Principal host relationships and evolutionary history of the North American arenaviruses

A previous study suggested that the genomes of the arenaviruses native to North America are a product of genetic recombination between New World arenaviruses with significantly different phylogenetic histories. The purpose of this study was to extend our knowledge of the principal host relationships and evolutionary history of the North American arenaviruses. The results of this study suggest that the large-eared woodrat (Neotoma macrotis) is a principal host of Bear Canyon virus and that the present-day association of Bear Canyon virus with the California mouse (Peromyscus californicus) in southern California represents a successful host-jumping event from the large-eared woodrat to the California mouse. Together, the results of analyses of viral gene sequence data in this study and our knowledge of the phylogeography of the rodents that serve as principal hosts of the New World arenaviruses suggest that genetic recombination between arenaviruses with significantly different phylogenetic histories did not play a role in the evolution of the North American arenaviruses.     

Diversity among Tacaribe serocomplex viruses (Family Arenaviridae) associated with the southern plains woodrat (Neotoma micropus)

The southern plains woodrat (Neotoma micropus) is the principal host of Catarina virus in southern Texas and a natural host of other North American Tacaribe serocomplex viruses. The objectives of this study were to increase our knowledge of the genetic diversity among Tacaribe serocomplex viruses associated with N. micropus and to define better the natural host relationships of these viruses. Pairwise comparisons of complete glycoprotein precursor gene sequences and complete nucleocapsid protein gene sequences revealed a high level of genetic diversity among Tacaribe serocomplex viruses associated with N. micropus in western Oklahoma, southern New Mexico, and northern and southern Texas. Collectively, the results of Bayesian analyses of nucleotide sequences and pairwise comparisons of amino acid sequences confirmed that the arenaviruses associated with N. micropus in Oklahoma and New Mexico should be included in the Whitewater Arroyo species complex, and indicated that that the arenaviruses associated with N. micropus in northern Texas are strains of a novel arenaviral species – tentatively named “Middle Pease River virus”. Together, the results of assays for arenavirus and assays for anti-arenavirus antibody in 54 southern plains woodrats and 325 other rodents captured at 2 localities suggested that the southern plains woodrat is the principal host of Middle Pease River virus in northern Texas.     

New insights into the evolutionary relationships between arenaviruses provided by comparative analysis of small and large segment sequences

Arenaviruses are rodent-borne negative-stranded bisegmented RNA viruses. Five arenaviruses are etiologic agents of hemorrhagic fever in humans and are potential agents of bioterrorism. They are classified as Biosafety level 4 agents and listed in the category A of the Pathogen Agents edited by the Center for Disease Control and Prevention. To date, evolution and phylogeny of arenaviruses have been based on the analysis of sequences derived from structural genes (small RNA segment) exclusively, due to the lack of sequences available for the large RNA segment. In this study, partial sequences of the polymerase gene were determined for 18 species of arenaviruses and used to investigate phylogenetic relationships. Comparative analysis of topologies obtained from polymerase and structural gene analyses permitted us to determine the evolutionary origin of the major parent of the North American recombinant arenaviruses, and to investigate the role of genetic exchange (reassortment and recombination) in the evolutionary mechanisms driving the evolution of the genus Arenavirus.     

The Whitewater Arroyo virus: natural evidence for genetic recombination among Tacaribe serocomplex viruses (family Arenaviridae)

The Tacaribe serocomplex (family Arenaviridae) comprises three phylogenetic lineages, designated A, B, and C. The sequence of a 3278-nt fragment of the small genomic segment of the Whitewater Arroyo (WWA) virus was determined to extend our knowledge on the phylogenetic relationship of this newly discovered North American Tacaribe complex virus to other arenaviruses. Independent analyses of full-length nucleoprotein (N) and glycoprotein precursor (GPC) amino acid sequences indicated that the WWA virus N and GPC genes are descended from a lineage A virus and lineage B virus, respectively. The different phylogenetic histories of the N and GPC genes indicate that the WWA virus genome is a product of recombination between two Tacaribe complex viruses.     

