The Genetic Diversity of Influenza A Viruses in Wild Birds in Peru

Our understanding of the global ecology of avian influenza A viruses (AIVs) is impeded by historically low levels of viral surveillance in Latin America. Through sampling and whole-genome sequencing of 31 AIVs from wild birds in Peru, we identified 10 HA subtypes (H1-H4, H6-H7, H10-H13) and 8 NA subtypes (N1-N3, N5-N9). The majority of Peruvian AIVs were closely related to AIVs found in North America. However, unusual reassortants, including a H13 virus containing a PA segment related to extremely divergent Argentinian viruses, suggest that substantial AIV diversity circulates undetected throughout South America.     

多功能悬浮点阵技术快速检测肠道致病菌的初步应用研究

目的建立以多功能悬浮点阵技术为基础的临床常见肠道致病菌的快速检测方法。方法以细菌16S rDNA基因保守区序列设计1对通用引物,采用不对称PCR扩增7种临床常见肠道致病菌标准菌株,多功能悬浮点阵技术对不同菌株的PCR产物进行检测以验证相应菌种探针的特异性,最后对48份粪便标本进行肠道致病菌高通量快速检测。结果 7种临床常见肠道致病标准菌株的不对称PCR得到了大量单链产物,其产物用多功能悬浮点阵技术的检测特异性为100%,48份粪便标本不对称PCR产物可与相应探针发生特异性结合,且在多功能悬浮点阵技术的相应检测信号大于阴性对照3倍以上,5种细菌的多功能悬浮点阵技术检测结果与培养鉴定结果符合率100%,48份标本PCR产物均与志贺菌属探针发生杂交反应(阳性率100%)。结论 16S rDNA可以作为细菌快速鉴定的靶序列,不对称PCR产物可以显著提高与悬浮芯片杂交检测的灵敏度,多功能悬浮点阵技术在鉴定细菌方面具有简单快速、高通量、高检出率等特点,可以作为细菌快速鉴定的一种新方法,但无法鉴别志贺菌属和大肠埃希菌属。     

Neuraminidase Subtyping of Avian Influenza Viruses with PrimerHunter-Designed Primers and Quadruplicate Primer Pools

We have previously developed a software package called PrimerHunter to design primers for PCR-based virus subtyping. In this study, 9 pairs of primers were designed with PrimerHunter and successfully used to differentiate the 9 neuraminidase (NA) genes of avian influenza viruses (AIVs) in multiple PCR-based assays. Furthermore, primer pools were designed and successfully used to decrease the number of reactions needed for NA subtyping from 9 to 4. The quadruplicate primer-pool method is cost-saving, and was shown to be suitable for the NA subtyping of both cultured AIVs and uncultured AIV swab samples. The primers selected for this study showed excellent sensitivity and specificity in NA subtyping by RT-PCR, SYBR green-based Real-time PCR and Real-time RT-PCR methods. AIV RNA of 2 to 200 copies (varied by NA subtypes) could be detected by these reactions. No unspecific amplification was displayed when detecting RNAs of other avian infectious viruses such as Infectious bronchitis virus, Infectious bursal disease virus and Newcastle disease virus. In summary, this study introduced several sensitive and specific PCR-based assays for NA subtyping of AIVs and also validated again the effectiveness of the PrimerHunter tool for the design of subtyping primers.     

禽流感病毒感染鸽的流行病学与致病机理研究进展

禽流感病毒(Avian influenza virus,AIV)不仅严重危害禽类,而且对人类生命健康造成严重威胁。鸽作为留鸟,具有作为AIV从野生鸟类传播至人类中间宿主的潜能。鸽对AIV的易感性以及在病毒传播中的作用却存在争议。通过分析AIV自然感染、人工感染鸽的流行病学以及实验研究数据,同时回顾了禽流感病毒感染鸽的机制,发现随着病毒的进化和时间的推移,鸽群AIV的感染率也在递增;尤其随着近年具有双受体结合特性的高致病性禽流感病毒(highly pathogenic avian influenza virus,HPAIV)clade2.3.4.4分支H5Nx毒株的出现,其感染鸽后排毒量上升以及鸽体间直接接触传播能力增强。为了有效防控AIV的跨种间传播,有必要加强对鸽感染AIV的流行病学监测和传播特性的研究,特别需要密切关注具双受体结合特性的H5Nx和H7N9 HPAIV对鸽易感性的发展趋势。     

