布尼亚病毒目新分类概述

doi:10.17520/biods.2018042

生物多样性 ›› 2018, Vol. 26 ›› Issue (9): 1004-1015. DOI: 10.17520/biods.2018042

布尼亚病毒目新分类概述

唐霜, 沈姝, 史君明, 方耀辉, 王华林, 胡志红, 邓菲^*()

中国科学院武汉病毒研究所微生物菌毒种保藏中心, 武汉 430071

收稿日期:2018-02-07 接受日期:2018-04-04 出版日期:2018-09-20 发布日期:2019-01-05
通讯作者: 邓菲
作者简介:# 共同第一作者
基金资助:
科技部国家重点研发计划政府间专项项目(2016YFE0113500)、中国科学院战略生物资源服务网络计划生物遗传资源库保藏能力建设项目(ZSSB-002)、科技基础性工作专项重点项目(2013FY113500)和湖北省科技条件平台建设项目(2017BEC003)

A review and novel classification of Bunyavirales

Shuang Tang, Shu Shen, Junming Shi, Yaohui Fang, Hualin Wang, Zhihong Hu, Fei Deng^*()

Microorganisms & Viruses Culture Collection Center, Wuhan Institute of Virology, Chinese Academy of Sciences, Wuhan 430071

Received:2018-02-07 Accepted:2018-04-04 Online:2018-09-20 Published:2019-01-05
Contact: Deng Fei
About author:# Co-first authors

摘要/Abstract

摘要：

布尼亚病毒目中许多病毒是新发现的, 而且对人类健康构成威胁或潜在威胁。本文结合国际病毒分类委员会(ICTV) 2017年第十次报告, 针对新列的布尼亚病毒目的最新分类系统, 总结了该类病毒 ICTV 分类的历史变化情况, 对其下属各病毒科的分类、中英文定名、代表种、病毒形态、病毒基因组结构、编码蛋白、病毒主要传播媒介、病毒感染宿主、地理分布、理化特性等进行了介绍, 并且基于病毒基因组的编码RdRp的基因序列对9个科13个属的布尼亚病毒做了系统发育分析。

关键词: 布尼亚病毒目, 分类, ICTV, 变化, 病毒

Abstract

Most members of the Bunyavirales could infect humans and animals and thus pose great potential threat to public health. According to the 10^th Report on Virus Taxonomy released by the International Committee on Taxonomy of Viruses (ICTV, 2017), the taxonomy of Bunyaviruses has been updated. Based on the information of this report, we highlight the taxonomy of the new Bunyavirales and summarize the historical changes of ICTV classification of this virus, including classification, designation, typical species, genomic structures, encoding protein, major vectors and hosts, geographic distribution, and specific viral properties. In addition, based on the viral genome-encoded RdRp gene sequence, a phylogenetic analysis is performed for the all nine families and 13 genera as well as the representative species of Bunyavirales.

Key words: Bunyavirales, taxonomy, ICTV, change, virus

唐霜, 沈姝, 史君明, 方耀辉, 王华林, 胡志红, 邓菲 (2018) 布尼亚病毒目新分类概述. 生物多样性, 26, 1004-1015. DOI: 10.17520/biods.2018042.

Shuang Tang, Shu Shen, Junming Shi, Yaohui Fang, Hualin Wang, Zhihong Hu, Fei Deng (2018) A review and novel classification of Bunyavirales. Biodiversity Science, 26, 1004-1015. DOI: 10.17520/biods.2018042.

