Complete Genome Sequence of a Novel Human Parechovirus

Human parechoviruses (HPeVs) belonging to the family Picornaviridae are widely spread pathogens among young children. We report the complete genome sequence of a novel HPeV isolated from the stool sample of a hospitalized child with diarrhea in China. The genome consists of 7,305 nucleotides, excluding the 3′ poly(A) tail, and has an open reading frame that maps between nucleotide positions 675 and 7217 and encodes a 2,180-amino-acid polyprotein. The genome sequence of the virus was sufficiently distinct from the 8 known HPeV types. Phylogenetic analysis based on the complete genome indicated that the HPeV strain represents a new genotype.     

天津市致病毒性脑炎柯萨奇病毒B组5型全基因组序列分析

肠道病毒是我国病毒性脑炎(Viral encephalitis,VE)的主要病原体。本文研究对4株引起VE的天津柯萨奇病毒B组5型(Coxsackievirus B5,CV-B5)分离株进行Illumina MiniSeq高通量测序,并对其全基因组特征、进化及重组特点进行分析。结果提示,4株CV-B5天津分离株的全基因组核苷酸和氨基酸序列同源性分别为84.5%~100.0%和98.1%~100.0%,与国内流行株的全基因组核苷酸序列同源性为83.2%~96.5%,氨基酸序列同源性为96.4%~99.4%。基于全基因组的系统进化分析将CV-B5流行株分为A-D四个基因型,其中天津与国内流行株均属于C基因型。C基因型进一步分为3个进化分支,而天津分离株处在两个不同的分支上。基于基因组各区段序列的系统进化与SimPlot重组分析结果显示,天津分离株15-39N、15-41N与埃可病毒30型(Echovirus 30,E-30)原型株在P3区3B、3C、3D区域均检测到重组信号。本研究有助于了解CV-B5的全基因组特点和重组规律,为相关疾病的防控提供依据。     

Molecular characterization of lapinized classical Swine Fever vaccine strain by full-length genome sequencing and analysis

The complete genome of a lapinized classical swine fever virus (CSFV) vaccine strain was amplified into nine overlapping fragments by RT-PCR, and nucleotide sequences were determined. Complete genome sequence alignment and phylogenetic analysis indicated 92.6-98.6% identities at the nucleotide level with other reported CSFV strains and could be grouped into subgroup 1.1 along with other attenuated strains of CSFV. The 5'-UTR demonstrated >97.0% nucleotide similarity with most of vaccine CSFV strains from China. Further, its 3'-UTR sequence indicated a length similar to all the CSFV strains from China with >98.0% nucleotide similarity, although high length heterogeneity of 3'-UTR was reported among different CSFV strains. There was 12 nt (TTTTCTTTTTTT) insertion in 3'-UTR similar to other reported attenuated vaccine strains. However, secondary structure of 3'-UTR indicated that Indian CSFV strain requires further passage to obtain a 3'-UTR structure similar to most of the attenuated strains.     

Complete genome sequence of the genotype 4 hepatitis E virus strain prevalent in swine in Jiangsu Province, China, reveals a close relationship with that from the human population in this area

Hepatitis E virus (HEV) is a zoonotic pathogen of which several species of animal were reported as reservoirs. Swine stands out as the major reservoir for HEV infection in humans, as suggested by the close genetic relationship of swine and human viruses. In a previous study, we sequenced the complete genome of a human genotype 4 HEV strain (HM439284) that is prevalent in Jiangsu Province, China. Here we report the complete genome of one genotype 4 HEV strain which is prevalent in swine herds in Jiangsu Province. Phylogenetic analysis indicated that the swine HEV strain in the present study has high sequence homology (>92%) with the genotype 4 HEV strains prevalent in the human population of Jiangsu Province. These results suggested that the genotype 4 HEV strain in the present study is involved in cross-species transmission between swine and humans in this area.     

Comparative sequences of two type 1 dengue virus strains possessing different growth characteristics in vitro

The complete genome sequences of two dengue-1 virus strains having different growth characteristics (Mochizuki and A88) were compared with other published strains. The sequence analysis indicated several unique amino acid changes throughout the coding region of Mochizuki strain, mostly in envelope (E) protein. A unique amino acid, Ile-69 for Mochizuki strain at E protein resulted in the loss of an Asn-67-linked glycosylation site. A Thr substitution for Ala-114 at C protein and amino acid changes found in E, non-structural NS3, NS4a, and NS5 proteins were unique for A88 strain. These substitutions might be correlated to their different growth characteristics in vitro.     

