Anti-Hantavirus Monoclonal Antibody, Clone S32 (DMAB6475) This Product Is for Research Use Only and Is Not Intended for Diagnostic Use

Total Page：16

File Type：pdf, Size：1020Kb

Anti-Hantavirus Monoclonal antibody, Clone S32 (DMAB6475) This product is for research use only and is not intended for diagnostic use. PRODUCT INFORMATION Product Overview Monoclonal Antibody to Hantavirus Seoul Serotype Specificity S32 reacts with an epitope present on the nucleocapsid protein of Hantavirus strain R22 (also called Seoul or SEO) Target Hantavirus Immunogen Nucleocapsid protein of Hantavirus R22 strain Isotype IgG1 Source/Host Mouse Species Reactivity Hantavirus Clone S32 Conjugate Unconjugated Applications ELISA, IF, IHC-Fr Format Hybridoma culture supernatant Size 1 ea Buffer Reconstitute with 1 ml dist. water Preservative None Storage At 2-8℃ BACKGROUND Introduction Hantaviruses are negative sense RNA viruses in the Bunyaviridae family. Humans may be infected with hantaviruses through rodent bites, urine, saliva or contact with rodent waste products. Some hantaviruses cause potentially fatal diseases in humans, hemorrhagic fever with renal syndrome (HFRS) and hantavirus pulmonary syndrome (HPS), but others have not been associated with human disease. Human infections of hantaviruses have almost entirely been 45-1 Ramsey Road, Shirley, NY 11967, USA Email: [email protected] Tel: 1-631-624-4882 Fax: 1-631-938-8221 1 © Creative Diagnostics All Rights Reserved linked to human contact with rodent excrement, but recent human-to-human transmission has been reported with the Andes virus in South America. The name hantavirus is derived from the Hantan River area in South Korea, which provided the founding member of the group: Hantaan virus (HTNV), isolated in the late 1970s by Ho-Wang Lee and colleagues. HTNV is one of several hantaviruses that cause HFRS, formerly known as Korean hemorrhagic fever. Keywords Hanta virus ; Hantaan virus ; HV; Hantavirus; Hantavirus Seoul Serotype; Bunyaviridae; Group V; Andes virus; Amur virus; Azagny virus; Bayou virus; Black Creek Canal virus; Cano Delgadito virus; Calabazo virus; Carrizal virus; Catacamas virus; Choclo virus; Dobrava-Belgrade virus; El Moro Canyon virus; Hantaan virus; Huitzilac virus; Imjin virus; Isla Vista virus; Khabarovsk virus; Laguna Negra virus; Limestone Canyon virus; Monongahela virus; Montano virus; Muleshoe virus; Muju virus; New York virus; Oran virus; Playa de Oro virus; Prospect Hill virus; Puumala virus; Rio Mamore virus; Rio Segundo virus; Saaremaa virus; Seoul virus; Sin Nombre virus; Soochong virus; Thailand virus; Thottapalayam virus; Topografov virus; Tula virus 45-1 Ramsey Road, Shirley, NY 11967, USA Email: [email protected] Tel: 1-631-624-4882 Fax: 1-631-938-8221 2 © Creative Diagnostics All Rights Reserved.

