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1.
Kapczynski DR Gonder E Tilley B Hernandez A Hodgson J Wojcinski H Jiang H Suarez DL 《Avian diseases》2011,55(4):633-641
Beginning in April 2009, a novel H1N1 influenza virus caused acute respiratory disease in humans, first in Mexico and then around the world. The resulting pandemic influenza A H1N1 2009 (pH1N1) virus was isolated in swine in Canada in June 2009 and later in breeder turkeys in Chile, Canada, and the United States. The pH1N1 virus consists of gene segments of avian, human, and swine influenza origin and has the potential for infection in poultry following exposure to infected humans or swine. We examined the clinical events following the initial outbreak of pH1N1 in turkeys and determined the relatedness of the hemagglutinin (HA) gene segments from the pH1N1 to two H1N1 avian influenza (AI) isolates used in commercial turkey inactivated vaccines. Overall, infection of turkey breeder hens with pH1N1 resulted in -50% reduction of egg production over 3-4 weeks. Genetic analysis indicated one H1N1 AI vaccine isolate (Alturkey/North Carolina/17026/1988) contained approximately 92% nucleotide sequence similarity to the pH1N1 virus (A/Mexico/4109/2009); whereas, a more recent AI vaccine isolate (A/ swine/North Carolina/00573/2005) contained 75.9% similarity. Comparison of amino acids found at antigenic sites of the HA protein indicated conserved epitopes at the Sa site; however, major differences were found at the Ca2 site between pH1N1 and A/ turkey/North Carolina/127026/1988. Hemagglutinin-inhibition (HI) tests were conducted with sera produced in vaccinated turkeys in North Carolina to determine if protection would be conferred using U.S. AI vaccine isolates. HI results indicate positive reactivity (HI titer > or = 5 log2) against the vaccine viruses over the course of study. However, limited cross-reactivity to the 2009 pH1N1 virus was observed, with positive titers in a limited number of birds (6 out of 20) beginning only after a third vaccination. Taken together, these results demonstrate that turkeys treated with these vaccines would likely not be protected against pH1N1 and current vaccines used in breeder turkeys in the United States against circulating H1N1 viruses should be updated to ensure adequate protection against field exposure. 相似文献
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Núria Busquets Joaquim Segalés Lorena Córdoba Tufaria Mussá Elisa Crisci Gerard E. Martín-Valls Meritxell Simon-Grifé Marta Pérez-Simó Monica Pérez-Maíllo Jose I. Nú?ez Francesc X. Abad Lorenzo Fraile Sonia Pina Natalia Majó Albert Bensaid Mariano Domingo María Montoya 《Veterinary research》2010,41(5)
The recent pandemic caused by human influenza virus A(H1N1) 2009 contains ancestral gene segments from North American and Eurasian swine lineages as well as from avian and human influenza lineages. The emergence of this A(H1N1) 2009 poses a potential global threat for human health and the fact that it can infect other species, like pigs, favours a possible encounter with other influenza viruses circulating in swine herds. In Europe, H1N1, H1N2 and H3N2 subtypes of swine influenza virus currently have a high prevalence in commercial farms. To better assess the risk posed by the A(H1N1) 2009 in the actual situation of swine farms, we sought to analyze whether a previous infection with a circulating European avian-like swine A/Swine/Spain/53207/2004 (H1N1) influenza virus (hereafter referred to as SwH1N1) generated or not cross-protective immunity against a subsequent infection with the new human pandemic A/Catalonia/63/2009 (H1N1) influenza virus (hereafter referred to as pH1N1) 21 days