导出引用管理器 EndNote|Ris|BibTeX

链接本文: https://www.biodiversity-science.net/CN/10.17520/biods.2018042

https://www.biodiversity-science.net/CN/Y2018/V26/I9/1004

图/表 2

参考文献 63

[1]	Adkins S (2000) Tomato spotted wilt virus—positive steps towards negative success. Molecular Plant Pathology, 1, 151-157.
[2]	Arai S, Nguyen ST, Boldgiv B, Fukui D, Araki K, Dang CN, Ohdachi SD, Nguyen NX, Pham TD, Boldbaatar B, Satoh H, Yoshikawa Y, Morikawa S, Tanaka-Taya K, Yanagihara R, Oishi K (2013) Novel bat-borne hantavirus, Vietnam. Emerging Infectious Diseases, 19, 1159-1161.
[3]	Auguste AJ, Carrington CV, Forrester NL, Popov VL, Guzman H, Widen SG, Wood TG, Weaver SC, Tesh RB (2014) Characterization of a novel negevirus and a novel Bunyavirus isolated from Culex (Culex) declarator mosquitoes in Trinidad. Journal of General Virology, 95, 481-485.
[4]	Ballinger MJ, Bruenn JA, Hay J, Czechowski D, Taylor DJ (2014) Discovery and evolution of bunyavirids in arctic phantom midges and ancient bunyavirid-like sequences in insect genomes. Journal of Virology, 88, 8783-8794.
[5]	Bezerra IC, de Resende R, Pozzer L, Nagata T, Kormelink R, De Avila AC (1999) Increase of tospoviral diversity in Brazil with the identification of two new tospovirus species, one from chrysanthemum and one from zucchini. Phytopathology, 89, 823-830.
[6]	Carstens EB (2010) Ratification vote on taxonomic proposals to the International Committee on Taxonomy of Viruses (2009). Archives of Virology, 155, 133-146.
[7]	Chandler JA, Thongsripong P, Green A, Kittayapong P, Wilcox BA, Schroth GP, Kapan DD, Bennett SN (2014) Metagenomic shotgun sequencing of a Bunyavirus in wild-caught Aedes aegypti from Thailand informs the evolutionary and genomic history of the Phleboviruses. Virology, 464-465, 312-319.
[8]	Chung HC, Nguyen VG, Goede D, Park CH, Kim AR, Moon HJ, Park SJ, Kim HK, Park BK (2014) Gouleako and Herbert viruses in pigs, Republic of Korea, 2013. Emerging Infectious Diseases, 20, 2072-2075.
[9]	Davies FG (1997) Nairobi sheep disease. Parassitologia, 39, 95-98.
[10]	Elbeaino T, Digiaro M, Alabdullah A, De Stradis A, Minafra A, Mielke N, Castellano MA, Martelli GP (2009a) A multipartite single-stranded negative-sense RNA virus is the putative agent of fig mosaic disease. Journal of General Virology, 90, 1281-1288.
[11]	Elbeaino T, Digiaro M, Martelli GP (2009b) Complete nucleotide sequence of four RNA segments of fig mosaic virus. Archives of Virology, 154, 1719-1727.
[12]	Elbeaino T, Digiaro M, Uppala M, Sudini H (2014) Deep sequencing of pigeonpea sterility mosaic virus discloses five RNA segments related to emaraviruses. Virus Research, 188, 27-31.
[13]	Elbeaino T, Digiaro M, Uppala M, Sudini H (2015) Addendum to: Deep-sequencing of dsRNAs recovered from mosaic-diseased pigeonpea reveals the presence of a novel emaravirus: Pigeonpea sterility mosaic virus 2. Archives of Virology, 160, 2031.
[14]	Elliott RM (2014) Orthobunyaviruses: Recent genetic and structural insights. Nature Reviews Microbiology, 12, 673-685.
[15]	Ergonul O (2006) Crimean-Congo haemorrhagic fever. Lancet Infectious Diseases, 6, 203-214.
[16]	Ergonul O (2012) Crimean-Congo hemorrhagic fever virus: New outbreaks, new discoveries. Current Opinion in Virology, 2, 215-220.
[17]	Fang Y, Wu GH, Tang JQ (2015) Overview of virus infection in Buniaviridae. In: Natural Focus Infection Disease (ed. Tang JQ), pp. 46-57. Science Press, Beijing. (in Chinese)
	[方元, 吴光华, 唐家琪 (2015) 布尼亚病毒科病毒感染概述. 见: 自然疫源性疾病(唐家琪主编), 46-57页. 科学出版社, 北京.]
