A Messenger RNA for Tobacco Mosaic Virus Coat Protein in Infected Tobacco Mesophyll Protoplasts

The low molecular weight tobacco mosaic virus (TMV)-specific RNA component (LMC) was demonstrated in tobacco mesophyll protoplasts by polyacrylamide gel electrophoresis of ¹⁴C-uridine-labelled RNA from infected protoplasts. Free and membrane-bound polysomes were isolated from infected protoplasts, and RNA extracted from them was analyzed. TMV-specific RNA species including full-length viral RNA, its replicative intermediate, and LMC were found in both free and membrane-bound polysomes, but were present in free polysomes in much larger amounts. In particular, as much as 37 % of total LMC in protoplasts was found in free polysomes. Fractionation of polysomes by sedimentation in sucrose gradients showed that LMC is associated with small-sized polysomes (mono- to tetrasomes). Polysomes of this size class produced viral coat protein in a cell-free protein synthesizing system from rabbit reticulocytes. On the other hand, full-length TMV-RNA was associated predominantly with larger polysomes which produced in the cell-free system TMV-specific high molecular weight polypeptides but no coat protein. These results indicated that LMC, a subgenomic RNA of TMV, in fact functions in vivo as messenger RNA for viral coat protein, as has been postulated on the basis of in vitro studies.     

Efficiency of Nitrous Acid as An Inactivating and Mutagenic Agent of Intact Tobacco Mosaic Virus and Its Isolated Nucleic Acid

When tobacco mosaic virus (TMV) and its isolated nucleic acid (TMV-RNA) were treated with nitrous acid, the nucleic acid was inactivated six times faster than the intact virus. Inactivation of both the infectious entities was exponential with treatment time to 0.1% level of survival. Eight different mutant phenotypes were scored after inactivation of TMV and TMV-RNA to 50, 10, 1.0, and 0.1% survival levels. Significantly more mutants in relation to unaltered isolates were induced at all levels of survival upon nitrous acid treatment of TMV than of TMV-RNA. Furthermore, the proportion of two specific mutant phenotypes was significantly greater in treated TMV than in treated TMV-RNA. No qualitative differences, however, were observed between the mutational spectra of nitrous acid-treated TMV and TMV-RNA. These results indicate that, in the intact virus, the viral capsid protects some of the sites involved in lethality; thus, proportionately more mutants are induced on nitrous acid treatment of TMV versus TMV-RNA.     

In vivo Uncoating of Tobacco Mosaic Virus after Infection of Tobacco Leaves

In vivo uncoating of tobacco mosaic virus (TMV) was studied. As Shaw had reported, initiation of uncoating reaction takes place very efficiently. Coat protein is removed from the virus as a peptide which is precipitable with trichloroacetic acid. Short rod particles with partly exposed RNA are thus formed. Further uncoating to coat protein-free TMV-RNA (28S) seems to take place with very low efficiency which is comparable to that of formation of local lesions on the inoculated leaf. From the data on the intracellular distribution of these products of uncoating reaction, mechanisms and significance of these reactions are discussed.     

检测烟草中烟草花叶病毒的RNA斑点杂交法

用普通烟草花叶病毒OM株3′-端约2kb的cDNA为探针,探索了用RNA斑点杂交法对烟草组织中烟草花叶病毒RNA进行检测的条件。这些条件包括用分子杂交法观察云南烟区和上海烟草上分到的烟草花叶病毒与OM株的同源性,从烟草组织中提取烟草花叶病毒的几种方法的比较,使RNA有效地固定在硝酸纤维素滤膜上的方法,烟草组织中是否有干扰RNA固定和杂交的物质,斑点杂交方法检测烟草花叶病毒的特异性、灵敏度等。     

与TMV-RNA装配起始位点互补的cDNA片段对TMV体外装配的抑制

合成了与TMV-RNA病毒装配起始位点互补的、长度为二十个核苷酸的DNA片段。该片段用~(32)P标记后,代替反义RNA(antisense RNA)与TMV-RNA进行硝基纤维素膜点杂交和溶液杂交。结果表明,该cDNA片段在两种条件下均能与TMV-RNA进行杂交。将溶液杂交的RNA-cDNA复合体经酒精沉淀,再与TMV衣壳蛋白的20S聚合体制剂进行体外装配,用测定310nm吸收光谱变化和电子显微镜观察的方法鉴定装配结果。实验证明,该cDNA片段与TMV-RNA杂交后抑制了装配起始位点的活力,从而使TMV病毒颗粒的装配不能完成。这一结果提示,TMV基因装配起始位点顺宁的cDNA和反义RNA能够在体外抑制TMV病毒颗粒的装配。     