Copy Link

Recommended publications

RS 97 GE 33 KOR Eng.Pdf
(WP)CDS/ICP/OCD/OII-E English only Report series number: RS/97/GE/33(KOR) REPORT WORKING GROUP ON THE PREVENTION AND CONTROL OF HANT AVIRUS INFECTIONS Convened by: WORLD HEALTH ORGANIZATION REGIONAL OFFICE FOR THE WESTERN PACIFIC Seoul, Republic of Korea 5-6 November 1997 Not for sale Printed and distributed by: World Health Organization Regional Office for the Western Pacific Manila, Philippines June 1998 " 1 ..i A{Ij 1999 NOTE The issue of this document does not constitute fonnal publication. It should not be reviewed, abstracted or quoted without the agreement of the World Health Organization. The authors alone are responsible for the views expressed. This report has been prepared by the World Health Regional Office for the Western Pacific for goveruments of Member States in the Region and for those who participated in the meeting of the Working Group on the Prevention and Control of Hantavirus Infections, which was held in Seoul, Republic of Korea from 5 to 6 November 1997. CONTENTS SUMMARY I. INTRODUCTION ................................................................................................................. 1 2. PROCEEDINGS .................................................................................................................... I 2.1 Update on the epidemiological situation of hantavirus infections ................................ I 2.2 Update of laboratory diagnosis ..................................................................................... 5 2.3 Update of vaccines ................................................
[Show full text]
Genetic Diversity of Dengue Virus in Clinical Specimens from Bangkok
Tropical Medicine and Infectious Disease Article Genetic Diversity of Dengue Virus in Clinical Specimens from Bangkok, Thailand, during 2018–2020: Co-Circulation of All Four Serotypes with Multiple Genotypes and/or Clades Kanaporn Poltep 1,2,3 , Juthamas Phadungsombat 2,4 , Emi E. Nakayama 2,4 , Nathamon Kosoltanapiwat 1 , Borimas Hanboonkunupakarn 5, Witthawat Wiriyarat 3, Tatsuo Shioda 2,4,* and Pornsawan Leaungwutiwong 1,* 1 Department of Microbiology and Immunology, Faculty of Tropical Medicine, Mahidol University, Bangkok 10400, Thailand; [email protected] (K.P.); [email protected] (N.K.) 2 Mahidol-Osaka Center for Infectious Diseases (MOCID), Faculty of Tropical Medicine, Mahidol University, Bangkok 10400, Thailand; [email protected] (J.P.); [email protected] (E.E.N.) 3 The Monitoring and Surveillance Center for Zoonotic Diseases in Wildlife and Exotic Animals, Faculty of Veterinary Science, Mahidol University, Nakhon Pathom 73170, Thailand; [email protected] 4 Department of Viral Infections, Research Institute for Microbial Diseases (RIMD), Osaka University, Osaka 565-0871, Japan 5 Department of Clinical Tropical Medicine, Faculty of Tropical Medicine, Mahidol University, Bangkok 10400, Thailand; [email protected] * Correspondence: [email protected] (T.S.); [email protected] (P.L.) Citation: Poltep, K.; Phadungsombat, Abstract: Dengue is an arboviral disease highly endemic in Bangkok, Thailand. To characterize J.; Nakayama, E.E.; Kosoltanapiwat, the current genetic diversity of dengue virus (DENV), we recruited patients with suspected DENV N.; Hanboonkunupakarn, B.; infection at the Hospital for Tropical Diseases, Bangkok, during 2018–2020. We determined complete Wiriyarat, W.; Shioda, T.; nucleotide sequences of the DENV envelope region for 111 of 276 participant serum samples.