apart. Pigs infected only with pH1N1 had mild to moderate pathological findings, consisting on broncho-interstitial pneumonia. However, pigs inoculated with SwH1N1 virus and subsequently infected with pH1N1 had very mild lung lesions, apparently attributed to the remaining lesions caused by SwH1N1 infection. These later pigs also exhibited boosted levels of specific antibodies. Finally, animals firstly infected with SwH1N1 virus and latter infected with pH1N1 exhibited undetectable viral RNA load in nasal swabs and lungs after challenge with pH1N1, indicating a cross-protective effect between both strains. 相似文献
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焦磷酸测序技术在确证猪甲型H1N1流感病毒中的应用 总被引:1,自引:0,他引:1
目的本研究旨在通过对猪甲型H1N1流感病毒进行序列信息分析的基础上,利用焦磷酸测序技术建立一种快速、简单地确证猪甲型H1N1流感病毒的方法。方法通过序列信息比对,设计H1HA和N1NA基因保守区段的扩增引物及测序引物。从感染猪甲型H1N1病毒的鸡胚尿囊液中提取病毒RNA,RT-PCR扩增目的基因片段,采用焦磷酸测序技术(PSQ)针对HA基因和NA基因进行保守核苷酸区段的测序分析。利用扩增引物与其他猪源病毒进行特异性试验,利用测序引物进行重复性试验。将该方法与病毒分离和荧光定量RT-PCR方法做临床样品的平行检测,并比较结果。结果通过序列信息比对寻找到表征H1N1亚型的核苷酸保守区段,经焦磷酸测序后能进一步确证毒株的序列信息为猪甲型H1N1流感病毒。特异性试验表明,不与其他猪源病毒发生交叉反应;重复性试验表明,重现性为100%。对221份临床样品检测表明,病毒分离鉴定与焦磷酸测序方法结果符合率为96.8%,与TaqMan荧光定量方法检测结果符合率90.3%。经统计学分析,焦磷酸测序确证与病毒分离鉴定在检测临床样品上,两者差异不显著。结论基于序列分析的焦磷酸测序技术可以作为进一步确证方法使用。 相似文献
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C. S. Kyriakis V. G. Papatsiros L. V. Athanasiou G. Valiakos I. H. Brown G. Simon K. Van Reeth S. Tsiodras V. Spyrou C. Billinis 《Zoonoses and public health》2016,63(5):370-373
The introduction of the 2009 pandemic H1N1 (pH1N1) influenza virus in pigs changed the epidemiology of influenza A viruses (IAVs) in swine in Europe and the rest of the world. Previously, three IAV subtypes were found in the European pig population: an avian‐like H1N1 and two reassortant H1N2 and H3N2 viruses with human‐origin haemagglutinin (HA) and neuraminidase proteins and internal genes of avian decent. These viruses pose antigenically distinct HAs, which allow the retrospective diagnosis of infection in serological investigations. However, cross‐reactions between the HA of pH1N1 and the HAs of the other circulating H1 IAVs complicate serological diagnosis. The prevalence of IAVs in Greek swine has been poorly investigated. In this study, we examined and compared haemagglutination inhibition (HI) antibody titres against previously established IAVs and pH1N1 in 908 swine sera from 88 herds, collected before and after the 2009 pandemic. While we confirmed the historic presence of the three IAVs established in European swine, we also found that 4% of the pig sera examined after 2009 had HI antibodies only against the pH1N1 virus. Our results indicate that pH1N1 is circulating in Greek pigs and stress out the importance of a vigorous virological surveillance programme. 相似文献
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为了解猪流感病毒(SIV)的变异情况,我们2009年11月从河北某养殖场采集呈流感症状的猪鼻拭子40份,接种10日龄SPF鸡胚,分离到一株猪流感病毒,通过RT-PCR和血凝抑制试验鉴定为H1N1亚型,命名为A/swine/Hebei/15/2009(H1N1),其全基因序列测定及同源性分析发现,8个基因片段均与2000年左右H1N1人流感病毒有较高的同源性。系统遗传演化显示,该病毒分离株是由2000年人源H1N1流感病毒A/Dunedin/2/2000(H1N1)进化而来。抗原性分析显示该株与甲型H1N1流感病毒和经典H1N1病毒株抗原性差异较大。对小鼠致病性试验表明该病毒株可以直接感染小鼠并导致小鼠轻微临床症状和组织病理学变化,但不致死小鼠,表现为低致病性。 相似文献
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Njabo KY Fuller TL Chasar A Pollinger JP Cattoli G Terregino C Monne I Reynes JM Njouom R Smith TB 《Veterinary microbiology》2012,156(1-2):189-192