High genetic divergence and recombination in Arenaviruses from the Americas

The rodent-borne Arenaviruses are divided into two major antigenic groups: the Old World and New World complexes. Of the 15 known New World arenaviruses, four (Junin, Machupo, Sabia, and Guanarito) have been associated with hemorrhagic fever in humans. It has been difficult to assess the pathogenic or epidemic potential of the remaining viruses and the threat of emerging disease. We obtained full-length small (S) segment sequence data, encoding the nucleoprotein (NP) and glycoprotein precursor (GPC), from all American arenaviruses to predict their evolutionary and functional relationships. Phylogenetic analysis of NP or GPC amino acid sequences from all New World arenaviruses revealed three lineages and that Tamiami and Whitewater Arroyo viruses were probably derived from a single recombinant progenitor. The results imply that arenaviruses have been evolving independently for a very long time, leading to very diverse groupings that do not correlate with geography, rodent host, or human epidemic potential.     

Genetic characterization of the Korean porcine reproductive and respiratory syndrome viruses based on the nucleocapsid protein gene (ORF7) sequences

To investigate the genetic characteristics of the Korean porcine reproductive and respiratory syndrome virus (PRRSV), we determined the complete sequence of the nucleocapsid protein gene (ORF7) from 105 PRRSV isolates from all nine Korean prefectures during the years 2003 through 2006. These sequences were then analyzed along with the published ORF7 sequences for two Korean PRRS viruses (PL97-1/1997 and LMY/2002) and 36 non-Korean viruses. The ORF7 nucleotide sequence identities among the 107 Korean PRRS viruses ranged from 86.2 to 100%, corresponding to 85.4 to 100% identity at the amino acid level. All of the Korean isolates examined belonged to the North American genotype. The ORF7 gene sequence from the North American prototype virus (VR-2332) and its derived vaccine virus (Ingelvac PRRS MLV) was 90.0–100% identical to the various ORF7 sequences of the Korean isolates, with corresponding amino acid identities from 91.0 to 100%. In the phylogenetic tree obtained by neighbor-joining analysis, all of the Korean PRRSVs were divided into four groups. Our ORF7 sequence data also revealed no correlations between the date or place of collection and the distribution of PRRSV in Korea. North American genotype PRRSVs may have been introduced into Korean swine herds some time ago; these viruses apparently radiated nationwide within a relatively short period of time. Within the North American genotype PRRSVs from around the world, the Korean PRRSVs did not emerge as a single independent clade overall, and their immediate relationships with the PRRSVs from other countries could not be determined.     

Genetic diversity between and within the arenavirus species indigenous to western Venezuela

The results of analyses of Z, RNA-dependent RNA polymerase, glycoprotein precursor, and nucleocapsid protein gene sequence data suggested that Guanarito virus was the most common cause of Venezuelan hemorrhagic fever in a 7-year period in the 1990s and that the evolution of Pirital virus in association with Sigmodon alstoni (Alston's cotton rat) has occurred at a significantly higher rate than the evolution of Guanarito virus in association with Zygodontomys brevicauda (short-tailed cane mouse) on the plains of western Venezuela. The results of analyses of the primary structures of the glycoproteins of the 8 strains of Guanarito virus isolated from humans suggested that these strains would be highly cross-reactive in neutralization assays. Thus, passive antibody therapy may prove beneficial in the treatment of human disease caused by strains of Guanarito virus that are enzootic in the region in which Venezuelan hemorrhagic fever is endemic.     

Genetic diversity among Bolivian arenaviruses

Machupo virus and Chapare virus are members of the Tacaribe serocomplex (virus family Arenaviridae) and etiological agents of hemorrhagic fever in humans in Bolivia. The nucleotide sequences of the complete Z genes, a large fragment of the RNA-dependent RNA polymerase genes, the complete glycoprotein precursor genes, and the complete nucleocapsid protein genes of 8 strains of Machupo virus were determined to increase our knowledge of the genetic diversity among the Bolivian arenaviruses. The results of analyses of the predicted amino acid sequences of the glycoproteins of the Machupo virus strains and Chapare virus strain 200001071 indicated that immune plasma from hemorrhagic fever cases caused by Machupo virus may prove beneficial in the treatment of Bolivian hemorrhagic fever but not hemorrhagic fever caused by Chapare virus.     