[Show full text]
TRBA 462 "Einstufung Von Viren in Risikogruppen"
Quelle: Bundesanstalt für Arbeitsschutz und Arbeitsmedizin - www.baua.de ArbSch 5.2.462 TRBA 462 „Einstufung von Viren in Risikogruppen“ Seite 1 Ausgabe: April 2012 GMBl Nr. 15-20 vom 25.4.2012 7. Änderung vom 10.11.2020, GMBl Nr. 45 Technische Regeln für Einstufung von Viren in TRBA 462 Biologische Arbeitsstoffe Risikogruppen Die Technischen Regeln für Biologische Arbeitsstoffe (TRBA) geben den Stand der Technik, Arbeitsmedizin und Arbeitshygiene sowie sonstige gesicherte wissenschaftliche Erkenntnisse für Tätigkeiten mit biologischen Arbeitsstoffen, einschließlich deren Einstufung, wieder. Sie werden vom Ausschuss für Biologische Arbeitsstoffe ermittelt bzw. angepasst und vom Bundesministerium für Arbeit und Soziales im Gemeinsamen Ministerialblatt (GMBl) bekannt gegeben. Diese TRBA „Einstufung von Viren in Risikogruppen“ konkretisiert im Rahmen des Anwendungsbereichs die Anforderungen der Biostoffverordnung. Bei Einhaltung der Technischen Regeln kann der Arbeitgeber insoweit davon ausgehen, dass die entsprechenden Anforderungen der Verordnung erfüllt sind. Wählt der Arbeitgeber eine andere Lösung, muss er damit mindestens die gleiche Sicherheit und den gleichen Gesundheitsschutz für die Beschäftigten erreichen. Die vorliegende Technische Regel beruht auf der BGI 631 „Sichere Biotechnologie – Einstufung biologischer Arbeitsstoffe: Viren“ des Fachausschusses „Chemie“ der Deutschen Gesetzlichen Unfallversicherung (DGUV). Der Ausschuss für Biologische Arbeitsstoffe hat die Inhalte der BGI 631 „Sichere Biotechnologie – Einstufung biologischer
[Show full text]
Geographic Distribution of Hantaviruses Associated with Neotomine and Sigmodontine Rodents, Mexico Mary L
Geographic Distribution of Hantaviruses Associated with Neotomine and Sigmodontine Rodents, Mexico Mary L. Milazzo,1 Maria N.B. Cajimat,1 Hannah E. Romo, Jose G. Estrada-Franco, L. Ignacio Iñiguez-Dávalos, Robert D. Bradley, and Charles F. Fulhorst To increase our knowledge of the geographic on the North American continent are Bayou virus, Black distribution of hantaviruses associated with neotomine or Creek Canal virus (BCCV), Choclo virus (CHOV), New sigmodontine rodents in Mexico, we tested 876 cricetid York virus, and Sin Nombre virus (SNV) (3–7). Other rodents captured in 18 Mexican states (representing at hantaviruses that are principally associated with neotomine least 44 species in the subfamily Neotominae and 10 or North American sigmodontine rodents include Carrizal species in the subfamily Sigmodontinae) for anti-hantavirus virus (CARV), Catacamas virus, El Moro Canyon virus IgG. We found antibodies against hantavirus in 35 (4.0%) rodents. Nucleotide sequence data from 5 antibody-positive (ELMCV), Huitzilac virus (HUIV), Limestone Canyon rodents indicated that Sin Nombre virus (the major cause of virus (LSCV), Montano virus (MTNV), Muleshoe virus hantavirus pulmonary syndrome [HPS] in the United States) (MULV), Playa de Oro virus, and Rio Segundo virus is enzootic in the Mexican states of Nuevo León, San Luis (RIOSV) (8–14). Potosí, Tamaulipas, and Veracruz. However, HPS has not Speciﬁ c rodents (usually 1 or 2 closely related been reported from these states, which suggests that in species) are the principal hosts of the hantaviruses, northeastern Mexico, HPS has been confused with other for which natural host relationships have been well rapidly progressive, life-threatening respiratory diseases.
