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2. Long-read sequencing reveals the full diversity and structure of host sequences integrated into AcMNPV baculovirus genomes during infection

Author

Loiseau, V., Moreau, Yannis, Labrousse, C., Herniou, E., Cordaux, R., and Gilbert, C.

Subjects
viruses, fungi
Abstract

Horizontal transfers (HTs) of genetic material is increasingly recognized as a major force shaping genomic evolution in some eukaryotes, but the mechanisms underlying these HTs are still unknown. lt has been proposed that viruses cou Id act as vectors of HT. Accordingly, we recently uncovered many host sequences, mostly transposable elements (TEs) integrated into AcMNPV baculovirus genomes using short read sequencing of AcMNPV particles extracted from the beet armyworm Spodoptera exigua. Here we further characterize the structure and full diversity of moth sequences carried by AcMNPV genomes using long-read sequencing. We detected no less than 68,375 host sequences integrated in AcMNPV genomes, among which are 30,196 transposable elements (TEs). We found ail DNA TEs and LTR retrotransposons superfamilies previously identified using short read sequencing, as well as additional DNA TE and autonomous and non-autonomous non-L TR superfamilies. Expected target site duplication motifs cou Id be identified for all these superfamilies, showing that bona fide transposition is the main mechanism underlying TE integration into viral genomes. lnterestingly, the long read sequencing approach allowed us to show that a single viral genome may transport more than one host sequence. Our study of non-TE sequences is also revealing that host genes can jump into viral genomes du ring a single round of infection. Overall, our results suggest that about a quarter of AcMNPV genomes harbor at least one host sequence in AcMNPV populations, further supporting the raie of viruses as vectors of HT between insects. We are currently characterizing in details the structure and genomic distribution of these insertions a long the viral genome.

Published
2018

3. Baculovirus Adaptation in Varying Environment

Author

Herniou, E., Chateigner, A., and Moreau, Yannis

Subjects
viruses
Abstract

Genetie variation underpins the evolutionary process of adaptation. As populations become adapted to different environments, they diverge from one another. Baculoviruses infecting different hast species thus usually belong to different species. Yet some viruses, such as Autographa californica multiple Nucleopolyhedrovirus (AcMNPV), have retained the capacity of infecting many hast species. To understand how AcMNPV cou Id draw on standing genetic variation to adapt to different host species we undertook an experimental evolution protocol. A highly polymorphie AcMNPV population was ta ken through 10 in vivo infection cycles in 4 host species of various susceptibilities, to create 50 evolutionary lines in which the virus was allowed to evolve either as specialist on separate species (4x10 lines) or as generalist on all the hasts (10 lines), whereby the viral population resulted from the infection of all hasts at each generations. We then characterized the genetic make up of the original and evolved baculovirus populations by ultra-deep Illumina sequencing. Using a population genomics approach, we then estimated the global fitness and genetic diversity of each of the evolved populations and their divergence from one another. We found that the specialist lines that evolved on the same host species were more similar to one another than to other lines, especially in the most susceptible hosts, showing experimental evolution cou Id lead to specific adaptation. Furthermore, we found a general diminution of genetic diversity in the specialist lines compared to the ancestral population. The viral lines that cou Id adapt to more resistant host retained higher genomic diversity than those that did not, showing genetic variation is an important component of baculovirus adaptation. Evolution in all the hosts led to high genetic diversity in the generalist lines, which cou Id foster ecological resilience in variable environments such as those encountered by the virus in natural landscapes.