用不同方法把烟草花叶病毒RNA基因导入植物原生质体的研究

应用电激法和聚乙二醇法以及脂质体协调的上述两种方法对烟草和青菜原生质体进行烟草花叶病毒ＴＭＶ－ＲＮＡ的导入试验,并应用酶标免疫技术、电镜观察、半叶接种和十二烷基磺酸钠－聚丙烯酰胺凝胶电泳（ＳＤＳ－ＰＡＧＥ）等方法对在原生质体中增殖的ＴＭＶ进行鉴定。实验证明,虽然电激法和聚乙二醇法均能有效地将外源病毒基因导入植物原生质体,但经阳离子脂质体处理后的ＴＭＶ－ＲＮＡ,其转染效率可提高１０倍以上。ＴＭＶ在原生质体转染４８小时后达到复制高峰。ＳＤＳ－ＰＡＧＥ显示,原生质体转染４８小时后,除出现ＴＭＶ外壳蛋白明显条带外,尚有１条分子量在５０～５５ｋｄ蛋白质条带也明显增强。这些研究结果对植物遗传工程和抗病毒基因有种研究提供重要的数据和基础。     

The invasion of tobacco mosaic virus RNA induces endoplasmic reticulum stress-related autophagy in HeLa cells

The ability of human cells to defend against viruses originating from distant species has long been ignored. Owing to the pressure of natural evolution and human exploration, some of these viruses may be able to invade human beings. If their 'fresh' host had no defences, the viruses could cause a serious pandemic, as seen with HIV, SARS (severe acute respiratory syndrome) and avian influenza virus that originated from chimpanzees, the common palm civet and birds, respectively. It is unknown whether the human immune system could tolerate invasion with a plant virus. To model such an alien virus invasion, we chose TMV (tobacco mosaic virus) and used human epithelial carcinoma cells (HeLa cells) as its 'fresh' host. We established a reliable system for transfecting TMV-RNA into HeLa cells and found that TMV-RNA triggered autophagy in HeLa cells as shown by the appearance of autophagic vacuoles, the conversion of LC3-I (light chain protein 3-I) to LC3-II, the up-regulated expression of Beclin1 and the accumulation of TMV protein on autophagosomal membranes. We observed suspected TMV virions in HeLa cells by TEM (transmission electron microscopy). Furthermore, we found that TMV-RNA was translated into CP (coat protein) in the ER (endoplasmic reticulum) and that TMV-positive RNA translocated from the cytoplasm to the nucleolus. Finally, we detected greatly increased expression of GRP78 (78?kDa glucose-regulated protein), a typical marker of ERS (ER stress) and found that the formation of autophagosomes was closely related to the expanded ER membrane. Taken together, our data indicate that HeLa cells used ERS and ERS-related autophagy to defend against TMV-RNA.     

嘧肽霉素影响烟草花叶病毒RNA蓄积量的研究

嘧肽霉素是新报道的由土壤中分离筛选出来的不吸水链霉菌辽宁变种(Streptomyces achygroscopicus var.liaoningensis)产生的,其有效成分是胞嘧啶核苷肽类化合物,已获得农药临时登记,该药剂对烟草花叶病毒(Tobacco mosaic virus,TMV)等多种病毒病害具有很好的防治效果。定量竞争PCR(Quantitative competitive PCR,QCPCR)是一种定量检测细胞因子较为精确的方法,其实质是待测核酸(DNA或RNA)与内参模板一起竞争参与PCR反应,并通过电泳将扩增产物在凝胶上明显的分开,从而进一步进行定性或定量分析。     

Delivery of tobacco mosaic virus RNA into plant protoplasts mediated by reverse-phase evaporation vesicles (Liposomes)

Summary Protoplasts were isolated from tobacco suspension cultures using a new cellulase preparation. Tobacco mosaic virus (TMV) RNA was encapsulated in reverse-phase evaporation vesicle (REV) liposomes of phosphatidylserine and cholesterol, and was successfully introduced into tobacco protoplasts by treatment of the REV/protoplast mixture with polyvinyl alcohol or polyethylene glycol followed by washing with high pH-high Ca buffer. Delivery of TMV-RNA was monitored by determining the number of infected protoplasts using the immunofluorescence technique. Production of TMV particles in the infected protoplasts was also confirmed by electron microscopy. Because of the high encapsulation efficiency of REV liposomes the amount of TMV-RNA necessary to cause infection in the majority of protoplasts could be reduced to 1/10 to 1/5 that required in the previous study (Fukunaga et al. 1981). The usefulness of the REV-mediated delivery of nucleic acids for genetic manipulation of plant protoplasts is discussed.     