[Show full text]
ABSTRACT Vector-Borne Viral Infections in South-West
저작자표시-비영리-변경금지 2.0 대한민국 이용자는 아래의 조건을 따르는 경우에 한하여 자유롭게 l 이 저작물을 복제, 배포, 전송, 전시, 공연 및 방송할 수 있습니다. 다음과 같은 조건을 따라야 합니다: 저작자표시. 귀하는 원저작자를 표시하여야 합니다. 비영리. 귀하는 이 저작물을 영리 목적으로 이용할 수 없습니다. 변경금지. 귀하는 이 저작물을 개작, 변형 또는 가공할 수 없습니다. l 귀하는, 이 저작물의 재이용이나 배포의 경우, 이 저작물에 적용된 이용허락조건 을 명확하게 나타내어야 합니다. l 저작권자로부터 별도의 허가를 받으면 이러한 조건들은 적용되지 않습니다. 저작권법에 따른 이용자의 권리는 위의 내용에 의하여 영향을 받지 않습니다. 이것은 이용허락규약(Legal Code)을 이해하기 쉽게 요약한 것입니다. Disclaimer August 2016 Master’s Degree Thesis Vector-Borne Viral Infections in South-West Region of Korea Graduate School of Chosun University Department of Biomedical Sciences Babita Jha August 2016 Master’s Degree Thesis Vector-Borne Viral Infections in South-West Region of Korea Graduate School of Chosun University Department of Biomedical Sciences Babita Jha Vector-Borne Viral Infections in South-West Region of Korea 한국의 남서부 지역에서 매개체 관련 바이러스 질환 August, 2016 Graduate School of Chosun University Department of Biomedical Sciences Babita Jha Vector-Borne Viral Infections in South-West Region of Korea Advisor: Prof. Dong-Min Kim, MD, PhD THESIS SUBMITTED TO THE DEPARTMENT OF BIOMEDICAL SCIENCES, CHOSUN UNIVERSITY IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF MASTER OF BIOMEDICAL SCIENCES April, 2016 Graduate School of Chosun University Department of Biomedical Sciences Submitted by Babita Jha August Master’s Vector-Borne Viral Infections in Babita Jha Degree 2016 Thesis South-West Region of Korea Table of Contents LIST OF TABLES……………………….................iv LIST OF FIGURES…………………………………v ABBREVIATIONS AND SYMBOLS…………….vi ABSTRACT…………………………………...…….ix 한 글 요 약……………………………………...…..xii I.
[Show full text]
2020 Taxonomic Update for Phylum Negarnaviricota (Riboviria: Orthornavirae), Including the Large Orders Bunyavirales and Mononegavirales
Archives of Virology https://doi.org/10.1007/s00705-020-04731-2 VIROLOGY DIVISION NEWS 2020 taxonomic update for phylum Negarnaviricota (Riboviria: Orthornavirae), including the large orders Bunyavirales and Mononegavirales Jens H. Kuhn1 · Scott Adkins2 · Daniela Alioto3 · Sergey V. Alkhovsky4 · Gaya K. Amarasinghe5 · Simon J. Anthony6,7 · Tatjana Avšič‑Županc8 · María A. Ayllón9,10 · Justin Bahl11 · Anne Balkema‑Buschmann12 · Matthew J. Ballinger13 · Tomáš Bartonička14 · Christopher Basler15 · Sina Bavari16 · Martin Beer17 · Dennis A. Bente18 · Éric Bergeron19 · Brian H. Bird20 · Carol Blair21 · Kim R. Blasdell22 · Steven B. Bradfute23 · Rachel Breyta24 · Thomas Briese25 · Paul A. Brown26 · Ursula J. Buchholz27 · Michael J. Buchmeier28 · Alexander Bukreyev18,29 · Felicity Burt30 · Nihal Buzkan31 · Charles H. Calisher32 · Mengji Cao33,34 · Inmaculada Casas35 · John Chamberlain36 · Kartik Chandran37 · Rémi N. Charrel38 · Biao Chen39 · Michela Chiumenti40 · Il‑Ryong Choi41 · J. Christopher S. Clegg42 · Ian Crozier43 · John V. da Graça44 · Elena Dal Bó45 · Alberto M. R. Dávila46 · Juan Carlos de la Torre47 · Xavier de Lamballerie38 · Rik L. de Swart48 · Patrick L. Di Bello49 · Nicholas Di Paola50 · Francesco Di Serio40 · Ralf G. Dietzgen51 · Michele Digiaro52 · Valerian V. Dolja53 · Olga Dolnik54 · Michael A. Drebot55 · Jan Felix Drexler56 · Ralf Dürrwald57 · Lucie Dufkova58 · William G. Dundon59 · W. Paul Duprex60 · John M. Dye50 · Andrew J. Easton61 · Hideki Ebihara62 · Toufc Elbeaino63 · Koray Ergünay64 · Jorlan Fernandes195 · Anthony R. Fooks65 · Pierre B. H. Formenty66 · Leonie F. Forth17 · Ron A. M. Fouchier48 · Juliana Freitas‑Astúa67 · Selma Gago‑Zachert68,69 · George Fú Gāo70 · María Laura García71 · Adolfo García‑Sastre72 · Aura R. Garrison50 · Aiah Gbakima73 · Tracey Goldstein74 · Jean‑Paul J. Gonzalez75,76 · Anthony Grifths77 · Martin H. Groschup12 · Stephan Günther78 · Alexandro Guterres195 · Roy A.