Detection and Genetic Characteristics of H9N2 Avian Influenza Viruses from Live Poultry Markets in Hunan Province,China

H9N2 avian influenza viruses (AIVs) are highly prevalent and of low pathogenicity in domestic poultry. These viruses show a high genetic compatibility with other subtypes of AIVs and have been involved in the genesis of H5N1, H7N9 and H10N8 viruses causing severe infection in humans. The first case of human infection with H9N2 viruses in Hunan province of China have been confirmed in November 2013 and identified that H9N2 viruses from live poultry markets (LPMs) near the patient’s house could be the source of infection. However, the prevalence, distribution and genetic characteristics of H9N2 viruses in LPMs all over the province are not clear. We collected and tested 3943 environmental samples from 380 LPMs covering all 122 counties/districts of Hunan province from February to April, 2014. A total of 618 (15.7%) samples were H9 subtype positive and 200 (52.6%) markets in 98 (80.3%) counties/districts were contaminated with H9 subtype AIVs. We sequenced the entire coding sequences of the genomes of eleven H9N2 isolates from environmental samples. Phylogenetic analysis showed that the gene sequences of the H9N2 AIVs exhibited high homology (94.3%-100%). All eleven viruses were in a same branch in the phylogenetic trees and belonged to a same genotype. No gene reassortment had been found. Molecular analysis demonstrated that all the viruses had typical molecular characteristics of contemporary avian H9N2 influenza viruses. Continued surveillance of AIVs in LPMs is warranted for identification of further viral evolution and novel reassortants with pandemic potential.     

Complex method for epizootiological and epidemiological surveillance

A complex method for the epizootological and epidemiological surveillance of a number of bacterial and viral infections on the territories inside and outside their natural foci has been developed. The investigation techniques are described and the data on the isolation rate of each causative agent in different geographical zones are presented. In the natural foci of plague and tularemia, as well as on the territories outside such foci, the causative agents of intestinal yersiniosis, pseudotuberculosis, salmonellosis, erysipeloid, staphylococci and streptococci, arena- and arboviruses have been isolated from the rodents and ectoparasites under study. The results of this investigation suggest that the method may be recommended for use in medical institutions dealing with the problems of infections originating from natural foci.     

Complete Genome Sequence of an H3N2 Avian Influenza Virus Isolated from a Live Poultry Market in Eastern China

Previous studies indicate that the H3 influenza virus has the ability to establish infection upon interspecies transmission and poses a threat to mammals. Therefore, it is important to enhance the surveillance of H3 avian influenza viruses (AIVs). In this study, A/duck/Shanghai/C84/2009(H3N2) (C84) was isolated from a live poultry market in Shanghai, China. Using PCR and sequencing analyses, we obtained the whole-genome sequence of this virus. The H3N2 virus proved to be a novel multiple-gene reassortant AIV whose genes were derived from H3N2, H4N6, H6N2, and H9N2. Knowledge regarding the complete genome sequence of the C84 virus will be useful for epidemiological surveillance.     

Adaptive Evolution and Environmental Durability Jointly Structure Phylodynamic Patterns in Avian Influenza Viruses