兔出血症病毒（RHDV）WHNRH株的分离鉴定及基因组全序列的测定与分析

从发病长毛兔中分离鉴定了兔病毒性出血症病毒WHNRH株。参考GenBank中已登录的RHDV毒株序列对RHDV WHNRH分离株进行了全基因组序列测定与分析。设计5对扩增区段相互重叠的RHDV特异性引物,扩增除5′和3′末端以外的序列,采用设计锚引物的5′RACE方法以及针对RHDV 3′末端的polyA结构设计引物获得了RHDV WHNRH株的5′和3′末端序列。胶回收各PCR产物,连接pMD 18-T克隆载体,测得RHDV WHNRH分离株的基因组全长为7437nt(不包括polyA),与GenBank公布的全部共6株RHDV全基因序列进行同源性比较分析,同源性在89.0%~97.1%之间,ORF1同源性为89.0%~97.1%,编码氨基酸序列的同源性为95.2%~98.7%;ORF2的核酸苷序列同源性为92.1%~97.7%,编码氨基酸序列的同源性为94.1%~96.6%。     

Phylogenetic analysis of polyomavirus simian virus 40 from monkeys and humans reveals genetic variation

A phylogenetic analysis of 14 complete simian virus 40 (SV40) genomes was conducted in order to determine strain relatedness and the extent of genetic variation. This analysis included infectious isolates recovered between 1960 and 1999 from primary cultures of monkey kidney cells, from contaminated poliovaccines and an adenovirus seed stock, from human malignancies, and from transformed human cells. Maximum-parsimony and distance methods revealed distinct SV40 clades. However, no clear patterns of association between genotype and viral source were apparent. One clade (clade A) is derived from strain 776, the reference strain of SV40. Clade B contains isolates from poliovaccines (strains 777 and Baylor), from monkeys (strains N128, Rh911, and K661), and from human tumors (strains SVCPC and SVMEN). Thus, adaptation is not essential for SV40 survival in humans. The C terminus of the T-antigen (T-ag-C) gene contains the highest proportion of variable sites in the SV40 genome. An analysis based on just the T-ag-C region was highly congruent with the whole-genome analysis; hence, sequencing of just this one region is useful in strain identification. Analysis of an additional 16 strains for which only the T-ag-C gene was sequenced indicated that further SV40 genetic diversity is likely, resulting in a provisional clade (clade C) that currently contains strains associated with human tumors and human strain PML-1. Four other polymorphic regions in the genome were also identified. If these regions were analyzed in conjunction with the T-ag-C region, most of the phylogenetic signal could be captured without complete genome sequencing. This report represents the first whole-genome approach to establishing phylogenetic relatedness among different strains of SV40. It will be important in the future to develop a more complete catalog of SV40 variation in its natural monkey host, to determine if SV40 strains from different clades vary in biological or pathogenic properties, and to identify which SV40 strains are transmissible among humans.     

Full genomic analysis of human rotavirus strain B4106 and lapine rotavirus strain 30/96 provides evidence for interspecies transmission

The Belgian rotavirus strain B4106, isolated from a child with gastroenteritis, was previously found to have VP7 (G3), VP4 (P[14]), and NSP4 (A genotype) genes closely related to those of lapine rotaviruses, suggesting a possible lapine origin or natural reassortment of strain B4106. To investigate the origin of this unusual strain, the gene sequences encoding VP1, VP2, VP3, VP6, NSP1, NSP2, NSP3, and NSP5/6 were also determined. To allow comparison to a lapine strain, the 11 double-stranded RNA segments of a European G3P[14] rabbit rotavirus strain 30/96 were also determined. The complete genome similarity between strains B4106 and 30/96 was 93.4% at the nucleotide level and 96.9% at the amino acid level. All 11 genome segments of strain B4106 were closely related to those of lapine rotaviruses and clustered with the lapine strains in phylogenetic analyses. In addition, sequence analyses of the NSP5 gene of strain B4106 revealed that the altered electrophoretic mobility of NSP5, resulting in a super-short pattern, was due to a gene rearrangement (head-to-tail partial duplication, combined with two short insertions and a deletion). Altogether, these findings confirm that a rotavirus strain with an entirely lapine genome complement was able to infect and cause severe disease in a human child.     

A recombinant virus between the Sabin 1 and Sabin 3 vaccine strains of poliovirus as a possible candidate for a new type 3 poliovirus live vaccine strain.

