抗芜菁花叶病毒转基因甘蓝型油菜的研究

以子叶柄为材料,建立了甘蓝型油菜（ＢｒａｓｓｉｃａｎａｐｕｓＬ．）双低品种的再生体系。通过子叶柄与农杆菌（ＡｇｒｏｂａｃｔｅｒｉｕｍｔｕｍｅｆａｃｉｅｎｓＬＢＡ４４０４）共培养,将表达载体ｐＢＴｕ中芜菁花叶病毒外壳蛋白（ＴｕＭＶ－ＣＰ）基因以整合方式导入甘蓝型油菜,然后用卡那霉素进行筛选,获得了油菜再生植株。经ＰＣＲ特异性扩增、点杂交和Ｓｏｕｔｈｅｒｎ印迹分析,证明再生植株基因组ＤＮＡ中整合了ＴｕＭＶ－ＣＰ基因。攻毒实验表明,有ＴｕＭＶ－ＣＰ基因插入的工程油菜对ＴｕＭＶ均有不同程度的抗性。     

芜菁花叶病毒(TuMV)特性的研究进展

芜菁花叶病毒(TuMV)是世界范围内广泛分布的重要病毒。从生物学和理化特性、基因组结构、侵染和繁殖、变异及利用转基因技术提高病毒抗性等方面对TuMV的国内外研究现状进行了阐述。     

芜菁花叶病毒单克隆抗体的制备及检测应用

先以芜菁花叶病毒（TuMV）免疫BAL B/C小鼠,然后取其脾细胞使之与SP2/0鼠骨髓瘤细胞融合,经筛选、克隆,获得4株能稳定传代并分泌抗TuMV单克隆抗体（Mab）的杂交瘤细胞,并以之制备腹水单抗。4株单克隆抗体腹水ELISA效价在10-5～10-6之间,仅对TuMV起特异性反应。Western blot分析表明,4株单抗都能与TuMV 34kD的外壳蛋白亚基起特异反应。利用TuMV的多抗兔血清和单抗腹水建立了三抗体夹心ELISA检测TuMV的方法,检测病叶的灵敏度为1∶5120倍,检测提纯TuMV病毒绝对量为21.9 ng。利用三抗体夹心ELISA测定出7种作物上有TuMV侵染。      

Genomic fragments of Turnip Yellow Mosaic Virus: Appearance during infection

Turnip Yellow Mosaic Virus RNA was isolated at 5, 8, 11, 14, 20, and 24 days of infection and analyzed for yield, size distribution, 3′ adenosylation and valylation, and coat protein mRNA. Virus accumulation is slow from the third to tenth days and rapid to the third week of infection. Five-day RNA is composed of the 1.9×10⁶D genomic RNA (78%) and the 0.22×10⁶D coat protein in mRNA (6%). Later, intermediate size RNAs appear at 1.03, 0.46, 0.41, and 0.39×10⁶D. The valine tRNA of all RNAs has 80% CpC_OH and 6% CpCpA_OH 3′ termini.     

Roles and Programming of Arabidopsis ARGONAUTE Proteins during Turnip Mosaic Virus Infection

In eukaryotes, ARGONAUTE proteins (AGOs) associate with microRNAs (miRNAs), short interfering RNAs (siRNAs), and other classes of small RNAs to regulate target RNA or target loci. Viral infection in plants induces a potent and highly specific antiviral RNA silencing response characterized by the formation of virus-derived siRNAs. Arabidopsis thaliana has ten AGO genes of which AGO1, AGO2, and AGO7 have been shown to play roles in antiviral defense. A genetic analysis was used to identify and characterize the roles of AGO proteins in antiviral defense against Turnip mosaic virus (TuMV) in Arabidopsis. AGO1, AGO2 and AGO10 promoted anti-TuMV defense in a modular way in various organs, with AGO2 providing a prominent antiviral role in leaves. AGO5, AGO7 and AGO10 had minor effects in leaves. AGO1 and AGO10 had overlapping antiviral functions in inflorescence tissues after systemic movement of the virus, although the roles of AGO1 and AGO10 accounted for only a minor amount of the overall antiviral activity. By combining AGO protein immunoprecipitation with high-throughput sequencing of associated small RNAs, AGO2, AGO10, and to a lesser extent AGO1 were shown to associate with siRNAs derived from silencing suppressor (HC-Pro)-deficient TuMV-AS9, but not with siRNAs derived from wild-type TuMV. Co-immunoprecipitation and small RNA sequencing revealed that viral siRNAs broadly associated with wild-type HC-Pro during TuMV infection. These results support the hypothesis that suppression of antiviral silencing during TuMV infection, at least in part, occurs through sequestration of virus-derived siRNAs away from antiviral AGO proteins by HC-Pro. These findings indicate that distinct AGO proteins function as antiviral modules, and provide a molecular explanation for the silencing suppressor activity of HC-Pro.     

