybrida, Cyperuspapyrus, Fusariumgraminearum, Loxigillabarbadensis, Macrobrachiumrosenbergii, Odontesthesbonariensis, Pelteobagrusvachelli, Posidoniaoceanica, Potamotrygonmotoro, Rhamdia quelen, Sarotherodonmelanotheron heudelotii, Sibiraeaangustata, Takifugurubripes, Tarentolamauritanica, Trimmatostroma sp. and Wallagoattu. These loci were cross-tested on the following species: Alburnoides fasciatus, Alburnoides kubanicus, Alburnoides maculatus, Alburnoides ohridanus, Alburnoides prespensis, Alburnoides rossicus, Alburnoides strymonicus, Alburnoides thessalicus, Alburnoides tzanevi, Carassius carassius, Fusarium asiaticum, Leucaspius delineatus, Loxigilla noctis dominica, Pelecus cultratus, Phoenix canariensis, Potamotrygon falkneri, Trachycarpus fortune and Vimba vimba.

Published
2013

15. Hooking the scientific community on thorny-headed worms: interesting and exciting facts, knowledge gaps and perspectives for research directions on Acanthocephala

Author

Perrot-Minnot Marie-Jeanne, Cozzarolo Camille-Sophie, Amin Omar, Barčák Daniel, Bauer Alexandre, Filipović Marijić Vlatka, García-Varela Martín, Servando Hernández-Orts Jesús, Yen Le T.T., Nachev Milen, Orosová Martina, Rigaud Thierry, Šariri Sara, Wattier Rémi, Reyda Florian, and Sures Bernd

Subjects
acanthocephala, environmental parasitology, host ranges, integrative taxonomy, transmission strategies, Infectious and parasitic diseases, RC109-216
Abstract

Although interest in Acanthocephala seems to have reached only a small community of researchers worldwide, we show in this opinion article that this group of parasites is composed of excellent model organisms for studying key questions in parasite molecular biology and cytogenetics, evolutionary ecology, and ecotoxicology. Their shared ancestry with free-living rotifers makes them an ideal group to explore the origins of the parasitic lifestyle and evolutionary drivers of host shifts and environmental transitions. They also provide useful features in the quest to decipher the proximate mechanisms of parasite-induced phenotypic alterations and better understand the evolution of behavioral manipulation. From an applied perspective, acanthocephalans’ ability to accumulate contaminants offers useful opportunities to monitor the impacts – and evaluate the possible mitigation – of anthropogenic pollutants on aquatic fauna and develop the environmental parasitology framework. However, exploring these exciting research avenues will require connecting fragmentary knowledge by enlarging the taxonomic coverage of molecular and phenotypic data. In this opinion paper, we highlight the needs and opportunities of research on Acanthocephala in three main directions: (i) integrative taxonomy (including non-molecular tools) and phylogeny-based comparative analysis; (ii) ecology and evolution of life cycles, transmission strategies and host ranges; and (iii) environmental issues related to global changes, including ecotoxicology. In each section, the most promising ideas and developments are presented based on selected case studies, with the goal that the present and future generations of parasitologists further explore and increase knowledge of Acanthocephala.

Published
2023
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21. PRIMER NOTE Sequence variation of intergenic mitochondrial DNA spacers (mtDNA-IGS) of Phytophthora infestans (Oomycetes) and related species

Author

Wattier, R. A. M., Gathercole, L. L., Assinder, S. J., Gliddon, C. J., Deahl, K. L., Shaw, D. S., and Mills, D. I.

Abstract

The potato late-blight disease is caused by the pseudofungus Phytophthora infestans (Oomycetes). This pathogen was of historical importance as it caused the Irish Potato Famine. There is currently a worldwide resurgence of the disease. Following worldwide migrations as well as being able to discriminate P. infestans from related species are key issues. We present sequence variation of five inter-genic mitochondrial DNA spacers (mtDNA-IGS) for P. infestans and four related taxa. Intra and inter-taxon variation was observed showing potential for both molecular ecology and molecular systematic.

Published
2003
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23. Induction of IL-6 and CCL5 (RANTES) in human respiratory epithelial (A549) cells by clinical isolates of respiratory syncytial virus is strain specific

Author

Levitz Ruth, Wattier Rachel, Phillips Pamela, Solomon Alexandra, Lawler Jessica, Lazar Isaac, Weibel Carla, and Kahn Jeffrey S

