Nucleotide sequence of Chinese rape mosaic virus (oilseed rape mosaic virus), a crucifer tobamovirus infectious on Arabidopsis thaliana

The complete nucleotide sequence of Chinese rape mosaic virus has been determined. The virus is a member of the tobamovirus genus of plant virus and is able to infect Arabidopsis thaliana (L.) Heynh systemically. The analysis of the sequence shows a gene array that seems to be characteristic of crucifer tobamoviruses and which is slightly different from the one most frequently found in tobamoviruses. Based on gene organization and on comparisons of sequence homologies between members of the tobamoviruses, a clustering of crucifer tobamoviruses is proposed that groups the presently known crucifer tobamovirus into two viruses with two strains each. A name change of Chinese rape mosaic virus to oilseed rape mosaic virus is proposed.Abbreviations 2-ME 2-mercaptoethanol - EDTA ethylenediaminetetraacetic acid - SDS sodium dodecyl sulfate - UTR untranslated region - MP movement protein - CP capsid protein - CRMV Chinese rape mosaic virus - TVCV turnip vein clearing virus - PaMMV paprika mild mottle virus - PMMV-I pepper mild mottle virus (Italian isolate) - PMMV-S pepper mild mottle virus (Spanish isolate) - ToMV tomato mosaic virus - TMV tobacco mosaic virus - TMGMV tobacco mild green mosaic virus - ORSV odontoglossum ringspot virus - SHMV sunn hemp mosaic virus - CGMMV cucumber green mottle mosaic virus - ORMV oilseed rape mosaic virus     

Purification,electron microscopy and serology of virus isolated fromEuonymus europaea

“Euonymus mosaic virus”, purified from cucumber cotyledons by the differential and density-gradient centrifugation, shows typical nucleoprotein absorption spectrum. Electron microscopy reveals isometric virus particles of about 37 nm diameter. No reaction of purified “Euonymus mosaic virus” was observed with antisera against a raspberry ringspot virus, tobacco ringspot virus, cherry leaf roll virus, strawberry latent ringspot virus, tomato ringspot virus, elm mosaic virus, arabis mosaic virus, tomato bushy stunt virus and watermelon mosaic virus.     

Nucleotide sequence analysis and expression from recombinant vectors demonstrate that the attachment protein G of bovine respiratory syncytial virus is distinct from that of human respiratory syncytial virus

Bovine respiratory syncytial (BRS) virus causes a severe lower respiratory tract disease in calves similar to the disease in children caused by human respiratory syncytial (HRS) virus. While there is antigenic cross-reactivity among the other major viral structural proteins, the major glycoprotein, G, of BRS virus and that of HRS virus are antigenically distinct. The G glycoprotein has been implicated as the attachment protein for HRS virus. We have carried out a molecular comparison of the glycoprotein G of BRS virus with the HRS virus counterparts. cDNA clones corresponding to the BRS virus G glycoprotein mRNA were isolated and analyzed by dideoxynucleotide sequencing. The BRS virus G mRNA contained 838 nucleotides exclusive of poly(A) and had a major open reading frame coding for a polypeptide of 257 amino acid residues. The deduced amino acid sequence of the BRS virus G polypeptide showed only 29 to 30% amino acid identity with the G protein of either the subgroup A or B HRS virus. However, despite this low level of identity, there were strong similarities in the predicted hydropathy profiles of the BRS virus and HRS virus G proteins. A cDNA molecule containing the complete BRS virus G major open reading frame was inserted into the thymidine kinase gene of vaccinia virus by homologous recombination, and a recombinant virus containing the BRS virus G protein gene was isolated. This recombinant virus expressed the BRS virus G protein, as demonstrated by Western immunoblot analysis and immunofluorescence of infected cells. The BRS virus G protein expressed from the recombinant vector was transported to and expressed on the surface of infected cells. Antisera to the BRS virus G protein made by using the recombinant vector to immunize animals recognized the BRS virus attachment protein but not the HRS virus G protein and vice versa, confirming the lack of antigenic cross-reactivity between the BRS and HRS virus attachment proteins. On the basis of the data presented here, we conclude that BRS virus should be classified within the genus Pneumovirus in a group separate from HRS virus and that it is no more closely related to HRS virus subgroup A than it is to HRS virus subgroup B.     