The glycoprotein gene of Chrysanthemum stem necrosis virus and <Emphasis Type="Italic">Zucchini lethal chlorosis virus</Emphasis> and molecular relationship with other tospoviruses

Two tospoviruses, Chrysanthemum stem necrosis virus (CSNV) and Zucchini lethal chlorosis virus (ZLCV), cause economical losses in several ornamental and vegetable crops in Brazil. The nucleocapsid gene and movement protein sequences had already been reported for both viruses, though the glycoprotein precursor gene sequence was not available. In this study, cDNA fragments (ca. 4 kb) of the M RNA 3' portion of CSNV (isolate Chry-1) and ZLCV (isolate 1038), including the complete glycoprotein precursor gene, partial NSm gene, and the entire intergenic and 3' untranslated regions, were cloned and sequenced. The sequences were assembled with the corresponding 5' region sequence (NSm gene and 5'UTR) of the same isolates to build up the complete sequence of the M RNA segment of both species. The M RNA of CSNV was 4,828 nucleotide-long, while of ZLCV 4,836 nucleotides. Both M RNA molecules comprised two ORFs in an ambisense arrangement. The vcRNA coded for the viral glycoprotein (Gn/Gc) precursor gene of CSNV and ZLCV (both with 127.5 kDa). Comparison of deduced amino acids of the CSNV and ZLCV glycoprotein precursor genes with those of other tospoviruses showed the highest identity with that of Tomato spotted wilt virus (86%) and with that of CSNV (82%), respectively. However, the nucleotide sequence of the intergenic and 3' untranslated regions of CSNV and ZLCV shared lower identities with other tospoviruses. The glycoprotein precursor gene is thought to be a good candidate as additional classification parameter for Tospovirus taxonomy. The presence of the RGD motif in both Gc proteins indicated that they are typical American tospoviruses, which was confirmed by phylogenetic analysis. The membrane topology of both glycoproteins is discussed.     

Receptor use by the Whitewater Arroyo virus glycoprotein

Whitewater Arroyo virus (WWAV) is a North American New World arenavirus, first isolated from rats in New Mexico in 1993, and tentatively associated with three human fatalities in California in 1999-2000. However, it remains unclear whether WWAV was the cause of these, or any other, human infections. One important characteristic of viruses that influences pathogenic potential is the choice of cellular receptor and the corresponding tropism of the virus. In the arenaviruses, these properties are determined largely by the viral glycoprotein (GP). We have previously noted for the New World clade B arenaviruses, which include four severe human pathogens, that the ability to cause human disease correlates with the ability of the GP to use the human transferrin receptor 1 (hTfR1) to enter cells. In addition, pseudotyped retroviral vectors displaying the GPs from pathogenic clade B viruses transduced a range of cell lines in vitro that were distinct from those that could be transduced by non-pathogenic clade B viruses. WWAV was initially classified as a New World clade A virus, based on sequence analysis of its nucleoprotein gene. However, more extensive analyses have revealed that WWAV and the other North American arenaviruses are probably recombinant clade A/B viruses, and that the WWAV GP is more closely related to the clade B GPs. Based on this finding, we sought to understand more about the possible pathogenic potential of WWAV by determining whether its clade B-like GP exhibited the characteristics of a pathogenic or non-pathogenic clade B virus. Our studies found that WWAV GP did not use hTfR1 for entry, and that its overall in vitro tropism was most similar to the GPs from the non-pathogenic clade B viruses. Although many viral factors in addition to GP receptor use and tropism determine whether a virus is able to cause disease in humans, our analysis of the WWAV GP does not support the idea that WWAV is a human pathogen.     

Diversity among Tacaribe serocomplex viruses (family Arenaviridae) naturally associated with the Mexican woodrat (Neotoma mexicana)

The results of analyses of glycoprotein precursor and nucleocapsid protein gene sequences indicated that an arenavirus isolated from a Mexican woodrat (Neotoma mexicana) captured in Arizona is a strain of a novel species (proposed name Skinner Tank virus) and that arenaviruses isolated from Mexican woodrats captured in Colorado, New Mexico, and Utah are strains of Whitewater Arroyo virus or species phylogenetically closely related to Whitewater Arroyo virus. Pairwise comparisons of glycoprotein precursor sequences and nucleocapsid protein sequences revealed a high level of divergence among the viruses isolated from the Mexican woodrats captured in Colorado, New Mexico, and Utah and the Whitewater Arroyo virus prototype strain AV 9310135, which originally was isolated from a white-throated woodrat (Neotoma albigula) captured in New Mexico. Conceptually, the viruses from Colorado, New Mexico, and Utah and strain AV 9310135 could be grouped together in a species complex in the family Arenaviridae, genus Arenavirus.     

