A New Virulent Isolate of Clover Yellow Vein Virus on Phaseolus vulgaris in Bulgaria

Potyviruses are a common threat for snap bean production in Bulgaria. During virus surveys of bean plots in the south central region, we identified an isolate of Clover yellow vein virus (ClYVV), designated ClYVV 11B, by indirect ELISA and RT‐PCR causing severe mosaic symptoms and systemic necrosis. Indirect and direct ELISA using ClYVV antisera differentiated the ClYVV isolate from Bean yellow mosaic virus (BYMV), but serological analysis could not distinguish the Bulgarian isolate ClYVV 11B from an Italian ClYVV isolate used as a reference (ClYVV 505/7). RT‐PCR analyses with specific primers revealed that both isolates were ClYVV. Sequence analysis of an 800 bp fragment corresponding to the coat protein coding region showed 94% identity at the nucleotide level between the two isolates. Phylogenetic analyses of aligned nucleotide sequences available in the database confirmed the existence of two groups of isolates, but ClYVV 11B and ClYVV505/7 belonged to the same group. We compared the virulence of both isolates on a set of differential cultivars and 19 bean breeding lines resistant to Bean common mosaic virus (BCMV) and Bean common mosaic necrosis virus (BCMNV): Bulgarian isolate ClYVV 11B was able to infect systemically all tested bean differential cultivars and breeding lines including those with genotypes Ibc3 and Ibc2²; Italian isolate ClYVV 505/7 was not able to infect systemically some differentials with genotypes bc‐ubc1, bc‐ubc2², bc‐ubc2bc3, Ibc1², Ibc2², Ibc3. The role of bc3 gene as a source of resistance to potyviruses is discussed.     

甜菜坏死黄脉病毒外壳蛋白基因在甜菜转基因植株中的表达

甜菜坏死黄脉病毒(Beet Necrotic Yellow Vein Virus,BNYVV)是一种由甜菜多粘菌(Polymyxo be tae)传播的多分体植物病毒．基因组由4～5条单链正意RNA构成^[1]。60年代末,由Tamada首次报道^[2],这种病毒可对甜菜造成严重危害,侵染甜菜后产生丛根症状(Rhizomania),并导致甜菜产量和含糖 量的大幅度下降。除欧洲、北美及日本的严重发生以外,我国自70年代以来在东北、内蒙古及西北许多省区也有大量甜菜丛根病的发生报道^[3]。由于尚无有效药剂及措施用于甜菜丛根病或病毒传播介体的防治．在我国也无法采用大面积轮作作为防治手段,所以目前在世界各地及我国上述地区甜菜丛根病的发病面积逐年扩展,对甜菜生产和制糖业造成直接威胁。针对这一情况．本文报道了含有甜菜坏死黄脉病毒外壳蛋白基因的甜菜植株的转化再生工作,以期在甜菜亲本育种中获得新的抗性材料．为抗病毒品种的培育打下基础。     

Cloning and Sequencing of VL Gene of Monoclonal Antibody Against Beet Necrotic Yellow Vein Virus

The results showed that PCR product was 318 bp VL gene of monoclonal antibody against beet necrotic yellow vein virus, code 106 amino acids. VL gene belongs to a k chain subclass Ⅱ of mouse, frame region had 85 % homogenous with the published sequencing of VL gene of mouse and was in accord with structural characteristics of VL of mouse.     

甜菜坏死黄脉病毒外壳蛋白基因在大肠杆菌中的高效表达

将甜菜坏死黄脉病毒内蒙古分离物的外壳蛋白基因亚克隆到ｐＪＷ２上构建成在大肠杆菌中表达的载体。ＳＤＳ－ＰＡＧＥ及Ｗｅｓｔｅｒｎ ｂｌｏｔｔｉｎｇ检测的结果表明,该表达载体在大肠杆菌ＤＨ５α中经温度诱导后特异地表达２１ｋＤ的甜菜坏死黄脉病毒外壳蛋白。经光密度扫描估测,其表达量占大肠杆菌总蛋白的１９．５％。     

