烟草黄矮双生病毒基因组突变体内的持久性互补和功能研究

应用基因突变技术,在烟草黄矮双生病毒（ＴｏｂＹＤＶ）基因组的正义和反义链引入或缺失碱基,从而构建成一系列移码突变体。这些突变体在个别感染的情况下,全部丧失了系统侵染三生烟植株的能力,但是,成对地进行接种,能发生持久的互补作用,重新获得系统侵染的能力。突变体的互补作用发生在重组之前。在个别感染的叶块组织中,各种反义链突变体丧失了复制能力,然而,突变体Ｖ１＾－、Ｖ２＾－和Ｖ１＾－Ｖ２＾－能高度复制,表     

马铃薯卷叶病毒中国株（PLRV-Ch）ORF2a基因特征分析

马铃薯卷叶病毒 (ＰＬＲＶ)是正链ＲＮＡ病毒 ,属黄化病毒组[1 ] 严格虫传 ,分布广泛 ,难以控制 ,侵染马铃薯 ,给生产造成巨大损失。ＰＬＲＶ基因全长 6 0ｋｂ ,有 6个读码框架 ,其中ＯＲＦ2ａ是第二读框 ,全长 192 0ｂｐ ,编码一个 70ｋＤ的多肽。另外 ,ＯＲＦ2ａ在与ＯＲＦ2ｂ重叠处可发生移码继续转译 ,直到ＯＲＦ2ｂ的尾 ,转译产物为一条 118ｋＤ的多肽 ,该蛋白的Ｃ端与复制酶的序列具很大的同源性[2～ 4] 。Ｐｒｕｆｅｒ[5] 等和Ｋｕｊａｗａ[6] 等分别研究了ＰＬＲＶ基因组上ＯＲＦ2ａ与ＯＲＦ2ｂ重叠区附近与移码有关的滑动序列及其…     

鸡减蛋综合征病毒（EDSV—76）基因组E1区结构特点分析

ＥＤＳＶ－７６病毒中国株ＡＡ－２经常规方法提取其病毒ＤＮＡ后,建立了限制性内切酶ＰｓｔＩ水解片段的全基因文库。对其中ＰｓｔＩ－Ｇ片段和ＰｓｔＩ－Ａ片段的正反链进行序列测定,获得ＥＤＳＶ Ｅ１区（０－８．８ｍ．ｕ）的核苷酸序列。经分析,ＥＤＳＶ Ｅ１区具有与其他腺病毒Ｅ１区类似的结构。以大于６０个氨基酸残基为标准,ＥＤＳＶ Ｅ１区共有７个开放读码框架（ＯＲＦ）,其中Ｒ１、Ｒ２、ＥｌｂｓＴ和Ｅ１ｂ１Ｔ     

中国南瓜曲叶病毒ＤＮＡ Ａ的克隆及其全序列

对引起我国南瓜曲叶病的病毒分离物ＤＮＡ的克隆和序列分析表明,中国南瓜曲叶病毒ＤＮＡ Ａ由２７４１个核苷酸组成,共编码６个开放阅读框（ＯＲＦ）,其中病毒链有２个ＯＲＦ：ＡＶ１（２５６aa)和ＡＶ２（１４０aa),ＡＶ１为外壳蛋白基因;病毒链的互补链有４个ＯＲＦ,ＡＣ１（２４３aa)编码复制酶基因,ＡＣ２（134aa)编码反式激活蛋白,ＡＣ３（１３６aa)和ＡＣ４（１７２aa),该病毒属于旧世界Ｂegomoviruses,是一个粉虱传播的联体病毒。     

小麦丛矮病毒M蛋白基因的序列测定,表达和鉴定

从小麦丛矮病毒（ＷＲＳＶ）基因文库含磷蛋白ＮＳ基因的质粒中,经亚克隆、测序,得到ＮＳ蛋白基因的下游序列,其中含有一读框４５３ｎｔ、编码一分子量约１７ｋＤ蛋白。用ＰＣＲ方法获得该读框全长片段并克隆到表达载体ｐＧＥＸ－３Ｘ,在大肠杆菌ＢＬ２１（ＤＥ３）菌株中以ＩＰＴＧ诱导表达,产物由谷胱甘肽Ｓ－转移酶（ＧＳＴ）亲和层析柱纯化后,用蛋白质印迹分析鉴定,结果表明,该读框为编码病毒基质蛋白Ｍ的基因。     