Resistance of Pepper Lines to the Movement of Cucumber Mosaic Virus

The multiplication and the migration of cucumber mosaic virus (CMV) were studied in greenhouse conditions in one susceptible ‘Yolo wonder’ and two resistant ‘Milord’ and ‘Vania’ pepper varieties. DAS-ELISA tests have revealed that the virus is replicated in inoculated leaves of the resistant varieties as high as in the susceptible variety. In the susceptible variety ‘Yolo wonder’, CMV migrated from the leaf lamina to the petiole two days after inoculation and it became systemic three days later regardless the season. In ‘Milord’ the virus migrated from the leaf lamina to the petiole five days after inoculation and it became systemic during the winter 16 days after inoculation. Whereas plants of the same genotype were not infected systemically during the summer. In ‘Vania’, during the two seasons, CMV spread from the blade to the petiole five days after inoculation, but the virus was not detected beyond the inoculated leaf. These results show that ‘Milord’ and ‘Vania’ are resistant to CMV migration. Therefore, the resistance to CMV migration is affected by plant genotype and temperature. The study of effect of pepper plant phenology on infection has revealed that resistance to CMV migration is also affected by the development stage of the plants.     

Mechanism Determining the Host Specificity of Tobacco Mosaic Virus

In order to know the mechanism controling the host specificity of tobacco mosaic virus (TMV), three species of plants showing various degrees of resistance to TMV or TMV-RNA infection were selected and the fate of infecting viral genome was studied. Extract was obtained from leaves 0.5–6 hr after inoculation of ³²P-TMV or ³²P-TMV-RNA and analyzed by sucrose density gradient centrifugation. It was found that polysomes containing infecting ³²P-RNA were formed in plants resistant to TMV to the same extent as in susceptible tobacco plants, suggesting that the host specificity of TMV is determined at a stage of viral multiplication later than the step of translation of infecting viral genome.     

Post-Translational Proteolytic Cleavage of In Vitro-Synthesized Turnip Yellow Mosaic Virus RNA-Coded High-Molecular-Weight Proteins

In a reticulocyte lysate, turnip yellow mosaic virus genomic RNA directs the synthesis of two proteins with molecular weights of 150,000 (150K) and 195K. We present evidence that the larger protein is processed in vitro, after its completion, in at least three fragments. The NH₂-terminal fragment (82K) and the COOH-terminal fragment (78K) have been well characterized by different methods. The fact that the 150K protein is not cleaved in vitro, although it contains the regions that are processed in the 195K protein, could be of fundamental biological significance for the expression of the viral genes: a single polypeptide chain could be processed in several ways, leading to different peptides with distinct biological activities.     

黄瓜花叶病毒（CMV）运动蛋白基因介导的抗病性

利用Ｆｎｙ＿ＣＭＶ株系ＲＮＡ３ｃＤＮＡ克隆,构建了含有全长和编码区缺失５０１个核苷酸的运动蛋白（ＭＰ）基因植物表达载体ｐＢＭＰＲ和ｐＢＭＰＫ。在土壤农杆菌（Ａｇｒｏｂａｃｔｅｒｉｕｍｔｕｍｅｆａｃｉｅｎｓ（ＳｍｉｔｈｅｔＴｏｗｎｓｅｎｄ）Ｃｏｎｎ）ＬＢＡ４４０４介导下转化烟草（ＮｉｃｏｔｉａｎａｔａｂａｃｕｍＬ．）品种“ＮＣ８９”,分别经Ｓｏｕｔｈｅｒｎｂｌｏｔｉｎｇ、ＲＴ＿ＰＣＲ或Ｗｅｓｔｅｒｎｂｌｏｔｉｎｇ分析,外源基因已整合到再生植株中并得到表达。抗病性分析表明,含有缺失型ＭＰ基因的Ｒ０代转基因植株抗性较好,接种５０ｄ后,１０株转化植株中仍有５株不表现症状。在自然发病条件下,这５个含有缺失型ＭＰ基因转基因株系在Ｒ１代都表现了一定的抗病性。抗性主要表现为症状出现推迟,严重度减轻。利用ＰＣＲ筛选、种子卡那霉素抗性试验和温室抗病性测定等方法,初步认为Ｒ２代转基因烟草Ｋ＿６＿５株系为转基因抗病纯合系。而含有全长ＭＰ基因的Ｒ０代转化植株,前期没有表现明显的抗病性,但在接种４０ｄ后部分发病植株有恢复健康的趋势。     

Virus Movement Protein Gene Mediated Resistance Against Cucumber Mosaic Virus Infection