Avian influenza viruses (AIVs) have been pivotal to the origination of human pandemic strains. Despite their scientific and public health significance, however, there remains much to be understood about the ecology and evolution of AIVs in wild birds, where major pools of genetic diversity are generated and maintained. Here, we present comparative phylodynamic analyses of human and AIVs in North America, demonstrating (i) significantly higher standing genetic diversity and (ii) phylogenetic trees with a weaker signature of immune escape in AIVs than in human viruses. To explain these differences, we performed statistical analyses to quantify the relative contribution of several potential explanations. We found that HA genetic diversity in avian viruses is determined by a combination of factors, predominantly subtype-specific differences in host immune selective pressure and the ecology of transmission (in particular, the durability of subtypes in aquatic environments). Extending this analysis using a computational model demonstrated that virus durability may lead to long-term, indirect chains of transmission that, when coupled with a short host lifespan, can generate and maintain the observed high levels of genetic diversity. Further evidence in support of this novel finding was found by demonstrating an association between subtype-specific environmental durability and predicted phylogenetic signatures: genetic diversity, variation in phylogenetic tree branch lengths, and tree height. The conclusion that environmental transmission plays an important role in the evolutionary biology of avian influenza viruses—a manifestation of the “storage effect”—highlights the potentially unpredictable impact of wildlife reservoirs for future human pandemics and the need for improved understanding of the natural ecology of these viruses.     

Investigation of Avian Influenza Infections in Wild Birds,Poultry and Humans in Eastern Dongting Lake,China

We investigated avian influenza infections in wild birds, poultry, and humans at Eastern Dongting Lake, China. We analyzed 6,621 environmental samples, including fresh fecal and water samples, from wild birds and domestic ducks that were collected from the Eastern Dongting Lake area from November 2011 to April 2012. We also conducted two cross-sectional serological studies in November 2011 and April 2012, with 1,050 serum samples collected from people exposed to wild birds and/or domestic ducks. Environmental samples were tested for the presence of avian influenza virus (AIV) using quantitative PCR assays and virus isolation techniques. Hemagglutination inhibition assays were used to detect antibodies against AIV H5N1, and microneutralization assays were used to confirm these results. Among the environmental samples from wild birds and domestic ducks, AIV prevalence was 5.19 and 5.32%, respectively. We isolated 39 and 5 AIVs from the fecal samples of wild birds and domestic ducks, respectively. Our analysis indicated 12 subtypes of AIV were present, suggesting that wild birds in the Eastern Dongting Lake area carried a diverse array of AIVs with low pathogenicity. We were unable to detect any antibodies against AIV H5N1 in humans, suggesting that human infection with H5N1 was rare in this region.     

Avian influenza viruses and avian paramyxoviruses in wintering and breeding waterfowl populations in North Carolina, USA

Although wild ducks are recognized reservoirs for avian influenza viruses (AIVs) and avian paramyxoviruses (APMVs), information related to the prevalence of these viruses in breeding and migratory duck populations on North American wintering grounds is limited. Wintering (n=2,889) and resident breeding (n=524) ducks were sampled in North Carolina during winter 2004-2006 and summer 2005-2006, respectively. Overall prevalence of AIV was 0.8% and restricted to the winter sample; however, prevalence in species within the genus Anas was 1.3% and was highest in Black Ducks (7%; Anas rubripes) and Northern Shovelers (8%; Anas clypeata). Of the 24 AIVs, 16 subtypes were detected, representing nine hemagglutinin and seven neuraminidase subtypes. Avian paramyxoviruses detected in wintering birds included 18 APMV-1s, 15 APMV-4s, and one APMV-6. During summers 2005 and 2006, a high prevalence of APMV-1 infection was observed in resident breeding Wood Ducks (Aix sponsa) and Mallards (Anas platyrhynchos).     

Host Restrictions of Avian Influenza Viruses: In Silico Analysis of H13 and H16 Specific Signatures in the Internal Proteins

Gulls are the primary hosts of H13 and H16 avian influenza viruses (AIVs). The molecular basis for this host restriction is only partially understood. In this study, amino acid sequences from Eurasian gull H13 and H16 AIVs and Eurasian AIVs (non H13 and H16) were compared to determine if specific signatures are present only in the internal proteins of H13 and H16 AIVs, using a bioinformatics approach. Amino acids identified in an initial analysis performed on 15 selected sequences were checked against a comprehensive set of AIV sequences retrieved from Genbank to verify them as H13 and H16 specific signatures. Analysis of protein similarities and prediction of subcellular localization signals were performed to search for possible functions associated with the confirmed signatures. H13 and H16 AIV specific signatures were found in all the internal proteins examined, but most were found in the non-structural protein 1 (NS1) and in the nucleoprotein. A putative functional signature was predicted to be present in the nuclear export protein. Moreover, it was predicted that the NS1 of H13 and H16 AIVs lack one of the nuclear localization signals present in NS1 of other AIV subtypes. These findings suggest that the signatures found in the internal proteins of H13 and H16 viruses are possibly related to host restriction.     