Detection of multiple viruses in queens of the honey bee Apis mellifera L

Individual honey bee Apis mellifera L. queens were examined for the presence of six honey bee viruses including acute bee paralysis virus, chronic bee paralysis virus, black queen cell virus, deformed wing virus, Kashmir bee virus, and sacbrood virus. All viruses, except ABPV, were detected in the samples. Among queens examined for virus infections, 93% had multiple virus infections. The detection of viruses in queens raises the possibility of a vertical transmission pathway wherein infected queens can pass virus through their eggs to their offspring.     

RNAi的抗病毒研究进展

RNA干扰(RNA interference,RNAi)是真核生物中的特异核苷酸序列产生的基因沉默现象,被认为有抑制病毒复制的功能。最近的研究表明,通过诱导RNAi可以抑制多种病毒的复制,包括人类免疫缺陷病毒Ⅰ型,乙型肝炎病毒,丙型肝炎病毒,登革热病毒,脊髓灰质炎病毒,流感病毒,口蹄疫病毒和重症急性呼吸综合征病毒等。总结了目前运用RNA干扰技术抑制病毒复制的研究进展,展望基于RNAi技术的抗病毒治疗的可能性。     

PCR在猴B病毒鉴定中的应用研究

目的为鉴定新分离毒株是否为B病毒.方法根据ScinicarielloF报道的引物,用PCR方法扩增BV147、HSV-1、HSV-2,对扩增产物进行SacⅡ内切酶消化.结果这一对引物可同时对这3种病毒进行扩增,但只有BV147的扩增产物可被SacⅡ内切酶切开.对BV147扩增片段克隆测序的结果证实,其与美国B病毒E2490株部分基因(UL27)相对应位置的核苷酸同源性为100%.结论初步建立了检测B病毒DNA的PCR方法并测定了新分离病毒毒株的部分基因序列,证明新分离的病毒为B病毒.     

Characterization of the env gene and long terminal repeat of molecularly cloned Friend mink cell focus-inducing virus DNA

The highly oncogenic erythroleukemia-inducing Friend mink cell focus-inducing (MCF) virus was molecularly cloned in phage lambda gtWES.lambda B, and the DNA sequences of the env gene and the long terminal repeat were determined. The nucleotide sequences of Friend MCF virus and Friend spleen focus-forming virus were quite homologous, supporting the hypothesis that Friend spleen focus-forming virus might be generated via Friend MCF virus from an ecotropic Friend virus mainly by some deletions. Despite their different pathogenicity, the nucleotide sequences of the env gene of Friend MCF virus and Moloney MCF virus were quite homologous, suggesting that the putative parent sequence for the generation of both MCF viruses and the recombinational mechanism for their generation might be the same. We compare the amino acid sequences in lymphoid leukemia-inducing ecotropic Moloney virus and Moloney MCF virus, and erythroblastic leukemia-inducing ecotropic Friend virus, Friend-MCF virus, and Friend spleen focus-forming virus. The Friend MCF virus long terminal repeat was found to be 550 base pairs long. This contained two copies of the 39-base-pair tandem repeat, whereas the spleen focus-forming virus genome contained a single copy of the same sequence.     

Ngari virus is a Bunyamwera virus reassortant that can be associated with large outbreaks of hemorrhagic fever in Africa

Two isolates of a virus of the genus Orthobunyavirus (family Bunyaviridae) were obtained from hemorrhagic fever cases during a large disease outbreak in East Africa in 1997 and 1998. Sequence analysis of regions of the three genomic RNA segments of the virus (provisionally referred to as Garissa virus) suggested that it was a genetic reassortant virus with S and L segments derived from Bunyamwera virus but an M segment from an unidentified virus of the genus Orthobunyavirus. While high genetic diversity (52%) was revealed by analysis of virus M segment nucleotide sequences obtained from 21 members of the genus Orthobunyavirus, the Garissa and Ngari virus M segments were almost identical. Surprisingly, the Ngari virus L and S segments showed high sequence identity with those of Bunyamwera virus, showing that Garissa virus is an isolate of Ngari virus, which in turn is a Bunyamwera virus reassortant. Ngari virus should be considered when investigating hemorrhagic fever outbreaks throughout sub-Saharan Africa.     

Serological analysis of an oncornavirus (PMF virus) detected in malignant permanent human cell lines.