Subjects
Respiratory syncytial virus, Clinical isolates, IL-6, RANTES, CCL5, Respiratory syncytial virus genome, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Respiratory syncytial virus (RSV) is the major respiratory pathogen of infants and young children. During each seasonal epidemic, multiple strains of both subgroup A and B viruses circulate in the community. Like other RNA viruses, RSV genome replication is prone to errors that results in a heterogeneous population of viral strains some of which may possess differences in virulence. We sought to determine whether clinical isolates of RSV differ in their capacity to induce inflammatory cytokines IL-6 and CCL5 (previously known as RANTES [regulated upon activation, normal T-cell expressed and secreted protein]), which are known to be induced in vitro and in vivo in response to RSV, during infection of A549 cells. Results Screening of subgroup A and B isolates revealed heterogeneity among strains to induce IL-6 and CCL5. We chose two subgroup B strains, New Haven (NH)1067 and NH1125, for further analysis because of their marked differences in cytokine inducing properties and because subgroup B strains, in general, are less genetically heterogeneous as compared to subgroup A strains. At 12 and 24 hours post infection RSV strains, NH1067 and NH1125 differed in their capacity to induce IL-6 by an order of magnitude or more. The concentrations of IL-6 and CCL5 were dependent on the dose of infectious virus and the concentration of these cytokines induced by NH1125 was greater than that of those induced by NH1067 when the multiplicity of infection of NH1067 used was as much as 10-fold higher than that of NH1125. The induction of IL-6 was dependent on viable virus as infection with UV-inactivated virus did not induce IL-6. The difference in IL-6 induction most likely could not be explained by differences in viral replication kinetics. The intracellular level of RSV RNA, as determined by quantitative RT-PCR, was indistinguishable between the 2 strains though the titer of progeny virus produced by NH1125 was greater than that produced by NH1067 at 16, 24 and 36 hours but essentially equal at 48 and 72 hours. Full genome sequencing of the 2 strains revealed 193 polymorphisms and 4 insertions in NH1067when compared to NH1125 (2 single base insertions in non-coding regions and 2 duplications of 3 and 60 bases in the RSV G gene). Of the polymorphisms, 147 occurred in coding regions and only 30 resulted in amino acid changes in 7 of the RSV genes. Conclusions These data suggest that RSV strains may not be homogeneous with regard to pathogenesis or virulence. Identification of the genetic polymorphisms associated with variations in cytokine induction may lead to insights into RSV disease and to the development of effective antiviral agents and vaccines.

Published
2012
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25. Widespread infection, diversification and old host associations of Nosema Microsporidia in European freshwater gammarids (Amphipoda).

Author

Bacela-Spychalska K, Wattier R, Teixeira M, Cordaux R, Quiles A, Grabowski M, Wroblewski P, Ovcharenko M, Grabner D, Weber D, Weigand AM, and Rigaud T

Subjects
Humans, Female, Animals, Phylogeny, Fresh Water, Nosema genetics, Amphipoda genetics
Abstract

The microsporidian genus Nosema is primarily known to infect insects of economic importance stimulating high research interest, while other hosts remain understudied. Nosema granulosis is one of the formally described Nosema species infecting amphipod crustaceans, being known to infect only two host species. Our first aim was to characterize Nosema spp. infections in different amphipod species from various European localities using the small subunit ribosomal DNA (SSU) marker. Second, we aimed to assess the phylogenetic diversity, host specificity and to explore the evolutionary history that may explain the diversity of gammarid-infecting Nosema lineages by performing a phylogenetic reconstruction based on RNA polymerase II subunit B1 (RPB1) gene sequences. For the host species Gammarus balcanicus, we also analyzed whether parasites were in excess in females to test for sex ratio distortion in relation with Nosema infection. We identified Nosema spp. in 316 individuals from nine amphipod species being widespread in Europe. The RPB1-based phylogenetic reconstruction using newly reported sequences and available data from other invertebrates identified 39 haplogroups being associated with amphipods. These haplogroups clustered into five clades (A-E) that did not form a single amphipod-infecting monophyletic group. Closely related sister clades C and D correspond to Nosema granulosis. Clades A, B and E might represent unknown Nosema species infecting amphipods. Host specificity seemed to be variable with some clades being restricted to single hosts, and some that could be found in several host species. We show that Nosema parasite richness in gammarid hosts is much higher than expected, illustrating the advantage of the use of RPB1 marker over SSU. Finally, we found no hint of sex ratio distortion in Nosema clade A infecting G. balcanicus. This study shows that Nosema spp. are abundant, widespread and diverse in European gammarids. Thus, Nosema is as diverse in aquatic as in terrestrial hosts., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Bacela-Spychalska et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2023
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26. Serotonin Syndrome in an Infant Associated With Linezolid and Opioid Use.

Author

Essakow J, Jin L, Marupudi N, Wattier R, McQuillen P, and Franzon D

Abstract

Most reported cases of serotonin syndrome involve either a selective serotonin reuptake inhibitor (SSRI) or monoamine oxidase inhibitors (MAOI) and at least 1 other serotonergic medication or exposure to a single serotonin-augmenting drug. This case report describes serotonin syndrome occurring in association with the concomitant use of the antibiotic linezolid and opioids, specifically methadone, in a pediatric intensive care unit patient. The patient developed hyperpyrexia, muscle rigidity, clonus, and multiorgan dysfunction within 48 hours of receiving linezolid while concurrently on methadone. This drug-drug interaction is a rare cause of serotonin syndrome that has only been described 1 other time in the adult literature. This report raises awareness of this rare but serious and potentially lethal complication of serotonin syndrome associated with concomitant linezolid and opioid use. Timely consideration of the diagnosis in the setting of hyperpyrexia can facilitate prompt initiation of targeted therapies to prevent sequela., Competing Interests: Disclosures. The authors declare no conflicts or financial interest in any product or service mentioned in the manuscript, including grants, equipment, medications, employment, gifts, and honoraria. The authors had full access to all patient information in this report and take responsibility for the integrity and accuracy of the report., (Copyright. Pediatric Pharmacy Association. All rights reserved. For permissions, email: membership@pediatricpharmacy.org 2022.)