甜菜坏死黄脉病毒75kDa通读蛋白基因构建与表达

利用DNA重组技术,将甜菜坏死黄脉病毒(BNYVV)内蒙分离物的CP基因和54kDa通读区片段拼接。构建了BNYVV 75kDa通读蛋白基因。序列分析表明,构建的75kDa通读蛋白基因与野生型相比．只有4个核苷酸发生了改变(包括将CP基因的终止密码子TAG改造为ATG),相应地2个氨基酸也发生了改变。将75kDa通读蛋白基因及其54kDa片段分别克隆到pJw2上,构建了这两十基因的原核表达载体。SDS—PAGE和western blotting检测结果表明,75kDa通读蛋白基因在E coli BL21(DE3)中经温度(42℃)诱导后除可特异地表达75kDa蛋白外。还产生两种小蛋白。75kDa通读蛋白基因的54kDa片段只表达出37kDa的蛋白。     

The Nucleotide Sequence of the 3'-Terminal Region of Clover Yellow Vein Potyvirus Isolated from Calanthe sp.

The sequence of 1399 nucleotides from the 3'region of the RNA of clover yellow vein potyvirus (CIYVV-C) isolated from Calanthe sp. was determined. The capsid protein cistron was composed of 915 nucleotides, and corresponded to a region encoding 305 amino acids with a calculated Mr of 34900: the adjacent 3'non-coding region was 74 nucleotides long. The length of the capsid protein gene of CIYVV-C is longer, but the 3'non-coding region is shorter than those of other CIYVV strains (CIYVV-30.CIYVV-NZ and CIYVV-B). The nucleotide sequence of the capsid protein gene and the 3'non-coding region of CIYVV-C RNA showed significantly higher homology with those of other CIYVV strains. These data suggest that the CIYVV-C capsid gene arose from a frame-shift mutation of the capsid gene of another CIYVV strain. or vice versa. CIYVV-C has a closer affinity to other CIYVV strains and to bean yellow mosaic virus than to the other potyviruses.     

Interaction of the Trans-Frame Potyvirus Protein P3N-PIPO with Host Protein PCaP1 Facilitates Potyvirus Movement

A small open reading frame (ORF), pipo, overlaps with the P3 coding region of the potyviral polyprotein ORF. Previous evidence suggested a requirement for pipo for efficient viral cell-to-cell movement. Here, we provide immunoblotting evidence that the protein PIPO is expressed as a trans-frame protein consisting of the amino-terminal half of P3 fused to PIPO (P3N-PIPO). P3N-PIPO of Turnip mosaic virus (TuMV) fused to GFP facilitates its own cell-to-cell movement. Using a yeast two-hybrid screen, co-immunoprecipitation assays, and bimolecular fluorescence complementation (BiFC) assays, we found that P3N-PIPO interacts with host protein PCaP1, a cation-binding protein that attaches to the plasma membrane via myristoylation. BiFC revealed that it is the PIPO domain of P3N-PIPO that binds PCaP1 and that myristoylation of PCaP1 is unnecessary for interaction with P3N-PIPO. In PCaP1 knockout mutants (pcap1) of Arabidopsis, accumulation of TuMV harboring a GFP gene (TuMV-GFP) was drastically reduced relative to the virus level in wild-type plants, only small localized spots of GFP were visible, and the plants showed few symptoms. In contrast, TuMV-GFP infection in wild-type Arabidopsis yielded large green fluorescent patches, and caused severe stunting. However, viral RNA accumulated to high level in protoplasts from pcap1 plants indicating that PCaP1 is not required for TuMV RNA synthesis. In contrast to TuMV, the tobamovirus Oilseed rape mosaic virus did not require PCaP1 to infect Arabidopsis plants. We conclude that potyviral P3N-PIPO interacts specifically with the host plasma membrane protein PCaP1 to participate in cell-to-cell movement. We speculate that PCaP1 links a complex of viral proteins and genomic RNA to the plasma membrane by binding P3N-PIPO, enabling localization to the plasmodesmata and cell-to-cell movement. The PCaP1 knockout may contribute to a new strategy for recessive resistance to potyviruses.     

