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1. On Broyden's method for the solution of the multilevel non-LTE radiation transfer problem

Author

Nicolas, S., Bigarré, L., and Paletou, F.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

This study concerns the fast and accurate solution of multilevel non-LTE radiation transfer problems. We propose and evaluate an alternative iterative scheme to the classical MALI method. Our study is indeed based on the application of Broyden's method for the solution of nonlinear systems of equations. Comparative tests, in 1D plane-parallel geometry, between the popular MALI method and our alternative method are discussed. The Broyden method is typically 4.5 times faster than MALI. It makes it also fairly competitive with Gauss-Seidel and Successive Over-Relaxation methods developed after MALI., Comment: Accepted for publication in A&A

Published
2010
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2. 2022 taxonomic update of phylum Negarnaviricota (Riboviria: Orthornavirae), including the large orders Bunyavirales and Mononegavirales

Author

Kuhn, J, Adkins, S, Alkhovsky, S, Avšič-Županc, T, Ayllón, M, Bahl, J, Balkema-Buschmann, A, Ballinger, M, Bandte, M, Beer, M, Bejerman, N, Bergeron, É, Biedenkopf, N, Bigarré, L, Blair, C, Blasdell, K, Bradfute, S, Briese, T, Brown, P, Bruggmann, R, Buchholz, U, Buchmeier, M, Bukreyev, A, Burt, F, Büttner, C, Calisher, C, Candresse, T, Carson, J, Casas, I, Chandran, K, Charrel, R, Chiaki, Y, Crane, A, Crane, M, Dacheux, L, Bó, E, de la Torre, J, de Lamballerie, X, de Souza, W, de Swart, R, Dheilly, N, Di Paola, N, Di Serio, F, Dietzgen, R, Digiaro, M, Drexler, J, Duprex, W, Dürrwald, R, Easton, A, Elbeaino, T, Ergünay, K, Feng, G, Feuvrier, C, Firth, A, Fooks, A, Formenty, P, Freitas-Astúa, J, Gago-Zachert, S, García, M, García-Sastre, A, Garrison, A, Godwin, S, Gonzalez, J, de Bellocq, J, Griffiths, A, Groschup, M, Günther, S, Hammond, J, Hepojoki, J, Hierweger, M, Hongō, S, Horie, M, Horikawa, H, Hughes, H, Hume, A, Hyndman, T, Jiāng, D, Jonson, G, Junglen, S, Kadono, F, Karlin, D, Klempa, B, Klingström, J, Koch, M, Kondō, H, Koonin, E, Krásová, J, Krupovic, M, Kubota, K, Kuzmin, I, Laenen, L, Lambert, A, Lǐ, J, Li, J, Lieffrig, F, Lukashevich, I, Luo, D, Maes, P, Marklewitz, M, Marshall, S, Marzano, S, Mccauley, J, Mirazimi, A, Mohr, P, Moody, N, Morita, Y, Morrison, R, Mühlberger, E, Naidu, R, Natsuaki, T, Navarro, J, Neriya, Y, Netesov, S, Neumann, G, Nowotny, N, Ochoa-Corona, F, Palacios, G, Pallandre, L, Pallás, V, Papa, A, Paraskevopoulou, S, Parrish, C, Pauvolid-Corrêa, A, Pawęska, J, Pérez, D, Pfaff, F, Plemper, R, Postler, T, Pozet, F, Radoshitzky, S, Ramos-González, P, Rehanek, M, Resende, R, Reyes, C, Romanowski, V, Rubbenstroth, D, Rubino, L, Rumbou, A, Runstadler, J, Rupp, M, Sabanadzovic, S, Sasaya, T, Schmidt-Posthaus, H, Schwemmle, M, Seuberlich, T, Sharpe, S, Shi, M, Sironi, M, Smither, S, Song, J, Spann, K, Spengler, J, Stenglein, M, Takada, A, Tesh, R, Těšíková, J, Thornburg, N, Tischler, N, Tomitaka, Y, Tomonaga, K, Tordo, N, Tsunekawa, K, Turina, M, Tzanetakis, I, Vaira, A, van den Hoogen, B, Vanmechelen, B, Vasilakis, N, Verbeek, M, von Bargen, S, Wada, J, Wahl, V, Walker, P, Whitfield, A, Williams, J, Wolf, Y, Yamasaki, J, Yanagisawa, H, Ye, G, Zhang, Y, Økland, A, Kuhn JH, Adkins S, Alkhovsky SV, Avšič-Županc T, Ayllón MA, Bahl J, Balkema-Buschmann A, Ballinger MJ, Bandte M, Beer M, Bejerman N, Bergeron É, Biedenkopf N, Bigarré L, Blair CD, Blasdell KR, Bradfute SB, Briese T, Brown PA, Bruggmann R, Buchholz UJ, Buchmeier MJ, Bukreyev A, Burt F, Büttner C, Calisher CH, Candresse T, Carson J, Casas I, Chandran K, Charrel RN, Chiaki Y, Crane A, Crane M, Dacheux L, Bó ED, de la Torre JC, de Lamballerie X, de Souza WM, de Swart RL, Dheilly NM, Di Paola N, Di Serio F, Dietzgen RG, Digiaro M, Drexler JF, Duprex WP, Dürrwald R, Easton AJ, Elbeaino T, Ergünay K, Feng G, Feuvrier C, Firth AE, Fooks AR, Formenty PBH, Freitas-Astúa J, Gago-Zachert S, García ML, García-Sastre A, Garrison AR, Godwin SE, Gonzalez JJ, de Bellocq JG, Griffiths A, Groschup MH, Günther S, Hammond J, Hepojoki J, Hierweger MM, Hongō S, Horie M, Horikawa H, Hughes HR, Hume AJ, Hyndman TH, Jiāng D, Jonson GB, Junglen S, Kadono F, Karlin DG, Klempa B, Klingström J, Koch MC, Kondō H, Koonin EV, Krásová J, Krupovic M, Kubota K, Kuzmin IV, Laenen L, Lambert AJ, Lǐ J, Li JM, Lieffrig F, Lukashevich IS, Luo D, Maes P, Marklewitz M, Marshall SH, Marzano SL, McCauley JW, Mirazimi A, Mohr PG, Moody NJG, Morita Y, Morrison RN, Mühlberger E, Naidu R, Natsuaki T, Navarro JA, Neriya Y, Netesov SV, Neumann G, Nowotny N, Ochoa-Corona FM, Palacios G, Pallandre L, Pallás V, Papa A, Paraskevopoulou S, Parrish CR, Pauvolid-Corrêa A, Pawęska JT, Pérez DR, Pfaff F, Plemper RK, Postler TS, Pozet F, Radoshitzky SR, Ramos-González PL, Rehanek M, Resende RO, Reyes CA, Romanowski V, Rubbenstroth D, Rubino L, Rumbou A, Runstadler JA, Rupp M, Sabanadzovic S, Sasaya T, Schmidt-Posthaus H, Schwemmle M, Seuberlich T, Sharpe SR, Shi M, Sironi M, Smither S, Song JW, Spann KM, Spengler JR, Stenglein MD, Takada A, Tesh RB, Těšíková J, Thornburg