Biological tests including the monkey neurovirulence test performed on recombinants between the virulent Mahoney and attenuated Sabin 1 strains of type 1 poliovirus indicated that the genome region encoding mainly the viral capsid proteins had little correlation with the neurovirulence or attenuation phenotype of the virus. The results suggested that new vaccine strains of type 2 and type 3 polioviruses may be constructed in vitro by replacing the sequence encoding the antigenic determinants in viral capsid proteins of the Sabin 1 genome by the corresponding sequences of the type 2 and type 3 genome, respectively. Accordingly, we constructed recombinants between the Sabin 1 and Sabin 3 strains of poliovirus in which genome sequences of the Sabin 1 strain encoding most or all capsid proteins were replaced by the corresponding genome sequences of the Sabin 3 strain. One of the recombinant viruses thus constructed was fully viable and showed antigenicity and immunogenicity identical to those of type 3 poliovirus. The monkey neurovirulence tests and in vitro phenotypic marker tests (temperature sensitivity of growth, sodium bicarbonate concentration dependency of growth under agar overlay, and size of plaque) were performed on the recombinant virus. The stability of the virus in regard to the temperature sensitivity phenotype was also tested. The results suggested that the recombinant virus is a possible candidate for a new type 3 poliovirus vaccine strain.     

猪Ⅱ型圆环病毒豫A株的全基因组克隆与序列分析

参照国外发表的猪Ⅱ型圆环病毒(porcine circovirus type 2,PCV-2)全基因组序列,设计一对PCV-2特异性引物,用该室分离的PCV-2豫A株感染PK-15细胞,从中提取PCV-2复制型基因组DNA,并以之为模板进行PCR扩增.回收PCR产物,构建重组测序质粒T-PCV-2.测序结果表明,猪Ⅱ型圆环病毒豫A株的全基因组为1767bp,与GenBank收录的PCV-2国外分离株核苷酸的同源性可高达97%.序列分析表明,复制型豫A株的基因组包含10个读码框架,其中ORF1、ORF2是其两个最主要的读码框架,分别编码314、234个氨基酸.豫A株和PCV-1间的ORF1、ORF2的氨基酸序列同源性分别为85%、66%,与其它PCV-2毒株间的ORF1氨基酸同源性均在98%以上,而ORF2的氨基酸同源性为92%～97%.     

我国肾综合征出血热疫苗生产株LR1株的全基因组序列分析

为测定我国肾综合征出血热疫苗生产株LR1株的全基因组序列 ,了解该株分子基础 ,从提取的细胞总RNA逆转录PCR扩增 ,产物纯化后克隆T载体纯化后测序 ,结果证明 ,LR1株全基因组序列由L6 5 33、M36 16、S片段的16 92个核苷酸组成 ,依各自读码框架分别编码 2 15 1、1135、42 9个氨基酸。序列同源比较分析表明 ,LR1毒株与国外HTN型毒株高度同源 ,属同一亚型 ,尤其与HTN代表株 76 - 1183个片段同源率高达 99 3%～ 99 8% ,而与国内的HTN型病毒差异较大 ,同源率仅为 79 4%～ 84 6 %。氨基酸比较也显示了同样的结果。     

Prevalence of emm1 Streptococcus pyogenes having a novel type of genomic composition

Streptococcus pyogenes is a causative agent of streptococcal toxic shock syndrome (STSS). The complete genome sequence of a S. pyogenes strain 10–85 isolated from a STSS patient was recently announced. In this study, the genome sequence was dissected and it was found that the genomic region around 200 kbp (region A) and the genomic region around 1600 kbp (region B) were replaced by each other in strain 10–85, when compared with those in reference strains SF370 and A20. In order to address whether this replacement is unique to 10–85, we further analyzed 163 emm1‐type strains. The results indicated that none of the strains isolated before 1990 had the replacement. In contrast, most of the strains isolated at least after 2000 appeared to have the 10–85‐type replacement.     

口蹄疫病毒Asia1/YNBS/58株全基因组序列分析

口蹄疫是由口蹄疫病毒(Foot-and-mouth dis-ease virus,FMDV)感染引起的偶蹄动物(猪、牛、羊、骆驼等)共患的一种急性、烈性、接触性传染病。FMDV是小核糖核酸病毒科(Picornaviridae)口蹄疫病毒属(Aphthovirus)的成员,有7个血清型,分别为O、A、C、Asia1、SAT1、SAT2、SAT3,完整     

Whole Genome Sequence of Treponema pallidum ssp. pallidum,Strain Mexico A,Suggests Recombination between Yaws and Syphilis Strains

Background

Treponema pallidum ssp. pallidum (TPA), the causative agent of syphilis, and Treponema pallidum ssp. pertenue (TPE), the causative agent of yaws, are closely related spirochetes causing diseases with distinct clinical manifestations. The TPA Mexico A strain was isolated in 1953 from male, with primary syphilis, living in Mexico. Attempts to cultivate TPA Mexico A strain under in vitro conditions have revealed lower growth potential compared to other tested TPA strains.