[Show full text]
Hantavirus Disease Were HPS Is More Common in Late Spring and Early Summer in Seropositive in One Study in the U.K
Hantavirus Importance Hantaviruses are a large group of viruses that circulate asymptomatically in Disease rodents, insectivores and bats, but sometimes cause illnesses in humans. Some of these agents can occur in laboratory rodents or pet rats. Clinical cases in humans vary in Hantavirus Fever, severity: some hantaviruses tend to cause mild disease, typically with complete recovery; others frequently cause serious illnesses with case fatality rates of 30% or Hemorrhagic Fever with Renal higher. Hantavirus infections in people are fairly common in parts of Asia, Europe and Syndrome (HFRS), Nephropathia South America, but they seem to be less frequent in North America. Hantaviruses may Epidemica (NE), Hantavirus occasionally infect animals other than their usual hosts; however, there is currently no Pulmonary Syndrome (HPS), evidence that they cause any illnesses in these animals, with the possible exception of Hantavirus Cardiopulmonary nonhuman primates. Syndrome, Hemorrhagic Nephrosonephritis, Epidemic Etiology Hemorrhagic Fever, Korean Hantaviruses are members of the genus Orthohantavirus in the family Hantaviridae Hemorrhagic Fever and order Bunyavirales. As of 2017, 41 species of hantaviruses had officially accepted names, but there is ongoing debate about which viruses should be considered discrete species, and additional viruses have been discovered but not yet classified. Different Last Updated: September 2018 viruses tend to be associated with the two major clinical syndromes in humans, hemorrhagic fever with renal syndrome (HFRS) and hantavirus pulmonary (or cardiopulmonary) syndrome (HPS). However, this distinction is not absolute: viruses that are usually associated with HFRS have been infrequently linked to HPS and vice versa. A mild form of HFRS in Europe is commonly called nephropathia epidemica.
[Show full text]
Taxonomy of the Order Bunyavirales: Update 2019
Archives of Virology (2019) 164:1949–1965 https://doi.org/10.1007/s00705-019-04253-6 VIROLOGY DIVISION NEWS Taxonomy of the order Bunyavirales: update 2019 Abulikemu Abudurexiti1 · Scott Adkins2 · Daniela Alioto3 · Sergey V. Alkhovsky4 · Tatjana Avšič‑Županc5 · Matthew J. Ballinger6 · Dennis A. Bente7 · Martin Beer8 · Éric Bergeron9 · Carol D. Blair10 · Thomas Briese11 · Michael J. Buchmeier12 · Felicity J. Burt13 · Charles H. Calisher10 · Chénchén Cháng14 · Rémi N. Charrel15 · Il Ryong Choi16 · J. Christopher S. Clegg17 · Juan Carlos de la Torre18 · Xavier de Lamballerie15 · Fēi Dèng19 · Francesco Di Serio20 · Michele Digiaro21 · Michael A. Drebot22 · Xiaˇoméi Duàn14 · Hideki Ebihara23 · Toufc Elbeaino21 · Koray Ergünay24 · Charles F. Fulhorst7 · Aura R. Garrison25 · George Fú Gāo26 · Jean‑Paul J. Gonzalez27 · Martin H. Groschup28 · Stephan Günther29 · Anne‑Lise Haenni30 · Roy A. Hall31 · Jussi Hepojoki32,33 · Roger Hewson34 · Zhìhóng Hú19 · Holly R. Hughes35 · Miranda Gilda Jonson36 · Sandra