Involvement of the Rabies Virus Phosphoprotein Gene in Neuroinvasiveness

Rabies virus (RABV), which is transmitted via a bite wound caused by a rabid animal, infects peripheral nerves and then spreads to the central nervous system (CNS) before causing severe neurological symptoms and death in the infected individual. Despite the importance of this ability of the virus to spread from a peripheral site to the CNS (neuroinvasiveness) in the pathogenesis of rabies, little is known about the mechanism underlying the neuroinvasiveness of RABV. In this study, to obtain insights into the mechanism, we conducted comparative analysis of two fixed RABV strains, Nishigahara and the derivative strain Ni-CE, which cause lethal and asymptomatic infections, respectively, in mice after intramuscular inoculation. Examination of a series of chimeric viruses harboring the respective genes from Nishigahara in the genetic background of Ni-CE revealed that the Nishigahara phosphoprotein (P) gene plays a major role in the neuroinvasiveness by mediating infection of peripheral nerves. The results obtained from both in vivo and in vitro experiments strongly suggested that the Nishigahara P gene, but not the Ni-CE P gene, is important for stable viral replication in muscle cells. Further investigation based on the previous finding that RABV phosphoprotein counteracts the host interferon (IFN) system demonstrated that the Nishigahara P gene, but not the Ni-CE P gene, functions to suppress expression of the beta interferon (IFN-β) gene (Ifn-β) and IFN-stimulated genes in muscle cells. In conclusion, we provide the first data strongly suggesting that RABV phosphoprotein assists viral replication in muscle cells by counteracting the host IFN system and, consequently, enhances infection of peripheral nerves.     

甜菜坏死黄脉病毒75kDa通读蛋白基因54kDa片段的克隆及其序列分析

以甜菜坏死黄脉病毒(BNYVV)内蒙分离物的总RNA为模板,通过反转录和PcR扩增获得75kDa通读蛋白基因54kDa片段的目的片段。将其克隆到pGEM－7Zf(+)上并转化DH5α得到了含有完整s4kDa片段的重组子pGBW52。采用双脱氧终止法进行序列分析。结果表明内蒙分离物的54kDa片段全长为1509nt,与法国的F13分离物相比缺失了3个核苷酸。其核苷酸序列和由此推导的氨基酸序列的同源性分别为94．97％和96．42％．     

抗病基因Bdv2抑制大麦黄矮病毒复制和运动的分子证据

小麦-中间偃麦草易位系YW642含有一个源于中间偃麦草7X染色体的抗性基因Bdv2,对大麦黄矮病毒GAV株系具有高度抗性。为有效控制该病毒和阐明抗黄矮病机制,采用半定量RT-PCR的方法,研究了大麦黄矮病毒GAV株系在YW642及其感病姊妹系YW641中积累浓度的差异。分别在接种病毒不同时间、不同部位上取样,用半定量RT-PCR的方法来检测GAV的积累浓度。在接种部位,抗病植株中病毒的浓度远远低于感病植株。在侵染的前5d,抗病植株YW642中病毒会有一定程度的复制和积累,但随后病毒浓度开始下降,接种14—16d时没有检测到病毒;而在感病株系中,病毒积累的浓度远远高于抗病植株,并一直维持一个较高的浓度。在未接种部位．感病植株中可检测到较高浓度的病毒,说明病毒能从接种点很快运动到未接种部位,并大量复制。而在抗病系YW642中,未接种部位始终未检测到病毒。实验结果从分子水平上证明,在抗病植株中BYDV的复制和运动均受到了极大的抑制：这是抗病基因Bdv2与BYDV互作后,激活了一系列防御基因的结果。另外还确定了防御基因诱导表达的时间,为从抗病植株中分离抗病相关基因、研究抗黄矮病机制提供了取样的依据。     

植物抗病毒基因工程的研究进展

自１９８６ 年首次成功获得转基因抗病毒植物以来,植物抗病毒基因工程的研究与应用在世界各地蓬勃发展。本文综述了国内外在这方面的研究进展及最新成就,以及此领域的存在问题和前景展望。     

Molecular Mechanisms of Serum Resistance of Human Influenza H3N2 Virus and Their Involvement in Virus Adaptation in a New Host