Methodology/Principal Findings

The complete genome sequence of the TPA Mexico A strain was determined using the Illumina sequencing technique. The genome sequence assembly was verified using the whole genome fingerprinting technique and the final sequence was annotated. The genome size of the Mexico A strain was determined to be 1,140,038 bp with 1,035 predicted ORFs. The Mexico A genome sequence was compared to the whole genome sequences of three TPA (Nichols, SS14 and Chicago) and three TPE (CDC-2, Samoa D and Gauthier) strains. No large rearrangements in the Mexico A genome were found and the identified nucleotide changes occurred most frequently in genes encoding putative virulence factors. Nevertheless, the genome of the Mexico A strain, revealed two genes (TPAMA_0326 (tp92) and TPAMA_0488 (mcp2-1)) which combine TPA- and TPE- specific nucleotide sequences. Both genes were found to be under positive selection within TPA strains and also between TPA and TPE strains.

Conclusions/Significance

The observed mosaic character of the TPAMA_0326 and TPAMA_0488 loci is likely a result of inter-strain recombination between TPA and TPE strains during simultaneous infection of a single host suggesting horizontal gene transfer between treponemal subspecies.     

Whole Genomic Analysis of an Unusual Human G6P[14] Rotavirus Strain Isolated from a Child with Diarrhea in Thailand: Evidence for Bovine-To-Human Interspecies Transmission and Reassortment Events

An unusual rotavirus strain, SKT-27, with the G6P[14] genotypes (RVA/Human-wt/THA/SKT-27/2012/G6P[14]), was identified in a stool specimen from a hospitalized child aged eight months with severe diarrhea. In this study, we sequenced and characterized the complete genome of strain SKT-27. On whole genomic analysis, strain SKT-27 was found to have a unique genotype constellation: G6-P[14]-I2-R2-C2-M2-A3-N2-T6-E2-H3. The non-G/P genotype constellation of this strain (I2-R2-C2-M2-A3-N2-T6-E2-H3) is commonly shared with rotavirus strains from artiodactyls such as cattle. Phylogenetic analysis indicated that nine of the 11 genes of strain SKT-27 (VP7, VP4, VP6, VP2-3, NSP1, NSP3-5) appeared to be of artiodactyl (likely bovine) origin, while the remaining VP1 and NSP2 genes were assumed to be of human origin. Thus, strain SKT-27 was found to have a bovine rotavirus genetic backbone, and thus is likely to be of bovine origin. Furthermore, strain SKT-27 appeared to be derived through interspecies transmission and reassortment events involving bovine and human rotavirus strains. Of note is that the VP7 gene of strain SKT-27 was located in G6 lineage-5 together with those of bovine rotavirus strains, away from the clusters comprising other G6P[14] strains in G6 lineages-2/6, suggesting the occurrence of independent bovine-to-human interspecies transmission events. To our knowledge, this is the first report on full genome-based characterization of human G6P[14] strains that have emerged in Southeast Asia. Our observations will provide important insights into the origin of G6P[14] strains, and into dynamic interactions between human and bovine rotavirus strains.     

Complete Genomic Sequence and Comparative Analysis of the Genome Segments of Sweet Potato Chlorotic Stunt Virus in China

Background

Sweet potato chlorotic stunt virus (family Closteroviridae, genus Crinivirus) features a large bipartite, single-stranded, positive-sense RNA genome. To date, only three complete genomic sequences of SPCSV can be accessed through GenBank. SPCSV was first detected from China in 2011, only partial genomic sequences have been determined in the country. No report on the complete genomic sequence and genome structure of Chinese SPCSV isolates or the genetic relation between isolates from China and other countries is available.

Methodology/Principal Findings

The complete genomic sequences of five isolates from different areas in China were characterized. This study is the first to report the complete genome sequences of SPCSV from whitefly vectors. Genome structure analysis showed that isolates of WA and EA strains from China have the same coding protein as isolates Can181-9 and m2-47, respectively. Twenty cp genes and four RNA1 partial segments were sequenced and analyzed, and the nucleotide identities of complete genomic, cp, and RNA1 partial sequences were determined. Results indicated high conservation among strains and significant differences between WA and EA strains. Genetic analysis demonstrated that, except for isolates from Guangdong Province, SPCSVs from other areas belong to the WA strain. Genome organization analysis showed that the isolates in this study lack the p22 gene.