NJ, Tischler ND, Tomitaka Y, Tomonaga K, Tordo N, Tsunekawa K, Turina M, Tzanetakis IE, Vaira AM, van den Hoogen B, Vanmechelen B, Vasilakis N, Verbeek M, von Bargen S, Wada J, Wahl V, Walker PJ, Whitfield AE, Williams JV, Wolf YI, Yamasaki J, Yanagisawa H, Ye G, Zhang YZ, Økland AL., Kuhn, J, Adkins, S, Alkhovsky, S, Avšič-Županc, T, Ayllón, M, Bahl, J, Balkema-Buschmann, A, Ballinger, M, Bandte, M, Beer, M, Bejerman, N, Bergeron, É, Biedenkopf, N, Bigarré, L, Blair, C, Blasdell, K, Bradfute, S, Briese, T, Brown, P, Bruggmann, R, Buchholz, U, Buchmeier, M, Bukreyev, A, Burt, F, Büttner, C, Calisher, C, Candresse, T, Carson, J, Casas, I, Chandran, K, Charrel, R, Chiaki, Y, Crane, A, Crane, M, Dacheux, L, Bó, E, de la Torre, J, de Lamballerie, X, de Souza, W, de Swart, R, Dheilly, N, Di Paola, N, Di Serio, F, Dietzgen, R, Digiaro, M, Drexler, J, Duprex, W, Dürrwald, R, Easton, A, Elbeaino, T, Ergünay, K, Feng, G, Feuvrier, C, Firth, A, Fooks, A, Formenty, P, Freitas-Astúa, J, Gago-Zachert, S, García, M, García-Sastre, A, Garrison, A, Godwin, S, Gonzalez, J, de Bellocq, J, Griffiths, A, Groschup, M, Günther, S, Hammond, J, Hepojoki, J, Hierweger, M, Hongō, S, Horie, M, Horikawa, H, Hughes, H, Hume, A, Hyndman, T, Jiāng, D, Jonson, G, Junglen, S, Kadono, F, Karlin, D, Klempa, B, Klingström, J, Koch, M, Kondō, H, Koonin, E, Krásová, J, Krupovic, M, Kubota, K, Kuzmin, I, Laenen, L, Lambert, A, Lǐ, J, Li, J, Lieffrig, F, Lukashevich, I, Luo, D, Maes, P, Marklewitz, M, Marshall, S, Marzano, S, Mccauley, J, Mirazimi, A, Mohr, P, Moody, N, Morita, Y, Morrison, R, Mühlberger, E, Naidu, R, Natsuaki, T, Navarro, J, Neriya, Y, Netesov, S, Neumann, G, Nowotny, N, Ochoa-Corona, F, Palacios, G, Pallandre, L, Pallás, V, Papa, A, Paraskevopoulou, S, Parrish, C, Pauvolid-Corrêa, A, Pawęska, J, Pérez, D, Pfaff, F, Plemper, R, Postler, T, Pozet, F, Radoshitzky, S, Ramos-González, P, Rehanek, M, Resende, R, Reyes, C, Romanowski, V, Rubbenstroth, D, Rubino, L, Rumbou, A, Runstadler, J, Rupp, M, Sabanadzovic, S, Sasaya, T, Schmidt-Posthaus, H, Schwemmle, M, Seuberlich, T, Sharpe, S, Shi, M, Sironi, M, Smither, S, Song, J, Spann, K, Spengler, J, Stenglein, M, Takada, A, Tesh, R, Těšíková, J, Thornburg, N, Tischler, N, Tomitaka, Y, Tomonaga, K, Tordo, N, Tsunekawa, K, Turina, M, Tzanetakis, I, Vaira, A, van den Hoogen, B, Vanmechelen, B, Vasilakis, N, Verbeek, M, von Bargen, S, Wada, J, Wahl, V, Walker, P, Whitfield, A, Williams, J, Wolf, Y, Yamasaki, J, Yanagisawa, H, Ye, G, Zhang, Y, Økland, A, Kuhn JH, Adkins S, Alkhovsky SV, Avšič-Županc T, Ayllón MA, Bahl J, Balkema-Buschmann A, Ballinger MJ, Bandte M, Beer M, Bejerman N, Bergeron É, Biedenkopf N, Bigarré L, Blair CD, Blasdell KR, Bradfute SB, Briese T, Brown PA, Bruggmann R, Buchholz UJ, Buchmeier MJ, Bukreyev A, Burt F, Büttner C, Calisher CH, Candresse T, Carson J, Casas I, Chandran K, Charrel RN, Chiaki Y, Crane A, Crane M, Dacheux L, Bó ED, de la Torre JC, de Lamballerie X, de Souza WM, de Swart RL, Dheilly NM, Di Paola N, Di Serio F, Dietzgen RG, Digiaro M, Drexler JF, Duprex WP, Dürrwald R, Easton AJ, Elbeaino T, Ergünay K, Feng G, Feuvrier C, Firth AE, Fooks AR, Formenty PBH, Freitas-Astúa J, Gago-Zachert S, García ML, García-Sastre A, Garrison AR, Godwin SE, Gonzalez JJ, de Bellocq JG, Griffiths A, Groschup MH, Günther S, Hammond J, Hepojoki J, Hierweger MM, Hongō S, Horie M, Horikawa H, Hughes HR, Hume AJ, Hyndman TH, Jiāng D, Jonson GB, Junglen S, Kadono F, Karlin DG, Klempa B, Klingström J, Koch MC, Kondō H, Koonin EV, Krásová J, Krupovic M, Kubota K, Kuzmin IV, Laenen L, Lambert AJ, Lǐ J, Li JM, Lieffrig F, Lukashevich IS, Luo D, Maes P, Marklewitz M, Marshall SH, Marzano SL, McCauley JW, Mirazimi A, Mohr PG, Moody NJG, Morita Y, Morrison RN, Mühlberger E, Naidu R, Natsuaki T, Navarro JA, Neriya Y, Netesov SV, Neumann G, Nowotny N, Ochoa-Corona FM, Palacios G, Pallandre L, Pallás V, Papa A, Paraskevopoulou S, Parrish CR, Pauvolid-Corrêa A, Pawęska JT, Pérez DR, Pfaff F, Plemper RK, Postler TS, Pozet F, Radoshitzky SR, Ramos-González PL, Rehanek M, Resende RO, Reyes CA, Romanowski V, Rubbenstroth D, Rubino L, Rumbou A, Runstadler JA, Rupp M, Sabanadzovic S, Sasaya T, Schmidt-Posthaus H, Schwemmle M, Seuberlich T, Sharpe SR, Shi M, Sironi M, Smither S, Song JW, Spann KM, Spengler JR, Stenglein MD, Takada A, Tesh RB, Těšíková J, Thornburg NJ, Tischler ND, Tomitaka Y, Tomonaga K, Tordo N, Tsunekawa K, Turina M, Tzanetakis IE, Vaira AM, van den Hoogen B, Vanmechelen B, Vasilakis N, Verbeek M, von Bargen S, Wada J, Wahl V, Walker PJ, Whitfield AE, Williams JV, Wolf YI, Yamasaki J, Yanagisawa H, Ye G, Zhang YZ, and Økland AL.

Abstract

In March 2022, following the annual International Committee on Taxonomy of Viruses (ICTV) ratification vote on newly proposed taxa, the phylum Negarnaviricota was amended and emended. The phylum was expanded by two new families (bunyaviral Discoviridae and Tulasviridae), 41 new genera, and 98 new species. Three hundred forty-nine species were renamed and/or moved. The accidentally misspelled names of seven species were corrected. This article presents the updated taxonomy of Negarnaviricota as now accepted by the ICTV.

