Some properties of a new virus of Pieris rapae

A new insect virus of Pieris rapae was purified using a chloroform-butanol treatment followed by two differential and sucrose gradient centrifugations. The sedimentation coefficient of the purified virion was approximately 132 S, and it banded at a density of 1.39 g/cm³ in cesium chloride. The virion has a nonenveloped capsid with icosahedral symmetry. Several virions were shown to have a regular hexagonal contour about 25 nm in diameter and to be composed of many capsomeres. Full and empty viral particles, with 12 capsomeres around the periphery of the capsid, were noted. In some particles a small core has been observed which is spherical, about 15 nm in diameter. Both purified virus and partially purified virus preparations from dead, infected larvae gave only one precipitin band with a reaction of identity when tested against the antiserum to partially purified virus. When crude extracts of uninfected larvae and purified virus were tested against antiserum to partially purified virus, the pure virus produced a precipitin band. The band was formed independently and did not join to the band of the uninfected insect producing a typical reaction of nonidentity.     

Cytopathology of spotted cucumber beetle hemocytes containing virus-like particles

Spherical, virus-like particles with an average diameter of 70 nm were consistently found in the hemocytes of field-collected, spotted cucumber beetles, Diabrotica undecimpunctata. The particles and associated inclusion bodies occurred both in the cytoplasm and nucleus. Hemocytes containing the particles exhibited structural features which were indicative of virus infection. These were (1) the appearance of fibril-containing membranous vesicles, 70 to 80 nm in diameter, in the perinuclear space and in the cisternae of rough endoplasmic reticulum, (2) accumulation of vesicle-containing cisternae in certain areas of cytoplasm, (3) appearance and condensation of granular material in viroplasm-like structures, and (4) appearance of virus-like particles. The results suggest that the particles are viral in nature and occur widely in leaf-feeding beetles.     

Purification and partial characterization of virus-like particles from Schneider line 2 Drosophila cells

A procedure has been developed for the purification of virus-like particles (VLPs) from Schneider line 2 Drosophila cells. The VLPs were precipitated with polyethylene glycol from the cytoplasmic fraction of lysed cells and further purified by equilibrium centrifugation in CsCl density gradients, in which they band at a density of 1.366 g/ml. Electron micrographs of these preparations revealed polyhedral particles with a diameter of 310–330 Å. We have also found particles of this size in thin sections of the intact cells. Sedimentation of the VLPs through 10–70% sucrose gradients yields a sedimentation coefficient of 235 S. Preliminary studies show that the VLPs contain double-stranded RNA species of 10 S, 14.5 S, 16 S, and 18 S.     

Nonoccluded baculovirus- and filamentous virus-like particles in the spotted cucumber beetle,diabrotica undecimpunctata (coleoptera: chrysomelid)

Nonoccluded baculovirus-and filamentous virus-like particles were found in nuclei of hemocytes or midgut cells of field-collected spotted cucumber beetles. Each type of particle was associated with a different type of virogenic stroma containing various viral components similar to those referred to as capsid, nucleocapsid, viroplasm, and viral envelope in other known baculovirus infections. Nucleocapsids of the virus which occured only in hemocytes were rod-shaped particles approximately 230 nm long and 52 nm wide and were enveloped singly by a trilaminar unit membrane. Enveloped and partly enveloped particles appeared to be released from the nucleus to the cytoplasm by budding through the nuclear envelope acquiring additional membranes. The nucleocapsids of the virus which occurred only in nuclei of midgut cells were filamentous particles with an average diameter of 25 nm and variable length up to 2 μm. Some extremely long particles were bent almost 360° near the middle, resulting in a hairpin-like configuration. The particles were always enveloped singly. No particles budding through the nuclear envelope were observed.     