Conclusions/Significance

We presented the complete genome sequences of SPCSV in China. Comparison of nucleotide identities and genome structures between these isolates and previously reported isolates showed slight differences. The nucleotide identities of different SPCSV isolates showed high conservation among strains and significant differences between strains. All nine isolates in this study lacked p22 gene. WA strains were more extensively distributed than EA strains in China. These data provide important insights into the molecular variation and genomic structure of SPCSV in China as well as genetic relationships among isolates from China and other countries.     

1株梅花鹿源狂犬病街毒株全基因组测序与分析

对1株梅花鹿源性狂犬病街毒株(DRV)进行全基因组克隆,对全长cDNA进行测序分析.RT-PCR扩增克隆覆盖全基因组9个重叠基因片段,基因组3'和5'末端采取3,-RACE和5'-RACE方法,9个重叠基因片段序列拼接得到DRV全基因组cDNA序列,共11 863个核苷酸.DRV毒株全基因组构成与其他狂犬病毒基因组构成相似,由5个编码区组成,基因起始位点和终止位点高度保守,在核蛋白和糖蛋白的重要抗原位点有个别氨基酸发生变异,对已完成全基因组测序的几个基因1型毒株分别进行了N、P、M、G、L基因核苷酸及氨基酸的同源性比较.与其他具有代表性的毒株进行N基因序列比较建立的系统进化树表明,DRV毒株属于基因1型,与中国人用疫苗株3aG同源性最高为94%,与分类位置未确定的北高加索毒株(WCBV)的同源性最低为71%.本研究结果可为狂犬病毒各项分子生物学研究提供理论参考.     

Seroepidemiology of human parechovirus types 1, 3, and 6 in Yamagata,Japan, in 2014

To clarify the seroepidemiology of human parechovirus type 1 (HPeV1), 3 and 6, neutralizing antibodies (NT Abs) were measured in 214 serum specimens collected in 2014 in Yamagata, Japan. The seroprevalence against HPeV1 was 100% in all age groups, while that against HPeV3 and HPeV6 was 79.4% and 66.8%, respectively, overall. The geometric mean titers of NT Abs against HPeV1, 3 and 6 were 755.2, 255.0 and 55.9, respectively, overall. Our findings indicate that HPeV1 is the most prevalent HPeV circulating in Yamagata, followed by HPeV3 and HPeV6.     

Construction of physical map and mapping of chromosomal virulence genes of the biovar 3 Agrobacterium (Rhizobium vitis) strain K-Ag-1

Most plant pathogenic Agrobacterium strains have been classified into three biovars, "biovar 1 (A. tumefaciens; Rhizobium radiobacter), biovar 2 (A. rhizogenes; R. rhizogenes) and biovar 3 (A. vitis; R. vitis)". The bacteria possess diverse types of genomic organization depending on the biovar. Previous genomic physical maps indicated difference in location of rDNA and chromosomally-coded virulence genes between biovar 1 and 2 genomes. In order to understand biovar 3 genome and its evolution in relation to the biovar 1, 2 and 3 genomes, we constructed physical map of a pathogenic biovar 3 strain K-Ag-1 in this study. Its genome consisted of two circular chromosomes (3.6 and 1.1 Mbp in length), and three plasmids (560, 230 and 70 kbp). Gene mapping based on the physical map showed presence of two rDNA loci in the larger chromosome and at least one rDNA locus in the smaller chromosome. Six chromosomal virulence genes, namely chvA, chvD, chvE, glgP, exoC and ros were found in the larger chromosome and not in the smaller chromosome. The location of rDNA loci is similar with that of biovar 1 genome, whereas the location of chromosomal virulence genes is similar with that of biovar 2 genome despite of the closer 16S-rRNA based phylogenetic relation of biovar 3 with biovar 1 than with biovar 2. Genomic PFGE RFLP analysis revealed that the K-Ag-1 strain, which was isolated on a kiwifruit plant in Japan, has the closest intra-species relation with two strains isolated from grapevine plants in Japan among eight biovar 3 strains examined. This datum suggests that the line of the strain is a major one in biovar 3 in Japan. Evolution of the genome of the strain is discussed based on the data.