Published
2022
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27. Draft Genome Sequences of Thelohania contejeani and Cucumispora dikerogammari, Pathogenic Microsporidia of Freshwater Crustaceans.

Author

Cormier A, Wattier R, Giraud I, Teixeira M, Grandjean F, Rigaud T, and Cordaux R

Abstract

We announce the draft genome sequences of two pathogenic microsporidia of European freshwater crustaceans, Thelohania contejeani (the causative agent of porcelain disease) and Cucumispora dikerogammari Both species are implicated in mass mortalities in natural populations of their crayfish and amphipod hosts, respectively., (Copyright © 2021 Cormier et al.)

Published
2021
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28. Comparative Genomics of Strictly Vertically Transmitted, Feminizing Microsporidia Endosymbionts of Amphipod Crustaceans.

Author

Cormier A, Chebbi MA, Giraud I, Wattier R, Teixeira M, Gilbert C, Rigaud T, and Cordaux R

Subjects
Animals, Female, Feminization parasitology, Host-Parasite Interactions, Male, Nosema, Phylogeny, Wolbachia genetics, Amphipoda genetics, Feminization genetics, Genomics, Microsporidia genetics
Abstract

Microsporidia are obligate intracellular eukaryotic parasites of vertebrates and invertebrates. Microsporidia are usually pathogenic and undergo horizontal transmission or a mix of horizontal and vertical transmission. However, cases of nonpathogenic microsporidia, strictly vertically transmitted from mother to offspring, have been reported in amphipod crustaceans. Some of them further evolved the ability to feminize their nontransmitting male hosts into transmitting females. However, our understanding of the evolution of feminization in microsporidia is hindered by a lack of genomic resources. We report the sequencing and analysis of three strictly vertically transmitted microsporidia species for which feminization induction has been demonstrated (Nosema granulosis) or is strongly suspected (Dictyocoela muelleri and Dictyocoela roeselum), along with a draft genome assembly of their host Gammarus roeselii. Contrary to horizontally transmitted microsporidia that form environmental spores that can be purified, feminizing microsporidia cannot be easily isolated from their host cells. Therefore, we cosequenced symbiont and host genomic DNA and devised a computational strategy to obtain genome assemblies for the different partners. Genomic comparison with feminizing Wolbachia bacterial endosymbionts of isopod crustaceans indicated independent evolution of feminization in microsporidia and Wolbachia at the molecular genetic level. Feminization thus represents a remarkable evolutionary convergence of eukaryotic and prokaryotic microorganisms. Furthermore, a comparative genomics analysis of microsporidia allowed us to identify several candidate genes for feminization, involving functions such as DNA binding and membrane fusion. The genomic resources we generated contribute to establish Gammarus roeselii and its microsporidia symbionts as a new model to study the evolution of symbiont-mediated feminization., (© The Author(s) 2020. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published
2021
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29. Successful post-glacial colonization of Europe by single lineage of freshwater amphipod from its Pannonian Plio-Pleistocene diversification hotspot.

Author

Csapó H, Krzywoźniak P, Grabowski M, Wattier R, Bącela-Spychalska K, Mamos T, Jelić M, and Rewicz T

Subjects
Amphipoda classification, Amphipoda genetics, Animals, Biological Evolution, Europe, Haplotypes, Phylogeography, Species Specificity, Amphipoda growth & development, Fresh Water
Abstract

Gammarus roeselii Gervais, 1835 is a morphospecies with a wide distribution range in Europe. The Balkan Peninsula is known as an area of pre-Pleistocene cryptic diversification within this taxon, resulting in at least 13 Molecular Operational Taxonomic Units (MOTUs). The morphospecies diversified there during Neogene and has probably invaded other parts of the continent very recently, in postglacial or even historical times. Thus, the detailed goals of our study were to (1) identify which lineage(s) colonized Central-Western Europe (CWE), (2) determine their possible geographical origin, (3) verify, whether the colonisation was associated with demographic changes. In total, 663 individuals were sequenced for the cytochrome oxidase I (COI) barcoding fragment and 137 individuals for the internal transcribed spacer II (ITS2). We identified two MOTUs in the study area with contrasting Barcode Index Number and haplotype diversities. The Pannonian Basin (PB) appeared to be a potential ice age refugium for the species, while CWE was colonised by a single lineage (also present in PB), displaying low genetic diversity. Our results suggest that G. roeselii is a relatively recent coloniser in CWE, starting demographic expansion around 10 kya.

Published
2020
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30. Continental-scale patterns of hyper-cryptic diversity within the freshwater model taxon Gammarus fossarum (Crustacea, Amphipoda).