Arenavirus Phylogeny: A New Insight

Arenaviridae is a worldwide distributed family, of enveloped, single stranded, RNA viruses. The arenaviruses were divided in two major groups (Old World and New World), based on serological properties and genetic data, as well as the geographic distribution. In this study the phylogenetic relationship among the members of the Arenaviridae was examined, using the reported genomic sequences. The comparison of the aligned nucleotide sequences of the S RNA and the predicted amino acid sequences of the GPC and N proteins, together with the phylogenetic analysis, strongly suggest a possible kinship of Pichindé and Oliveros viruses, with the Old World arenavirus group. This analysis points at the evolutive relationships between the arenaviruses of the Americas and can be used to evaluate the different hypotheses about their origin.     

Origin and evolution of viruses causing classical swine fever in Cuba

We have analyzed the origin and evolution of viruses from the classical swine fever (CSF) epidemic that affects Cuba since 2001 by nucleotide sequencing of regions within the E2 glycoprotein and the NS5B (polymerase) genes. The sequence of 190 nucleotides from E2 gene was determined for 10 CSF viruses isolated at different locations of the island, and used for phylogenetic analyses, including sequences from viruses of the 1993--1997 epizootic, previously determined, as well as those from representatives of the different CSFV genotypes. The phylogenetic tree obtained indicates that viruses circulating at present belong to the subgroup 1.2 and are closely related to those isolated during the 1993--1997 epizootic, including the strain Margarita used for vaccine potency tests in Cuba. However, the pattern of evolution revealed by these analyses was different than that observed previously, in which western isolates were almost identical to Margarita strain, while eastern isolates showed a higher level of genetic diversification. In this case, all the viruses analyzed grouped in an independent, define cluster that is closely related, albeit distinguishable, from that of Margarita-related viruses that previously circulated in the western part of Cuba. In addition, the 2001--2003 viruses showed a branched pattern with a level of sequence diversification similar to that observed in the eastern 1993--1997 viruses. Interestingly, a significant fraction (about 54%) of the mutations found in the E2 sequence led to amino acid replacements. This high rate of non-synonymous mutations was not found in the previous Cuban epizootic and has not been reported for other CSF outbreaks. In spite of these amino acid replacements, no antigenic changes were observed in the reactivity of different isolates with CSFV-specific MAbs and polyclonal sera. The phylogenetic tree derived from 409 nucleotides of NS5B gene of seven isolates and Margarita strain, was consistent with that obtained from E2 sequences. In this region, encoding a non-structural protein, a low level of fixation of non-synonymous mutations was observed. The results obtained suggests that epidemiological factors affecting CSFV spread during the current epizootic in Cuba can favour the fixation of non-synonymous mutation in the E2 gene, which could be associated with a lower severity in the clinical signs developed by most of the affected animals.     

风疹病毒JR23株E1包膜糖蛋白的基因克隆与序列分析

目的：建立风疹病毒包膜糖蛋白E1的克隆载体，研究E1基因变异情况，并对其序列进行系统发生树分析。方法：利用RT－PCR方法扩增并回收风疹病毒JR23株的包膜糖蛋白E1的基因片段，将其与PMD－18T载体连接，经氨苄青霉素筛选，酶切鉴定，以获得风疹病毒E1蛋白基因的克隆，将此基因测序后，利用DNASTAR和WINSTAR软件包绘制系统发生树进行序列之间的比较分析。结果：筛选出含有风疹病毒E1蛋白基因的克隆，序列分析及发生树的绘制表明：JR23株与日本TCRB株及英国THOMAS株差别最小，分别为0．9％和1．2％，与北京BRD2株及香港XG379株差别最大，分别为7．6％和7．3％，与其它各株的差别均小于3％（除NC株为3．7％外），系统发生也与THO－MAS株、TCRB株最近，与BRD2株最远。结论：克隆载体的建立为进一步研究E1基因与糖蛋白功能的关系提供基础。系统发生表明中国不同地区风疹流行株基因序列存在明显差异，这对风疹病毒遗传与变异，分子流行病学研究，以及制备有效的亚单位疫苗提供了资料。     