牛泡沫病毒调节蛋白功能及其在LTR上应答元件的研究

牛泡沫病毒（ＢＦＶ）具有复杂的基因组结构,其基因组除编码反转录病毒共有的ｇａｇ、ｐｏｌ、ｅｎｖ三个结构基因之外,在其ｅｎｖ和３’ＬＴＲ之间有两个重叠的读码框（ＯＲＦ－１和ＯＲＦ－２）,编码Ｂｏｒｆ－１、Ｂｏｒｆ－２、Ｂｅｔ等多种调节蛋白,其中Ｂｏｒｆ－１（２４９ａａ）为ＢＦＶ反式激活因子（Ｔａｓ）。为研究Ｂｏｒｆ－１的结构与功能,Ｂｏｒｆ－１在ＬＴＲ上的应答元件及作用机制,Ｂｏｒｆ－２、Ｂｅｔ等调     

烟草黄矮双生病毒中双向启动子的活性及其调节控制

将烟草黄矮双生病毒（ＴｏｂＹＤＶ）中双向启动子的区域,以不同长度的片段和方向插入启动子分析载体ｐＧ１,与ＧＵＳ报道基因和ＮＯＳ终止子融合。同时,将各个ＴｏｂＹＤＶ读码框区域插入表达载体ｐＡＲＴ７中,置于ＣａＭＶ３５Ｓ启动子和ＯＣＳ终止子之间。用电穿孔法将各种启动子构建物个别地或者与读码框构建物成对地导入烟草和玉米原生质体,以考察ＴｏｂＹＤＶ启动子控制下ＧＵＳ基因瞬间表达的活性,以及ＴｏｂＹＤＶ的读     

印度木薯花叶病毒DNA在寄主植物中可能存在的形式

从印度木薯花叶病毒（ＩＣＭＶ）侵染的植物中纯化特异的核酸,经ＲＮＡａｓｅ,ＤＮＡａｓｃ,Ｎｕｃｌｅ－ａｓｅＳｌ,ＥｘｏｎｕｃｌｅａｓｅⅢ和ＥｃｏＲＩ酶切,Ｓｏｕｔｈｅｒｎ和Ｄｏｔｂｌｏｔｓ杂交证实,在感病的植株中,存在两种形式的病毒核酸：环状双链ＤＮＡ和环状单链ＤＮＡ,后者可能是病毒ＤＮＡ的（－）链,环状双链ＤＮＡ经限制性内切酶作用可得２．７ｋｂ的线性双链ＤＮＡ纯化的病毒核酸含ＤＮＡ１和ＤＮＡ２两个分子量相近的组份。     

在大肠杆菌中分别表达汉滩病毒囊膜糖蛋白G1和G2

利用ＰＣＲ方法扩增了汉滩病毒７６－１１８株囊膜糖蛋白Ｇ１和Ｇ２的编码区基因,并将ＰＣＲ产物克隆了Ｔ－载体中,用限制性内切酶将Ｇ１和Ｇ２的编码区基因切下,并克隆到表达载体ＰＢＶ２２０中构建Ｇ１和Ｇ２的表达质粒,诱导表达后在ＳＤＳ＿ＰＡＧＥ凝胶中未见表达产物带,表达的Ｇ１和Ｇ２能与部分抗Ｇ１和Ｇ２的单克隆抗体发生反应,但用Ｗｅｓｔｅｒｎ－ｂｌｏｔ方法不能检测到表达产物。用表达的Ｇ１和Ｇ２免疫小白鼠能刺     

用毒蛋白控制植物病毒病害的基因工程设想

本文提出利用抑制植物蛋白质合成的毒蛋白基因读码框和植物病毒亚基因组启动子组成嵌合基因,预先在植物中表达负链RNA,在病毒侵染细胞中变为正链毒蛋白RNA,产生毒蛋白,迅速中止该细胞蛋白质合成,从而达到完全控制植物病毒病的植物基因工程工程设想。白喉毒素A链基因读码框是一种对多种植物有用的适合于本设想的毒蛋白基因读码框。烟草中负链毒蛋白RNA不会自动变为正链RNA。TMV外壳蛋白亚基因组是按BMV RNA_4的方式生成;它的启动子可以用作TMV的启动开关,使植物细胞中白喉毒素A链负链RNA特异地转变为毒蛋白mRNA。     

Glycoprotein gp50-negative pseudorabies virus: a novel approach toward a nonspreading live herpesvirus vaccine.