Cytopathology of the soybean looper,Pseudoplusia includens,infected with the Pseudoplusia includens icosahedral virus

Ultrastructural responses of soybean looper cells of various tissues infected with Pseudoplusia includens icosahedral virus (PIIV), a newly characterized RNA virus [Y. C. Chao, H. A. Scott, and S. Y. Young (1983)J. Gen. Virol.64, 1835–1838], were studied in situ. Most cells of fat body and epidermis consistently contained virus particles and associated cytopathic structures. Virus particles, corresponding to those of purified PIIV in morphology and size, always occurred in the cytoplasm either in membrane-bound virogenic stroma and/or freely in the ground cytoplasm. Virogenic stroma, which appeared to be distinct from those induced by other insect viruses, consisted of electron-dense matrix material, in which virus particles were embedded, and membranous vesicles, 70 or 80 nm in diameter, containing nucleic acid-like fibrils. Virus particles in virogenic stroma occurred as hexagonally arranged crystalline arrays made up primarily of homogeneously dense particles, while those in the ground cytoplasm were dispersed randomly and had an electron-lucent central core. Extremely large numbers of virus particles were also located in noncellular cuticle layers of the integument.     

The particle morphology and some other properties of chloris striate mosaic virus

The causal agent of Chloris striate mosaic disease appears to be a virus with polyhedral particles 18 nm in diameter usually occurring as paired structures about 18 times 30 nm in negatively stained preparations. These particles were detected in the nuclei of infected plants forming characteristic inclusions in all cells except those of the epidermis. Such particles were not detected in thin sections of viruliferous leaf hopper vectors (Nesoclutha pallida). Purified virus preparations were shown to be highly infective when assayed by feeding vector leaf hoppers through membranes and confining them on indicator plants. In particle morphology, chloris striate mosaic virus (CSMV) differs from other viruses of Gramineae in Australia but resembles maize streak virus isolated in Africa, which however is serologically unrelated.     

Reovirus-like particles and their vertical transmission in the Mexican bean beetle,Epilachna varivestis (Coleoptera: Coccinellidae)

Examination of thin sections of organs and tissues from the Mexican bean beetle, Epilachna varivestis, adults and larvae revealed the consistent presence of isometric, reovirus-like particles in the cytoplasm and rarely in the nuclei. Cytoplasmic inclusions having a dense and finely granular matrix with virus-like particles at their periphery were noticed occasionally. These inclusions were, however, very frequent in the nurse cells in the germarium of the ovariole. Virus-like particles were found in the cytoplasm of oocytes and eggs as well as embedded in the nuclei of sperm, thus suggesting vertical transmission of these particles, and explaining the 100% infection of the Mexican bean beetle colony maintained at the Virology and Biocontrol Laboratory of the University of Arkansas. Partially purified extracts from ovarioles or entire beetles contained particles which, in negatively stained preparations, resembled reoviruses without the external protein coat. It is suggested that these particles represent a latent virus of the Mexican bean beetle.     

Supramolecular organization of chlorosomes (chlorobium vesicles) and of their membrane attachment sites in Chlorobium Limicola

The photosynthetic green bacterium Chlorobium limicola 6230 has been examined by freeze-fracture electron microscopy to investigate the size, form, distribution and supramolecular architecture of its chlorosomes (chlorobium vesicles) as well as the chlorosome attachment sites on the cytoplasmic membrane. The oblong chlorosomes that underlie the cytoplasmic membrane show a considerable variation in size from about 40 × 70 nm to 100 × 260 nm and exhibit no particular orientation. The chlorosome core, which appears to be hydrophobic in nature, contains between 10 and 30 rod-shaped elements (approx. 10 nm in diameter) surrounded by an unetchable matrix. The rod elements are closely packed and extend the full length of the chlorosome. Separating the chlorosome core from the cytoplasm is a approx. 3 nm thick lipid-like envelope layer, which exhibits no substructure. A 5–6 nm thick, crystalline baseplate connects the chlorosome to the cytoplasmic membrane. The ridges of the baseplate lattice make an angle of between 40° and 60° with the longitudinal axis of the chlorosome and have a repeating distance of approx. 6 nm. In addition, each ridge exhibits a granular substructure with a periodicity of approx. 3.3 nm. The cytoplasmic membrane regions adjacent to the baseplates are enriched in large (greater than 9 nm) intramembrane particles, most of which belong to approx. 10 nm and approx. 12.5 nm particle size categories. Each chlorosome attachment site contains between 20 and 30 very large (greater than 12.0 nm diameter) intramembrane particles.The following interpretive model of a chlorosome is discussed in terms of biophysical, biochemical and structural information reported by others: it is proposed that the bacteriochlorophyll c (BChl c; chlorobium chlorophyll) is located in the rod elements of the core and that it is complexed with specific proteins. The cytoplasm-associated envelope layer is depicted as consisting of a monolayer of galactosyl diacylglycerol molecules. BChl a-protein complexes in a planar lattice configuration most likely make up the crystalline baseplate. The greater than 12-nm particles in the chlorosome attachment sites of the cytoplasmic membrane, finally, may correspond to complexes containing a reaction center and non-crystalline light-harvesting BChl a. The crystalline nature of the baseplate is consistent with the notion that it serves two functions: besides transferring excitation energy to the reaction centers it could also function as a distributor of this energy amongst the reaction centers.     

