Purification and Properties of the Geminivirus Euphorbia Mosaic Virus

Euphorbia mosaic virus was purified from infected plants of Nicotiana benthamiana. Highest concentrations of virus particles were found in infected plant tissue between 10–12 days after inoculation. The enzyme driselase assisted in purification of the virus particles from the infected tissue yielding about 600 μg/kg of plant material. Purified preparations showed a maximum absorption at 260–263 nm and the ratio of absorption at 260 and 280 nm was 1.4. The viral nucleic acid was digestedby DNase I and S₁ Nuclease but not RNase A. A single coat protein with a MW of 32,000 d and two DNA bands with a MW 0.96 × 10⁶ d (2870 nucleotides) and 0.90 × 10⁶ d (2700 nucleotides) were associated with the purified virus particles. Virus specific DNA was isolated from infected tissue between 7 and 15 days after inoculations.     

小麦黄花叶病毒的分离提纯及其血清学等特性

应用梯度离心和超速离心浓缩获得部分提纯的病毒制剂,产量约为7.45g/kg病叶提纯的病毒制剂的紫外吸收曲线呈典型的核蛋白吸收曲线,OD260/OD242和OD260/OD280的比值分别为1.24和1.38。病毒粒子呈线状,宽13—14nm,长度主要分布于250—300nm和550—700nm之间,1000nm以上的粒子也有检到。病毒外壳蛋白仅由一个分子量约为30Kd的亚基组成。在免疫电镜试验中、病毒粒子与日本WYMV抗血清发生强烈的血清学反应。新鲜病叶的超薄切片中可看到大量风轮体和膜状体。     

Purification and Characterization of Indian Cassava Mosaic Virus

The Indian cassava mosaic virus (ICMV) was transmitted by the whitefly Bemisia tabaci and sap inoculation. ICMV was purified from cassava and from systemically infected Nicotiana benthamiana leaves. Geminate particles of 16–18 × 30 nm in size were observed by electron microscopy. The particles contained a single major protein of an estimated molecular weight of 34,000. Specific antiserum trapped geminate particles from the extracts of infected cassava and N. benthamiana plants in ISEM test. The virus was detected in crude extracts of infected cassava, ceara rubber, TV. benthamiana and N. tabacum cv. Jayasri plants by ELISA. ICMV appeared serologically related to the gemini viruses of Acalypha yellow mosaic, bhendi yellow vein mosaic, Croton yellow vein mosaic, Dolichos yellow mosaic, horsegram yellow mosaic, Malvastrum yellow vein mosaic and tobacco leaf curl.     

玉米矮花叶病毒提纯及特性的研究

改进病毒纯化方法,获得了较高纯度、较强侵染活性的提纯病毒制品。提纯病毒的产量为0.7—1.2mg/100g病叶,病毒粒体大小为720—750×14nm,SDS-聚丙烯酰胺凝胶电泳测得的外壳蛋白分子量为36000道尔顿,用提纯病毒免疫家兔得到较高特异性的抗血清,微量沉淀反应的效价为1/2048,间接ELISA法测出的感病叶汁液的最高稀释倍数为3200—6400倍。     

Properties of Johnsongrass Chlorotic Stripe Mosaic Virus

Physicochemical, biological, and cytopathological properties of Johnsongrass chlorotic stripe mosaic virus (JCSMV) found in Iran were investigated. Virus particles were polyhedral, showed a knobbed surface structure, were c. 30 nm in diameter and had a buoyant density of 1. 359 g/ml in cesium chloride. Virions contained one major protein with a molecular weight of 41 kd and a single species of ssRNA with a molecular weight of 1. 43 × 10⁶ d. Acid hydrolysis of the virus followed by thin-layer electrophoresis gave the following molar percentages of the bases: A: 23. 5, G: 27. 5, C: 26 and U: 23. Separation of nucleotides of the viral RNA using alkaline hydrolysis was not successful. Mechanical inoculation of freshly purified virus or isolated RNA failed to infect Johnsongrass or maize plants. The virus was readily detected by ELISA in seeds from infected plants and young seedlings raised from such seeds, but not in later stages of growth. Ultrathin sections of infected cells showed high concentrations of virus particles in the cytoplasm and vacuoles. Virus-like particles also occurred in the stroma of chloroplasts and mitochondria. Cisternae of endoplasmic reticulum (ER) were often extremely inflated and filled by a fine fibrillar material. Small membrane-associated vesicles were frequently found in ER elements and occurred also in the permuclear space. Based on particle structure, properties of the nucleic acid, molecular weight of the coat protein and cytopathology, the virus resembles carmoviruses. However, lack of mechanical transmissibility is not known for any virus classified with this group. No serological reaction was detected with a total of 30 antisera to carmoviruses and other isometric viruses.     