Although swine origin A/H1N1/2009 influenza virus (hereafter "pH1N1″) has been detected in swine in 20 countries, there has been no published surveillance of the virus in African livestock. The objective of this study was to assess the circulation of influenza A viruses, including pH1N1 in swine in Cameroon, Central Africa. We collected 108 nasal swabs and 98 sera samples from domestic pigs randomly sampled at 11 herds in villages and farms in Cameroon. pH1N1 was isolated from two swine sampled in northern Cameroon in January 2010. Sera from 28% of these herds were positive for influenza A by competitive ELISA and 92.6% of these swine showed cross reactivity with pandemic A/H1N1/2009 influenza virus isolated from humans. These results provide the first evidence of this virus in the animal population in Africa. In light of the significant role of swine in the ecology of influenza viruses, our results call for greater monitoring and study in Central Africa. 相似文献
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一株欧洲类禽H1N1猪流感病毒的分离鉴定与反向遗传系统的建立 总被引:1,自引:0,他引:1
猪流感是猪常见的呼吸道传染病,临床以高热、呼吸困难、咳嗽和衰竭、迅速康复或死亡为特征。猪流感不仅给养猪业造成巨大损失,也严重威胁着人类健康。本研究从发病猪场中分离到1株H1N1亚型猪流感病毒,序列分析结果显示,分离毒株属于欧洲类禽猪流感H1N1亚型病毒。将分离毒株分别接种到MDCK与ST细胞,观察病毒的生长特性,结果显示分离的猪流感病毒在ST细胞中复制能力较强。采用RT-PCR技术分别扩增8个基因片段,克隆到流感病毒反向遗传系统,成功拯救出猪流感病毒毒株,测序结果显示拯救的猪流感病毒与亲本毒序列一致。本研究成功分离的猪流感病毒,以及建立的反向遗传技术为研究欧洲类禽猪流感病毒跨种传播的机制以及研发新型猪流感疫苗株奠定了基础。 相似文献
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Natalha Biondo Rejane Schaefer Danielle Gava Mauricio E. Cantão Simone Silveira Marcos A.Z. Mores Janice R. Ciacci-Zanella David E.S.N. Barcellos 《Veterinary microbiology》2014
Influenza is a viral disease that affects human and several animal species. In Brazil, H1N1, H3N2 and 2009 pandemic H1N1 A(H1N1)pdm09 influenza A viruses (IAV) circulate in domestic swine herds. Wild boars are also susceptible to IAV infection but in Brazil until this moment there are no reports of IAV infection in wild boars or in captive wild boars populations. Herein the occurrence of IAV in captive wild boars with the presence of lung consolidation lesions during slaughter was investigated. Lung samples were screened by RT-PCR for IAV detection. IAV positive samples were further analyzed by quantitative real-time PCR (qRRT-PCR), virus isolation, genomic sequencing, histopathology and immunohistochemistry (IHC). Eleven out of 60 lungs (18.3%) were positive for IAV by RT-PCR and seven out of the eleven were also positive for A(H1N1)pdm09 by qRRT-PCR. Chronic diffuse bronchopneumonia was observed in all samples and IHC analysis was negative for influenza A antigen. Full genes segments of H1N2 IAV were sequenced using Illumina's genome analyzer platform (MiSeq). The genomic analysis revealed that the HA and NA genes clustered with IAVs of the human lineage and the six internal genes were derived from the H1N1pdm09 IAV. This is the first report of a reassortant human-like H1N2 influenza virus infection in captive wild boars in Brazil and indicates the need to monitor IAV evolution in Suidae populations. 相似文献
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Pandemic (H1N1) 2009 influenza A virus infection associated with respiratory signs in sloth bears (Melursus ursinus) 
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下载免费PDF全文 N. C. Boedeker M. I. Nelson M. L. Killian M. K. Torchetti T. Barthel S. Murray 《Zoonoses and public health》2017,64(7):566-571
In 2009, a pandemic influenza A virus (pH1N1) spread globally in humans and infected a broad range of captive animals with close human contact. In February 2014, a pH1N1 virus was isolated from a sloth bear with respiratory signs at a US zoo, demonstrating that recurring epidemics present an ongoing threat to animals, including threatened species. This is the first report of pH1N1 infection in sloth bears. To understand the sloth bear virus within the global context of pH1N1, phylogenetic trees were inferred including full‐length sequences from available non‐human, non‐swine hosts, representing four families in the order Carnivora and one order of birds. A combination of phylogenetic and epidemiological evidence strongly suggests the sloth bear was infected with a human‐origin pH1N1 virus, supporting the implementation of biosecurity measures to protect human and animal health. 相似文献