The karyosphere during late oogenesis in Rana ridibunda.

The organization of the nucleus in the oocytes of Rana ridibunda was examined during late diplotene at the light and electron microscopic level. At this stage the chromosomes are relatively condensed and assembled in the centre of the nucleus, constituting a karyosphere. The chromosomes here are associated with the central "protein sphere" (15--20 microns in diameter), obviously at their telomeres. Numerous nucleoli are accumulated around the chromosomes, forming a karyosphere capsule and contain segregated fibrillar and granular components; structures resembling perinucleolar chromatin and fibrillar bodies (spherules) are associated with the nucleoli. Granules 30 to 40 nm in diameter are seen to surround the fibrillar spherules. "Nucleolus-like bodies" consisting of granules 10 to 15 nm in diameter which are embedded in finely fibrillar material are often associated in contact with the chromosomes. The central sphere is an accumulation of annular structures similar to those of the pore complexes of the nuclear envelope. These structures are bound to the chromosome material, the "nucleolus-like bodies" and the fibrillar bodies. A participation of "nucleolus-like bodies" in the formation of the central sphere is suggested. A possible role of the nuclear protein matrix in the construction of the karyosphere elements is discussed.     

Characterization of a bacteriophage related to R-type pyocins.

A bacteriophage with a contractile tail which shows very similar features to R-type pyocins was isolated and characterized. This phage, named PS17,was purified by DEAE-cellulose chromatography and CsCl density gradient centrifugation. It was a DNA-containing phage, and the density of the purified particles in CsCl was found to be 1.468. DNA from this phage had a density of 1.720 in CsCl, indicating its guanine plus cytosine content to be 61.2%. The head was polyhedral, 69 nm in diameter, and the tail was 150 nm in length. This phage was neutralized by antiserum preparations against five R-type pyocins, and the antiserum against this phage was active in neutralizing R-type pyocins. The properties of this phage, PS17, were compared with another similar phage, PS3, which was previously reported.     

Studies on the Nucleocapsid Structure of a Group A Arbovirus

When Sindbis virus (273S) was treated with sodium desoxycholate, a nonhemagglutinating 136S particle was liberated from the virion, representing the viral nucleocapsid (core). Electron microscopically it appeared as a spherical particle 35 nm in diameter, showing ringlike morphological units 12 to 14 nm in diameter on its surface. When the one- and two-sided images of core particles were correlated, their structure could be demonstrated to have the T = 3 arrangement of 32 hexamer-pentamer morphological units within a symmetrical surface lattice. The core contained a further spherical structure (12 to 16 nm in diameter) which was designated as the central core component. Two proteins were found associated with the core, a third viral protein belonged to the hemagglutinating surface structures. The significance of these findings for virus classification is discussed.     