Author

Wattier R, Mamos T, Copilaş-Ciocianu D, Jelić M, Ollivier A, Chaumot A, Danger M, Felten V, Piscart C, Žganec K, Rewicz T, Wysocka A, Rigaud T, and Grabowski M

Subjects
Animals, DNA Barcoding, Taxonomic, Ecotoxicology, Europe, Evolution, Molecular, Genetic Linkage, Phylogeny, Amphipoda classification, Amphipoda genetics, Fresh Water, Genetic Variation, Hydrobiology
Abstract

Traditional morphological diagnoses of taxonomic status remain widely used while an increasing number of studies show that one morphospecies might hide cryptic diversity, i.e. lineages with unexpectedly high molecular divergence. This hidden diversity can reach even tens of lineages, i.e. hyper cryptic diversity. Even well-studied model-organisms may exhibit overlooked cryptic diversity. Such is the case of the freshwater crustacean amphipod model taxon Gammarus fossarum. It is extensively used in both applied and basic types of research, including biodiversity assessments, ecotoxicology and evolutionary ecology. Based on COI barcodes of 4926 individuals from 498 sampling sites in 19 European countries, the present paper shows (1) hyper cryptic diversity, ranging from 84 to 152 Molecular Operational Taxonomic Units, (2) ancient diversification starting already 26 Mya in the Oligocene, and (3) high level of lineage syntopy. Even if hyper cryptic diversity was already documented in G. fossarum, the present study increases its extent fourfold, providing a first continental-scale insight into its geographical distribution and establishes several diversification hotspots, notably south-eastern and central Europe. The challenges of recording hyper cryptic diversity in the future are also discussed.

Published
2020
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31. Magnitude and direction of parasite-induced phenotypic alterations: a meta-analysis in acanthocephalans.

Author

Fayard M, Dechaume-Moncharmont FX, Wattier R, and Perrot-Minnot MJ

Subjects
Animals, Host-Parasite Interactions, Phenotype, Phylogeny, Acanthocephala genetics, Amphipoda, Parasites
Abstract

Several parasite species have the ability to modify their host's phenotype to their own advantage thereby increasing the probability of transmission from one host to another. This phenomenon of host manipulation is interpreted as the expression of a parasite extended phenotype. Manipulative parasites generally affect multiple phenotypic traits in their hosts, although both the extent and adaptive significance of such multidimensionality in host manipulation is still poorly documented. To review the multidimensionality and magnitude of host manipulation, and to understand the causes of variation in trait value alteration, we performed a phylogenetically corrected meta-analysis, focusing on a model taxon: acanthocephalan parasites. Acanthocephala is a phylum of helminth parasites that use vertebrates as final hosts and invertebrates as intermediate hosts, and is one of the few parasite groups for which manipulation is predicted to be ancestral. We compiled 279 estimates of parasite-induced alterations in phenotypic trait value, from 81 studies and 13 acanthocephalan species, allocating a sign to effect size estimates according to the direction of alteration favouring parasite transmission, and grouped traits by category. Phylogenetic inertia accounted for a low proportion of variation in effect sizes. The overall average alteration of trait value was moderate and positive when considering the expected effect of alterations on trophic transmission success (signed effect sizes, after the onset of parasite infectivity to the final host). Variation in the alteration of trait value was affected by the category of phenotypic trait, with the largest alterations being reversed taxis/phobia and responses to stimuli, and increased vulnerability to predation, changes to reproductive traits (behavioural or physiological castration) and immunosuppression. Parasite transmission would thereby be facilitated mainly by changing mainly the choice of micro-habitat and the anti-predation behaviour of infected hosts, and by promoting energy-saving strategies in the host. In addition, infection with larval stages not yet infective to definitive hosts (acanthella) tends to induce opposite effects of comparable magnitude to infection with the infective stage (cystacanth), although this result should be considered with caution due to the low number of estimates with acanthella. This analysis raises important issues that should be considered in future studies investigating the adaptive significance of host manipulation, not only in acanthocephalans but also in other taxa. Specifically, the contribution of phenotypic traits to parasite transmission and the range of taxonomic diversity covered deserve thorough attention. In addition, the relationship between behaviour and immunity across parasite developmental stages and host-parasite systems (the neuropsychoimmune hypothesis of host manipulation), still awaits experimental evidence. Most of these issues apply more broadly to reported cases of host manipulation by other groups of parasites., (© 2020 Cambridge Philosophical Society.)

Published
2020
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32. Cryptic diversity within three South American whip spider species (Arachnida, Amblypygi).

Author

Reveillion F, Wattier R, Montuire S, Carvalho LS, and Bollache L

Subjects
Animals, DNA genetics, Phylogeny, Species Specificity, Genetic Variation, Spiders classification, Spiders genetics
Abstract

Cryptic diversity (CD), the presence of highly divergent phylogenetic lineages within closed morphological species, has been documented for many taxa. Great arachnid orders such as Araneae or Scorpiones are well studied and many cases of CD have been described therein; to date, however, related research on smaller arachnid orders, such as whip spiders (Amblypygi), remains lacking. In the current study, we investigated CD based on cytochrome oxidase 1 ( COI ) in three nominal species of the genus Heterophrynus ( H. alces , H. batesii , and H. longicornis ), represented by 65 specimens. The sequences were compared using three different methods. All three species showed geographically structured CD. Thus, given its existence in this genus, it is important that CD and its spatial distribution be considered in future studies and possible conservation projects.

Published
2020
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33. Clustered cases of acral perniosis: Clinical features, histopathology, and relationship to COVID-19.