Published
2022

8. Co-infections and multiple stressors in fish

Author

Gorgoglione, B., Bailey, C., Fast, M. D., Bass, D., Saraiva, M., Mikolaj Adamek, Noguera, P., Ciulli, S., Palíková, M., Aguirre-Gil, I., Bigarré, L., Haenen, O., Gorgoglione B., Bailey C., Fast M.D., Bass D., Saraiva M., Adamek M., Noguera P., Ciulli S., Palikova M., Aguirre-Gil I., Bigarre L., and Haenen O.

Subjects
Co-infections, stressors, fish, sturgeon
Abstract

Fish are typically exposed to multiple physical, chemical and biological stressors. The cumulative impact of co-infections between parasites, bacteria, viruses and (a)biotic environmental pressures may trigger complex interactions, eliciting different pathological and immunological outcomes than those classically assessed. New cross-disciplinary studies attempt to measure the impact of environmental stressors in modulating the host response to pathogens. Scientific advances are needed to reduce pressure on natural populations, improve fish stock management, and to design more efficient diagnostic tools or vaccination strategies. An EAFP-promoted workshop, held on 10th September 2019 in Porto, Portugal, was dedicated to sharing research experiences on the interaction between heterogenous pathogens and multiple stressors in fish. The workshop involved around 200 attendants, opened by a keynote talk (Fast), and followed by a further twelve oral presentations, including three in the format of lash poster presentations. Contributions illustrated cross-disciplinary approaches to study complex host-pathogen and stressors interactions.

Published
2020

9. Metagenomic Array Detection of emerging virus in EU (MAD-vir)

Author

Rosenstierne, Mw., Lecollinet, S., Bigarré, L., Moutailler, Sara, Gonzalez, G., Niczyporuk, Js., Kozyra, I., Rzeżutka, A., Steinbach, F., Dastjerdi, A., Takács, M., Nagy, A., Ruzek, D., Horton, Dl., Ragione, R. La, Lavazza, A., Savini, G., Jiménez-Clavero, Ma., Fernandez-Pinero, J., Llorente, F., Fomsgaard, A., and Moutailler, Sara

Subjects
[SDV] Life Sciences [q-bio], ticks
Published
2019

10. Neglected viral diseases in freshwater fish farming

Author

Olga Haenen, Bigarré, L., Takafumi Ito, Jean-Christophe Avarre, Niccoló Vendramin, Wageningen BioVeterinary Research, Wageningen University and Research [Wageningen] (WUR), Laboratoire de Ploufragan-Plouzané-Niort [ANSES], Agence nationale de sécurité sanitaire de l'alimentation, de l'environnement et du travail (ANSES), Institut des Sciences de l'Evolution de Montpellier (UMR ISEM), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École Pratique des Hautes Études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS), Danmarks Tekniske Universitet = Technical University of Denmark (DTU), École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Centre National de la Recherche Scientifique (CNRS)-Institut de recherche pour le développement [IRD] : UR226, and Technical University of Denmark [Lyngby] (DTU)

Subjects
[SDV.BA.MVSA]Life Sciences [q-bio]/Animal biology/Veterinary medicine and animal Health, Epidemiologie, Bioinformatica & Diermodellen, Life Science, Epidemiology, Bio-informatics & Animal models, [SDV.SA.ZOO]Life Sciences [q-bio]/Agricultural sciences/Zootechny
Abstract

Open workshop at the 18th EAFP Conference, Belfast, UK, 4th September 2017; International audience; Worldwide, viral diseases pose a serious challenge to the fish farming industry and wild fish stocks. In order to prevent the spread of serious fish diseases and to contain and control fish disease outbreaks at a global scale, the World Organisation for Animal Health (OIE) has published relevant data on these fish diseases, both in the Aquatic Animal Health Code (OIE, 2017a), including the OIE listed fish diseases, and in the Manual of Diagnostic Tests for Aquatic Animals (OIE, 2017b), including recommended diagnostic methods. The list of viral OIE notifiable fish diseases currently includes: Epizootic haematopoietic necrosis disease (EHN), Infection with HPR-deleted or HPR0 infectious salmon anaemia virus (ISA), Infection with salmonid alphavirus, causing Pancreas disease (PD) and Sleeping disease (SD), Infectious haematopoietic necrosis (IHN), Koi herpesvirus disease (KHVD), Red sea bream iridoviral disease (RSIVD), Spring viraemia of carp (SVC), and Viral haemorrhagic septicaemia (VHS). At European Union level, Commission Decision 2006/88/EC and Council Implementing Decision 2015/1554/EC provide specific regulation for surveillance and control of listed infectious aquatic diseases in Europe which include the fish viral diseases VHS, IHN, EHN, ISA, and KHVD (European Commission 2006, 2015). Due to the frequent emergence of new serious fish viral diseases, the OIE list of fish viral diseases is regularly being extended. However, apart from these well studied viral diseases, other non-notifiable serious fish viral diseases occur in freshwater fish farming. To focus on these new viral threats for freshwater fish farming, an open workshop was organized at the EAFP Conference at Belfast, 4th September 2017. The workshop consisted of five short lectures and a discussion, involving an audience of 69 international experts, originating from 25 countries, of which 6 outside Europe. The main topics presented included issues related to:i) the difficulty of preventing the global spread of cyprinid herpesvirus 2 (CyHV-2), ii) perhabdoviruses as a threat for percid farming, iii) pathogenesis and diagnostics of piscine orthoreoviruses in farmed rainbow trout, iv) Carp Edema Virus (CEV) in Europe, and v) the potential role of fish endogenous retroviruses in disease emergence. The general aim of the workshop was to identify potential collaborative approaches to carry out multidisciplinary studies aiming to define risks, diagnostic methods and suggest adequate prophylactic measures.

Published
2018

12. Novel viral infections threatening Cyprinid fish

Author

Haenen, O., Way, K., Bartolomeo Gorgoglione, Ito, T., Paley, R., Bigarré, L., and Waltzek, T.

Subjects
Epidemiologie, Bioinformatica & Diermodellen, Life Science, Epidemiology, Bio-informatics & Animal models
Published
2016

14. Emergence of carp edema virus (CEV) and its significance to European common carp and koi Cyprinus carpio

Author

Way, K, primary, Haenen, O, additional, Stone, D, additional, Adamek, M, additional, Bergmann, SM, additional, Bigarré, L, additional, Diserens, N, additional, El-Matbouli, M, additional, Gjessing, MC, additional, Jung-Schroers, V, additional, Leguay, E, additional, Matras, M, additional, Olesen, NJ, additional, Panzarin, V, additional, Piačková, V, additional, Toffan, A, additional, Vendramin, N, additional, Veselý, T, additional, and Waltzek, T, additional

Published
2017
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15. Emergence of carp edema virus (CEV) and its significance to European common carp and koi Cyprinus carpio

Author

Way, K., Haenen, O., Stone, D., Adamek, M., Bergmann, S. M., Bigarré, L., Diserens, N., El-Matbouli, M., Gjessing, M. C., Jung-Schroers, V., Leguay, E., Matras, M., Olesen, Niels Jørgen, Panzarin, V., Piacakova, V., Toffan, A., Vendramin, Niccolò, Veselý, T., Waltzek, T., Way, K., Haenen, O., Stone, D., Adamek, M., Bergmann, S. M., Bigarré, L., Diserens, N., El-Matbouli, M., Gjessing, M. C., Jung-Schroers, V., Leguay, E., Matras, M., Olesen, Niels Jørgen, Panzarin, V., Piacakova, V., Toffan, A., Vendramin, Niccolò, Veselý, T., and Waltzek, T.