[18]	Francki RIB, Fauquet CM, Knudson DL, Brown F (1991) Classification and nomenclature of viruses. Fifth Report of the International Committee on Taxonomy of Viruses Archives of Virology. Archives of Virology, 2, 273-283.
[19]	Gerrard SR, Nichol ST (2007) Synthesis, proteolytic processing and complex formation of N-terminally nested precursor proteins of the Rift Valley fever virus glycoproteins. Virology, 357, 124-133.
[20]	Golovljova I, Vasilenko V, Mittzenkov V, Prükk T, Seppet E, Vene S, Settergren B, Plyusnin A, Lundkvist A (2007) Characterization of hemorrhagic fever with renal syndrome caused by hantaviruses, Estonia. Emerging Infectious Diseases, 13, 1773-1776.
[21]	Guterres A, de Oliveira RC, Fernandes J, de Lemos ER, Schrago CG (2017) New bunya-like viruses: Highlighting their relations. Infection Genetics and Evolution, 49, 164-173.
[22]	Hobson-Peters J, Warrilow D, McLean BJ, Watterson D, Colmant AM, van den Hurk AF, Hall-Mendelin S, Hastie ML, Gorman JJ, Harrison JJ, Prow NA, Barnard RT, Allcock R, Johansen CA, Hall RA (2016) Discovery and characterisation of a new insect-specific bunyavirus from Culex mosquitoes captured in northern Australia. Virology, 489, 269-281.
[23]	Ishikawa K, Maejima K, Komatsu K, Kitazawa Y, Hashimoto M, Takata D, Yamaji Y, Namba S (2012) Identification and characterization of two novel genomic RNA segments of fig mosaic virus, RNA5 and RNA6. Journal of General Virology, 93, 1612-1619.
[24]	Jiang H, Zheng X, Wang L, Du H, Wang P, Bai X (2017) Hantavirus infection: A global zoonotic challenge. Virologica Sinica, 32, 32-43.
[25]	Jonsson CB, Figueiredo LT, Vapalahti O (2010) A global perspective on hantavirus ecology, epidemiology, and disease. Clinical Microbiology Reviews, 23, 412-441.
[26]	Junglen S (2016) Evolutionary origin of pathogenic arthropod-borne viruses—a case study in the family Bunyaviridae. Current Opinion in Insect Science, 16, 81-86.
[27]	Junglen S, Kurth A, Kuehl H, Quan PL, Ellerbrok H, Pauli G, Nitsche A, Nunn C, Rich SM, Lipkin WI, Briese T, Leendertz FH (2009) Examining landscape factors influencing relative distribution of mosquito genera and frequency of virus infection. EcoHealth, 6, 239-249.
[28]	Junglen S, Marklewitz M, Zirkel F, Wollny R, Meyer B, Heidemann H, Metzger S, Annan A, Dei D, Leendertz FH, Oppong S, Drosten C (2015) No evidence of Gouléako and Herbert virus infections in pigs, Côte d’Ivoire and Ghana. Emerging Infectious Diseases, 21, 2190.
[29]	Khaiboullina SF, Morzunov SP, St Jeor SC (2005) Hantaviruses: Molecular biology, evolution and pathogenesis. Current Molecular Medicine, 5, 773-790.
[30]	King AMQ, Adams MJ, Carstens EB, Lefkowitz EJ (2011) Virus Taxonomy: Ninth Report of the International Committee on Taxonomy of Viruses. Elsevier Academic Press, London.
[31]	Korneyeva M, Hotta J, Lebing W, Rosenthal RS, Franks L, Petteway SR Jr (2002) Enveloped virus inactivation by caprylate: A robust alternative to solvent-detergent treatment in plasma derived intermediates. Biologicals, 30, 153-162.
[32]	Kuhn JH, Wiley MR, Rodriguez SE, Bào Y, Prieto K, Travassos da Rosa AP, Guzman H, Savji N, Ladner JT, Tesh RB, Wada J, Jahrling PB, Bente DA, Palacios G (2016) Genomic characterization of the genus Nairovirus (Family Bunyaviridae). Viruses, 8, 164.
[33]	Laney AG, Keller KE, Martin RR, Tzanetakis IE (2011) A discovery 70 years in the making: Characterization of the Rose rosette virus. Journal of General Virology, 92, 1727-1732.