Immunodiffusion analysis of the PMF virus which was detected in malignant permanent human cell lines revealed positive reactions with antisera against the Mason-Pfizer monkey virus (MPMV). No cross-reactivity was demonstrated with murine leukemia virus (MuLV), rat leukemia virus (RaLV), hamster leukemia virus (HaLV), feline leukemia virus (FeLV), simian (woolly monkey) sarcoma virus (SSV-1) and mouse mammary tumor virus (MTV). The cross-reactive antigens of the PMF virus and the MPMV are considered as evidence for the human origin of the PMF virus.     

X病毒属6个成员中国分离物CP基因的克隆及同源性分析

根据Genbank报道的大蒜A病毒(GarVA)、大蒜B病毒(GarVB)、大蒜C病毒(GarVC)、大蒜D病毒(GarVD)、大蒜E病毒(GarVE)和大蒜X病毒(GarVX)的序列设计引物,克隆外壳蛋白(CP)基因、测序并进行同源性分析。结果表明,6种病毒CP基因分别由756、735、780、753、759和732核苷酸组成。氨基酸序列多重对齐比对结果表明,GarVC与GarVD同源性最低(57.69%),GarVB与GarVX同源性最高(87.70%);同属6种病毒CP基因在C端变异性大,N端保守。进化树显示Gar-VA、GarVE和GarVD成簇,GarVB和GarVX成簇,GarVC与其他5种病毒亲缘关系较远。本研究结果为预测6种病毒之间是否存在血清学交叉反应,在进行ELISA检测是否会相互干扰提供指导意义。     

H7N9禽流感病毒与其他流感病毒对雪貂致病性与传播力的比较

目的针对2013年3月中国爆发的人感染H7N9禽流感病毒,在雪貂体内进行致病性及传播力的研究,并与甲型H1N1流感病毒、H5N1禽流感病毒进行比较。方法对新发H7N9毒株、甲型H1N1流感病毒、H5N1禽流感病毒感染雪貂后的临床症状、体征,呼吸道排毒情况,组织病理学变化等进行评价和比较,并对H7N9毒株在雪貂群体中的传播力进行研究。结果雪貂模型的临床症状、死亡率、病毒传播以及组织病理学分析显示:H7N9病毒的致病性低于H5N1,与2009年起源于北美的甲型H1N1流感病毒相当。新发H7N9禽流感病毒可以在雪貂的呼吸道、心脏、肝脏以及嗅球进行复制。值得注意的是H7N9禽流感可以通过飞沫在雪貂间进行低水平的传播,并且在传播过程中,病毒基因组内有多个位点的氨基酸发生了替换。结论 H7N9禽流感病毒对雪貂的致病性较H5N1禽流感病毒低,与甲型H1N1流感病毒对雪貂的致病性相当,H7N9禽流感病毒可在雪貂间进行传播。     

Properties and origins of infectious rhinovirus type 14 particles of different buoyant densities.

Isopycnic centrifugation of rhinovirus type 14 (RV14), purified from infected HeLa or KB cell cultures, into CsCl gradients resolved two bands of infectious virus particles with buoyant density values of 1.409 +/- 0.007 (H virus) and 1.386 +/- 0.004 (L virus) g/ml. Only H virus was detected by incorporation of radiolabeled uridine into viral RNA, and H virus accounted for the majority of infectivity in gradients. H and L virus could not be differentiated by plaque morphology, extent of neutralization by RV14-specific antiserum, or particle size. Electron microscope studies showed that most L-virus particles were associated with an amorphous material. Treatment of L virus with proteolytic enzymes or rebanding L virus in CsCl gradients resulted in recovery of the majority of infectivity as H virus. Virus purified from cell-free fluids from infected HeLa or KB cell cultures banded only as H virus. HeLa cell cultures challenged with purified H virus and harvested at 3 h postinoculation for virus purification yielded only infectious H virus. Both H and L viruses were detected in cell cultures that had been challenged with purified H virus and harvested at 12 h postinoculation. The data suggest that H virus represents progeny virus, whereas L virus represents sequestered infectious virus particles which become associated with an amorphous material and do not enter into viral replicative processes.     