Tobacco (Nicotiana tabactum L. ) "NC89" plants were transformed with deletion mutant of cucumber mosaic virus (CMV) movement protein (MP) gene and full-length CMV MP gene, respectively. The transformed plants were analyzed with polymerase chain reaction (PCR), PCR-Southem, Southern and Western blots. R0 generation of the transgenic plants were inoculated with CMV. Five out of 10 lines of tobacco plants (BMPK) transformed with CMV MP deletion mutant gene showed high resistance to CMV infection and remained symptomless for up to 50 days post-inoculation. In contrast, tobacco plants (BMPR) transformed with full-length CMV MP gene did not show resistance to CMV infection. However, most of the infected full-length CMV MP gene transgenic plants recovered by showing none or very mild mosaic symptoms in 40 days post-inoculation. The results of R1 generation of the BMPK transgenic plants tested under field conditions showed that all 5 lines of transgenic plants could delay the virus disease development.     

Fate of Tobacco Mosaic Virus after Entering the Host Cell

Diminutive viral RNAs recovered from tobacco leaves inoculated with ³²P-TMV were investigated. At 3.5 hr after inoculation, most of the viral RNA without coat protein revealed two peaks after sucrose density gradient analysis of SDS-extract from 12,000 × g leaf pellet. The first peak appeared between bacterial ribosomal RNA of 16 S and 5 S and the second peak was around 5 S. These two peaks were digestible with RNase and they appeared as early as 5 min after inoculation. These diminutive RNAs seemed to be derived from partially uncoated parental virus by abscission of their naked RNA tails. The active formation of these diminutive RNAs and their early appearance after inoculation seemed to indicate that most of the inoculated TMV received incomplete uncoating.     

Ultrastructural Alteration of Host Plants Infected with Tomato Mosaic Virus

The ultrastructural aheration of two host plants infected with tomato mosaic virus (ToMV) were studies with transmission electron microscopy. A large number of virus particles were found being accumulated in different cells such as epidermis, parenchyma cells and vascular bundle cells of Lycopersicon esculentum Mill. grown at 25℃ Crystalline inclusions and paracrystal inclusions composed of ToMV particles were observed in the cytoplasm or vacuoles. Some muhivesicular bodies and myeloid bodies protming into the vacuole and vires-specific vesicles associated with the tonoplast were also observed. The ultrastructuml alteration of Nicotiana tabacum L. tv. Xanthinn was similar to that in tomato infected by ToMV grown at 25 cE. In addition to the aggregate inclusions described above, some cytoplasmic angularly-layered aggregates and abnormal chloroplasts with small peripheral vesicles were observed in the parenchyma cells. The densely stained amorphous material was seen in the cytoplasm of N. tabacum L. cv. Xanthiun grown at 35℃. No X- body was observed in the cytoplasm of the ToMV infected tomato and tobacco grown at 25℃ or 35℃. The authors' results suggest a significant difference between the cytopathological effects of ToMV and tobacco mosaic virus (TMV). These characteristic difference may be useful in the virus diagnosis and identification virus infections in plants.     

受番茄花叶病毒侵染后寄主的超微病变研究

电镜观察了番茄花叶病毒（ＴｏＭＶ）侵染不同寄主的细胞超微结构变化。在２５℃下ＴｏＭＶ侵染番茄（ＬｙｃｏｐｅｒｓｉｃｏｎｅｓｃｕｌｅｎｔｕｍＭｉｌｌ）后,病毒粒子在叶片的表皮,薄壁细胞,维管束组织的细胞质中形成大块结晶体和类结晶体,液泡膜处产生小泡结构,有多泡体和髓鞘样结构构伸入液泡中,在２５℃下ＴｏＭＶ侵染珊西烟（ｉｃｏｔｉａｎａｔａｌａｃｕｍＬ．ｃｖ．Ｘａｎｔｈｉｎｎ）后,除存在病毒结晶体和类结     

Fate of Tobacco Mosaic Virus after Entering the Host Cell

Tobacco leaves were inoculated with tobacco mosaic virus labeled with ³²P or ³⁵S. After various intervals, extracts of the leaves were prepared. In extracts from leaves infected for 5 to 360 min, about 40 to 60% of the virus retained on leaves was recovered in the pellet of the homogenate centrifuged at 12 000 × g. The virus associated with the 12 000 × g pellet was dissociable by treatment with pancreatic RNase, alkali or sodium dodecyl sulfate (SDS). The parental virus extracted by SDS from the pellet at 12 000 × g had a large amount of partially uncoated virus possessing naked RNA. Analysis by density gradient centrifugation suggested that, in addition to partially uncoated virus, some fragmented RNA was also associated with the 12 000 × g pellet. This fragmented RNA seemed to be derived from partially uncoated virus. Density gradient analysis of SDS extracts from the 12 000 × g pellet suggested that some of the virus underwent uncoating at the internal regions of the virus particle.