H3N2 human influenza viruses that are resistant to horse, pig, or rabbit serum possess unique amino acid mutations in their hemagglutinin (HA) protein. To determine the molecular mechanisms of this resistance, we characterized the receptor-binding properties of these mutants by measuring their affinity for total serum protein inhibitors and for soluble receptor analogs. Pig serum-resistant variants displayed a markedly decreased affinity for total pig serum sialylglycoproteins (which contain predominantly 2-6 linkage between sialic acid and galactose residues) and for the sialyloligosaccharide 6′-sialyl(N-acetyllactosamine). These properties correlated with the substitution 186S→I in HA1. The major inhibitory activity in rabbit serum was found to be a β inhibitor with characteristics of mannose-binding lectins. Rabbit serum-resistant variants exhibited decreased sensitivity to this inhibitor due to the loss of a glycosylation sequon at positions 246 to 248 of the HA. In addition to a somewhat reduced affinity for 6′-sialyl(N-acetyllactosamine)-containing receptors, horse serum-resistant variants lost the ability to bind the viral neuraminidase-resistant 4-O-acetylated sialic acid moieties of equine α₂-macroglobulin because of the mutation 145N→K/D in their HA1. These results indicate that influenza viruses become resistant to serum inhibitors because their affinity for these inhibitors is reduced. To determine whether natural inhibitors play a role in viral evolution during interspecies transmission, we compared the receptor-binding properties of H3N8 avian and equine viruses, including two strains isolated during the 1989 to 1990 equine influenza outbreak, which was caused by an avian virus in China. Avian strains bound 4-O-acetylated sialic acid residues of equine α₂-macroglobulin, whereas equine strains did not. The earliest avian-like isolate from a horse influenza outbreak bound to this sialic acid with an affinity similar to that of avian viruses; a later isolate, however, displayed binding properties more similar to those of classical equine strains. These data suggest that the neuraminidase-resistant sialylglycoconjugates present in horses exert selective pressure on the receptor-binding properties of avian virus HA after its introduction into this host.Influenza A viruses possess two envelope glycoproteins:hemagglutinin (HA) and neuraminidase (NA). HA binds to cell surface sialylglycoconjugates and mediates virus attachment to target cells (19, 30). NA cleaves the α-glycosidic linkage between sialic acid and an adjacent sugar residue, facilitating elution of virus progeny from infected cells and preventing self-aggregation of the virus (1, 13). Natural sialylglycoconjugates are structurally diverse (37, 40), and the preferential recognition of distinct sialyloligosaccharides by HA and NA correlates with the host species from which the viruses are isolated (reviewed in references 19, 30, and 38; see also references 4, 6, 7, 11, and 28).The receptor-binding activity of influenza viruses can be inhibited by certain molecules present in the sera and fluid secretions of animals (see references 14 and 21 for reviews). These inhibitors are classified as α, β, and γ types based on their thermal stability, virus-neutralizing activity, and sensitivity to inactivation by NA and periodate treatments. The β inhibitors are thermolabile mannose-binding lectins that interact with the oligosaccharide moieties on viral glycoproteins. They neutralize virus by steric hindrance of HA and by activation of the complement-dependent pathway (2, 3). By contrast, the α and γ inhibitors are heat-stable sialylated glycoproteins that mimic the structure of the cellular receptors of influenza viruses and competitively block the receptor-binding sites of HA. Influenza viruses are neutralized by γ inhibitors but not by α inhibitors, which are considered to be sensitive to viral NA. However, the distinction between α and γ inhibitors is strain dependent and rather arbitrary, as described by Gottschalk et al. (14). Although inhibitors in serum or other body fluids are believed to influence the selection of influenza virus receptor variants in natural hosts, no direct experimental support for this hypothesis has been presented.A potent γ inhibitor of H2 and H3 human influenza viruses, equine α₂-macroglobulin (EM), contains a Neu4,5Ac₂2-6Gal moiety that is insensitive to viral NA and thus resists inactivation by this enzyme (16, 24, 31). Cultivation of human H3 influenza viruses in the presence of horse serum results in the selection of variants that have a decreased affinity for the Neu5Ac2-6Gal-specific receptors due to a single amino acid substitution (226L→Q) in their HA (32, 33). One of these mutants (X31/HS strain) does not bind the Neu4,5Ac₂ (4-O-acetylated sialic acid) species (25). Therefore, there are at least two mechanisms by which a virus can become resistant to the horse serum inhibitor: a change in the recognition of the type of Sia-Gal linkage, and a change in the recognition of the 4-O-acetylated sialic acid. The relative contributions of these mechanisms to the resistant phenotype are yet to be defined.We have previously shown that horse, pig, and rabbit sera all contain distinct heat-resistant inhibitors of the H3N2 human influenza virus A/Los Angeles/2/87 (LA/87), because variants resistant to these sera possess unique mutations in their HA receptor-binding regions (34). The major inhibitor in pig serum was later identified as α₂-macroglobulin that contains predominantly 2-6 linkage between sialic acid and galactose (35). Gimsa et al. (12) recently showed that pig serum-resistant human and swine strains exhibit decreased affinity for human erythrocytes that had been modified to contain terminal Neu5Ac2-6Gal residues. However, the nature of the rabbit serum inhibitor and the mechanisms of influenza virus resistance to each serum inhibitor remain unknown.To understand the molecular mechanisms by which influenza viruses become resistant to horse, pig, and rabbit serum inhibitors, we compared the receptor-binding characteristics of LA/87 and its serum-resistant variants and analyzed these data in relation to the known amino acid substitutions in the HA of the mutants. We then analyzed the receptor-binding properties of viruses isolated during an equine influenza outbreak that was caused by an avian virus, in order to evaluate the influence of natural inhibitors on the evolution of virus in a new host.     