Junglen37,38 · Boris Klempa39 · Jonas Klingström40 · Chūn Kòu14 · Lies Laenen41,42 · Amy J. Lambert35 · Stanley A. Langevin43 · Dan Liu44 · Igor S. Lukashevich45 · Tāo Luò1 · Chuánwèi Lüˇ 19 · Piet Maes41 · William Marciel de Souza46 · Marco Marklewitz37,38 · Giovanni P. Martelli47 · Keita Matsuno48,49 · Nicole Mielke‑Ehret50 · Maria Minutolo3 · Ali Mirazimi51 · Abulimiti Moming14 · Hans‑Peter Mühlbach50 · Rayapati Naidu52 · Beatriz Navarro20 · Márcio Roberto Teixeira Nunes53 · Gustavo Palacios25 · Anna Papa54 · Alex Pauvolid‑Corrêa55 · Janusz T. Pawęska56,57 · Jié Qiáo19 · Sheli R. Radoshitzky25 · Renato O. Resende58 · Víctor Romanowski59 · Amadou Alpha Sall60 · Maria S. Salvato61 · Takahide Sasaya62 · Shū Shěn19 · Xiǎohóng Shí63 · Yukio Shirako64 · Peter Simmonds65 · Manuela Sironi66 · Jin‑Won Song67 · Jessica R. Spengler9 · Mark D. Stenglein68 · Zhèngyuán Sū19 · Sùróng Sūn14 · Shuāng Táng19 · Massimo Turina69 · Bó Wáng19 · Chéng Wáng1 · Huálín Wáng19 · Jūn Wáng19 · Tàiyún Wèi70 · Anna E.
[Show full text]
Cardiopulmonary Involvement in Puumala Hantavirus Infection
Cardiopulmonary involvement in Puumala hantavirus infection Johan Rasmuson Department of Clinical Microbiology Umeå 2015 Responsible publisher under Swedish law: the Dean of the Medical Faculty This work is protected by the Swedish Copyright Legislation (Act 1960:729) ISBN: 978-91-7601-215-4 ISSN: 0346-6612 Cover photo: Johan Rasmuson Elektronisk version tillgänglig på http://umu.diva-portal.org/ Printed by: Print & Media Umeå, Sweden 2015 To my beloved wife Table of Contents Abstract iii Populärvetenskaplig sammanfattning v Abbreviations vii Original Papers ix Introduction 1 History of hantaviruses 1 Hantavirus infections in the animal host 4 Hantavirus infections in humans 4 Initial symptoms and laboratory findings 4 Hantavirus syndromes 5 Hemorrhagic fever with renal syndrome 5 Hantavirus cardiopulmonary syndrome 8 Cardiopulmonary involvement in HFRS 9 Diagnosing hantavirus infection 12 Person-to-person transmission 12 Hantavirus pathogenesis 13 Animal models 13 Hantavirus distribution during infection 13 Cell-mediated immune responses 16 Genesis of vascular leakage 19 Disease severity 20 Treatment 20 Aims 23 Subjects and methods 25 Study subjects 25 Clinical data and disease severity 25 Bronchoscopy, biopsy sampling and bronchoalveolar lavage 26 Bronchoalveolar cell differential count 26 Flow cytometry 26 Tissue processing and immunohistochemistry 27 Analyses of granzymes and selected cytokines 28 Quantitative RT-PCR 28 Lung function 28 High-resolution computed tomography 28 Cardiac function 29 Cardiac biomarkers 29 Statistical analyses 30 i Main results and discussion 31 Paper I – Severe Puumala virus infection 31 Paper II – Immune responses in blood and lungs 32 Paper III – Cardiopulmonary involvement 34 Paper IV – Viral load and immune responses in the lungs 37 Concluding remarks 39 Conclusions 43 Acknowledgements 44 References 47 ii Abstract Puumala hantavirus (PUUV) causes hemorrhagic fever with renal syndrome in Europe.