综述: 病毒与宿主细胞的糖基化修饰及相关功能

病毒的复制和对宿主的入侵与自身结构蛋白的糖基化修饰密切相关．对于宿主而言,在病毒感染宿主和宿主抗病毒的过程中,宿主的糖基化过程一方面可抑制病毒的复制和入侵,另一方面可促进病毒对宿主的感染,抑制宿主糖苷酶可抑制病毒的复制．从病毒方面来看,由于病毒自身缺乏糖基化修饰系统,病毒的糖基化过程是借宿主细胞内的合成系统对自身进行糖基化修饰．病毒的糖基化过程对病毒蛋白的折叠与稳定、病毒的感染和入侵、参与识别宿主细胞受体和参与病毒的免疫逃逸等过程起着重要的作用．随着糖基化研究技术的发展,以糖基化为基础的功能应用也越来越深入：如新型病毒疫苗和新型抗病毒药物的研制,以糖蛋白质组学研究为基础的质谱技术和生物信息学方法的发展,以及利用糖基化对病毒性疾病的诊断和治疗等,这些均为糖基化深入研究发展奠定了基础．本文就病毒与宿主细胞糖基化过程、相关功能以及研究应用等进展作一综述．     

Myeloproliferative virus, a cloned murine sarcoma virus with spleen focus-forming properties in adult mice.

Myeloproliferative virus, derived from Moloney sarcoma virus, causes erythroleukemia and myeloid leukemia in adult mice. This virus is also capable of fibroblast transformation in vitro. The virus consists of two separable biological entities which have been cloned. The helper virus component caused no visible changes in adult mice, whereas the defective virus induced both spleen focus formation and a large increase in erythroid precursor cells but retained the sarcoma virus property of transforming fibroblasts in vitro. Thus, myeloproliferative virus is the first murine sarcoma virus which induces erythroleukemia in adult animals.     

A型流感病毒持续感染细胞系来源的IVpi-189病毒生物学性状的初步研究

为明确E61-24-P15 A型重组流感病毒的第189代传代子病毒(IVpi-189)是否具备流感病毒温度敏感减毒活疫苗候选株的特点,将IVpi-189病毒感染MDCK细胞,并于不同培养温度条件下培养,观察其致细胞病变效应,病毒合成、释放情况,以及不同温度条件下病毒存活时间。结果显示32℃培养温度下,IVpi-189病毒具有等同于亲代野生病毒株的诱导细胞病变能力,而当培养温度上调至38℃,IVpi-189病毒致细胞病变效果出现缓慢且程度明显减轻。空斑形成单位实验发现IVpi-189病毒在38℃培养条件下增殖能力明显下降,其原因与病毒灭活速度及子病毒释放无关,但与感染细胞病毒合成能力下降有关。上述实验结果初步证实流感病毒持续感染细胞系来源的IVpi-189病毒具有温度敏感减毒活疫苗的生物学特性,在许可培养温度条件下具有良好的增殖能力,而在非许可培养温度下,病毒增殖活性受到明显抑制。本研究为流感病毒减毒活疫苗的开发研制提供实验佐证。     

Role of virus variants and cells in maintenance of persistent infection by measles virus.

Hamster embryo fibroblasts persistently infected with a derivative of the Schwarz vaccine strain of measles virus spontaneously released virus particles with an average buoyant density considerably lower than that of the parental virus. The released virus contained all of the measles virus structural proteins and interfered with replication of standard virus. All of the virus structural proteins were associated with a membrane-free cytoplasmic extract from the persistently infected cells. Membrane-free cytoplasmic extracts prepared from Vero cells lytically infected with Schwarz strain measles contained little or no virus envelope structural protein. Maintenance of persistent infection may involve both the presence of virus variants and a defect in the ability of the infected cell to replicate the virus efficiently.     