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Zhao G Fan Q Zhong L Li Y Liu W Liu X Gao S Peng D Liu X 《Research in veterinary science》2012,93(1):125-132
To investigate whether the 2009 pandemic H1N1 influenza A virus was still being transmitted in swine, a total of 1029 nasal swab samples from healthy swine were collected from January to May 2010 in Jiangsu province of China. Eight H1N1 influenza viruses were isolated and identified, and their full length genomes were sequenced. We found that all eight of the H1N1 viruses shared higher than 98.0% sequence identity with the 2009 pandemic virus A/Jiangsu/1/2009 (JS1). In addition, some of these viruses had D225G (3/8) mutations in the receptor binding sites of the hemagglutinin (HA) protein, indicating enhancement of their binding affinity to the sialic α2, 3Gal receptor. In conclusion, the 2009 pandemic H1N1 influenza A virus has retro-infected swine from humans in mainland China, and significant viral evolution is still ongoing in this species. 相似文献
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The knowledge of the genome constellation in pandemic influenza A virus H1N1 2009 from different countries and different hosts is valuable for monitoring and understanding of the evolution and migration of these strains. The complete genome sequences of selected worldwide distributed influenza A viruses are publicly available and there have been few longitudinal genome studies of human, avian and swine influenza A viruses. All possible to download SIV sequences of influenza A viruses available at GISAID Platform (Global Initiative on Sharing Avian Influenza Data) were analyzed firstly through the web servers of the Influenza Virus Resource in NCBI. Phylogenetic study of circulating human pandemic H1N1 virus indicated that the new variant possesses a distinctive evolutionary trait. There is no one way the pandemic H1N1 have acquired new genes from other distinguishable viruses circulating recently in local human, pig or domestic poultry populations from various geographic regions. The extensive genetic diversity among whole segments present in pandemic H1N1 genome suggests that multiple introduction of virus have taken place during the period 1999-2009. The initial interspecies transmission could have occurred in the long-range past and after it the reassortants steps lead to three lineages: classical SIV prevalent in the North America, avian-like SIV in Europe and avian-like related SIV in Asia. This analysis contributes to the evidence that pigs are not the only hosts playing the role of "mixing vessel", as it was suggested for many years. 相似文献
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Moreno A Di Trani L Faccini S Vaccari G Nigrelli D Boniotti MB Falcone E Boni A Chiapponi C Sozzi E Cordioli P 《Veterinary microbiology》2011,149(3-4):472-477
Swine influenza monitoring programs have been in place in Italy since the 1990 s and from 2009 testing for the pandemic H1N1/2009 virus (H1N1pdm) was also performed on all the swine samples positive for type A influenza. This paper reports the isolation and genomic characterization of a novel H1N2 swine influenza reassortant strain from pigs in Italy that was derived from the H1N1pdm virus. In May 2010, mild respiratory symptoms were observed in around 10% of the pigs raised on a fattening farm in Italy. Lung homogenate taken from one pig showing respiratory distress was tested for influenza type A and H1N1pdm