Abstract

Carp edema virus disease (CEVD), also known as koi sleepy disease, is caused by a poxvirus associated with outbreaks of clinical disease in koi and common carp Cyprinus carpio. Originally characterised in Japan in the 1970s, international trade in koi has led to the spread of CEV, although the first recognised outbreak of the disease outside of Japan was not reported until 1996 in the USA. In Europe, the disease was first recognised in 2009 and, as detection and diagnosis have improved, more EU member states have reported CEV associated with disease outbreaks. Although the structure of the CEV genome is not yet elucidated, molecular epidemiology studies have suggested distinct geographical populations of CEV infecting both koi and common carp. Detection and identification of cases of CEVD in common carp were unreliable using the original PCR primers. New primers for conventional and quantitative PCR (qPCR) have been designed that improve detection, and their sequences are provided in this paper. The qPCR primers have successfully detected CEV DNA in archive material from investigations of unexplained carp mortalities conducted > 15 yr ago. Improvement in disease management and control is possible, and the principles of biosecurity, good health management and disease surveillance, applied to koi herpesvirus disease, can be equally applied to CEVD. However, further research studies are needed to fill the knowledge gaps in the disease pathogenesis and epidemiology that, currently, prevent an accurate assessment of the likely impact of CEVD on European koi and common carp aquaculture and on wild carp stocks.

Published
2017

23. Molecular identification of iridoviruses infecting various sturgeon species in Europe.

Author

Bigarré, L, Lesne, M, Lautraite, A, Chesneau, V, Leroux, A, Jamin, M, Boitard, P M, Toffan, A, Prearo, M, Labrut, S, and Daniel, P

Subjects
*IRIDOVIRUSES, *STURGEONS, *BASOPHILS, *CELLS, *CAPSIDS, *DISEASES
Abstract

Iridoviridae are known to cause disease in sturgeons in North America. Here, histological and molecular methods were used to screen for this family of virus in sturgeons from various European farms with low-to-high morbidity. Some histological samples revealed basophilic cells in the gill and labial epithelia, strongly suggesting the accumulation of iridovirus particles. Newly developed generic PCR tests targeting the major capsid protein ( MCP) gene of sturgeon iridoviruses identified in North America, namely the white sturgeon iridovirus and the Namao virus ( NV), produced positive signals in most samples from four sturgeon species: Russian ( Acipenser gueldenstaedtii), Siberian ( A. baerii), Adriatic ( A. naccarii) and beluga ( Huso huso). The sequences of the PCR products were generally highly similar one another, with nucleotide identities greater than 98%. They were also related to (74-88%), although distinct from, American sturgeon iridoviruses. These European viruses were thus considered variants of a single new virus, provisionally named Acipenser iridovirus-European (Ac IV-E). Moreover, three samples infected with Ac IV-E showed genetic heterogeneity, with the co-existence of two sequences differing by five nucleotides. One of our European samples carried a virus distinct from Ac IV-E, but closely related to NV identified in Canada (95%). This study demonstrates the presence of two distinct sturgeon iridoviruses in Europe: a new genotype Ac IV-E and an NV-related virus. [ABSTRACT FROM AUTHOR]

Published
2017
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24. First detection of Cyprinid Herpesvirus 2 (Cy HV-2) in goldfish ( Carassius auratus) in France.

Author

Boitard, P‐M, Baud, M, Labrut, S, Boisséson, C, Jamin, M, and Bigarré, L

Subjects
HERPESVIRUS diseases in animals, FISH diseases, GOLDFISH, GENETIC markers, BIOMARKERS
Abstract

Massive mortalities of Carassius auratus (L.) occurred in a farm in France during summer 2014. Fish presented anorexia, loss of scales and large amounts of mucus on the gills. Necrosis of the distal tip of the filament and the lamellae, combined with fusion of the lamellae, was observed, as well as necrosis in the hematopoietic organs and in the digestive tract. The histological examination led to hypothesize the implication of a virus in the mortality. The presence of cyprinid herpesvirus 2 (Cy HV-2) in dead fish was demonstrated by amplification and sequencing of portions of the DNA polymerase and helicase genes, both sequences exhibiting 100% identity with Cy HV-2 from Japan. In an attempt to find genetic markers of variation, two regions containing tandem repeats in the Japanese genome were amplified from a virus-positive sample from the present outbreak. A first region ( mB) was fully identical to the Japanese isolate. However, the second region ( mA) exhibited a range of deletions and substitutions compared to Cy HV-2 from Japan. This is the first report of Cy HV-2 in France in association with mortality of goldfish and the first identification of a molecular marker for its tracing. [ABSTRACT FROM AUTHOR]

Published
2016
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31. First isolation of hirame rhabdovirus from freshwater fish in Europe.

Author

Borzym, E, Matras, M, Maj‐Paluch, J, Baud, M, Boisséson, C, Talbi, C, Olesen, N J, and Bigarré, L

Subjects
RHABDOVIRUSES, FRESHWATER fishes, MORTALITY, PHOSPHOPROTEINS
Abstract

A rhabdovirus was isolated in cell culture inoculated with tissue material from diseased grayling, Thymallus thymallus (L.), originating from a fish farm affected by a mortality episode in Poland. Diagnostics tests showed that the virus was not related to novirhabdoviruses known in Europe, nor to vesiculovirus-like species, except perch rhabdovirus ( PRhV) with which it shared moderate serological relations. However, RT- PCR with PRhV probes gave negative results. To identify the virus, a random-priming sequence-independent single primer amplification was adopted. Surprisingly, two of the obtained sequences exhibited a high identity (>99%) with hirame rhabdovirus ( HIRRV), a novirhabdovirus usually found in fish in marine Asiatic countries, for instance Japan, China and Korea. The full-length sequence of the phosphoprotein gene (P) demonstrated a higher identity of the present isolate with HIRRV from China compared with the Korean isolate. An identical viral sequence was also found in brown trout, Salmo trutta trutta L., affected by mortalities in a second farm in the same region, after a likely contamination from the grayling farm. To our knowledge, this is the first report of HIRRV in Europe, and in two hosts from fresh water that have not been described before as susceptible species. [ABSTRACT FROM AUTHOR]

Published
2014
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32. Molecular tracing of viral diseases in aquaculture

Author

Mikkelsen, S. S., Bigarré, L., Jørgen Bang-Jensen, Anja Bråthen Kristoffersen, Jansen, P. A., Valentina Panzarin, Bayliss, Sion C., Jean-Christophe Avarre, Niels Jørgen Olesen, National Veterinary Institute, Technical University of Denmark [Lyngby] (DTU), Laboratoire de Ploufragan-Plouzané-Niort [ANSES], Agence nationale de sécurité sanitaire de l'alimentation, de l'environnement et du travail (ANSES), Norwegian Veterinary Institute [Oslo], Istituto Zooprofilattico Sperimentale delle Venezie (IZSVe), University of Bath [Bath], Institut des Sciences de l'Evolution de Montpellier (UMR ISEM), École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Centre National de la Recherche Scientifique (CNRS)-Institut de recherche pour le développement [IRD] : UR226, Danmarks Tekniske Universitet = Technical University of Denmark (DTU), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École Pratique des Hautes Études (EPHE), and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SDV.BA.MVSA]Life Sciences [q-bio]/Animal biology/Veterinary medicine and animal Health, [SDV.SA.SPA]Life Sciences [q-bio]/Agricultural sciences/Animal production studies, SEQUENCE DATABASE, ISOLATE, SDG 14 - Life Below Water, FISHERIES, MARINE, Ressources halieutiques
Abstract

Molecular Tracing of Viral Diseases in Aquaculture = Traçage Moléculaire des Maladies Virales en Aquaculture : Colloque, Montpellier (FRA), 2015/01/27-29; International audience

34. cds46, a highly variable carp edema virus gene.