核型多角体病毒与侧沟茧蜂对斜纹夜蛾幼虫的协同作用

研究了斜纹夜蛾幼虫体内的斜纹夜蛾侧沟茧蜂存活率、发育历期、寄主感染病毒时间、病毒浓度之间的关系,并测定了斜纹夜蛾侧沟茧蜂的传毒效率．结果表明,病毒对寄主体内寄生蜂历期无明显影响,寄生在幼虫体内的寄生蜂能在寄主病死前完成发育,存活比例因寄主感染病毒的时间和浓度而异．斜纹夜蛾被寄生后接种病毒(SINPV),距离寄生时间越长,饲毒浓度越低,寄生蜂完成发育的比例越大,但饲毒时间是主要影响因素．从感病幼虫体内发育成的侧沟茧蜂或曾经在感病寄主上产过卵的寄生蜂,以及通过人工方式使产卵器被病毒污染的寄生蜂,均能携带一定数量的病毒．通过产卵活动,侧沟茧蜂成蜂能在寄主幼虫个体间传递病毒．当寄生蜂在感病的寄主幼虫上产卵带毒后,平均可传递病毒给2．14头幼虫;发育于感病幼虫体内的寄生蜂,平均可传递病毒给2．45头幼虫．通过用病毒液浸茧或用混有病毒的蜂蜜饲喂成蜂等方式使产卵器污染病毒的寄生蜂,传毒效率随饲毒浓度增加而提高,平均可传递病毒1．45头和0．94头幼虫     

Discrimination by gel-diffusion serology of digitaria striate, maize sterile stunt and other rhabdoviruses of Poaceae

Eight rhabdoviruses from grass and cereal hosts and their antisera were used to examine virus relationships by gel-diffusion serology. Nucleocapsid (Nc) preparations from digitaria striate virus (DSV) and maize sterile stunt virus (MSSV) both contained a major protein of c. 52 OOO daltons, and antisera prepared to these readily discriminated related planthopper-transmitted rhabdoviruses. MSSV showed a moderately close relationship to barley yellow striate mosaic virus (BYSMV) when an antiserum prepared to whole virus was used, but the Nc antiserum showed clearer discrimination. Worthern cereal mosaic virus and DSV showed a distant relationship to BYSMV and MSSV. There was no serological relationship between any of these viruses and cereal chlorotic mottle virus, cynodon chlorotic streak virus, festuca leaf streak virus or maize mosaic virus.     

Nucleocapsid-glycoprotein interactions required for assembly of alphaviruses.

We have studied interactions between nucleocapsids and glycoproteins required for budding of alphaviruses, using Ross River virus-Sindbis virus chimeras in which the nucleocapsid protein is derived from one virus and the envelope glycoproteins are derived from the second virus. A virus containing the Ross River virus genome in which the capsid protein had been replaced with that from Sindbis virus was almost nonviable. Nucleocapsids formed in normal numbers in the infected cell, but very little virus was released from the cell. There are 11 amino acid differences between Ross River virus and Sindbis virus in their 33-residue E2 cytoplasmic domains. Site-specific mutagenesis was used to change 9 of these 11 amino acids in the chimera from the Ross River virus to the Sindbis virus sequence in an attempt to adapt the E2 of the chimera to the nucleocapsid. The resulting mutant chimera grew 4 orders of magnitude better than the parental chimeric virus. This finding provides direct evidence for a sequence-specific interaction between the nucleocapsid and the E2 cytoplasmic domain during virus budding. The mutated chimeric virus readily gave rise to large-plaque variants that grew almost as well as Ross River virus, suggesting that additional single amino acid substitutions in the structural proteins can further enhance the interactions between the disparate capsid and the glycoproteins. Unexpectedly, change of E2 residue 394 from lysine (Ross River virus) to glutamic acid (Sindbis virus) was deleterious for the chimera, suggesting that in addition to its role in nucleocapsid-E2 interactions, the N-terminal part of the E2 cytoplasmic domain may be involved in glycoprotein-glycoprotein interactions required to assemble the glycoprotein spikes. The reciprocal chimera, Sindbis virus containing the Ross River virus capsid, also grew poorly. Suppressor mutations arose readily in this chimera, producing a virus that grew moderately well and that formed larger plaques.     

Selective host range restriction of goat cells for recombinant murine leukemia virus and feline leukemia virus type A

We isolated a strain of normal goat fibroblasts which was uniquely selective in that it allowed the replication of xenotropic murine leukemia virus but not polytropic recombinant murine leukemia virus. In addition, feline leukemia virus type A replication was severely diminished in these goat cells, whereas feline leukemia virus type B and feline endogenous RD114-CCC viruses replicated efficiently. No other known cells exhibit this pattern of virus growth restriction. These goat cells allow the study of xenotropic murine leukemia virus in mixtures which also contain recombinant murine leukemia virus and may be helpful in eliminating feline leukemia virus type which often coexists in feline sarcoma or leukemia virus mixtures with other feline leukemia virus types.