Cytopathology of satellite tobacco mosaic virus and its helper virus in tobacco

Ultrastructural responses of tobacco cells infected with a newly discovered satellite virus (STMV) that has an isometric morphology and is associated with rigid rodshaped tobacco mosaic virus (TMV) were studied in situ. In cells infected with TMV alone,TMV particles occurred as crystalline arrays in the cytoplasm and were usually associated with TMV-characteristic X bodies. In cells infected with both TMV and STMV, particles of STMV occurred only in cells that contained TMV particles, which suggests a correlation between the satellite and helper virus presence. However, the replication and/or accumulation sites of STMV appear to be independent from its helper virus. Unlike TMV particles, STMV particles were associated with several cytopathic structures such as granular inclusions, membranous vesicles of 50–80 nm, and myelin-like bodies which were all bounded by a single common membrane, No X bodies occurred in cells containing STMV particles, and the mitochondria possessed abnormal tubular structures containing flocculent material.     

A new virus disease in the housefly, Musca domestica (Diptera)

Reovirus particles were isolated from adults in laboratory colonies of the housefly, Musca domestica. These particles were spherical in outline, 57–76 nm in diameter, and were found only in hemocyte cytoplasm, where virions have been disclosed by a new technique. Virions were present in large numbers, and viral inclusion bodies were identified. The virus particles had pentagonal and hexagonal shapes resembling a simple icosahedral structure. The virus was shown to be infectious and pathogenic to adult flies through injection or by feeding them suspensions from flies that had died of the virus. Electron micrographs of midgut sections from infected flies showed that the midgut cells were packed with dark undulating threads which were not present in uninfected flies. However, no virus particles or inclusion bodies could be seen in these cells. On the basis of their association with infected flies, and the similarity to results from other studies on reoviruses and insect viruses, it is suggested that these threads are an alternative replicative form of the reovirus. When the virus suspensions from heavily infected flies were dialyzed against weak alkaline solutions, the threads showed an inner component of coiled material, 12 nm in diameter, inside an envelope with a diameter of 50–83 nm, mean 60.3 ± 7.5, composed of subunits 7–8 nm long and 7–8 nm across.     

African Swine Fever Virus Is Enveloped by a Two-Membraned Collapsed Cisterna Derived from the Endoplasmic Reticulum

During the cytoplasmic maturation of African swine fever virus (ASFV) within the viral factories, the DNA-containing core becomes wrapped by two shells, an inner lipid envelope and an outer icosahedral capsid. We have previously shown that the inner envelope is derived from precursor membrane-like structures on which the capsid layer is progressively assembled. In the present work, we analyzed the origin of these viral membranes and the mechanism of envelopment of ASFV. Electron microscopy studies on permeabilized infected cells revealed the presence of two tightly apposed membranes within the precursor membranous structures as well as polyhedral assembling particles. Both membranes could be detached after digestion of intracellular virions with proteinase K. Importantly, membrane loop structures were observed at the ends of open intermediates, which suggests that the inner envelope is derived from a membrane cisterna. Ultraestructural and immunocytochemical analyses showed a close association and even direct continuities between the endoplasmic reticulum (ER) and assembling virus particles at the bordering areas of the viral factories. Such interactions become evident with an ASFV recombinant that inducibly expresses the major capsid protein p72. In the absence of the inducer, viral morphogenesis was arrested at a stage at which partially and fully collapsed ER cisternae enwrapped the core material. Together, these results indicate that ASFV, like the poxviruses, becomes engulfed by a two-membraned collapsed cisterna derived from the ER.     

Hyperacetylation of core histones does not cause unfolding of nucleosomes. Neutron scatter data accords with disc shape of the nucleosome