Essential herpesvirus glycoproteins are involved in membrane fusion processes during infection, e.g., viral penetration and direct cell-to-cell transmission. We previously showed that the gD-homologous glycoprotein gp50 of pseudorabies virus (PrV) is essential for virus entry into target cells but proved to be dispensable for direct viral cell-to-cell spread in cell culture (I. Rauh and T. C. Mettenleiter, J. Virol. 65:5348-5456, 1991). For gp50-negative (gp50-) viruses, after phenotypic complementation necessary for primary infection, the only means of viral spread is by way of direct cell-to-cell transmission. In contrast, virus mutants lacking the essential gB-homologous glycoprotein gII after phenotypic complementation are only able to infect primary target cells and are blocked in further viral spread. To analyze how these in vitro phenotypes translate into virus replication in the animal, mice were infected intranasally with gp50- or gII- PrV mutants after prior phenotypic complementation by propagation on cell lines providing the essential glycoprotein in trans. Our results show that whereas the gII- mutants did not cause disease or any symptoms, gp50- mutants derived from two different PrV strains were fully virulent, with animals exhibiting severe symptoms ultimately leading to death. However, free infectious virus could not be recovered from either gp50- or gII- PrV-infected animals. We conclude that direct cell-to-cell transmission as the only means of viral spread of the gp50- mutants is sufficient for a full virulent phenotype in mice. After infection of pigs with phenotypically complemented gp50- PrV, only mild symptoms were observed, whereas the gII- mutant was totally avirulent. In both cases, shedding of infectious virus did not occur, in contrast to results with animals infected by gX- PrV that showed severe signs of disease and extensive virus shedding. After challenge infection with the highly virulent NIA-3 strain, the previously gII- PrV-infected animals exhibited severe symptoms, whereas the gp50- PrV-infected pigs showed a significant level of protection. In conclusion, vaccination with a PrV mutant lacking glycoprotein gp50, which is unable to spread between animals because of a lack of formation of free infectious virions, can confer on pigs protection against challenge infection. These results provide the basis for the development of new, nonspreading live herpesvirus vaccines based on gp50- PrV mutants.     

Decreased Susceptibility to Viral Disease of [beta]-1,3-Glucanase-Deficient Plants Generated by Antisense Transformation

Antifungal class I [beta]-1,3-glucanases are believed to be part of the constitutive and induced defenses of plants against fungal infection. Unexpectedly, mutants deficient in these enzymes generated by antisense transformation showed markedly reduced lesion size, lesion number, and virus yield in the local-lesion response of Havana 425 tobacco to tobacco mosaic virus (TMV) and of Nicotiana sylvestris to tobacco necrosis virus. These mutants also showed decreased severity of mosaic disease symptoms, delayed spread of symptoms, and reduced yield of virus in the susceptible response of N. sylvestris to TMV. The symptoms of disease in the responses of both plant species were positively correlated with [beta]-1,3-glucanase content in a series of independent transformants. Taken together, these results provide direct evidence that [beta]-1,3-glucanases function in viral pathogenesis. Callose, a substrate for [beta]-1,3-glucanase, acts as a physical barrier to the spread of virus. Callose deposition in and surrounding TMV-induced lesions was increased in the [beta]-1,3-glucanase-deficient, local-lesion Havana 425 host, suggesting as a working hypothesis that decreased susceptibility to virus resulted from increased deposition of callose in response to infection. Our results suggest novel means, based on antisense transformation with host genes, for protecting plants against viral infection. These observations also raise the intriguing possibility that viruses can use a defense response of the host against fungal infection[mdash]production of [beta]-1,3-glucanases[mdash]to promote their own replication and spread.     

Induction and regulation of chloroplast replication in mature tobacco leaf tissue

Chloroplast replication was induced in mature tobacco leaf tissue (Nicotiana tabacum L.) by culturing leaf discs on a sterile medium composed of salts and sucrose. Chloroplast replicaton is greatly enhanced by the addition of kinetin to this medium. Kinetin also enhances cell enlargement, but cell division does not occur. Chloroplast replication is nonsynchronous and proceeds most rapidly when the cell enlargement rate decreases. Chloroplast replication is light-dependent, but cell enlargement occurs in both light and dark. Chloroplast replication resumes when discs cultured in the dark are returned to the light. It appears that chloroplast replication is related to cell expansion. The possibility of inducing synchronous replication of chloroplasts in tobacco cells is discussed.     