by two real time RT-PCR assays. Virus isolation was achieved by inoculation of lung homogenate into specific pathogen free chicken embryonated eggs (SPF CEE) and applied onto Caco-2 cells and then the complete genome sequencing and phylogenetic analysis was performed from the CEE isolate. The lung homogenate proved to be positive for both influenza type A (gene M) and H1N1pdm real time RT-PCRs. Virus isolation (A/Sw/It/116114/2010) was obtained from both SPF CEE and Caco-2 cells. Phylogenetic analysis showed that all of the genes of A/Sw/It/116114/2010, with the exception of neuraminidase (NA), belonged to the H1N1pdm cluster. The NA was closely related to two H1N2 double reassortant swine influenza viruses (SIVs), previously isolated in Sweden and Italy. NA sequences for these three strains were clustering with H3N2 SIVs. The emergence of a novel reassortant H1N2 strain derived from H1N1pdm in swine in Italy raises further concerns about whether these viruses will become established in pigs. The new reassortant not only represents a pandemic (zoonotic) threat but also has unknown livestock implications for the European swine industry. 相似文献
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猪流感病毒H1N1、H1N2和H3N2亚型多重RT-PCR诊断方法的建立 总被引:2,自引:3,他引:2
对我国分离到的猪流感病毒和GenBank数据库中已有的猪流感病毒H1N1、H1N2和H3N2亚型毒株的HA、NA基因核苷酸序列进行分析,分别选出各个病毒亚型HA和NA基因中高度保守且特异的核苷酸区域,设计扩增猪流感病毒H1和H3、N1和N2亚型的2套多重PCR特异性引物,建立了猪流感H1N1、H1N2和H3N2亚型病毒多重RT-PCR诊断方法。采用该方法对H1N1、H1N2、H3N2亚型猪流感病毒标准参考株进行RT-PCR检测,结果均呈阳性,对扩增得到的片段进行序列测定和BLAST比较,表明为目的基因片段。其它几种常见猪病病毒和其它亚型猪流感病毒的RT-PCR扩增结果都呈阴性。对107EID50/0.1mL病毒进行稀释,提取RNA进行敏感性试验,RT-PCR最少可检测到102EID50的病毒量核酸。对40份阳性临床样品的检测结果是H1N1、H1N2和H3N2亚型分别为16份、1份和20份,其它3份样品同时含有H1N1和H3N2亚型猪流感病毒,和鸡胚分离病毒结果100%一致。试验证明建立的猪流感病毒H1N1、H1N2和H3N2亚型多重RT-PCR诊断方法是一种特异敏感的诊断方法,可用于临床样品的早期快速诊断和分型。 相似文献
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Aunyaratana Thontiravong Suwarak Wannaratana Rachod Tantilertcharoen Duangduean Prakairungnamthip Ranida Tuanudom Jiroj Sasipreeyajan Somsak Pakpinyo Alongkorn Amonsin Pravina Kitikoon Kanisak Oraveerakul 《Journal of veterinary science (Suw?n-si, Korea)》2012,13(4):395-403
Quail has been proposed to be an intermediate host of influenza A viruses. However, information on the susceptibility and pathogenicity of pandemic H1N1 2009 (pH1N1) and swine influenza viruses in quails is limited. In this study, the pathogenicity, virus shedding, and transmission characteristics of pH1N1, swine H1N1 (swH1N1), and avian H3N2 (dkH3N2) influenza viruses in quails was examined. Three groups of 15 quails were inoculated with each virus and evaluated for clinical signs, virus shedding and transmission, pathological changes, and serological responses. None of the 75 inoculated (n = 45), contact exposed (n = 15), or negative control (n = 15) quails developed any clinical signs. In contrast to the low virus shedding titers observed from the swH1N1-inoculated quails, birds inoculated with dkH3N2 and pH1N1 shed relatively high titers of virus predominantly from the respiratory tract until 5 and 7 DPI, respectively, that were rarely transmitted to the contact quails. Gross and histopathological lesions were observed in the respiratory and intestinal tracts of quail inoculated with either pH1N1 or dkH3N2, indicating that these viruses were more pathogenic than swH1N1. Sero-conversions were detected 7 DPI in two out of five pH1N1-inoculated quails, three out of five quails inoculated with swH1N1, and four out of five swH1N1-infected contact birds. Taken together, this study demonstrated that quails were more susceptible to infection with pH1N1 and dkH3N2 than swH1N1. 相似文献