Published
2018

4. Quantifying the impact of tree-diebacksand salvage logging on mountain forest biodiversity using metabarcoding

Author

Sire, L., Rougerie, R., Bouget, C., Larrieu, L., Courtial, B., Bezier, A., Yu, D., Herniou, E., Lopez Vaamonde, C., Institut de recherche sur la biologie de l'insecte UMR7261 (IRBI), Université de Tours (UT)-Centre National de la Recherche Scientifique (CNRS), Muséum national d'Histoire naturelle (MNHN), Dynamiques Forestières dans l'Espace Rural (DYNAFOR), Institut National de la Recherche Agronomique (INRA)-École nationale supérieure agronomique de Toulouse [ENSAT]-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées, Centre National de la Propriété Forestière, Ecosystèmes forestiers (UR EFNO), Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), Unité de recherche Zoologie Forestière (URZF), Institut National de la Recherche Agronomique (INRA), Institute of Zoology, Université de Tours (UT), KUNMING INSTITUTE OF ZOOLOGY CHN, Partenaires IRSTEA, Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA)-Institut national de recherche en sciences et technologies pour l'environnement et l'agriculture (IRSTEA), Centre National de la Recherche Scientifique - CNRS (FRANCE), Chinese Academy of Sciences (CHINA), Institut National Polytechnique de Toulouse - Toulouse INP (FRANCE), Institut National de la Recherche Agronomique - INRA (FRANCE), Institut national de Recherche en Sciences et Technologies pour l'Environnement et l'Agriculture - IRSTEA (FRANCE), Sorbonne Université (FRANCE), Ecole Pratique des Hautes Etudes - EPHE (FRANCE), Museum National d'Histoire Naturelle - MNHN (FRANCE), Université de Tours (FRANCE), Dynamiques et Ecologie des Paysages Agriforestiers - DYNAFOR (Castanet-Tolosan, France), Université de Tours-Centre National de la Recherche Scientifique (CNRS), Institut National Polytechnique de Toulouse - INPT (FRANCE), Université de Tours, UNIVERSITE DE TOURS IRBI FRA, MNHN PARIS FRA, IRSTEA NOGENT SUR VERNISSON UR EFNO FRA, INRA UMR 1201 DYNAFOR CASTANET TOLOSAN FRA, and INRA ORLEANS FRA

Subjects
BOIS MORT, ECLAIRCIE SANITAIRE, Biodiversité et Ecologie, [SDV]Life Sciences [q-bio], ADN, DEPERISSEMENT, blight, species assignment, mountain forest, dna, FORET DE MONTAGNE, [SHS]Humanities and Social Sciences, ecological indicators, MARQUEUR GENETIQUE, Climate change, DNA barcoding, ComputingMilieux_MISCELLANEOUS, DETERMINATION D'ESPECE, biodiversity, deadwood, COLEOPTERE, BIODIVERSITE, Saproxylic beetles, INVENTAIRE, saproxylic organisms, inventory, ORGANISME SAPROXYLIQUE, [SDE]Environmental Sciences, genetic markers, INDICATEUR ECOLOGIQUE
Abstract

Le colloque de Génomique Environnementale (GE) est une manifestation nationale permettant aux chercheurs français et internationaux travaillant sur l’écologie, l’évolution de la biodiversité ou le fonctionnement des écosystèmes d’échanger sur l’utilisation des nouvelles technologies de séquençages (NTS) et des développements récents en bioinformatique. Il s’agit de la quatrième édition du colloque de Génomique Environnementale après Lyon (2011), Rennes (2013) et de Montpellier (2015) organisé sous l'égide du GDR "Génomique Environnementale" (http://gdr3692.wix.com/gdrge) dont les actions sont soutenues par le CNRS, l’INRA et le MNHN. Ce colloque représente une opportunité exceptionnelle pour échanger entre chercheurs/doctorants/post-doctorants et répondre aux défis posés en matière d’environnement, de réchauffement climatique et plus généralement de maîtrise des impacts globaux sur les écosystèmes. Le colloque GE est un lieu d’échanges privilégié permettant un dialogue efficace entre, d’une part, la communauté scientifique et, d’autre part, les acteurs gérant les systèmes d’observation et d’analyse des écosystèmes (zones ateliers, ORE, parcs naturels etc...) ou les demandes sociétales dont les entreprises sont souvent porteuses.

Published
2017

8. Characterization and complete nucleotide sequence of an unusual reptilian retrovirus recovered from the order Crocodylia.

Author

Martin J, Kabat P, Herniou E, and Tristem M

Subjects
Animals, Molecular Sequence Data, Phylogeny, Retroviridae genetics, Retroviridae isolation & purification, Sequence Analysis, DNA, Base Sequence, Reptiles virology, Retroviridae classification
Abstract

A novel group of retroviruses found within the order Crocodylia are described. Phylogenetic analyses demonstrate that they are probably the most divergent members of the Retroviridae described to date; even the most conserved regions of Pol show an average of only 23% amino acid identity when compared to other retroviruses.

Published
2002
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9. Use of whole genome sequence data to infer baculovirus phylogeny.