[34]	Lee HW, Lee PW, Johnson KM (1978) Isolation of the etiologic agent of Korean Hemorrhagic fever. Journal of Infectious Diseases, 137, 298-308.
[35]	Lefkowitz EJ, Davison AJ, Sabanadzovic S, Siddell SG, Simmonds P (2017) Virus Taxonomy: The Classification and Nomenclature of Viruses, The Online (10th) Report of the ICTV (2017) Authority Files for International Committee on Taxonomy of Viruses. https://talk.ictvonline.org/ictv-reports
	/ictv_online_report/.
[36]	Li CX, Shi M, Tian JH, Lin XD, Kang YJ, Chen LJ, Qin XC, Xu J, Holmes EC, Zhang YZ (2015) Unprecedented genomic diversity of RNA viruses in arthropods reveals the ancestry of negative-sense RNA viruses. eLife, 4, e05378.
[37]	Marczinke BI, Nichol ST (2002) Nairobi sheep disease virus, an important tick-borne pathogen of sheep and goats in Africa, is also present in Asia. Virology, 303, 146-151.
[38]	Marklewitz M, Handrick S, Grasse W, Kurth A, Lukashev A, Drosten C, Ellerbrok H, Leendertz FH, Pauli G, Junglen S (2011) Gouleako virus isolated from West African mosquitoes constitutes a proposed novel genus in the family Bunyaviridae. Journal of Virology, 85, 9227-9234.
[39]	Marklewitz M, Zirkel F, Kurth A, Drosten C, Junglen S (2015) Evolutionary and phenotypic analysis of live virus isolates suggests arthropod origin of a pathogenic RNA virus family. Proceedings of the National Academy of Sciences, USA, 112, 7536-7541.
[40]	Marklewitz M, Zirkel F, Rwego IB, Heidemann H, Trippner P, Kurth A, Kallies R, Briese T, Lipkin WI, Drosten C, Gillespie TR, Junglen S (2013) Discovery of a unique novel clade of mosquito-associated bunyaviruses. Journal of Virology, 87, 12850-12865.
[41]	Mayo MA (2002a) Virus taxonomy—Houston 2002. Archives of Virology, 147, 1071-1076.
[42]	Mayo MA (2002b) A summary of taxonomic changes recently approved by ICTV. Archives of Virology, 147, 1655-1656.
[43]	McGavin WJ, Mitchell C, Cock PJ, Wright KM, MacFarlane SA (2012) Raspberry leaf blotch virus, a putative new member of the genus Emaravirus, encodes a novel genomic RNA. Journal of General Virology, 93, 430-437.
[44]	Mielke N, Muehlbach HP (2007) A novel, multipartite, negative-strand RNA virus is associated with the ringspot disease of European mountain ash (Sorbus aucuparia L.). Journal of General Virology, 88, 1337-1346.
[45]	Mir MA, Panganiban AT (2005) The hantavirus nucleocapsid protein recognizes specific features of the viral RNA panhandle and is altered in conformation upon RNA binding. Journal of Virology, 79, 1824-1835.
[46]	Oliveira VC, Bartasson L, de Castro ME, Corrêa JR, Ribeiro BM, Resende RO (2011) A silencing suppressor protein (NSs) of a tospovirus enhances baculovirus replication in permissive and semipermissive insect cell lines. Virus Research, 155, 259-267.
[47]	Pappu HR, Jones RA, Jain RK (2009) Global status of tospovirus epidemics in diverse cropping systems: Successes achieved and challenges ahead. Virus Research, 141, 219-236.
[48]	Pepin M, Bouloy M, Bird BH, Kemp A, Paweska J (2010) Rift Valley fever virus (Bunyaviridae: Phlebovirus): An update on pathogenesis, molecular epidemiology, vectors, diagnostics and prevention. Veterinary Research, 41, 61.
[49]	Plyusnin A, Beaty BJ, Elliott RM, Goldbach R, Kormelink R, Lundkvist A, Schmaljohn CS, Tesh RB (2011) Family Bunyaviridae. In: Virus Taxonomy Ninth Report of the International Committee on Taxonomy of Viruses (eds King AMQ, Adams MJ, Carstens EB, Lefkowitz EJ), pp. 725-741. Elsevier/Academic Press, London.