Author

Montacq L, Flores D, Giummarra H, Pallandre L, Angot A, Thomas R, Charrier A, Lamothe L, Lesne M, Bellet C, Keck N, Pozet F, Tocqueville A, Le Bouquin-Leneveu S, Laithier J, Millet JK, Bertagnoli S, Baud M, and Bigarré L

Subjects
Animals, Phylogeny, Viral Proteins genetics, Open Reading Frames, Poxviridae genetics, Poxviridae classification, Carps virology, Fish Diseases virology, Poxviridae Infections virology, Poxviridae Infections veterinary, Genetic Variation
Abstract

Carp edema virus disease (CEVD) is a severe viral illness that causes substantial economic losses in wild and farmed common carp and koi. It is caused by carp edema virus (CEV), a member of the Poxviridae family , whose genetic diversity and genome evolution are poorly understood. Based on a genomic fragment of the 4a gene, two genogroups, genogroup I (gI) and genogroup II (gII), have been identified in samples of different origins. By analysing a series of recent samples, we highlight here a new genomic region of interest that varies by substitutions, indels and putative recombinations. In the Japanese reference sequence, this region encodes an ORF, cds46, whose function is unknown despite weak homologies with genes of some members of the Iridoviridae . Surprisingly, AlphaFold protein structure prediction analyses link cds46-encoded ORF with cellular endonucleases, providing insights into its possible origin. The ORF is absent in all gI haplotypes and in some gII haplotypes. Apart from the absence of cds46, gI haplotypes show an insertion of 121 bp with no homology to any viral sequence. When present, cds46 showed two groups of alleles differentiated by substitutions. The analysis of the cds46 locus showed that some samples from fish batches contained mixes of different haplotypes, irrespective of their origin (i.e. France, Japan or Israel). In a 2023 sample, we also found a virus carrying a gII-like atypical 4a allele first identified in France in 2015, indicating the limited but persistent spread of this virus in the country. The cds46 locus is a new target that may be useful for identifying and tracking CEV haplotypes.

Published
2024
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35. Nearly complete genome sequence of a Perhabdovirus isolated on European perch ( Perca fluviatili s).

Author

Pallandre L, Flores D, Pozet F, and Bigarré L

Abstract

We report a nearly full-length genome of a Perhabdovirus isolated in 2022 on perch on a French farm. This virus is genetically related to virus 20/43, which was associated with an outbreak of perch on a farm in France in 2019. Both viruses represent a specific lineage of perch rhabdovirus., Competing Interests: The authors declare no conflict of interest.

Published
2023
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36. 2022 taxonomic update of phylum Negarnaviricota (Riboviria: Orthornavirae), including the large orders Bunyavirales and Mononegavirales.

Author

Kuhn JH, Adkins S, Alkhovsky SV, Avšič-Županc T, Ayllón MA, Bahl J, Balkema-Buschmann A, Ballinger MJ, Bandte M, Beer M, Bejerman N, Bergeron É, Biedenkopf N, Bigarré L, Blair CD, Blasdell KR, Bradfute SB, Briese T, Brown PA, Bruggmann R, Buchholz UJ, Buchmeier MJ, Bukreyev A, Burt F, Büttner C, Calisher CH, Candresse T, Carson J, Casas I, Chandran K, Charrel RN, Chiaki Y, Crane A, Crane M, Dacheux L, Bó ED, de la Torre JC, de Lamballerie X, de Souza WM, de Swart RL, Dheilly NM, Di Paola N, Di Serio F, Dietzgen RG, Digiaro M, Drexler JF, Duprex WP, Dürrwald R, Easton AJ, Elbeaino T, Ergünay K, Feng G, Feuvrier C, Firth AE, Fooks AR, Formenty PBH, Freitas-Astúa J, Gago-Zachert S, García ML, García-Sastre A, Garrison AR, Godwin SE, Gonzalez JJ, de Bellocq JG, Griffiths A, Groschup MH, Günther S, Hammond J, Hepojoki J, Hierweger MM, Hongō S, Horie M, Horikawa H, Hughes HR, Hume AJ, Hyndman TH, Jiāng D, Jonson GB, Junglen S, Kadono F, Karlin DG, Klempa B, Klingström J, Koch MC, Kondō H, Koonin EV, Krásová J, Krupovic M, Kubota K, Kuzmin IV, Laenen L, Lambert AJ, Lǐ J, Li JM, Lieffrig F, Lukashevich IS, Luo D, Maes P, Marklewitz M, Marshall SH, Marzano SL, McCauley JW, Mirazimi A, Mohr PG, Moody NJG, Morita Y, Morrison RN, Mühlberger E, Naidu R, Natsuaki T, Navarro JA, Neriya Y, Netesov SV, Neumann G, Nowotny N, Ochoa-Corona FM, Palacios G, Pallandre L, Pallás V, Papa A, Paraskevopoulou S, Parrish CR, Pauvolid-Corrêa A, Pawęska JT, Pérez DR, Pfaff F, Plemper RK, Postler TS, Pozet F, Radoshitzky SR, Ramos-González PL, Rehanek M, Resende RO, Reyes CA, Romanowski V, Rubbenstroth D, Rubino L, Rumbou A, Runstadler JA, Rupp M, Sabanadzovic S, Sasaya T, Schmidt-Posthaus H, Schwemmle M, Seuberlich T, Sharpe SR, Shi M, Sironi M, Smither S, Song JW, Spann KM, Spengler JR, Stenglein MD, Takada A, Tesh RB, Těšíková J, Thornburg NJ, Tischler ND, Tomitaka Y, Tomonaga K, Tordo N, Tsunekawa K, Turina M, Tzanetakis IE, Vaira AM, van den Hoogen B, Vanmechelen B, Vasilakis N, Verbeek M, von Bargen S, Wada J, Wahl V, Walker PJ, Whitfield AE, Williams JV, Wolf YI, Yamasaki J, Yanagisawa H, Ye G, Zhang YZ, and Økland AL

Subjects
Humans, Phylogeny, Mononegavirales genetics, Viruses
Abstract

In March 2022, following the annual International Committee on Taxonomy of Viruses (ICTV) ratification vote on newly proposed taxa, the phylum Negarnaviricota was amended and emended. The phylum was expanded by two new families (bunyaviral Discoviridae and Tulasviridae), 41 new genera, and 98 new species. Three hundred forty-nine species were renamed and/or moved. The accidentally misspelled names of seven species were corrected. This article presents the updated taxonomy of Negarnaviricota as now accepted by the ICTV., (© 2022. This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.)

Published
2022
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37. Further spread of perch rhabdovirus on European percid farms.