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Muthannan A. Ramakrishnan Marie R. Gramer Sagar M. Goyal Srinand Sreevatsan 《Journal of veterinary science (Suw?n-si, Korea)》2009,10(4):349-351
As the scientific community scrambles to define the ancestry and lineages of the eight segments of new pandemic H1N1 strain, we looked for unique genetic events in this virus''s genome to explain the newly found enhanced virulence and transmissibility among humans. Genome annotations of this virus identified a stop mutation replacing serine at codon 12 (S12Stop) of the PB1-F2 protein, a virulence factor in influenza A viruses. Here, we discuss the significance of this finding and how it may contribute to host specialization, explaining the virtual absence of the H1N1 influenza A virus strain in pig populations. This finding is expected to lead to a better understanding of the transmission and pathogenesis of the 2009 pandemic strain. 相似文献
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中国类禽型H1N1亚型猪流感病毒的发现和遗传分析 总被引:1,自引:0,他引:1
采用禽流感病毒通用引物,对2006年发现的1株H1N1亚型的类禽型猪流感病毒的全基因组进行了测序,并进行了遗传学分析。序列分析表明它的8个片段与欧洲的类禽型猪流感病毒A/swine/Ile et Vilaine/1455/99(H1N1)病毒和A/swine/Cotes d'Armor/1488/99(H1N1)病毒的相应基因具有高度的同源性,同源性可达97%~99%,表明类禽型猪流感病毒已在中国出现。其血凝素基因的190E→D和225G→E的突变使得其结合NeuAc-a2,6Gal受体的能力高于NeuAca2,3Gal受体。欧洲的类禽型猪流感病毒可以直接感染人,并且可导致人的肺炎和死亡。中国类禽型猪流感病毒的发现及其的NeuAca2,6Gal受体结合特性使其成为一个潜在可感染人的病毒。 相似文献
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本研究2012年底从辽宁省某屠宰场猪鼻咽拭子样品中分离到1株流感病毒,经HA—HI试验和RT—PCR鉴定为H1N1亚型猪流感病毒株,命名为A/swine/Liaoning/01/2012(H1N1),通过对病毒的8个基因片段克隆并测序,并利用分子生物学软件进行遗传演化分析。结果表明,分离株HA基因裂解位点附近的氨基酸序列为IPSIQSRjG,符合低致病力流感病毒的分子特征。全基因组进化树结果表明,分离株的8个基因片段与A/swine/Jiangsu/40/2011(H1N1)株核苷酸同源性最高,分离株处在类禽型H1N1亚型遗传进化分支上;由于类禽型H1N1猪流感病毒具有潜在感染人的潜力,在国外和国内均有感染人的报道,因此,辽宁省首次分离到该型猪流感病毒对全省养猪业和公共卫生安全具有重要意义,值得深入研究。 相似文献
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Infections with influenza A viruses (IAV) are highly prevalent in swine populations, and stable cocirculation of at least three lineages has been well documented in European swine – till 2009. However, since the emergence of the human pandemic pdmH1N1 virus in 2009, which has been (re)introduced into individual swine herds worldwide, the situation has been changing. These variations in the respective IAV pools within pig populations are of major interest, and the zoonotic potential of putative emerging viruses needs to be evaluated. As data on recent IAV in swine from southern Germany were relatively sparse, the purpose of this study was to determine the major IAV subtypes actually present in this region. To this aim, from 2010 to 2013, 1417 nasal swabs or lung tissue samples from pigs with respiratory disease were screened for IAV genomes. Overall, in 130 holdings IAV genomes were detected by real‐time RT‐PCR targeting the matrix protein gene. For further analyses, several PCR protocols were adapted to quickly subtype between H1, pdmH1, H3, N1 and N2 sequences. Taken together, cocirculation of the three stable European lineages of IAV was confirmed for Bavaria. H1N1 sequences were identified in 59, whereas H1N2 genomes were only diagnosed in 14, and H3N2 in 9 of the holdings analysed. However, pdmH1 in combination with N1 was detected in 2010, 2012 and 2013 confirming a presence, albeit in low prevalence, likewise pdmH1N2 reassortant viruses. Interestingly, individual cases of coinfections with more than one subtype were diagnosed. Partial genome sequences were determined and phylogenetic analyses performed. Clearly other than in the human population classically circulating IAV have not been displaced by pdmH1N1 in Bavarian swine. However, some interesting viruses were detected. Further surveillance of these viruses in the Bavarian pig population will be of major importance, to monitor future developments. 相似文献