[50]	Pringle CR (1993) Virus taxonomy update. Taxonomic decisions ratified at the plenary meeting of the ICTV at the 9th international congress of virology held in Glasgow on the 10th August 1993. Archives of Virology, 133, 491-495.
[51]	Scholz S, Baharom F, Rankin G, Maleki KT, Gupta S, Vangeti S, Pourazar J, Discacciati A, Höijer J, Bottai M, Björkström NK, Rasmuson J, Evander M, Blomberg A, Ljunggren HG, Klingström J, Ahlm C, Smed-Sörensen A (2017) Human hantavirus infection elicits pronounced redistribution of mononuclear phagocytes in peripheral blood and airways. PLoS Pathog, 13, 1-24.
[52]	Skare JM, Wijkamp I, Denham I, Rezende JA, Kitajima EW, Park JW, Desvoyes B, Rush CM, Michels G, Scholthof KB, Scholthof HB (2006) A new eriophyid mite-borne membrane-enveloped virus-like complex isolated from plants. Virology, 347, 343-353.
[53]	Smirnova IP, Shneider YA, Karimova EV (2016) Trichoderma L-lysine-alpha-Oxidase producer strain culture fluid inhibits impatiens necrotic spot virus. Bulletin of Experimental Biology and Medicine, 160, 357-359.
[54]	Takeda A, Sugiyama K, Nagano H, Mori M, Kaido M, Mise K, Tsuda S, Okuno T (2002) Identification of a novel RNA silencing suppressor, NSs protein of tomato spotted wilt virus. FEBS Letters, 532, 75-79.
[55]	Tatineni S, McMechan AJ, Wosula EN, Wegulo SN, Graybosch RA, French R, Hein GL (2014) An eriophyid mite-transmitted plant virus contains eight genomic RNA segments with unusual heterogeneity in the nucleocapsid protein. Journal of Virology, 88, 11834-11845.
[56]	Tokarz R, Williams SH, Sameroff S, Sanchez Leon M, Jain K, Lipkin WI (2014) Virome analysis of Amblyomma americanum, Dermacentor variabilis, and Ixodes scapularis ticks reveals novel highly divergent vertebrate and invertebrate viruses. Journal of Virology, 88, 11480-11492.
[57]	Walker PJ, Widen SG, Firth C, Blasdell KR, Wood TG, Travassos da Rosa AP, Guzman H, Tesh RB, Vasilakis N (2015) Genomic characterization of Yogue, Kasokero, Issyk-Kul, Keterah, Gossas, and Thiafora viruses: Nairoviruses naturally infecting bats, shrews, and ticks. American Journal of Tropical Medicine and Hygiene, 93, 1041-1051.
[58]	Witkowski PT, Drexler JF, Kallies R, Ličková M, Bokorová S, Mananga GD, Szemes T, Leroy EM, Krüger DH, Drosten C, Klempa B (2016) Phylogenetic analysis of a newfound bat-borne hantavirus supports a laurasiatherian host association for ancestral mammalian hantaviruses. Infection Genetics and Evolution, 41, 113-119.
[59]	Won S, Ikegami T, Peters CJ, Makino S (2006) NSm and 78-kilodalton proteins of Rift Valley fever virus are nonessential for viral replication in cell culture. Journal of Virology, 80, 8274-8278.
[60]	Yu XJ, Tesh RB (2014) The role of mites in the transmission and maintenance of Hantaan virus (Hantavirus: Bunyaviridae). Journal of Infectious Diseases, 210, 1693-1699.
[61]	Zhang YZ (2014) Discovery of hantaviruses in bats and insectivores and the evolution of the genus Hantavirus. Virus Research, 187, 15-21.
[62]	Zheng YZ, Navarro B, Wang GP, Wang YX, Yang ZK, Xu WX, Zhu CX, Wang LP, Serio FD, Hong N (2017) Actinidia chlorotic ringspot-associated virus: A novel emaravirus infecting kiwifruit plants. Molecular Plant Pathology, 18, 569-581.
[63]	Zhu J, Zhang Y, Wu GH (2015) Crimean-Congo hemorrhagic fever. In: Natural Focus Infection Disease (ed. Tang JQ), pp. 108-131. Science Press, Beijing. (in Chinese)
	[朱进, 张云, 吴光华 (2015) 克里米亚-刚果出血热. 见: 自然疫源性疾病(唐家琪主编), 108-131页. 科学出版社, 北京.]