Comparison of nucleic and amino acid sequences and phylogenetic analysis of the GS protein of various equine arteritis virus isolates

The genetic variation in equine arteritis virus (EAV) G_S protein encoding gene was investigated. Nucleic and deduced amino acid sequences from eight different EAV isolates (one European, two American and five Canadian isolates) were compared with those of the Bucyrus reference strain. Nucleotide and amino acid sequence identities between these isolates and the Bucyrus reference strain ranged from 92.3 to 96.4%, and 93.2 to 95.5%, respectively. However, phylogenetic tree analysis and estimation of genetic distances based on the G_S protein encoding gene sequences showed that the European prototype Vienna strain, the American 87AR-A1 isolate and all other North American EAV isolates could be classified into three genetically divergent groups. Our results showed that the G_S protein-encoding gene can be subjected on the basis of phylogenetic analysis to genetic variation, as previously shown for the other three EAV structural protein (M, N and G_L)-encoding genes.     

Genetic characterization of avian influenza viruses isolated in Israel during 2000–2006

Our aim was to establish the phylogenetic and genetic relationships among avian influenza viruses (AIV) recently isolated from poultry in Israel. During this study we analyzed complete nucleotide sequences of two envelope (hemagglutinin and neuraminidase) and six internal genes (polymerase B1, polymerase B2, polymerase A, nucleoprotein, nonstructural, and matrix) of 29 selected H9N2 and six internal genes of five H5N1 viruses isolated in Israel during 2000–2006. Comparative genetic and phylogenetic analyses of these sequences revealed that the local H5N1 viruses are closely related to H5N1 viruses isolated in European, Asian, and Middle Eastern countries in 2005–2006. The H9N2 Israeli isolates, together with viruses isolated in Jordan and Saudi Arabia formed a single group. Our data support the claim that during recent years a new endemic focus of H9N2 has been formed in the Middle East. The introduction of H5N1 and co-circulation of these two subtypes of AIV in this region may augment the risk of potentially pandemic strains emergence.     

Genome organization, serology and phylogeny of Grapevine leafroll-associated viruses 4 and 6: taxonomic implications

Complete nucleotide sequences of the type isolate of Grapevine leafroll-associated virus 4 (GLRaV-4) and of an isolate of GLRaV-6 from cv ‘Estellat’ (GLRaV-6Est) were generated and compared mutually and with related viruses. The genome organization of both viruses resembled that of members of Subgroup I in the genus Ampelovirus (fam. Closteroviridae). The availability of these sequences, along with previously existing data on related GLRaVs, allowed critical review of the taxonomy and nomenclature of these viruses. In phylogenetic analyses, GLRaV-4 and -6Est consistently grouped with GLRaV-5, -9, and -Pr forming a poorly resolved sub-cluster (“GLRaV-4 group”) within the genus Ampelovirus. In-depth study showed that genetic distances between these viruses do not exceed the intra-species diversity observed in other closteroviruses. In Western blots, partially purified preparations of GLRaVs -4, -5, -6 and -9 reacted only with homologous monoclonal antibodies, but were all recognized by polyclonal antisera to GLRaV-5 and GLRaV-9. Serological relatedness among these viruses was further confirmed in DAS-ELISA. In immuno-electron microscopy, GLRaV-6 particles appeared uniformly decorated with homologous monoclonal antibodies, whereas GLRaV-2, used as a control, showed “bipolar” morphology of the virion. Results of this study challenge taxonomy and nomenclature of several GLRaVs suggesting that they are divergent isolates of Grapevine leafroll-associated virus 4 and not, as has been assumed, distinct species (definitive and/or putative) in the genus Ampelovirus.     