Barley Yellow Mosaic Virus: Purification, Electron Microscopy, Serology, and other Properties of two Types of the Virus

From naturally infected barley plants two types of barley yellow mosaic viruses have been isolated in Federal Republic of Germany. Both are identical in morphology, showing a bimodal length distribution (270–289 nm and 568–600 nm), and in symptomatology. Both induce conspicuous cytoplasmic inclusions of the pinwheel type and laminated aggregates, as well as threedimensional crystal-like arrays of membrane material. The types differ, however, in buoyant density, serology, and transmissibility. One is transmissible by soil as well as mechanically (BaYMV-M), and does not react with a Japanese antiserum to the Japanese virus (BaYMV-J). The other type (BaYMV-NM) is only transmissible by soil and reacts with BaYMV-J-antiserum. From mechanically infected plants BaYMV-M was purified, and an antiserum was produced, from soil-infected plants only mixtured BaYMV-NM and -M could be obtained. BaYMV-NM prevailed during winter, but with rising temperatures in spring BaYMV-M was predominant. BaYMV-M and the -M-NM mixture had each two species of nucleic acids (2.7–2.8 × 10⁶ and 1.4–1.5 × 10⁶ d) and two major protein subunit bands were found in SDS-PAGE (35–36 × 10³ and c. 29 × 10³ d).     

Purification and Characterization of a Jordanian Isolate of Watermelon Mosaic Virus

The Jordanian isolate of watermelon mosaic virus-2 (WMV-2Jo) was purified from infected Cucurbita pepo cv. Top Capi by extraction in 0.05 M sodium citrate buffer containing 0.01 M sodium diethyl dithiocarbamate and 0.01 M cysteine hydrochloride (0.01 M D + C), clarification with chloroform and n-butanol, sedimentation by ultracentrifugation, and rate-zonal centrifugation in 10–40% sucrose gradient. The purified virus had an ultraviolet absorption spectrum typical of a nucleoprotein with a low nucleic acid content. Homologous antiserum had a titre of 1: 256, as determined by the ring interface test. Electron microscopy of negatively stained purified virus revealed flexuous particles with a normal length of 750 nm. Cytoplasmic spindle-shaped inclusions were readily detectable in infected epidermal cells under the light microscope. Thin sections of infected tissue revealed the presence of laminated aggregates, pinwheel and scroll inclusions. The virus reacted with antisera prepared to the Florida strain of WMV-2 and zucchini yellow mosaic virus in a sodium dodecyl sulfate (SDS) agar gel diffusion test. Using the Derrick-decoration combined technique of immune electron microscopy, the virus reacted strongly with the homologous antiserum and zucchini yellow mosaic virus antiserum, but less with antiserum prepared to the Florida strain of WMV-2.     

Purification and Serology of the Iranian Maize Mosaic Rhabdovirus1)

Leaves of maize infected with the Iranian maize mosaic rhabdovirus (IMMRV) were homogenized in 0.1 M citrate-0.04 M Na₂SO₃ buffer, pH 5.4, containing 10 % sucrose and the extract was subjected to low speed and high speed centrifugation followed by resuspension in 0.05 M potassium phosphate buffer, pH 7.2, containing 10 % sucrose. Partially purified preparation was obtained by density-gradient centrifugation, removal of the virus zones and their concentration by high speed centrifugation. Two virus specific bands were observed in density-gradient columns. An antiserum with a titer of 128 was prepared by injecting partially purified virus into rabbits. In agar-gel-diffusion tests, the antiserum produced one or two precipitin lines against diseased maize extract but none against healthy maize extract. IMMRV was not related to barley yellow striate mosaic (BYSMV), cereal chlorotic mottle (CCMV), Cynodon chlorotic streak (CCSV), Festuca leaf streak, and maize mosaic (MMV) viruses as well as to two unidentified rhabdoviruses occurring in wheat and Bermuda grass in the vicinity of Shiraz, when these viruses were tested against IMMRV antiserum in agar-gel-diffusion and enzyme-linked immunosorbent assay. Likewise, IMMRV did not react with antisera to BYSMV, CCMV, CCSV and MMV in agar-gel-diffusion tests. IMMRV appears to be different from most reported rhabdoviruses of cereals.     

Interactions of Cowpea Mosaic Virus with Cowpea Protoplasts1)

The capability of cowpea mosaic virus to attach to and infect protoplasts of immune, hypersensitive, and susceptible cowpea (Vigna unguiculata) lines was examined by inoculating protoplasts with either purified virus or radioiodinated purified virus ¹²⁵I-CPMV. Systems were used in which plants were immune and protoplasts susceptible, plants were immune and protoplasts resistant, and plants and protoplasts were susceptible to CPMV. No differences were observed in the attachment of ¹²⁵I-CPMV to resistant and susceptible protoplasts. Polycations, proteins, or virus particles were added to the inoculation medium to neutralize potential nonspecific interactions between cells and virus particles. The various additives induced quantitative differences in binding of virus particles to protoplasts.