Author

Pallandre L, Schmidt-Posthaus H, Pozet F, Rupp M, Cristina E, and Bigarré L

Subjects
Animals, Phylogeny, Perches, Rhabdoviridae Infections epidemiology, Rhabdoviridae Infections veterinary, Fish Diseases epidemiology, Rhabdoviridae genetics
Abstract

Variants of perch rhabdovirus (PRV) circulate across European percid farms via the fish trade. To trace their circulation, they are usually isolated by cell culture and subsequently identified genetically by sequencing partial or complete genes. Here, a newly developed nested PCR-based method was used to amplify and sequence the complete N and P genes directly from clinical samples obtained during an outbreak on a farm as well as from four batches of fish sampled from two other farms in another country. In an attempt to trace the origin of the five detected viruses, their N and P sequences were concatenated and compared with related viruses. One virus found in pike-perch was highly related to a virus isolated in 2016 in Belgium. Two other viruses detected on a single farm were distinct from one another, with one being almost identical to another virus isolated in 2016 in Belgium and the other being more closely related to a subgroup with different origins, France and Belgium. Two other viruses found in perch from a third farm were identical and were more related to a subgroup of viruses isolated in France. Identifying variants by a direct PCR approach will help to prevent further dissemination in farms., (© 2022 John Wiley & Sons Ltd.)

Published
2022
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38. Revised Taxonomy of Rhabdoviruses Infecting Fish and Marine Mammals.

Author

Walker PJ, Bigarré L, Kurath G, Dacheux L, and Pallandre L

Abstract

The Rhabdoviridae is a large family of negative-sense (-) RNA viruses that includes important pathogens of ray-finned fish and marine mammals. As for all viruses, the taxonomic assignment of rhabdoviruses occurs through a process implemented by the International Committee on Taxonomy of Viruses (ICTV). A recent revision of taxonomy conducted in conjunction with the ICTV Rhabdoviridae Study Group has resulted in the establishment of three new subfamilies ( Alpharhabdovirinae , Betarhabdovirinae , and Gammarhabdovirinae ) within the Rhabdoviridae , as well as three new genera ( Cetarhavirus , Siniperhavirus , and Scophrhavirus ) and seven new species for viruses infecting fish or marine mammals. All rhabdovirus species have also now been named or renamed to comply with the binomial format adopted by the ICTV in 2021, comprising the genus name followed by a species epithet. Phylogenetic analyses of L protein (RNA-dependent RNA polymerase) sequences of (-) RNA viruses indicate that members of the genus Novirhabdovirus (subfamily Gammarhabdovirinae ) do not cluster within the Rhabdoviridae , suggesting the need for a review of their current classification.

Published
2022
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39. Genetic diversity of the carp oedema virus in France.

Author

Baud M, Pallandre L, Almeras F, Maillet L, Stone D, and Bigarré L

Subjects
Animals, France, Poxviridae Infections virology, Carps, Fish Diseases virology, Genetic Variation, Poxviridae genetics, Poxviridae Infections veterinary
Abstract

The koi sleepy disease of carp caused by the carp oedema virus (CEV) was observed on farms and in ponds in France since the 2010s. Samples of CEV collected in France over a period of eight years were characterized at the molecular level by sequencing the partial p4a gene. All the sequences, except one, fell into two well-defined genogroups. Sequences obtained from CEV detected in common carp generally clustered in genogroup I and sequences from CEV detected in the koi were assigned to genogroup II. A particular sample was different to the others and represented a putative new genogroup possibly arose from a recombination event between a genogroup II sequence and one from an unknown genogroup. Compared with sequences from CEV of other countries, most of the French sequences exhibited high degree of DNA identities with those published previously, indicating identical sources of viruses. The sequence diversity suggests multiple introductions of the viruses in France. Among the French sequences, two genogroup-specific molecular markers were identified. One was an insertion/deletion identified within a microsatellite and other was a group of single nucleotide polymorphisms. CEV seems to generate genetic diversity via diverse mechanisms: substitutions, indels and recombination events., (© 2021 John Wiley & Sons Ltd.)

Published
2021
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40. A New Lineage of Perch Rhabdovirus Associated with Mortalities of Farmed Perch.

Author

Pallandre L, Lautraite A, Feuvrier C, Pozet F, Dacheux L, and Bigarré L

Abstract

A perhabdovirus was isolated from a mortality episode affecting a fish farm in 2019 in Western Europe. This virus was produced in cell culture and was readily detected by a species-specific real-time PCR assay. The near-complete sequence of the virus obtained showed some relatedness with viruses of the species Perhabdovirus perca . However, it was distinct enough from these viruses to form a separate genetic lineage. Multiple substitutions along the genome caused non-detection using a range of conventional PCRs previously shown to target four known genogroups of perhabdoviruses. However, various generic PCRs efficiently detected the isolated virus. The origin of this virus remains to be elucidated. It may have been introduced into the farm via wild genitors. This finding provides new evidence of the high genetic diversity of percid perhabdoviruses and the potential of new genotypes to emerge as threats for fish farming. Efforts to improve the existing diagnostic methods and control this large group of viruses are still needed.

Published
2021
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41. First genetic characterization of sturgeon mimiviruses in Ukraine.

Author

Rud Y, Bigarré L, Pallandre L, Briand FX, and Buchatsky L

Subjects
Animals, Aquaculture, Capsid Proteins genetics, DNA Virus Infections veterinary, Fish Diseases epidemiology, Fishes, Mimiviridae classification, Real-Time Polymerase Chain Reaction, Sequence Analysis, DNA, Ukraine epidemiology, Fish Diseases virology, Mimiviridae genetics
Abstract

A group of pathogenic nucleocytoplasmic large DNA viruses (NCLDVs) related to the Mimiviridae family infect farmed sturgeons across Europe, causing mild-to-severe losses. One of these viruses, Acipenser iridovirus-European (AcIV-E), was identified in six sturgeon species. During the 2018-2019 period, nine sick Siberian (A. baerii) and Russian (A. gueldenstaedtii) sturgeons were sampled in Ukrainian farms and tested for the presence of AcIV-E using real-time PCR. The presence of AcIV-E was confirmed in some samples. High-resolution melting (HRM) assay and Sanger sequencing demonstrated the presence in three farms of two alleles of the major capsid protein (MCP) gene, called var1 and var2. Five samples carried both var1 and var2 at varying ratios, and the sixth sample was infected with only var1. These results constitute the first detection of AcIV-E in Ukraine and the first detection of a sample carrying only var1. The full-length sequences of the MCP genes confirmed the existence of two genetic lineages of AcIV-E, tentatively named V1 and V2, each displaying multiple substitutions in the MCP gene. Some of the MCP sequences showed a genetic relationship to both V1 and V2 lineages, depending on the fragment examined. Most likely, these sequences resulted from recombination events., (© 2020 John Wiley & Sons Ltd.)

Published
2020
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42. Revisiting the Classification of Percid Perhabdoviruses Using New Full-Length Genomes.