Author

Cordoro KM, Reynolds SD, Wattier R, and McCalmont TH

Subjects
Adolescent, COVID-19, Chilblains therapy, Child, Cluster Analysis, Cohort Studies, Coronavirus Infections therapy, Female, Humans, Male, Pandemics, Pneumonia, Viral therapy, SARS-CoV-2, Siblings, Symptom Assessment, Betacoronavirus, Chilblains pathology, Chilblains virology, Coronavirus Infections complications, Coronavirus Infections diagnosis, Pneumonia, Viral complications, Pneumonia, Viral diagnosis
Abstract

Background/objectives: A recent marked increase in pediatric and adult patients presenting with purpuric acral lesions concerning for ischemia, thrombosis and necrosis has been observed in COVID-19 prevalent regions worldwide. The clinical and histopathological features and relationship to COVID-19 have not been well described. The objective of this case series is to describe the clinical features and determine the histopathologic findings and clinical implications of the clusters of acral perniosis cases identified in pediatric patients., Methods: We describe six otherwise healthy adolescents-three siblings per family from two unrelated families-presented within a 48-hour period in April, 2020, with acral perniosis-like lesions in the context of over 30 similar patients who were evaluated within the same week., Results: Affected patients had mild symptoms of viral upper respiratory infection (URI) or contact with symptomatic persons 1-2 weeks preceding the rash. They all presented with red to violaceous macules and dusky, purpuric plaques scattered on the mid and distal aspects of the toes. Skin biopsies performed on each of the six patients demonstrated near identical histopathologic findings to those of idiopathic perniosis, with a lymphocytic inflammatory infiltrate without evidence of thromboembolism or immune complex vasculitis. While SARS-CoV-2 polymerase chain reaction was negative, testing was performed 1-2 weeks after URI symptoms or sick contact exposure., Conclusion: We offer a clinical approach to evaluation of patients with this presentation and discuss the possibility that these skin findings represent a convalescent-phase cutaneous reaction to SARS-CoV-2 infection., (© 2020 Wiley Periodicals LLC.)

Published
2020
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34. Allograft of Primary Cutaneous Mucormycosis in a Preterm Neonate: A Case Report.

Author

Benjamin T, Wattier R, and Dominic W

Subjects
Combined Modality Therapy, Debridement methods, Disease Progression, Fatal Outcome, Female, Humans, Infant, Newborn, Sepsis therapy, Severity of Illness Index, Transplantation, Homologous methods, Triplets, Amphotericin B therapeutic use, Infant, Premature, Mucormycosis diagnosis, Mucormycosis therapy, Sepsis diagnosis
Abstract

Introduction: Primary cutaneous mucormycosis (PCM) is a fungal infection of the skin that can affect compromised hosts. Skin lesions evolve from an indurated area to a necrotic ulcer. Preterm neonates are at increased risk due to poorly developed skin, immature immune function, and invasive devices. Antifungals and debridement with grafting have been reported as primary treatments., Case Report: The authors report allografting in addition to systemic antifungals as an option for critically ill preterm neonates to decrease blood loss and risk of donor site infection. A female triplet was born to a 35-year-old G1P0211 mother; the triplet developed PCM (Rhizopus genus) and was treated with systemic liposomal amphotericin B in addition to debridement and allografting. Surgery was delayed initially, given concerns over the depth of invasion into the chest. As the wound began to contract and separate over the next few weeks, the decision was made to excise the lesion and reconstruct the chest wall with an allograft. The graft had good take and remained in place for 11 weeks until the patient succumbed to a third recurrence of bacterial sepsis., Conclusions: While PCM can be fatal for many preterm infants, debridement with allografting may serve as a valuable treatment option with fewer associated complications for neonates as they are stabilizing clinically.

Published
2019

35. Europe-wide reassessment of Dictyocoela (Microsporidia) infecting native and invasive amphipods (Crustacea): molecular versus ultrastructural traits.

Author

Bacela-Spychalska K, Wróblewski P, Mamos T, Grabowski M, Rigaud T, Wattier R, Rewicz T, Konopacka A, and Ovcharenko M

Subjects
Animals, DNA, Fungal chemistry, DNA, Fungal genetics, Europe, Geography, Host-Parasite Interactions, Microscopy, Electron, Transmission, Microsporidia classification, Microsporidia genetics, Phylogeny, Sequence Analysis, DNA, Species Specificity, Spores, Fungal genetics, Spores, Fungal ultrastructure, Amphipoda microbiology, Microsporidia physiology, Spores, Fungal physiology
Abstract

Microsporidia are common parasites infecting animals and protists. They are specifically common pathogens of amphipods (Crustacea, Malacostraca), with Dictyocoela spp. being particularly frequent and highly prevalent, exhibiting a range of phenotypic and ecological effects. Until now, seven species of Dictyocoela were defined, predominantly based on the genetic distance. However, neither the taxonomic status of this provisionally erected genus (based on eight novel sequences and one micrograph of the spore), nor its internal phylogenetic relationships have been clearly revealed. The formal description of the genus and of most of the putative species are still lacking. Here we aimed to fill this gap and performed both ultrastructural and molecular studies (based on SSU, ITS and partial LSU) using different species delimitation methods. As a consensus of these results and following conservative data interpretation, we propose to distinguish five species infecting gammarid hosts, and to keep the names introduced by the authors of the type sequences: Dictyocoela duebenum, D. muelleri, D. berillonum and D. roeselum. We provide full descriptions of these species. Moreover, thanks to our extensive sampling, we extend the known host and geographic range of these Microsporidia.

Published
2018
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36. Tracking zoonotic pathogens using blood-sucking flies as 'flying syringes'.