Antiviral Effect of Theaflavins on Tobacco Mosaic Virus

Theaflavins, the oxidized products formed from tea leaf catechins during black tea fermentation, showed an antiviral activity on TMV. From the survey of the interactions of theaflavins with RNA and its related substances, it was presumed that theaflavins disturbed the replication cycle of TMV through binding to TMV-RNA.     

Selection of prosomes and prosomal RNA by immobilized viral RNAs

Viral messengers were used to select and purify prosomes and prosomal RNA from subribosomal fractions of HeLa cells and mouse erythroblasts. Adenovirus mRNA immobilized on oligo(dT)-cellulose and tobacco mosaic virus RNA (TMV) sedimenting in sucrose gradients associated strongly with prosomes at high salt conditions forming intermolecular RNA-RNA hybrids between prosomal RNA and viral RNA. Hybrid selection of small cytoplasmic RNAs with immobilized TMV-RNA revealed a RNA species migrating at the same position as prosomal RNA. The possible existence of a box-like sequence involved in hybridization will be discussed.     

Isolation of Polyribosome from Tobacco Plants Infected with Tobacco Mosaic Virus

Polyribosomes have been isolated from tobacco leaves. Upon infection with TMV, a new polyribosome has appeared which is specific for infection, and TMV-antigenic protein is formed on this polyribosome. This new polyribosome has an S-value of 360–380. From these results, it is suggested that this TMV specific polyribosome is an aggregate of 60–80 ribosomes which is bound by TMV-RNA as messenger, and that TMV-RNA is translated polycistronically.     

The Donnan effect in tobacco mosaic virus and its components

Osmotic pressure studies were carried on tobacco mosaic virus (TMV) and its components, protein and RNA, as well as on bis(3,3′-aminopropyl)amine, reported to be present in TMV preparations. Solvents were phosphate and barbital buffers at different values of pH and ionic strength. Measurements were made at room temperature. The Donnan effect was exhibited by TMV protein in phosphate buffer of 0.01 ionic strength at pH values ranging between 5.8 and 7.5. The observed values of the Donnan effect at pH 5.8 and 5.97 were in reasonable agreement with theoretical values calculated from the charge obtained by hydrogen ion titration. TMV-RNA in phosphate buffer at pH 7.5 and ionic strength 0.01 did not exhibit more than 1% of the expected Donnan effect. This is explained tentatively as the result of firm binding of metal ions. Negative values of osmotic pressure were observed with bis(3,3′-aminopropyl)amine. Similar anomalous osmosis was sometimes observed with TMV protein and with TMV. In agreement with earlier observations, TMV did not exhibit the Donnan effect in phosphate buffer of 0.01 ionic strength at pH values ranging from 5.5 to 8.0. However, TMV dialysed extensively in the presence of EDTA at pH 8.5 and TMV produced by reconstitution of purified protein and RNA did exhibit the Donnan effect in both phosphate and barbital buffers. The magnitude was of the same order as that calculated from the net charge determined by hydrogen ion titration. When reconstituted TMV, which did exhibit Donnan effect, was treated with calcium ions, the effect was abolished.     

Flow dichroic spectra of tobacco mosaic virus and their protein assemblies

Ultraviolet flow dichroisms of tobacco mosaic virus (TMV), TMV-RNA and TMV-protein were measured using three strains of TMV. 1. Large positive dichroisms were observed with three strains of TMV, namely ordinary, bean form of bean, and tomato strains (TMV-OM, TMV-B and TMV-T, respectively) at about 255, 276, 284 and 290 nm. The positive dichroisms were confirmed with reconstituted protein assemblies of TMV-OM and TMV-B at about 276, 284 and 290 nm where tyrosine and tryptophan residues of these proteins contribute. These results show that the electronic transition moments of their base groups and aromatic groups are nearly parallel to the polymer axis. It is suggested that there is a strong interaction between the base groups of RNA and aromatic groups of amino acid residues in TMV. 2. A small negative dichroism was observed near 296-300 nm with intact TMV-OM and TMV-T and with the reconstituted protein polymer of TMV-OM. But negative dichroism was not observed either with the intact virus or the protein assembly of TMV-B. 3. Isolated RNA from TMV-OM, TMV-B and TMV-T showed no dichroism. The configuration of RNA in TMV appears to be imposed on it by its packing with the protein.     