[Show full text]
Taxonomy of the Family Arenaviridae and the Order Bunyavirales: Update 2018
Archives of Virology https://doi.org/10.1007/s00705-018-3843-5 VIROLOGY DIVISION NEWS Taxonomy of the family Arenaviridae and the order Bunyavirales: update 2018 Piet Maes1 · Sergey V. Alkhovsky2 · Yīmíng Bào3 · Martin Beer4 · Monica Birkhead5 · Thomas Briese6 · Michael J. Buchmeier7 · Charles H. Calisher8 · Rémi N. Charrel9 · Il Ryong Choi10 · Christopher S. Clegg11 · Juan Carlos de la Torre12 · Eric Delwart13,14 · Joseph L. DeRisi15 · Patrick L. Di Bello16 · Francesco Di Serio17 · Michele Digiaro18 · Valerian V. Dolja19 · Christian Drosten20,21,22 · Tobiasz Z. Druciarek16 · Jiang Du23 · Hideki Ebihara24 · Toufc Elbeaino18 · Rose C. Gergerich16 · Amethyst N. Gillis25 · Jean‑Paul J. Gonzalez26 · Anne‑Lise Haenni27 · Jussi Hepojoki28,29 · Udo Hetzel29,30 · Thiện Hồ16 · Ní Hóng31 · Rakesh K. Jain32 · Petrus Jansen van Vuren5,33 · Qi Jin34,35 · Miranda Gilda Jonson36 · Sandra Junglen20,22 · Karen E. Keller37 · Alan Kemp5 · Anja Kipar29,30 · Nikola O. Kondov13 · Eugene V. Koonin38 · Richard Kormelink39 · Yegor Korzyukov28 · Mart Krupovic40 · Amy J. Lambert41 · Alma G. Laney42 · Matthew LeBreton43 · Igor S. Lukashevich44 · Marco Marklewitz20,22 · Wanda Markotter5,33 · Giovanni P. Martelli45 · Robert R. Martin37 · Nicole Mielke‑Ehret46 · Hans‑Peter Mühlbach46 · Beatriz Navarro17 · Terry Fei Fan Ng14 · Márcio Roberto Teixeira Nunes47,48 · Gustavo Palacios49 · Janusz T. Pawęska5,33 · Clarence J. Peters50 · Alexander Plyusnin28 · Sheli R. Radoshitzky49 · Víctor Romanowski51 · Pertteli Salmenperä28,52 · Maria S. Salvato53 · Hélène Sanfaçon54 · Takahide Sasaya55 · Connie Schmaljohn49 · Bradley S. Schneider25 · Yukio Shirako56 · Stuart Siddell57 · Tarja A. Sironen28 · Mark D. Stenglein58 · Nadia Storm5 · Harikishan Sudini59 · Robert B. Tesh48 · Ioannis E. Tzanetakis16 · Mangala Uppala59 · Olli Vapalahti28,30,60 · Nikos Vasilakis48 · Peter J. Walker61 · Guópíng Wáng31 · Lìpíng Wáng31 · Yànxiăng Wáng31 · Tàiyún Wèi62 · Michael R.