时间Time	目 Order	变更 Change	科 Family	变更 Change	属/组 Genus/Group	变更 Change	参考文献 References
1975	未指定Unassigned	-	布尼亚病毒科Bunyaviridae	新增 New	布尼亚病毒属 Bunyavirus	新增 New	Plenary session vote 12/16 September 1975 in Madrid (MSL #03) *
1981	未指定Unassigned	-	布尼亚病毒科Bunyaviridae	-	内罗病毒属 Nairovirus	新增 New	Plenary session vote 4 August 1981 in Strasbourg (MSL #07) *
					乌库病毒属 Uukuvirus	新增 New
					白蛉病毒属 Phlebovirus	新增 New
1984	未指定Unassigned	-	未指定Unassigned	-	水稻条纹病毒组 Rice stripe virus group	新增 New	Plenary session vote 5 September 1984 in Sendai (MSL #09) *
1987	未指定Unassigned	-	布尼亚病毒科Bunyaviridae	-	汉坦病毒属 Hantavirus	新增 New	Plenary session vote 12 August 1987 in Edmonton (MSL #10) *
1987	未指定Unassigned	-	未指定Unassigned	-	纤细病毒组 Tenuivirus group←水稻条纹病毒组 Rice stripe virus group	重命名 Renamed	Plenary session vote 12 August 1987 in Edmonton (MSL #10) *
1990	未指定Unassigned	-	布尼亚病毒科Bunyaviridae	-	番茄斑萎病毒属 Tospovirus←番茄斑萎病毒组 Tomato spotted wilt virus group	移动 Moved	Plenary session vote 29 August 1990 in Berlin (MSL #11) *
1991	未指定Unassigned	-	布尼亚病毒科Bunyaviridae	-	白蛉病毒属 Phlebovirus←乌库病毒属Uukuvirus和白蛉病毒属 Phlebovirus	合并 Merged	Francki et al, 1991
1993	未指定Unassigned	-	未指定Unassigned	-	纤细病毒属 Tenuivirus←纤细病毒组 Tenuivirus group←水稻条纹病毒组 Rice stripe virus group	重命名Renamed	Pringle, 1993*
2002	未指定Unassigned	-	布尼亚病毒科Bunyaviridae	-	正布尼亚病毒属 Orthobunyavirus ←布尼亚病毒属 Bunyavirus	重命名Renamed	Mayo, 2002a, b*
2009	未指定Unassigned	-	布尼亚病毒科Bunyaviridae	-	伊马拉病毒属 Emaravirus	新增 New	Carstens, 2010; King et al, 2011
2016	布尼亚病毒目Bunyavirales	新增 New	费拉病毒科 Feraviridae	新增 New	正费拉病毒属 Orthoferavirus	新增 New	EC48, Budapest, Hungary, August 2016; Email ratification 2017 (MSL #31)*
			费莫病毒科Fimoviridae	新增 New	伊马拉病毒属 Emaravirus	移动 Moved
			汉坦病毒科Hantaviridae	新增 New	正汉坦病毒属 Orthohantavirus ←汉坦病毒属 Hantavirus	重命名, 移动Renamed, moved
			米卡多病毒科Jonviridae	新增 New	正米卡多病毒属 Orthojonvirus	新增 New
			内罗病毒科Nairoviridae	新增 New	正内罗病毒属 Orthonairovirus ←内罗病毒属 Nairovirus	重命名, 移动 Renamed, moved
			泛布尼亚病毒科Peribunyaviridae ←布尼亚病毒科Bunyaviridae	重命名, 移动 Renamed, moved	赫伯病毒属 Herbevirus	新增 New
					正布尼亚病毒属 Orthobunyavirus←正布尼亚病毒属 Orthobunyavirus	移动 Moved
			幻影病毒科Phasmaviridae	新增 New	正幻影病毒属 Orthophasmavirus	新增 New
			白纤病毒科Phenuiviridae	新增 New	格克病毒属 Goukovirus	新增 New
					帕西病毒属 Phasivirus	新增 New
					白蛉病毒属 Phlebovirus	移动 Moved
					纤细病毒属 Tenuivirus←纤细病毒属 Tenuivirus←纤细病毒组Tenuivirus group←水稻条纹病毒组 Rice stripe virus group	移动 Moved
			番茄斑萎病毒科Tospoviridae	新增 New	正番茄斑萎病毒属 Orthotospovirus←番茄斑萎病毒属 Tospovirus←番茄斑萎病毒组 Tomato spotted wilt virus group	重命名, 移动 Renamed, moved