Papaya Leaf Curl Guangdong Virus and Ageratum Yellow Vein Virus Associated with Leaf Curl Disease of Tobacco in China

Two samples (YC7, YC27) of Nicotiana tabacum showing leaf curling, vein swelling and enations on undersides of leaves were collected in the Fujian Province of China in 2007. Virus isolates YC7‐1 and YC7‐2 (associated with betasatellite, YC7‐2β) were detected in both samples. The complete DNA‐A sequence of YC7‐1 (FJ869907) comprised 2741 nucleotides (nt). The complete DNA‐A (FJ869908) and betasatellite (FJ869909) sequence of YC7‐2 consisted of 2754 and 1344 nt, respectively. YC7‐1 had the highest nucleotide sequence identity (97.3%) with Papaya leaf curl Guangdong virus (PaLCuGuV‐[CN:Gd2:02], AJ558122). YC7‐2 had the highest sequence identity (90.1%) with Ageratum yellow vein virus (AYVV‐TW[TW:Tai:99], AF307861) and its betasatellite (96.5%) with Ageratum yellow vein betasatellite (AYVB‐[TW:CHu:02], AJ542495). These indicate that YC7‐1 and YC7‐2 are isolates of PaLCuGuV and AYVV, respectively. Symptoms including leaf curling, vein swelling and enations on undersides of leaves were observed in N. tabacum and N. glutinosa when infected by whiteflies with sample YC7 as the viral source under greenhouse conditions. PCR results showed that these infected plants contained both YC7‐1 and YC7‐2/YC7‐2β. To our knowledge, this is the first report of PaLCuGuV and AYVV/AYVB co‐infecting N. tabacum in China.     

带cry3Aa启动子的aiiA基因在苏云金芽胞杆菌中的表达

N 乙酰高丝氨酸内酯 (N acyl homoserinelactones,AHLs) ,是一类数量感知 (Quorum sensing)系统中的信号分子 ,它参与诱导调控许多植物病原菌致病基因的表达。苏云金芽胞杆菌的AiiA蛋白能降解这类AHLs分子 ,进而可减弱病原菌致病基因表达产生的病害。苏云金芽胞杆菌杀虫晶体蛋白基因cry3Aa的启动子是一种不依赖芽胞形成的启动子 ,它相对于其它cry类基因的启动子有启动基因转录时间早 ,转录时间长的优点。通过重叠延伸PCR ,用杀虫晶体蛋白基因cry3Aa启动子替换编码AiiA蛋白的基因aiiA自身的启动子 ,构建了融合基因pro3A aiiA。将融合基因装入穿梭载体pHT3 0 4的BamHI SphI位点 ,得到重组质粒pBMB686并转化苏云金芽胞杆菌无晶体突变株BMB171,重组菌株BMB686的AiiA蛋白表达量在各个生长时期均高于对照菌株 ,对AHLs分子的降解活性和对胡萝卜软腐欧文氏菌感染马铃薯产生病害的抑制能力也明显优于对照菌株     