[Show full text]
Yellow Head Virus: Transmission and Genome Analyses
The University of Southern Mississippi The Aquila Digital Community Dissertations Fall 12-2008 Yellow Head Virus: Transmission and Genome Analyses Hongwei Ma University of Southern Mississippi Follow this and additional works at: https://aquila.usm.edu/dissertations Part of the Aquaculture and Fisheries Commons, Biology Commons, and the Marine Biology Commons Recommended Citation Ma, Hongwei, "Yellow Head Virus: Transmission and Genome Analyses" (2008). Dissertations. 1149. https://aquila.usm.edu/dissertations/1149 This Dissertation is brought to you for free and open access by The Aquila Digital Community. It has been accepted for inclusion in Dissertations by an authorized administrator of The Aquila Digital Community. For more information, please contact [email protected]. The University of Southern Mississippi YELLOW HEAD VIRUS: TRANSMISSION AND GENOME ANALYSES by Hongwei Ma Abstract of a Dissertation Submitted to the Graduate Studies Office of The University of Southern Mississippi in Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy December 2008 COPYRIGHT BY HONGWEI MA 2008 The University of Southern Mississippi YELLOW HEAD VIRUS: TRANSMISSION AND GENOME ANALYSES by Hongwei Ma A Dissertation Submitted to the Graduate Studies Office of The University of Southern Mississippi in Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy Approved: December 2008 ABSTRACT YELLOW HEAD VIRUS: TRANSMISSION AND GENOME ANALYSES by I Iongwei Ma December 2008 Yellow head virus (YHV) is an important pathogen to shrimp aquaculture. Among 13 species of naturally YHV-negative crustaceans in the Mississippi coastal area, the daggerblade grass shrimp, Palaemonetes pugio, and the blue crab, Callinectes sapidus, were tested for potential reservoir and carrier hosts of YHV using PCR and real time PCR.
[Show full text]
Taxonomy of the Order Bunyavirales: Second Update 2018
HHS Public Access Author manuscript Author ManuscriptAuthor Manuscript Author Arch Virol Manuscript Author . Author manuscript; Manuscript Author available in PMC 2020 March 01. Published in final edited form as: Arch Virol. 2019 March ; 164(3): 927–941. doi:10.1007/s00705-018-04127-3. TAXONOMY OF THE ORDER BUNYAVIRALES: SECOND UPDATE 2018 A full list of authors and affiliations appears at the end of the article. Abstract In October 2018, the order Bunyavirales was amended by inclusion of the family Arenaviridae, abolishment of three families, creation of three new families, 19 new genera, and 14 new species, and renaming of three genera and 22 species. This article presents the updated taxonomy of the order Bunyavirales as now accepted by the International Committee on Taxonomy of Viruses (ICTV). Keywords Arenaviridae; arenavirid; arenavirus; bunyavirad; Bunyavirales; bunyavirid; Bunyaviridae; bunyavirus; emaravirus; Feraviridae; feravirid, feravirus; fimovirid; Fimoviridae; fimovirus; goukovirus; hantavirid; Hantaviridae; hantavirus; hartmanivirus; herbevirus; ICTV; International Committee on Taxonomy of Viruses; jonvirid; Jonviridae; jonvirus; mammarenavirus; nairovirid; Nairoviridae; nairovirus; orthobunyavirus; orthoferavirus; orthohantavirus; orthojonvirus; orthonairovirus; orthophasmavirus; orthotospovirus; peribunyavirid; Peribunyaviridae; peribunyavirus; phasmavirid; phasivirus; Phasmaviridae; phasmavirus; phenuivirid; Phenuiviridae; phenuivirus; phlebovirus; reptarenavirus; tenuivirus; tospovirid; Tospoviridae; tospovirus; virus classification; virus nomenclature; virus taxonomy INTRODUCTION The virus order Bunyavirales was established in 2017 to accommodate related viruses with segmented, linear, single-stranded, negative-sense or ambisense RNA genomes classified into 9 families [2]. Here we present the changes that were proposed via an official ICTV taxonomic proposal (TaxoProp 2017.012M.A.v1.Bunyavirales_rev) at http:// www.ictvonline.org/ in 2017 and were accepted by the ICTV Executive Committee (EC) in [email protected].
[Show full text]