Author

Bitome-Essono PY, Ollomo B, Arnathau C, Durand P, Mokoudoum ND, Yacka-Mouele L, Okouga AP, Boundenga L, Mve-Ondo B, Obame-Nkoghe J, Mbehang-Nguema P, Njiokou F, Makanga B, Wattier R, Ayala D, Ayala FJ, Renaud F, Rougeron V, Bretagnolle F, Prugnolle F, and Paupy C

Subjects
Animals, Forests, Gabon, Blood parasitology, Diptera parasitology, Insect Vectors parasitology, Parasites classification, Parasites isolation & purification
Abstract

About 60% of emerging infectious diseases in humans are of zoonotic origin. Their increasing number requires the development of new methods for early detection and monitoring of infectious agents in wildlife. Here, we investigated whether blood meals from hematophagous flies could be used to identify the infectious agents circulating in wild vertebrates. To this aim, 1230 blood-engorged flies were caught in the forests of Gabon. Identified blood meals (30%) were from 20 vertebrate species including mammals, birds and reptiles. Among them, 9% were infected by different extant malaria parasites among which some belonged to known parasite species, others to new parasite species or to parasite lineages for which only the vector was known. This study demonstrates that using hematophagous flies as 'flying syringes' constitutes an interesting approach to investigate blood-borne pathogen diversity in wild vertebrates and could be used as an early detection tool of zoonotic pathogens.

Published
2017
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37. The legacy of a vanished sea: a high level of diversification within a European freshwater amphipod species complex driven by 15 My of Paratethys regression.

Author

Mamos T, Wattier R, Burzyński A, and Grabowski M

Subjects
Animals, Bayes Theorem, DNA, Mitochondrial genetics, Europe, Fresh Water, Genetic Markers, Molecular Sequence Data, Sequence Analysis, DNA, Spatial Analysis, Amphipoda genetics, Biological Evolution, Phylogeny
Abstract

The formation of continental Europe in the Neogene was due to the regression of the Tethys Ocean and of the Paratethys Sea. The dynamic geology of the area and repetitious transitions between marine and freshwater conditions presented opportunities for the colonization of newly emerging hydrological networks and diversification of aquatic biota. Implementing mitochondrial and nuclear markers in conjunction with a large-scale sampling strategy, we investigated the impact of this spatiotemporal framework on the evolutionary history of a freshwater crustacean morphospecies. The Gammarus balcanicus species complex is widely distributed in the area previously occupied by the Paratethys Sea. Our results revealed its high diversification and polyphyly in relation to a number of other morphospecies. The distribution of the studied amphipod is generally characterized by very high local endemism and divergence. The Bayesian time-calibrated reconstruction of phylogeny and geographical distribution of ancestral nodes indicates that this species complex started to diversify in the Early Miocene in the central Balkans, partially in the shallow epicontinental sea. It is possible that there were several episodes of inland water colonization by local brackish water lineages. Subsequent diversification within clades and spread to new areas could have been induced by Alpine orogeny in the Miocene/Pliocene and, finally, by Pleistocene glaciations. The present distribution of clades, in many cases, still reflects Miocene palaeogeography of the area. Our results point out that investigations of the historical aspect of cryptic diversity in other taxa may help in a general understanding of the origins of freshwater invertebrate fauna of Europe., (© 2015 John Wiley & Sons Ltd.)

Published
2016
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38. Out of the Black Sea: phylogeography of the invasive killer shrimp Dikerogammarus villosus across Europe.

Author

Rewicz T, Wattier R, Grabowski M, Rigaud T, and Bącela-Spychalska K

Subjects
Animals, Black Sea, Crustacea classification, DNA, Mitochondrial genetics, Europe, Genetics, Population, Sequence Analysis, DNA, Crustacea genetics, Phylogeography
Abstract

The amphipod Dikerogammarus villosus has colonized most of the European main inland water bodies in less than 20 years, having deteriorating effect on the local benthic communities. Our aim was to reveal the species phylogeography in the native Black Sea area, to define the source populations for the colonization routes in continental Europe and for the newly established UK populations. We tested for the loss of genetic diversity between source and invasive populations as well as along invasion route. We tested also for isolation by distance. Thirty three native and invasive populations were genotyped for mtDNA (COI, 16S) and seven polymorphic nuclear microsatellites to assess cryptic diversity (presence of deeply divergent lineages), historical demography, level of diversity within lineage (e.g., number of alleles), and population structure. A wide range of methods was used, including minimum spanning network, molecular clock, Bayesian clustering and Mantel test. Our results identified that sea level and salinity changes during Pleistocene impacted the species phylogeography in the Black Sea native region with four differentiated populations inhabiting, respectively, the Dnieper, Dniester, Danube deltas and Durungol liman. The invasion of continental Europe is associated with two sources, i.e., the Danube and Dnieper deltas, which gave origin to two independent invasion routes (Western and Eastern) for which no loss of diversity and no isolation by distance were observed. The UK population has originated in the Western Route and, despite very recent colonization, no drastic loss of diversity was observed. The results show that the invasion of the killer shrimp is not associated with the costs of loosing genetic diversity, which may contribute to the success of this invader in the newly colonized areas. Additionally, while it has not yet occurred, it might be expected that future interbreeding between the genetically diversified populations from two independent invasion routes will potentially even enhance this success.