Maize streak virus genes essential for systemic spread and symptom development

The entire genome of single component geminiviruses such as maize streak virus (MSV) consists of a single-stranded circular DNA of ~2.7 kb. Although this size is sufficient to encode only three average sized proteins, the virus is capable of causing severe disease of many monocots with symptoms of chlorosis and stunting. We have identified viral gene functions essential for systemic spread and symptom development during MSV infection. Deletions and gene replacement mutants were created by site-directed mutagenesis and insertion between flanking MSV or reporter gene sequences contained in Agrobacterium T-DNA derived vectors. Following Agrobacterium-mediated inoculation of maize seedlings, the mutated MSV DNAs were excised from these binary vectors by homologous recombination within the flanking sequences. Our analyses show that the capsid gene of MSV, while not required for replication, is essential for systemic spread and subsequent disease development. The `+' strand open reading frame (ORF) located immediately upstream from the capsid ORF and predicted to encode a 10.9 kd protein was also found to be dispensable for replication but essential for systemic spread. By this analysis, MSV sequences that support autonomous replication were localized to a 1.7 kb segment containing the two viral intergenic regions and two overlapping complementary `-' strand ORFs. Despite the inability of the gene replacement mutants to spread systemically, both inoculated and newly developed leaves displayed chlorotic patterns similar to the phenotype observed in certain developmental mutants of maize. The similarity of the MSV mutant phenotype to these developmental mutants is discussed.     

ORIGIN OF ADVENTITIOUS SHOOTS REGENERATED FROM CULTURED TOBACCO LEAF TISSUE

Leaf discs from Nicotiana tabacum L., N. glauca Grahm., and a series of interspecific periclinal chimeras were cultured on Murashige and Skoog (MS) medium containing either 2.5 mg/1 6-benzylaminopurine(BA) or 3.0 mg/16-furfurylaminopurine (kinetin). Most shoots regenerated from chimeral leaf discs were non-chimeral but 51 of 658 shoots were chimeral. The histogenic composition of plants regenerated from leaf discs of periclinal chimeras indicated that any cell layer in a leaf can be the ultimate source of shoots, and that shoots can be multicellular in origin. Certain periclinal arrangements were recovered more frequently and their chimeral nature was more stable during subsequent shoot growth. While N. tabacum leaf discs regenerated shoots on MS medium supplemented with either BA or with kinetin, N. glauca leaf discs did not form shoots on the medium containing kinetin. However, chimeras which possessed cells of both species arose on medium containing BA or kinetin, indicating that the morphogenetically competent (i.e., able to produce shoots in culture), N. tabacum cells either interacted with N. glauca cells leading to their competence or incorporated non-competent N. glauca cells into nascent shoot apical meristems.     

Function of the 30 kd protein of tobacco mosaic virus: involvement in cell-to-cell movement and dispensability for replication

We have investigated the function of the 30 kd protein of tobacco mosaic virus (TMV) by a reverse genetics approach. First, a point mutation of TMV Ls1 (a temperature-sensitive mutant defective in cell-to-cell movement), that causes an amino acid substitution in the 30 kd protein, was introduced into the parent strain, TMV L. The generated mutant showed the same phenotype as TMV Ls1, and therefore the one-base substitution in the 30 kd protein gene adequately explains the defectiveness of TMV Ls1. Next, four kinds of frame-shift mutants were constructed, whose mutations are located at three different positions of the 30 kd protein gene. All the frame-shift mutants were replication-competent in protoplasts but none showed infectivity on tobacco plants. From these observations the 30 kd protein was confirmed to be involved in cell-to-cell movement. To clarify that the 30 kd protein is not necessary for replication, two kinds of deletion mutants were constructed; one lacking most of the 30 kd protein gene and the other lacking both the 30 kd and coat protein genes. Both mutants replicated in protoplasts and the former still produced the subgenomic mRNA for the coat protein. These results clearly showed that the 30 kd protein, as well as the coat protein, is dispensable for replication and that no cis-acting element for replication is located in their coding sequences. It is also suggested that the signal for coat protein mRNA synthesis may be located within about 100 nucleotides upstream of the initiation codon of the coat protein gene.     