Avian influenza a virus in wild birds in highly urbanized areas

Avian influenza virus (AIV) surveillance studies in wild birds are usually conducted in rural areas and nature reserves. Less is known of avian influenza virus prevalence in wild birds located in densely populated urban areas, while these birds are more likely to be in close contact with humans. Influenza virus prevalence was investigated in 6059 wild birds sampled in cities in the Netherlands between 2006 and 2009, and compared with parallel AIV surveillance data from low urbanized areas in the Netherlands. Viral prevalence varied with the level of urbanization, with highest prevalence in low urbanized areas. Within cities virus was detected in 0.5% of birds, while seroprevalence exceeded 50%. Ring recoveries of urban wild birds sampled for virus detection demonstrated that most birds were sighted within the same city, while few were sighted in other cities or migrated up to 2659 km away from the sample location in the Netherlands. Here we show that urban birds were infected with AIVs and that urban birds were not separated completely from populations of long-distance migrants. The latter suggests that wild birds in cities may play a role in the introduction of AIVs into cities. Thus, urban bird populations should not be excluded as a human-animal interface for influenza viruses.     

Epidemiological surveillance on natural-borne infections in the Ulyanovsk region

The analysis of natural foci of haemorrhagic fever with renal syndrome (HFRS) and tick-borne borreliosis on the territory of the Ulyanovsk region is presented. Reduced rat control interventions result in a wide spread of these and other infections with natural focality. Monitoring of natural foci of HFRS, tick-borne borreliosis and arbovirus infections, their typing and determination of main reservoirs are the most promising among epidemiological surveillance methods.     

禽流感H5、H7、H9亚型多重实时荧光RT-PCR检测方法的建立

为了对致病性强、危害性大的H5、H7、H9亚型禽流感病毒进行同时集成化快速检测,通过对GenBank已报道的禽流感病毒的HA基因进行序列分析比较,设计了H5、H7、H9 3个亚型的特异性引物和分别用3个荧光基团标记的Taqman MGB核酸探针。将各个亚型引物与探针优化组合,筛选出能够同时检测禽流感病毒H5、H7、H9 3个亚型、且对Ct值和扩增效率影响不大的3组引物和探针,建立了三重实时荧光RT-PCR方法。该方法特异性好,在我们检测的样品中,没有发现假阳性和假阴性现象。同时敏感性高,检测禽流感病毒H5、H7、H9亚型的敏感性分别达到1 0001、000、500个模板拷贝数;此外抗干扰能力强,对禽流感H5、H7、H9 3个亚型的不同模板浓度进行组合,仍可有效地同时检测3个病毒亚型。所建立的方法对保存的89个禽流感病毒样品进行检测,结果与经典检测方法(病毒分离鉴定、HA、HI)的符合率达100%。用上述建立的方法与鸡胚分离法同时对新鲜采集的4 000多份临床样品进行检测,两种方法的检测结果符合率为100%。     

云南省剑川县鼠疫自然疫源地宿主媒介情况分析

了解鼠疫自然疫源地的宿主、媒介群落结构及其种群动态,为提出针对性的鼠疫防控策略与机制提供依据.云南省剑川县属于齐氏姬鼠和大绒鼠鼠疫自然疫源地的核心区,该区域小型兽类种类丰富,存在2种类型鼠疫菌,为进一步研究疫源地的演变提供了重要的现场模型.本文对剑川县1976-2019年鼠疫监测资料进行整理和分析,发现该疫源地室内共捕...     