Published
2015
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39. Colonisation and diversification of the Zenaida Dove (Zenaida aurita) in the Antilles: phylogeography, contemporary gene flow and morphological divergence.

Author

Monceau K, Cézilly F, Moreau J, Motreuil S, and Wattier R

Subjects
Analysis of Variance, Animal Migration, Animals, Base Sequence, Body Weight, Caribbean Region, Cluster Analysis, DNA, Mitochondrial genetics, Electron Transport Complex IV genetics, Genetic Variation, Haplotypes genetics, Islands, Microsatellite Repeats genetics, Population Dynamics, Biodiversity, Columbidae anatomy & histology, Columbidae genetics, Gene Flow, Phylogeography
Abstract

Caribbean avifaunal biogeography has been mainly studied based on mitochondrial DNA. Here, we investigated both past and recent island differentiation and micro-evolutionary changes in the Zenaida Dove (Zenaida aurita) based on combined information from one mitochondrial (Cytochrome c Oxydase subunit I, COI) and 13 microsatellite markers and four morphological characters. This Caribbean endemic and abundant species has a large distribution, and two subspecies are supposed to occur: Z. a. zenaida in the Greater Antilles (GA) and Z. a. aurita in the Lesser Antilles (LA). Doves were sampled on two GA islands (Puerto Rico and the British Virgin Islands) and six LA islands (Saint Barthélemy, Guadeloupe, Les Saintes, Martinique, Saint Lucia and Barbados). Eleven COI haplotypes were observed that could be assembled in two distinct lineages, with six specific to GA, four to LA, the remaining one occurring in all islands. However, the level of divergence between those two lineages was too moderate to fully corroborate the existence of two subspecies. Colonisation of the studied islands appeared to be a recent process. However, both phenotypic and microsatellite data suggest that differentiation is already under way between all of them, partly associated with the existence of limited gene flow. No isolation by distance was observed. Differentiation for morphological traits was more pronounced than for neutral markers. These results suggest that despite recent colonisation, genetic drift and/or restricted gene flow are promoting differentiation for neutral markers. Variation in selective pressures between islands may explain the observed phenotypic differentiation.

Published
2013
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40. Evidence for an association between post-fledging dispersal and microsatellite multilocus heterozygosity in a large population of greater flamingos.

Author

Gillingham MA, Cézilly F, Wattier R, and Béchet A

Subjects
Algorithms, Animals, Female, France, Geography, Male, Models, Theoretical, Population Dynamics, Seasons, Animal Migration, Birds genetics, Genetic Loci, Heterozygote, Microsatellite Repeats
Abstract

Dispersal can be divided into three stages: departure, transience and settlement. Despite the fact that theoretical studies have emphasized the importance of heterozygosity on dispersal strategies, empirical evidence of its effect on different stages of dispersal is lacking. Here, using multi-event capture-mark-recapture models, we show a negative association between microsatellite multilocus heterozygosity (MLH; 10 loci; n = 1023) and post-fledging dispersal propensity for greater flamingos, Phoenicopterus roseus, born in southern France. We propose that the negative effects of inbreeding depression affects competitive ability and therefore more homozygous individuals are more likely to disperse because they are less able to compete within the highly saturated natal site. Finally, a model with the effect of MLH on propensity of post-fledgling dispersers to disperse to the long-distance sites of Africa was equivalent to the null model, suggesting that MLH had low to no effect on dispersal distance. Variations in individual genetic quality thus result in context-dependent heterogeneity in dispersal strategies at each stage of dispersal. Our results have important implications on fitness since sites visited early in life are known to influence site selection later on in life and future survival.

Published
2013
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41. Heterozygosity-fitness correlations in adult and juvenile Zenaida Dove, Zenaida aurita.

Author

Monceau K, Wattier R, Dechaume-Moncharmont FX, Dubreuil C, and Cézilly F

Subjects
Age Factors, Animals, Barbados, Body Constitution genetics, Genotype, Likelihood Functions, Linkage Disequilibrium, Microsatellite Repeats genetics, Models, Genetic, Population Density, Population Dynamics, Columbidae genetics, Genetic Fitness genetics, Genetic Variation, Genetics, Population, Heterozygote
Abstract

Understanding how fitness is related to genetic variation is of crucial importance in both evolutionary ecology and conservation biology. We report a study of heterozygosity-fitness correlations in a wild, noninbred population of Zenaida Doves, Zenaida aurita, based on a sample comprising 489 individuals (382 adults and 107 juveniles) typed at 13 microsatellite loci, resulting in a data set comprising 5793 genotypes. In both adults and juveniles, and irrespective of sex, no evidence was found for an effect of either multilocus or single-locus heterozygosity on traits potentially related to fitness such as foraging tactic, competitive ability, and fluctuating asymmetry. In contrast, a significant negative correlation between body condition and multilocus heterozygosity, indicative of outbreeding depression, was found in juveniles, whereas no such trend was observed in adults. However, the frequency distribution of heterozygosity did not differ between the two age classes, suggesting compensatory growth by heterozygous juveniles. We discuss our results in relation to some practical limitations associated with studies of heterozygosity-fitness correlations, and suggest that tropical bird species with allopatric divergence between island populations may provide a good biological model for the detection of outbreeding depression.

Published
2013
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42. Genetic polymorphism in dopamine receptor D4 is associated with early body condition in a large population of greater flamingos, Phoenicopterus roseus.