Author

Pallandre L, Luo D, Feuvrier C, Lieffrig F, Pozet F, Dacheux L, and Bigarré L

Subjects
Amino Acid Sequence, Animals, Fishes, Phylogeny, Rhabdoviridae chemistry, Rhabdoviridae isolation & purification, Rhabdoviridae Infections virology, Sequence Alignment, Viral Proteins chemistry, Viral Proteins genetics, Fish Diseases virology, Genome, Viral, Rhabdoviridae classification, Rhabdoviridae genetics, Rhabdoviridae Infections veterinary
Abstract

Perhabdoviruses are a threat to some freshwater fish species raised in aquaculture farms in Europe. Although the genetic diversity of these viruses is suspected to be high, the classification of isolates is still in its infancy, with just one full-length genome available and only partial sequences for a limited number of others. Here, we characterized a series of viruses isolated from percids in France from 1999 to 2009 by sequencing the nucleoprotein (N) gene. Four main clusters were distinguished, all related at varying levels of similarity to one of the two already-recognized species, namely Perch perhabdovirus and Sea trout perhabdovirus . Furthermore, we obtained the complete genome of five isolates, including one belonging to Sea trout rhabdovirus . The analysis of the complete L genes and the concatenated open reading frames confirmed the existence of four main genetic clusters, sharing 69 to 74% similarity. We propose the assignation of all these viral isolates into four species, including two new ones: Perch perhabdovirus 1 , Perch perhabdovirus 2 , Sea trout perhabdovirus 1 and Sea trout perhabdovirus 2 . In addition, we developed new primers to readily amplify specific portions of the N gene of any isolate of each species by conventional PCR. The presence of such genetically diverse viruses in France is likely due to divergent viral populations maintained in the wild and then introduced to experimental facilities or farms, as well as via trade between farms across the European continent. It is now urgent to improve the identification tools for this large group of viruses to prevent their unchecked dissemination.

Published
2020
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44. Genetic identification of two Acipenser iridovirus-European variants using high-resolution melting analysis.

Author

Pallandre L, Lesne M, de Boisséson C, Charrier A, Daniel P, Tragnan A, Debeuf B, Chesneau V, and Bigarré L

Subjects
Animals, DNA, Viral chemistry, Europe, Fish Diseases virology, Fishes virology, Iridovirus genetics, Sensitivity and Specificity, Virus Diseases diagnosis, Virus Diseases virology, DNA, Viral genetics, Fish Diseases diagnosis, Iridovirus classification, Iridovirus isolation & purification, Molecular Diagnostic Techniques methods, Transition Temperature, Virus Diseases veterinary
Abstract

Acipenser iridovirus-European (AcIV-E) is an important pathogen of sturgeons. Two variants differing by single-nucleotide polymorphisms (SNP) in the Major Capsid Protein gene have been described, but without any indication as to their prevalence in farms. To facilitate epidemiological studies, we developed a high-resolution melting (HRM) assay to distinguish between two alleles (var1 and var2) differing by five point substitutions. The HRM assay detected as little as 100 copies of plasmids harboring cloned sequences of var1 and var2, which have melting temperatures (Tm) differing by only 1 °C. The assay was specific of AcIV-E as demonstrated by the absence of signal when testing a related, yet distinct, virus as well as DNA from an AcIV-E-negative sturgeon sample. Experiments with mixtures of two distinct plasmids revealed abnormal melting curve patterns, which showed dips just before the main melting peaks. These dips in the curves were interpreted as the dissociation of heteroduplexes fortuitously created during the PCR step. Screening AciV-E-positive field samples of Russian sturgeons from three farms revealed the presence of var2, based on the Tm. However, for a few samples, the melting curves showed patterns typical of var2 as the dominant viral genome, mixed with another minor variant which proved to be var1. In conclusion, HRM is a simple method to screen for AcIV-E var1 and var2 and can be used on a large scale in Europe to trace these two variants which likely represent two genetic lineages., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2019
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45. Acipenser iridovirus-European encodes a replication factor C (RFC) sub-unit.

Author

Pallandre L, Lesne M, de Boisséson C, Briand FX, Charrier A, Waltzek T, Daniel P, Tragnan A, Debeuf B, Chesneau V, and Bigarré L

Subjects
Animals, Capsid Proteins genetics, Capsid Proteins metabolism, DNA Replication, DNA Virus Infections virology, Fishes, Iridovirus classification, Iridovirus genetics, Iridovirus isolation & purification, Open Reading Frames, Phylogeny, Replication Protein C genetics, Viral Proteins genetics, DNA Virus Infections veterinary, Fish Diseases virology, Iridovirus enzymology, Replication Protein C metabolism, Viral Proteins metabolism
Abstract

New genomic sequence data were acquired for the Acipenser iridovirus-European (AcIV-E), a virus whose complete genome and classification still remain to be elucidated. Here, we obtained the first full-length Major capsid protein (MCP) gene sequence for AcIV-E, as well as two additional open reading frames (ORFs) adjacent to the MCP gene. BLAST searches of the first ORF (α) resulted in no match to any gene or protein in the public databases. The other ORF (β) was identified as a subunit of a replication factor C (RFC), known to function as a clamp loader in eukaryotes, archae and some viruses. The presence of similar RFC genes was confirmed in two distinct, yet related, viruses, the white sturgeon iridovirus and a European variant of Namao virus. The existence of an RFC gene in AcIV-E suggests a genome size larger than that of other classifiable members of the family Iridoviridae along with a mode of replication involving an interaction between a clamp loader and a proliferating nuclear cell antigen. Sequencing and comparison of the full-length RFC gene from various sturgeon samples infected with AcIV-E revealed two distinct clusters of sequences within one particular sample in which the coexistence of two lineages had previously been predicted based on analysis of the partial MCP gene sequence. These genetic data provide further evidence of the circulation of at least two concurrent AcIV-E lineages, sometimes co-infecting cultured European sturgeon.

Published
2018
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46. Contribution of Next-Generation Sequencing to Aquatic and Fish Virology.

Author

Nkili-Meyong AA, Bigarré L, Labouba I, Vallaeys T, Avarre JC, and Berthet N

Abstract

The recent technological advances in nucleic acid sequencing, called next-generation sequencing (NGS), have revolutionized the field of genomics and have also influenced viral research. Aquatic viruses, and especially those infecting fish, have also greatly benefited from NGS technologies, which provide a huge amount of molecular information at a low cost in a relatively short period of time. Here, we review the use of the current high-throughput sequencing platforms with a special focus on the associated challenges (regarding sample preparation and bioinformatics) in their applications to the field of aquatic virology, especially for: (i) discovering novel viruses that may be associated with fish mortalities, (ii) elucidating the mechanisms of pathogenesis, and finally (iii) studying the molecular epidemiology of these pathogens., (© 2017 S. Karger AG, Basel.)

Published
2016
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47. Evolutionary dynamics and genetic diversity from three genes of Anguillid rhabdovirus.

Author

Bellec L, Cabon J, Bergmann S, de Boisséson C, Engelsma M, Haenen O, Morin T, Olesen NJ, Schuetze H, Toffan A, Way K, and Bigarré L

Subjects
Animals, Evolution, Molecular, Genetic Variation, Phylogeny, RNA, Viral genetics, Rhabdoviridae classification, Rhabdoviridae isolation & purification, Viral Proteins genetics, Anguilla virology, Genes, Viral, Rhabdoviridae genetics
Abstract

Wild freshwater eel populations have dramatically declined in recent past decades in Europe and America, partially through the impact of several factors including the wide spread of infectious diseases. The anguillid rhabdoviruses eel virus European X (EVEX) and eel virus American (EVA) potentially play a role in this decline, even if their real contribution is still unclear. In this study, we investigate the evolutionary dynamics and genetic diversity of anguiillid rhabdoviruses by analysing sequences from the glycoprotein, nucleoprotein and phosphoprotein (P) genes of 57 viral strains collected from seven countries over 40 years using maximum-likelihood and Bayesian approaches. Phylogenetic trees from the three genes are congruent and allow two monophyletic groups, European and American, to be clearly distinguished. Results of nucleotide substitution rates per site per year indicate that the P gene is expected to evolve most rapidly. The nucleotide diversity observed is low (2-3 %) for the three genes, with a significantly higher variability within the P gene, which encodes multiple proteins from a single genomic RNA sequence, particularly a small C protein. This putative C protein is a potential molecular marker suitable for characterization of distinct genotypes within anguillid rhabdoviruses. This study provides, to our knowledge, the first molecular characterization of EVA, brings new insights to the evolutionary dynamics of two genotypes of Anguillid rhabdovirus, and is a baseline for further investigations on the tracking of its spread.