A survey of avian influenza in tree sparrows in China in 2011

Tree sparrows (Passer montanus) are widely distributed in all seasons in many countries. In this study, a survey and relevant experiments on avian influenza (AI) in tree sparrows were conducted. The results suggested that the receptor for avian influenza viruses (AIVs), SAα2,3Gal, is abundant in the respiratory tract of tree sparrows, and most of the tree sparrows infected experimentally with two H5 subtype highly pathogenic avian influenza (HPAI) viruses died within five days after inoculation. Furthermore, no AIVs were isolated from the rectum eluate of 1300 tree sparrows, but 94 serological positives of AI were found in 800 tree sparrows. The serological positives were more prevalent for H5 subtype HPAI (94/800) than for H7 subtype AI (0/800), more prevalent for clade 2.3.2.1 H5 subtype HPAI (89/800) than for clade 2.3.4 (1/800) and clade 7.2 (4/800) H5 subtype HPAI, more prevalent for clade 2.3.2.1 H5 subtype HPAI in a city in southern China (82/800) than in a city in northern China (8/800). The serological data are all consistent with the distribution of the subtypes or clades of AI in poultry in China. Previously, sparrows or other passerine birds were often found to be pathogenically negative for AIVs, except when an AIV was circulating in the local poultry, or the tested passerine birds were from a region near waterfowl-rich bodies of water. Taken together, the data suggest that tree sparrows are susceptible to infection of AIVs, and surveys targeting sparrows can provide good serological data about the circulation of AIVs in relevant regions.     

Development of a simple and sensitive technique for detection of point mutations in the K-ras oncogene

We sought to develop a simple and sensitive method based on mutant allele-specific amplification (MASA) for the detection of point mutations in the k-ras oncogene in blood samples. We used MASA and three nested MASA methods to detect a point mutation (GGT→GAT) in rat DHD cells at codon 12 of exon 1 of the k-ras gene. MASA allowed us to detect one k-ras mutated cell on a background of 10⁷ normal cells. The third nested-MASA (nested-MASA.c) method that we developed allowed us to detect one mutated cell among 10¹⁰ normal cells. Our methods should allow the detection of small amounts of mutant k-ras DNA in tissue, serum, and plasma, combining speed with efficiency and specificity.     

PrimerHunter: a primer design tool for PCR-based virus subtype identification

Rapid and reliable virus subtype identification is critical for accurate diagnosis of human infections, effective response to epidemic outbreaks and global-scale surveillance of highly pathogenic viral subtypes such as avian influenza H5N1. The polymerase chain reaction (PCR) has become the method of choice for virus subtype identification. However, designing subtype-specific PCR primer pairs is a very challenging task: on one hand, selected primer pairs must result in robust amplification in the presence of a significant degree of sequence heterogeneity within subtypes, on the other, they must discriminate between the subtype of interest and closely related subtypes. In this article, we present a new tool, called PrimerHunter, that can be used to select highly sensitive and specific primers for virus subtyping. Our tool takes as input sets of both target and nontarget sequences. Primers are selected such that they efficiently amplify any one of the target sequences, and none of the nontarget sequences. PrimerHunter ensures the desired amplification properties by using accurate estimates of melting temperature with mismatches, computed based on the nearest neighbor model via an efficient fractional programming algorithm. Validation experiments with three avian influenza HA subtypes confirm that primers selected by PrimerHunter have high sensitivity and specificity for target sequences.     

Homologous recombination as an evolutionary force in the avian influenza A virus

Avian influenza A viruses (AIVs), including the H5N1, H9N2,and H7N7 subtypes, have been directly transmitted to humans,raising concerns over the possibility of a new influenza pandemic.To prevent a future avian influenza pandemic, it is very importantto fully understand the molecular basis driving the change inAIV virulence and host tropism. Although virulent variants ofother viruses have been generated by homologous recombination,the occurrence of homologous recombination within AIV segmentsis controversial and far from proven. This study reports threecirculating H9N2 AIVs with similar mosaic PA genes descendedfrom H9N2 and H5N1. Additionally, many homologous recombinantsare also found deposited in GenBank. Recombination events canoccur in PB2, PB1, PA, HA, and NP segments and between lineagesof the same/different serotype. These results collectively demonstratethat intragenic recombination plays a role in driving the evolutionof AIVs, potentially resulting in effects on AIV virulence andhost tropism changes.