时间Time	目 Order	变更 Change	科 Family	变更 Change	属/组 Genus/Group	变更 Change	参考文献 References
1975	未指定Unassigned	-	布尼亚病毒科Bunyaviridae	新增 New	布尼亚病毒属 Bunyavirus	新增 New	Plenary session vote 12/16 September 1975 in Madrid (MSL #03) *
1981	未指定Unassigned	-	布尼亚病毒科Bunyaviridae	-	内罗病毒属 Nairovirus	新增 New	Plenary session vote 4 August 1981 in Strasbourg (MSL #07) *
					乌库病毒属 Uukuvirus	新增 New
					白蛉病毒属 Phlebovirus	新增 New
1984	未指定Unassigned	-	未指定Unassigned	-	水稻条纹病毒组 Rice stripe virus group	新增 New	Plenary session vote 5 September 1984 in Sendai (MSL #09) *
1987	未指定Unassigned	-	布尼亚病毒科Bunyaviridae	-	汉坦病毒属 Hantavirus	新增 New	Plenary session vote 12 August 1987 in Edmonton (MSL #10) *
1987	未指定Unassigned	-	未指定Unassigned	-	纤细病毒组 Tenuivirus group←水稻条纹病毒组 Rice stripe virus group	重命名 Renamed	Plenary session vote 12 August 1987 in Edmonton (MSL #10) *
1990	未指定Unassigned	-	布尼亚病毒科Bunyaviridae	-	番茄斑萎病毒属 Tospovirus←番茄斑萎病毒组 Tomato spotted wilt virus group	移动 Moved	Plenary session vote 29 August 1990 in Berlin (MSL #11) *
1991	未指定Unassigned	-	布尼亚病毒科Bunyaviridae	-	白蛉病毒属 Phlebovirus←乌库病毒属Uukuvirus和白蛉病毒属 Phlebovirus	合并 Merged	Francki et al, 1991
1993	未指定Unassigned	-	未指定Unassigned	-	纤细病毒属 Tenuivirus←纤细病毒组 Tenuivirus group←水稻条纹病毒组 Rice stripe virus group	重命名Renamed	Pringle, 1993*
2002	未指定Unassigned	-	布尼亚病毒科Bunyaviridae	-	正布尼亚病毒属 Orthobunyavirus ←布尼亚病毒属 Bunyavirus	重命名Renamed	Mayo, 2002a, b*
2009	未指定Unassigned	-	布尼亚病毒科Bunyaviridae	-	伊马拉病毒属 Emaravirus	新增 New	Carstens, 2010; King et al, 2011
2016	布尼亚病毒目Bunyavirales	新增 New	费拉病毒科 Feraviridae	新增 New	正费拉病毒属 Orthoferavirus	新增 New	EC48, Budapest, Hungary, August 2016; Email ratification 2017 (MSL #31)*
			费莫病毒科Fimoviridae	新增 New	伊马拉病毒属 Emaravirus	移动 Moved
			汉坦病毒科Hantaviridae	新增 New	正汉坦病毒属 Orthohantavirus ←汉坦病毒属 Hantavirus	重命名, 移动Renamed, moved
			米卡多病毒科Jonviridae	新增 New	正米卡多病毒属 Orthojonvirus	新增 New
			内罗病毒科Nairoviridae	新增 New	正内罗病毒属 Orthonairovirus ←内罗病毒属 Nairovirus	重命名, 移动 Renamed, moved
			泛布尼亚病毒科Peribunyaviridae ←布尼亚病毒科Bunyaviridae	重命名, 移动 Renamed, moved	赫伯病毒属 Herbevirus	新增 New
					正布尼亚病毒属 Orthobunyavirus←正布尼亚病毒属 Orthobunyavirus	移动 Moved
			幻影病毒科Phasmaviridae	新增 New	正幻影病毒属 Orthophasmavirus	新增 New
			白纤病毒科Phenuiviridae	新增 New	格克病毒属 Goukovirus	新增 New
					帕西病毒属 Phasivirus	新增 New
					白蛉病毒属 Phlebovirus	移动 Moved
					纤细病毒属 Tenuivirus←纤细病毒属 Tenuivirus←纤细病毒组Tenuivirus group←水稻条纹病毒组 Rice stripe virus group	移动 Moved
			番茄斑萎病毒科Tospoviridae	新增 New	正番茄斑萎病毒属 Orthotospovirus←番茄斑萎病毒属 Tospovirus←番茄斑萎病毒组 Tomato spotted wilt virus group	重命名, 移动 Renamed, moved