Author

Gillingham MA, Bechet A, Geraci J, Wattier R, Dubreuil C, and Cezilly F

Subjects
Animals, Body Weight, Exons, Female, France, Gene-Environment Interaction, Heterozygote, Inbreeding, Male, Microsatellite Repeats, Polymorphism, Single Nucleotide, Birds genetics, Polymorphism, Genetic, Receptors, Dopamine D4 genetics
Abstract

Body condition is an important determinant of fitness in many natural populations. However, as for many fitness traits, the underlying genes that regulate body condition remain elusive. The dopamine receptor D4 gene (DRD4) is a promising candidate as dopamine is known to play an important role in the regulation of food intake and the metabolism of both glucose and lipids in vertebrates. In this study, we take advantage of a large data set of greater flamingos, Phoenicopterus roseus, to test whether DRD4 polymorphism predicts early body condition (EBC) while controlling for whole-genome effects of inbreeding and outbreeding using microsatellite multilocus heterozygosity (MLH). We typed 670 of these individuals for exon 3 of the homologue of the human DRD4 gene and 10 microsatellite markers. When controlling for the effects of yearly environmental variations and differences between sexes, we found strong evidence of an association between exon 3 DRD4 polymorphisms and EBC, with 2.2-2.3% of the variation being explained by DRD4 polymorphism, whereas there was only weak evidence that MLH predicts EBC. Because EBC is most likely a polygenic trait, this is a considerable amount of variation explained by a single gene. This is to our knowledge, the first study to show an association between exon 3 DRD4 polymorphism and body condition in non-human animals. We anticipate that the DRD4 gene as well as other genes coding for neurotransmitters and their receptors may play an important role in explaining variation in traits that affect fitness., (© 2012 Blackwell Publishing Ltd.)

Published
2012
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43. Is the host or the parasite the most locally adapted in an amphipod-acanthocephalan relationship? A case study in a biological invasion context.

Author

Moret Y, Bollache L, Wattier R, and Rigaud T

Subjects
Acanthocephala genetics, Amphipoda enzymology, Amphipoda genetics, Animals, Behavior, Animal, Ecosystem, France, Hungary, Molecular Sequence Data, Monophenol Monooxygenase metabolism, Acanthocephala physiology, Amphipoda parasitology, Host-Parasite Interactions
Abstract

Manipulative endoparasites with complex life cycles can alter their intermediate host immunity and behaviour in ways that increase survival probability within the host body cavity and enhance successful transmission to the definitive host. These parasitic manipulations are variable among and within parasite species and may result from co-evolutionary processes, in which the parasite is constrained for adaptation to the local intermediate host. Hence, arrival of a new host species in a local host population may promote local parasite maladaptation. This study tested the occurrence of local adaptation in two distantly located populations of the acanthocephalan parasite Pomphorhynchus laevis and its effect on the immunity and behaviour of its gammarid intermediate host Gammarus roeseli. This was done in France (an area for which G. roeseli is a recent invader) and Hungary (an area from which G. roeseli was believed to be native). As expected, we found no alteration in G. roeseli's immune defence and behaviour associated with infection by P. laevis in localities, where the gammarid is invasive. Unexpectedly, we found similar results in Hungarian populations, where the parasite was even more exposed to the host immune response. Whilst these results suggest maladaptation of the parasite to the gammarid in both countries, they also suggest that the gammarid host might be locally adapted to the parasite. Genetic analyses were performed on both the parasite and the host and the results suggest that the two subsets of populations we studied harbour rather isolated host-parasite systems, both probably deriving from a common ancestral population. We propose that G. roeseli is also of recent acquisition in Hungary, and that a recent co-evolutionary history between P. laevis and G. roeseli in association with a long generation time in the parasite has constrained parasite adaptations in Europe or even favoured host adaptation to the parasite.

Published
2007
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44. cpDNA-RFLP in Ceramium (Rhodophyta): intraspecific polymorphism and species-level phylogeny.

Author

Wattier RA, Davidson AL, Ward BA, and Maggs CA

Abstract

Restriction fragment length polymorphism (RFLP) analysis of chloroplast (cp) DNA is a powerful tool for the study of microevolutionary processes in land plants, yet has not previously been applied to seaweed populations. We used cpDNA-RFLP, detected on Southern blots using labeled total plastid DNA, to search for intraspecific and intrapopulational cpDNA RFLP polymorphism in two species of the common red algal genus Ceramium in Ireland and Britain. In C. botryocarpum one polymorphism was detected in one individual among 18 from two populations. Twenty-six individuals of C. virgatum from five populations at three locations exhibited a total of four haplotypes. One was frequent (80.8% of individuals); the others were rare (7.7, 7.7, and 4.2%) and were private to particular populations. Polymorphism was observed in two populations. The corrected mean was 2.26 ± 0.36 haplotypes per population, which was within the typical range determined for higher plants using similar techniques. The spatial distribution of haplotypes was heterogeneous, with highly significant population differentiation (P = 0.00018; Fisher's exact test). Intraspecific polymorphism in C. virgatum had no impact on species-level phylogenetic reconstruction. This is the first unequivocal report of both intraspecific and intrapopulational cpDNA-RFLP polymorphism in algae.

Published
2001

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