Author

Herniou EA, Luque T, Chen X, Vlak JM, Winstanley D, Cory JS, and O'Reilly DR

Subjects
Animals, Baculoviridae classification, Bombyx virology, Genes, Viral genetics, Viral Proteins genetics, Viral Proteins metabolism, Baculoviridae genetics, Gene Order, Genome, Viral, Phylogeny, Sequence Analysis, DNA
Abstract

Several phylogenetic methods based on whole genome sequence data were evaluated using data from nine complete baculovirus genomes. The utility of three independent character sets was assessed. The first data set comprised the sequences of the 63 genes common to these viruses. The second set of characters was based on gene order, and phylogenies were inferred using both breakpoint distance analysis and a novel method developed here, termed neighbor pair analysis. The third set recorded gene content by scoring gene presence or absence in each genome. All three data sets yielded phylogenies supporting the separation of the Nucleopolyhedrovirus (NPV) and Granulovirus (GV) genera, the division of the NPVs into groups I and II, and species relationships within group I NPVs. Generation of phylogenies based on the combined sequences of all 63 shared genes proved to be the most effective approach to resolving the relationships among the group II NPVs and the GVs. The history of gene acquisitions and losses that have accompanied baculovirus diversification was visualized by mapping the gene content data onto the phylogenetic tree. This analysis highlighted the fluid nature of baculovirus genomes, with evidence of frequent genome rearrangements and multiple gene content changes during their evolution. Of more than 416 genes identified in the genomes analyzed, only 63 are present in all nine genomes, and 200 genes are found only in a single genome. Despite this fluidity, the whole genome-based methods we describe are sufficiently powerful to recover the underlying phylogeny of the viruses.

Published
2001
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11. Changes in mitochondrial genetic codes as phylogenetic characters: two examples from the flatworms.

Author

Telford MJ, Herniou EA, Russell RB, and Littlewood DT

Subjects
Amino Acid Sequence, Animals, Base Sequence, Codon, DNA Primers, Molecular Sequence Data, Species Specificity, Genetic Code, Mitochondria genetics, Phylogeny, Platyhelminths genetics
Abstract

Shared molecular genetic characteristics other than DNA and protein sequences can provide excellent sources of phylogenetic information, particularly if they are complex and rare and are consequently unlikely to have arisen by chance convergence. We have used two such characters, arising from changes in mitochondrial genetic code, to define a clade within the Platyhelminthes (flatworms), the Rhabditophora. We have sampled 10 distinct classes within the Rhabditophora and find that all have the codon AAA coding for the amino acid Asn rather than the usual Lys and AUA for Ile rather than the usual Met. We find no evidence to support claims that the codon UAA codes for Tyr in the Platyhelminthes rather than the standard stop codon. The Rhabditophora are a very diverse group comprising the majority of the free-living turbellarian taxa and the parasitic Neodermata. In contrast, three other classes of turbellarian flatworm, the Acoela, Nemertodermatida, and Catenulida, have the standard invertebrate assignments for these codons and so are convincingly excluded from the rhabditophoran clade. We have developed a rapid computerized method for analyzing genetic codes and demonstrate the wide phylogenetic distribution of the standard invertebrate code as well as confirming already known metazoan deviations from it (ascidian, vertebrate, echinoderm/hemichordate).

Published
2000
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13. Identification of multiple Gypsy LTR-retrotransposon lineages in vertebrate genomes.

Author

Miller K, Lynch C, Martin J, Herniou E, and Tristem M

Subjects
Animals, Fungi genetics, Genome, Invertebrates genetics, Plants genetics, Vertebrates classification, Evolution, Molecular, Phylogeny, Retroelements, Terminal Repeat Sequences, Vertebrates genetics
Abstract

Gypsy LTR-retrotransposons have been identified in the genomes of many organisms, but only a small number of vertebrate examples have been reported to date. Here we show that members of this family are likely to be widespread in many vertebrate classes with the possible exceptions of mammals and birds. Phylogenetic analyses demonstrate that although there are several distinct lineages of vertebrate gypsy LTR-retrotransposons, the majority clusters into one monophyletic clade. Groups of fungal, plant, and insect elements were also observed, suggesting horizontal transfer between phyla may be infrequent. However, in contrast to this, there was little evidence to support sister relationships between elements derived from vertebrate and insect hosts. In fact, the majority of the vertebrate elements appeared to be most closely related to a group of gypsy LTR-retrotransposons present within fungi. This implies either that at least one horizontal transmission between these two phyla has occurred previously or that a gypsy LTR-retrotransposon lineage has been lost from insect taxa.