High-frequency reversion of geminivirus replication protein mutants during infection

The geminivirus replication protein AL1 interacts with retinoblastoma-related protein (RBR), a key regulator of the plant division cell cycle, to induce conditions permissive for viral DNA replication. Previous studies of tomato golden mosaic virus (TGMV) AL1 showed that amino acid L148 in the conserved helix 4 motif is critical for RBR binding. In this work, we examined the effect of an L148V mutation on TGMV replication in tobacco cells and during infection of Nicotiana benthamiana plants. The L148V mutant replicated 100 times less efficiently than wild-type TGMV in protoplasts but produced severe symptoms that were delayed compared to those of wild-type infection in plants. Analysis of progeny viruses revealed that the L148V mutation reverted at 100% frequency in planta to methionine, leucine, isoleucine, or a second-site mutation depending on the valine codon in the initial DNA sequence. Similar results were seen with another geminivirus, cabbage leaf curl virus (CaLCuV), carrying an L145A mutation in the equivalent residue. Valine was the predominant amino acid recovered from N. benthamiana plants inoculated with the CaLCuV L145A mutant, while threonine was the major residue in Arabidopsis thaliana plants. Together, these data demonstrated that there is strong selection for reversion of the TGMV L148V and CaLCuV L145A mutations but that the nature of the selected revertants is influenced by both the viral background and host components. These data also suggested that high mutation rates contribute to the rapid evolution of geminivirus genomes in plants.     

人防御素—1转基因烟草的获得及其抗TMV的初步观察

人中性粒细胞防御素是一类具有广谱杀伤病原微生物活力的小分子多肽,有作者设想将其导入作物用于抗病育种。我们前期的工作通过RT-PCR建立了人中性粒细胞防御素-1(HNP-1)的cDNA克隆;接着通过农杆菌介导的方法,将HNP-1 cDNA片段导入烟草,尝试了HNP-1在烟草植株水平的表达,并初步证明获得的转基因烟草对低浓度烟草花叶病毒(TMV)侵染有一定抵抗力。     

Replication of tomato yellow leaf curl virus (TYLCV) DNA in agroinoculated leaf discs from selected tomato genotypes

The leaf disc agroinoculation system was applied to study tomato yellow leaf curl virus (TYLCV) replication in explants from susceptible and resistant tomato genotypes. This system was also evaluated as a potential selection tool in breeding programmes for TYLCV resistance. Leaf discs were incubated with a head-to-tail dimer of the TYLCV genome cloned into the Ti plasmid ofAgrobacterium tumefaciens. In leaf discs from susceptible cultivars (Lycopersicon esculentum) TYLCV single-stranded genomic DNA and its double-stranded DNA forms appeared within 2–5 days after inoculation. Whiteflies (Bemisia tabaci) efficiently transmitted the TYLCV disease to tomato test plants following acquisition feeding on agroinoculated tomato leaf discs. This indicates that infective viral particles have been produced and have reached the phloem cells of the explant where they can be acquired by the insects. Plants regenerated from agroinfected leaf discs of sensitive tomato cultivars exhibited disease symptoms and contained TYLCV DNA concentrations similar to those present in field-infected tomato plants, indicating that TYLCV can move out from the leaf disc into the regenerating plant. Leaf discs from accessions of the wild tomato species immune to whitefly-mediated inoculation,L. chilense LA1969 andL. hirsutum LA1777, did not support TYLCV DNA replication. Leaf discs from plants tolerant to TYLCV issued from breeding programmes behaved like leaf discs from susceptible cultivars.The Hebrew University of Jerusalem, Faculty of Agriculture, Department of Field and Vegetable Crops     

DNA forms indicate rolling circle and recombination-dependent replication of Abutilon mosaic virus.

Geminiviruses have spread worldwide and have become increasingly important in crop plants during recent decades. Recombination among geminiviruses was one major source of new variants. Geminiviruses replicate via rolling circles, confirmed here by electron microscopic visualization and two-dimensional gel analysis of Abutilon mosaic virus (AbMV) DNA. However, only a minority of DNA intermediates are consistent with this model. The majority are compatible with recombination-dependent replication (RDR). During development of naturally infected leaves, viral intermediates compatible with both models appeared simultaneously, whereas agro-infection of leaf discs with AbMV led to an early appearance of RDR forms but no RCR intermediates. Inactivation of viral genes ac2 and ac3 delayed replication, but produced the same DNA types as after wild-type infection, indicating that these genes were not essential for RDR in leaf discs. In conclusion, host factors alone or in combination with the viral AC1 protein are necessary and sufficient for the production of RDR intermediates. The consequences of an inherent geminiviral recombination activity for the use of pathogen-derived resistance traits are discussed.