Unique nature of an attenuated strain of tobacco mosaic virus: autoregulation

An attenuated strain L11A of tobacco mosaic virus (TMV) multiplied like wild type strain L at an early stage of infection in tomato leaves. Four days after inoculation, however, multiplication of L11A was drastically reduced (autoregulation) compared with the constant multiplication of L. In mixed infections, L11A strongly inhibited the multiplication of homologous strain L. Experiments with cucumber mosaic virus (CMV) or tobacco plants revealed that the inhibitory mechanism of L11A is not host-specific but virus-specific, and the autoregulatory mechanism is effective only for TMV. RNA synthesis in L11A infected leaves 4 days after inoculation was studied by polyacrylamide gel electrophoresis. Synthesis of TMV-RNA and its replicative intermediate were strongly inhibited, whereas the replicative form of TMV-RNA and ribosomal RNA were synthesized as in the case of L infection. Synthesis of non-coat-protein was studied by the incorporation of radioactive histidine into subcellular fractions derived from leaves infected with L or L11A for 4 days. Different patterns of the two strains in protein synthesis were noted. At least three proteins were predominantly synthesized in L11A infection. One of them was observed in the mitochondria fraction. From its position in polyacrylamide gel, it could be viral coded 165K protein which is considered to be involved in viral RNA replication. These results suggest that the unique nature of attenuated virus L11A, i.e. autoregulation, resulted from the inhibitory mechanism of viral RNA synthesis due to overproduction of 165K protein and is quite distinct from interferon, intrinsic interference or interference by defective virus.     

Effect of “osmotic stress” on protein and nucleic acid synthesis in isolated tobacco protoplasts

The incorporation of labeled precursors into RNAs and proteins of isolated tobacco (Nicotiana tabacum L.) leaf protoplasts decreases with increasing osmotic pressure in the incubation medium. The incorporation of precursors into RNA and proteins is linear for 15–18 h after the isolation of the protoplasts, irrespective of the osmolarity of the culture media. The uptake of precursors is also affected by the osmolarity of the medium. However, the osmotic stress-induced inhibition of incorporation of precursors into RNA and proteins is also apparent if the differences in uptake are taken into consideration in the calculation. Incorporation of ³²P into TMV-RNA is also inhibited by osmotic stress. As assayed by the double labeling ratio technique, osmotic stress has less unequivocal effect on TMV protein synthesis.Abbreviations PP protoplast - RNase ribonuclease - rRNA ribosomal ribonucleic acid - SDS sodium dodecyl sulfate - SSC 0.1 M Na-acetate in 0.15 M NaCl - TCA trichloroacetic acid - TMV tobacco mosaic virus     

A Messenger RNA for Tobacco Mosaic Virus Coat Protein in Infected Tobacco Mesophyll Protoplasts

Synthesis of tobacco mosaic virus (TMV)-specific low molecular weight component RNA (LMC) was investigated in relation to that of other TMV-related RNAs and proteins, and formation of progeny virus particles using synchronously infected tobacco mesophyll protoplasts. Timing of LMC synthesis was shown to be almost the same as, but somewhat earlier than that of TMV-RNA synthesis. In contrast, synthesis of TMV-specific double-stranded RNAs (replicative intermediate, RI and replicative form, RF) as well as a high molecular weight virus-induced protein (140 K protein) showed the maximum incorporation rate 4–6 h earlier than LMC synthesis. While, synthesis of coat protein and formation of progeny virus particles lagged behind LMC synthesis for 6–8 h. LMC occurring in polysomes was also investigated during the course of virus replication. The amount of produced coat protein calculated theoretically from the amount of LMC in polysomes of infected protoplasts was shown to be well agreed with the experimental results, indicating that LMC in polysomes is actively functioning as messenger for coat protien synthesis in vivo.     

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.     

An improved method for electroporation in plant protoplasts: infection of tobacco protoplasts by tobacco mosaic virus particles

Conditions of electroporation were optimized for introduction of tobacco mosaic virus (TMV) particles into tobacco mesophyll protoplasts (Nicotiana tabacum L. cv. Petit Havana SR1). Compared with conditions for TMV-RNA uptake, a longer electric pulse was necessary at the same voltage to induce TMV particle entry. Up to 80–90% of the protoplasts were infected with TMV particles after exposure to a 10 msec pulse at 200 V (0.67 KV/cm) in a 0.5 M mannitol solution. Protoplast viability was slightly lower than for controls which did not undergo electroporation. The presence of buffer in the mannitol solution reduced the net voltage in the solution which resulted in a significant decrease of the level of infection. These results suggest that the membrane pores resulting from an electrical pulse were wide enough for TMV particles (300 × 18 nm) to enter protoplasts.