Published
2014
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48. Molecular epidemiology of betanodaviruses isolated from sea bass and sea bream cultured along the Tunisian coasts.

Author

Haddad-Boubaker S, Bigarré L, Bouzgarou N, Megdich A, Baud M, Cabon J, and Chéhida NB

Subjects
Animals, Aquaculture, Genotype, Molecular Epidemiology, Molecular Sequence Data, Nodaviridae classification, Nodaviridae genetics, RNA Virus Infections epidemiology, RNA Virus Infections virology, RNA, Viral genetics, Reverse Transcriptase Polymerase Chain Reaction, Sequence Analysis, DNA, Tunisia epidemiology, Bass virology, Fish Diseases epidemiology, Fish Diseases virology, Nodaviridae isolation & purification, RNA Virus Infections veterinary, Sea Bream virology
Abstract

Viral nervous necrosis (VNN) is a serious viral disease affecting farmed sea bass (Dicentrarchus labrax). Only scarce molecular data are available on the disease-causing betanodavirus populations in Tunisia. Therefore, we carried out the first molecular survey of betanodaviruses in farmed sea bass and sea bream (Sparus aurata) along the Tunisian coasts. Among 81 samples from five farms, 20 tested positive with RT-PCR, not only in clinical cases but also in asymptomatic fish before and during outbreaks. Positive fish were found in all farms, except in one farm investigated in the south of Tunisia. Sequencing the fragments of both genomic components (RNA1 and RNA2) in 16 isolates revealed that the Tunisian viruses were related to the red-spotted grouper nervous necrosis virus (RGNNV) genotype. Furthermore, the newly sequenced isolates were generally highly related to one another suggesting a recent common ancestor. They also showed high identities with other isolates obtained from wild fishes in the Mediterranean, but were slightly more divergent from strains recently obtained from farmed fishes in the Mediterranean. The poor genetic diversity of the viral population along the Tunisian coasts is striking. One hypothesis is that it is the result of the maintenance of a homogenous genetic pool among infected wild fish, groupers for instance and subsequent dissemination to farmed fish over the seasons.

Published
2013
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49. Genetic diversity of perch rhabdoviruses isolates based on the nucleoprotein and glycoprotein genes.

Author

Talbi C, Cabon J, Baud M, Bourjaily M, de Boisséson C, Castric J, and Bigarré L

Subjects
Amino Acid Sequence, Animals, Antibodies, Viral, Base Sequence, DNA, Viral genetics, Europe, Fish Diseases virology, France, Genetic Variation, Glycoproteins chemistry, Glycoproteins genetics, Host-Pathogen Interactions, Models, Molecular, Molecular Sequence Data, Nucleocapsid Proteins genetics, Phylogeny, Protein Conformation, Rabbits, Rhabdoviridae classification, Rhabdoviridae isolation & purification, Rhabdoviridae pathogenicity, Rhabdoviridae Infections veterinary, Rhabdoviridae Infections virology, Sequence Homology, Amino Acid, Genes, Viral, Perches virology, Rhabdoviridae genetics
Abstract

Despite the increasing impact of rhabdoviruses in European percid farming, the diversity of the viral populations is still poorly investigated. To address this issue, we sequenced the partial nucleoprotein (N) and complete glycoprotein (G) genes of nine rhabdoviruses isolated from perch (Perca fluviatilis) between 1999 and 2010, mostly from France, and analyzed six of them by immunofluorescence antibody test (IFAT). Using two rabbit antisera raised against either the reference perch rhabdovirus (PRhV) isolated in 1980 or the perch isolate R6146, two serogroups were distinguished. Meanwhile, based on partial N and complete G gene analysis, perch rhabdoviruses were divided into four genogroups, A-B-D and E, with a maximum of 32.9% divergence (G gene) between isolates. A comparison of the G amino acid sequences of isolates from the two identified serogroups revealed several variable regions that might account for antigenic differences. Comparative analysis of perch isolates with other rhabdoviruses isolated from black bass, pike-perch and pike showed some strong phylogenetic relationships, suggesting cross-host transmission. Similarly, striking genetic similarities were shown between perch rhabdoviruses and isolates from other European countries and various ecological niches, most likely reflecting the circulation of viruses through fish trade as well as putative transfers from marine to freshwater fish. Phylogenetic relationships of the newly characterized viruses were also determined within the family Rhabdoviridae. The analysis revealed a genetic cluster containing only fish viruses, including all rhabdoviruses from perch, as well as siniperca chuatsi rhabdovirus (SCRV) and eel virus X (EVEX). This cluster was distinct from the one represented by spring viraemia of carp vesiculovirus (SVCV), pike fry rhabdovirus (PFRV) and mammalian vesiculoviruses. The new genetic data provided in the present study shed light on the diversity of rhabdoviruses infecting perch in France and support the hypothesis of circulation of these viruses between other hosts and regions within Europe.

Published
2011
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50. Investigation of Cyprinid herpesvirus-3 genetic diversity by a multi-locus variable number of tandem repeats analysis.

Author

Avarre JC, Madeira JP, Santika A, Zainun Z, Baud M, Cabon J, Caruso D, Castric J, Bigarré L, Engelsma M, and Maskur M

Subjects
Animals, France, Herpesviridae isolation & purification, Indonesia, Netherlands, Carps virology, Genetic Variation, Herpesviridae classification, Herpesviridae genetics, Minisatellite Repeats, Molecular Typing, Virology methods
Abstract

Cyprinid herpesvirus-3 (CyHV-3), or koi herpesvirus (KHV), is responsible for high mortalities in aquaculture of both common carp (Cyprinus carpio carpio) and koi carp (Cyprinus carpio koi) worldwide. The complete genomes of three CyHV-3 isolates showed more than 99% of DNA sequence identity, with the majority of differences located in short tandem repeats, also called VNTR (variable number of tandem repeats). By targeting these variations, eight loci were selected for genotyping CyHV-3 by multiple locus VNTR analysis (MLVA). CyHV-3 strains obtained after sequential in vivo infections exhibited identical MLVA profiles, whereas samples originating from a single isolate passaged 6 and 82 times in vitro exhibited mutations in two of the eight loci, suggesting a relatively slow genetic evolution rate of the VNTRs. The method was subsequently applied on 38 samples collected in Indonesia, France and the Netherlands. Globally, the isolates grouped in two main genetic clusters, each one divided in two subgroups including either CyHV-3-U/I or CyHV3-J. Interestingly, Indonesian strains were rather distant from CyHV-3-J isolate. The results of the present study indicate that these VNTR molecular markers are efficient in estimating the genetic diversity among CyHV-3 isolates and are therefore suitable for further molecular epidemiological studies., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published
2011
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