布尼亚病毒目新分类概述

A review and novel classification of Bunyavirales

RichHTML

PDF (PC)

可视化

被引次数

摘要/Abstract

引用本文

使用本文

图/表 2

参考文献 63

相关文章 15

编辑推荐

Metrics

本文评价

[1]	连佳丽, 陈婧, 杨雪琴, 赵莹, 罗叙, 韩翠, 赵雅欣, 李建平. 荒漠草原植物多样性和微生物多样性对降水变化的响应[J]. 生物多样性, 2024, 32(6): 24044-.
[2]	王腾, 李纯厚, 王广华, 赵金发, 石娟, 谢宏宇, 刘永, 刘玉. 西沙群岛七连屿珊瑚礁鱼类的物种组成与演替[J]. 生物多样性, 2024, 32(6): 23481-.
[3]	董云伟, 鲍梦幻, 程娇, 陈义永, 杜建国, 高养春, 胡利莎, 李心诚, 刘春龙, 秦耿, 孙进, 王信, 杨光, 张崇良, 张雄, 张宇洋, 张志新, 战爱斌, 贺强, 孙军, 陈彬, 沙忠利, 林强. 中国海洋生物地理学研究进展和热点: 物种分布模型及其应用[J]. 生物多样性, 2024, 32(5): 23453-.
[4]	吴琪, 张晓青, 杨雨婷, 周艺博, 马毅, 许大明, 斯幸峰, 王健. 浙江钱江源-百山祖国家公园庆元片区叶附生苔多样性及其时空变化[J]. 生物多样性, 2024, 32(4): 24010-.
[5]	曹可欣, 王敬雯, 郑国, 武鹏峰, 李英滨, 崔淑艳. 降水格局改变及氮沉降对北方典型草原土壤线虫多样性的影响[J]. 生物多样性, 2024, 32(3): 23491-.
[6]	张楚然, 李生发, 李逢昌, 唐志忠, 刘辉燕, 王丽红, 顾荣, 邓云, 张志明, 林露湘. 云南鸡足山亚热带半湿润常绿阔叶林20 ha动态监测样地木本植物生境关联与群落数量分类[J]. 生物多样性, 2024, 32(1): 23393-.
[7]	韩丽霞, 王永健, 刘宣. 外来物种入侵与本土物种分布区扩张的异同[J]. 生物多样性, 2024, 32(1): 23396-.
[8]	牛永杰, 马全会, 朱玉, 刘海荣, 吕佳乐, 邹元春, 姜明. 氮沉降对草地昆虫多样性影响的研究进展[J]. 生物多样性, 2023, 31(9): 23130-.
[9]	韩赟, 迟晓峰, 余静雅, 丁旭洁, 陈世龙, 张发起. 青海野生维管植物名录[J]. 生物多样性, 2023, 31(9): 23280-.
[10]	杜红. “物种”与“个体”: 究竟谁是生物多样性保护的恰当对象?[J]. 生物多样性, 2023, 31(8): 23140-.
[11]	冯莉. 国际法视野下生物多样性和气候变化的协同治理[J]. 生物多样性, 2023, 31(7): 23110-.
[12]	韦毅刚, 温放, 辛子兵, 符龙飞. 广西野生维管植物名录[J]. 生物多样性, 2023, 31(6): 23078-.
[13]	陈本平, 陈建武, 凌征文, 杨旭, 陈鑫, 李生强, 杨彪. 四川老君山国家级自然保护区林下鸟兽多样性及动态变化数据集[J]. 生物多样性, 2023, 31(5): 22566-.
[14]	姚雪, 陈星, 戴尊, 宋坤, 邢诗晨, 曹宏彧, 邹璐, 王健. 采集策略对叶附生苔类植物发现概率及物种多样性的重要性[J]. 生物多样性, 2023, 31(4): 22685-.
[15]	周欣扬, 王誉陶, 李建平. 黄土高原典型草原植物群落组成对降水变化的响应[J]. 生物多样性, 2023, 31(3): 22118-.