Recent studies report that the frictional resistance of partially acetylated core particles increases when the number of acetyl groups/particle exceeds 10 (Bode, J., Gomez-Lira, M. M. & Schr?ter, H. (1983) Eur. J. Biochem. 130, 437-445). This was attributed to an opening of the core particle though other explanations, e.g. unwinding of the DNA ends were also suggested. Another possible explanation is that release of the core histone N-terminal domains by acetylation increased the frictional resistance of the particle. Neutron scatter studies have been performed on core particles acetylated to different levels up to 2.4 acetates/H4 molecule. Up to this level of acetylation the neutron scatter data show no evidence for unfolding of the core particle. The fundamental scatter functions for the envelope shape and internal structure are identical to those obtained previously for bulk core particles. The structure that gave the best fit to these fundamental scatter functions was a flat disc of diameter 11-11.5 nm and of thickness 5.5-6 nm with 1.7 +/- 0.2 turns of DNA coiled with a pitch of 3.0 nm around a core of the histone octamer. The data analysis emphasizes the changes in pair distance distribution functions at relatively low contrasts, particularly when the protein is contrast matched and DNA dominates the scatter. Under these conditions there is no evidence for the unwinding of long DNA ends in the hyperacetylated core particles. The distance distribution functions go to zero between 11.5 and 12 nm which gives the maximum chord length in a particle of dimension, 11 nm X 5.5 nm. The distance distribution function for the histone octamer contains 85% of the vectors within the 7.0-nm diameter of the histone core. 15% of the histone vectors lie between 7.0 and 12.0 nm, and these are attributed to the N-terminal domains of the core histones which extend out from the central histone core. Histone vectors extending beyond 7.0 nm are necessary to account for the measured radius of gyration of the histone core of 3.3 nm. A similar value of 3.2 nm is calculated for the recent ellipsoidal shape of 11.0 X 6.5 X 6.5 nm from the crystal structure of the octamer. However, the nucleosome model based on this structure is globular, roughly 11 nm in diameter, which does not accord with the flat disc shape core particle obtained from detailed neutron scatter data nor with the cross-section radii of gyration of the histone and DNA found previously for extended chromatin in solution.     

兔的一种新病毒：Ⅱ.一株兔出血症...

In this paper a strain of Rabbit Hemorrhagic Disease Virus (RHDV) was isolated and purified from the diseased rabbit livers with a method of using chloroform, two-phase of polyethylene-glycol-dextran sulfate sodium and sucrose density gradient centrifugation. Purified virus was nonenveloped, icosahedeal symmetry with a triangulation number of 3, and 33-37 nm in diameter. The capsid was composed of 32 capsomeres with central holes in an outer diameter of about 9nm. Two types of viral particles having different sedimentation coefficient, 130s and 166s could be identified after sucrose density gradient centrifugation. Probably no less than four virion proteins with molecular weight of 66.4, 65.0, 63.5, 41.0 x 10(3) dalton were detected by SDS-polyacrylamide gel electrophoresis. Viral nucleic acid was extracted from purified virus by using SDS-proteinase K-phenol. Tests with diphenylamine, formaldehyde, and staining with acridine orange as well as the curves of thermal denaturation showed that this kind of virus had a single-stranded DNA. The molecular weight of the ssDNA was approx 2.1 x 10(6) dalton as determined by electron microscopy. Data indicate that the RHDV may like the parvovirus of the family Parvoviridae.     

A virus disease in Anopheles quadrimaculatus

Free and occluded virus particles found in the cytoplasm of the midgut epithelial cells of second-instar larvae of Anopheles quadrimaculatus averaged 60 and 66 nm in diameter, respectively. Spherical crystals containing these particles averaged 133 nm in diameter while cuboidal crystals averaged 156 nm. The crystals showed a macromolecular paracrystalline lattice typical of polyhedral protein. In a few instances, the cuboidal crystals appeared to have coalesced to form larger crystals. The observations suggest that the free particles and their occluded forms may represent stages of a cytoplasmic polyhedrosis virus.     

Viruslike particles in Gyratrix hermaphroditus (Turbellaria: Rhabdocoela)

During an ultrastructural examination, viruslike particles were observed in the turbellarian Gyratrix hermaphroditus. This is the first time viruslike particles have been found in a noncultivated platyhelminth species. The particles are 70 nm in diameter and have a capsidlike outer layer and an inner core measuring 40–50 nm in diameter. They occur in a crystalline arrangement in the nucleus as well as in the cytoplasm. Numerous cytoplasmic abnormalities were seen in connection with the particles. The occurrence of the particles in different tissues and their significance for the host are discussed.