Published
1999
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14. Acoel flatworms: earliest extant bilaterian Metazoans, not members of Platyhelminthes.

Author

Ruiz-Trillo I, Riutort M, Littlewood DT, Herniou EA, and Baguña J

Subjects
Animals, DNA, Helminth chemistry, DNA, Helminth genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Evolution, Molecular, Invertebrates anatomy & histology, Invertebrates embryology, Invertebrates genetics, Molecular Sequence Data, Platyhelminths anatomy & histology, Platyhelminths embryology, Platyhelminths genetics, RNA, Ribosomal, 18S genetics, Sequence Analysis, DNA, Biological Evolution, Genes, rRNA, Invertebrates classification, Phylogeny, Platyhelminths classification
Abstract

Because of their simple organization the Acoela have been considered to be either primitive bilaterians or descendants of coelomates through secondary loss of derived features. Sequence data of 18S ribosomal DNA genes from non-fast evolving species of acoels and other metazoans reveal that this group does not belong to the Platyhelminthes but represents the extant members of the earliest divergent Bilateria, an interpretation that is supported by recent studies on the embryonic cleavage pattern and nervous system of acoels. This study has implications for understanding the evolution of major body plans, and for perceptions of the Cambrian evolutionary explosion.

Published
1999
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15. Interclass transmission and phyletic host tracking in murine leukemia virus-related retroviruses.

Author

Martin J, Herniou E, Cook J, O'Neill RW, and Tristem M

Subjects
Amino Acid Sequence, Animals, Molecular Sequence Data, Phylogeny, Polymerase Chain Reaction, Disease Transmission, Infectious, Endogenous Retroviruses physiology, Leukemia Virus, Murine physiology, Retroviridae Infections transmission
Abstract

Retroviruses are capable of infectious horizontal transmission between hosts, usually between individuals within a single species, although a number of probable zoonotic infections resulting from transmission between different species of placental mammals have also been reported. Despite these data, it remains unclear how often interspecies transmission events occur or whether their frequency is influenced by the evolutionary distance between host taxa. To address this problem we used PCR to amplify and characterize endogenous retroviruses related to the murine leukemia viruses. We show that members of this retroviral genus are harbored by considerably more organisms than previously thought and that phylogenetic analysis demonstrates that viruses isolated from a particular host class generally cluster together, suggesting that infectious virus horizontal transfer between vertebrate classes occurs only rarely. However, two recent instances of transmission of zoonotic infections between distantly related host organisms were identified. One, from mammals to birds, has led to a rapid adaptive radiation into other avian hosts. The other, between placental and marsupial mammals, involves viruses clustering with recently described porcine retroviruses, adding to concerns regarding the xenotransplantation of pig organs to humans.

Published
1999
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16. Retroviral diversity and distribution in vertebrates.

Author

Herniou E, Martin J, Miller K, Cook J, Wilkinson M, and Tristem M

Subjects
Amino Acid Sequence, Animals, Humans, Molecular Sequence Data, Phylogeny, Polymerase Chain Reaction, Retroviridae genetics, Retroviridae classification, Vertebrates virology
Abstract

We used the PCR to screen for the presence of endogenous retroviruses within the genomes of 18 vertebrate orders across eight classes, concentrating on reptilian, amphibian, and piscine hosts. Thirty novel retroviral sequences were isolated and characterized by sequencing approximately 1 kb of their encoded protease and reverse transcriptase genes. Isolation of novel viruses from so many disparate hosts suggests that retroviruses are likely to be ubiquitous within all but the most basal vertebrate classes and, furthermore, gives a good indication of the overall retroviral diversity within vertebrates. Phylogenetic analysis demonstrated that viruses clustering with (but not necessarily closely related to) the spumaviruses and murine leukemia viruses are widespread and abundant in vertebrate genomes. In contrast, we were unable to identify any viruses from hosts outside of mammals and birds which grouped with the other five currently recognized retroviral genera: the lentiviruses, human T-cell leukemia-related viruses, avian leukemia virus-related retroviruses, type D retroviruses, and mammalian type B retroviruses. There was also some indication that viruses isolated from individual vertebrate classes tended to cluster together in phylogenetic reconstructions. This implies that the horizontal transmission of at least some retroviruses, between some vertebrate classes, occurs relatively infrequently. It is likely that many of the retroviral sequences described here are distinct enough from those of previously characterized viruses to represent novel retroviral genera.

Published
1998
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