Immunofluorescence and Herpes-Type Virus Particles in the P3HR-1 Burkitt Lymphoma Cell Line

A subline of the P3 (Jijoye) Burkitt lymphoma cell line, designated P3HR-1, initially contained 1 to 5% of cells which were positive by indirect immunofluorescence with selected human sera. After 4 months of propagation, this cell line regularly showed 15 to 40% reactive cells. Antigen(s) in the cell line which was reactive by immunofluorescence was similar or identical to that found in several other Burkitt tumor cell lines in previous studies. When the cells were incubated at 35 or 32 C for 9 to 15 days without refeeding, more than 50% of the cells became immunofluorescence-positive. Thirteen different cultures of P3HR-1 cells, which contained up to 75% immunofluorescence-positive cells, were thin-sectioned and examined by electron microscopy. The percentage of cells containing herpes-type virus particles in the cultures varied from <3 to 78%. There was generally a good correlation between the number of immunofluorescent cells and the number of cells containing virus particles. The number of virus particles per cell section ranged from 1 to more than 100. These results strongly support the hypothesis that the immunofluorescent antigen is related to the presence of the herpes-type virus particle in the cells.     

Involvement of substance P and the NK-1 receptor in cancer progression

Many data suggest the deep involvement of the substance P (SP)/neurokinin (NK)-1 receptor system in cancer: (1) Tumor cells express SP, NK-1 receptors and mRNA for the tachykinin NK-1 receptor; (2) Several isoforms of the NK-1 receptor are expressed in tumor cells; (3) the NK-1 receptor is involved in the viability of tumor cells; (4) NK-1 receptors are overexpressed in tumor cells in comparison with normal ones and malignant tissues express more NK-1 receptors than benign tissues; (5) Tumor cells expressing the most malignant phenotypes show an increased percentage of NK-1 receptor expression; (6) The expression of preprotachykinin A is increased in tumor cells in comparison with the levels found in normal cells; (7) SP induces the proliferation and migration of tumor cells and stimulates angiogenesis by increasing the proliferation of endothelial cells; (8) NK-1 receptor antagonists elicit the inhibition of tumor cell growth; (9) The specific antitumor action of NK-1 receptor antagonists on tumor cells occurs through the NK-1 receptor; (10) Tumor cell death is due to apoptosis; (11) NK-1 receptor antagonists inhibit the migration of tumor cells and neoangiogenesis. The NK-1 receptor is a therapeutic target in cancer and NK-1 receptor antagonists could be considered as broad-spectrum antitumor drugs for the treatment of cancer. It seems that a common mechanism for cancer cell proliferation mediated by SP and the NK-1 receptor is triggered, as well as a common mechanism exerted by NK-1 receptor antagonists on tumor cells, i.e. apoptosis.     

Involvement of substance P and the NK-1 receptor in human pathology

The peptide substance P (SP) shows a widespread distribution in both the central and peripheral nervous systems, but it is also present in cells not belonging to the nervous system (immune cells, liver, lung, placenta, etc.). SP is located in all body fluids, such as blood, cerebrospinal fluid, breast milk, etc. i.e. it is ubiquitous in human body. After binding to the neurokinin-1 (NK-1) receptor, SP regulates many pathophysiological functions in the central nervous system, such as emotional behavior, stress, depression, anxiety, emesis, vomiting, migraine, alcohol addiction, seizures and neurodegeneration. SP has been also implicated in pain, inflammation, hepatitis, hepatotoxicity, cholestasis, pruritus, myocarditis, bronchiolitis, abortus, bacteria and viral infection (e.g., HIV infection) and it plays an important role in cancer (e.g., tumor cell proliferation, antiapoptotic effects in tumor cells, angiogenesis, migration of tumor cells for invasion, infiltration and metastasis). This means that the SP/NK-1 receptor system is involved in the molecular bases of many human pathologies. Thus, knowledge of this system is the key for a better understanding and hence a better management of many human diseases. In this review, we update the involvement of the SP/NK-1 receptor system in the physiopathology of the above-mentioned pathologies and we suggest valuable future therapeutic interventions involving the use of NK-1 receptor antagonists, particularly in the treatment of emesis, depression, cancer, neural degeneration, inflammatory bowel disease, viral infection and pruritus, in which that system is upregulated.