Mutation analysis of the parkin and PINK1 genes in American Caucasian early-onset Parkinson disease families

Mutations in the parkin gene and the PTEN-induced putative kinase 1 gene (PINK1) have been identified as the most common causes of autosomal recessive early-onset Parkinson disease (EOPD). To investigate the presence of the parkin and PINK1 gene mutation(s) and to explore genotype-phenotype correlations in American Caucasian families with EOPD from North American, we screened these two genes in probands of six families by direct sequencing, semi-quantitative PCR and RT-PCR. No PINK1 gene mutation was found in any of the probands, but compound heterozygous mutations (EX 3 del and EX 3_4 del) in the parkin gene were identified in one family. Extended analysis of the parkin-positive family showed the phenotype of patients was that of classic autosomal recessive EOPD, characterized by early age at onset, slow progression, beneficial response to levodopa, and levodopa-related motor complications. Three heterozygous mutation carriers (EX 3 del or EX 3_4 del) were free of any neurological symptoms. None of 62 healthy controls harbored EX 3 del or EX 3_4 del mutation. Our data suggest that compound heterozygous mutations (EX 3 and EX 3_4 del) in the parkin gene were the cause of EOPD in one of six Caucasian families; heterozygous EX 3 del and heterozygous EX 3_4 del forms were insufficient to cause this disorder, consistent with a loss-of-function mechanism of the parkin mutations. The results may provide new insights into the cause and diagnosis of PD and have implications for genetic counseling.     

Genomic characterization of the unclassified bovine enteric virus Newbury agent-1 (Newbury1) endorses a new genus in the family Caliciviridae

The pathogenic bovine enteric virus, Newbury agent-1 (Bo//Newbury1/1976/UK), first identified in 1976, was characterized as a possible calicivirus by morphology, buoyant density in CsCl and the presence of a single capsid protein but genomic sequence could not be obtained. In the present study, the complete genome sequence of Newbury1 was determined and classified Newbury1 in a new genus of the Caliciviridae. The Newbury1 genome, of 7454 nucleotides, had two predicted open reading frames (ORFs). ORF1 encoded the non-structural and contiguous capsid proteins. ORF2 encoded a basic protein characteristic of the family Caliciviridae. Compared to the 4 recognized Caliciviridae genera, Norovirus, Sapovirus, Lagovirus and Vesivirus, Newbury1 had less than 39% amino acid (47% nucleotide) identity in the complete 2C-helicase, 3C-protease, 3D-polymerase and capsid regions but had 89% to 98% amino acid (78% to 92% nucleotide) identity to the recently characterized NB virus in these regions. By phylogenetic analyses, Newbury1 and NB viruses formed a distinct clade independent of the 4 recognized genera. However, amino acid identities showed that Newbury1 and the NB virus were distinct polymerase types (90% amino acid identity), but their complete capsid proteins were almost identical (98% amino acid identity). Analyses of contemporary viruses showed that the two polymerase genotypes, Newbury1 and NB, were circulating in UK cattle and antibody to Newbury1-like viruses was common in cattle sera. The present study defined the existence of a new genus in the Caliciviridae that we propose be named Becovirus or Nabovirus to distinguish the new clade from bovine noroviruses.     

汉坦病毒包膜糖蛋白G2的基因克隆与序列分析

目的 建立汉坦病毒(HV)包膜糖蛋白G2的克隆载体;进行系统发生树分析,研究G2基因的变异情况.方法 应用逆转录聚合酶链反应(RT-PCR)扩增山东省HV G2基因片段,克隆于PMD-18T载体,经氨卞西林筛选,酶切鉴定后,进行序列测定,应用DNASTAR软件将其与世界范围内的病毒株基因序列进行分析.结果 扩增得到山东省高密、淄川、莒南、荣成四地G2基因.序列同源性分析表明,四地G2基因都属于SEO型HV,与Z37株核苷酸同源性最高,与其他SEO型各株的同源性为82.3%～99.8%;绘出了G2基因及氨基酸的系统发生树.结论 成功地建立了山东省四地HV G2基因克隆载体;四地HV G2基因同源性高,为山东省SEO型HV的遗传与变异、分子流行病学研究,以及制备有效的亚单位疫苗提供了依据.