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.     

Studies on the polyhedrosis virus forming polyhedra in the midgut-cell nucleus of the silkworm,Bombyx mori: I. Purification procedure and form of the virion

A procedure for the isolation and purification of a new polyhedrosis virus that forms polyhedra in the midgut-cell nucleus is described. The method is a modification of that used by Hayashi and Bird (1970) for the isolation of free cytoplasmic-polyhedrosis virus (CPV). The purified virions were spherical in shape with several projections that measured 62 nm in diameter. The sedimentation coefficient of this virion was 430 S. These features are very similar to those of CPV. No significant difference was observed between this virus and CPV in the sedimentation profiles of preparations. Electron microscope observations indicated that the purified virus preparations contained many more empty particles than those of CPV.From these results, it is concluded that this virus is quite similar to CPV.     

Synthesis and characterization of chimeric particles between epizootic hemorrhagic disease virus and bluetongue virus: functional domains are conserved on the VP3 protein.

A functional assay has been developed to determine the conservative nature of the interacting sites of various structural proteins of orbiviruses by using baculovirus expression vectors. For this investigation, proteins of two serologically related orbiviruses, bluetongue virus (BTV) and the less studied epizootic hemorrhagic disease virus (EHDV), were used to synthesize chimeric particles. The results demonstrate that the inner capsid protein VP3 of EHDV-1 can replace VP3 protein of BTV in formation of the single-shelled corelike particles and the double-shelled viruslike particles. Moreover, we have demonstrated that all three minor core proteins (VP1, VP4, and VP6) can be incorporated into the homologous and chimeric corelike and viruslike particles, indicating that the functional epitopes of the VP3 protein are conserved for the morphological events of the virus. This is the first evidence of assembly of seven structural proteins of the virus by a baculovirus expression system. Confirmation at the molecular level was obtained by determining the EHDV-1 L3 gene nucleic sequence and by comparing it with sequences available for BTV. The analysis revealed a high degree homology between the two proteins: 20% difference, 50% of which is conservative. The consequences for Orbivirus phylogeny and the possibility of gene reassortments are discussed.     

草鱼出血病病原的研究 Ⅱ.电镜观察

在病鱼肾组织中发现有病毒颗粒,在头肾组织中也看到类似的颗粒。病毒呈球形或六角形,直径为60—78毫微米,平均为69毫微米;颗粒中央有一电子密度较高的核心,其直径平均为32毫微米,核心周围包有外膜,宽20毫微米左右。此外,还有一种无外膜的、电子密度均匀的病毒颗粒,直径为46—60毫微米,平均为52毫微米,这种颗粒出现在细胞核和胞质包涵体内。所观察到的病毒颗粒均出现在肾的造血组织内,但红血球和颗粒白血球中没有发现。肾小管上皮细胞正常,也未观察到病毒颗粒。在正常鱼的肾组织中没有发现与病鱼标本中类似的病毒颗粒。因此可以认为,我们人工感染致病的草鱼肾组织中所观察到的病毒颗粒,是草鱼出血病的病原,暂名为草鱼疱疹病毒。       

A new Paramyxovirus isolated from cynomolgus monkeys.

A new virus was isolated from cynomolgus monkeys for laboratory use imported from Indonesia in July, 1973. The virus agglutinated erythrocytes of some avian and mammalian species and hemolyzed chick erythrocytes. The virus was eluted from the surface of chick red blood cells by its neuraminidase activity. The virus was inactivated by ether; its nucleic acid was RNA. On electron micrographs, the particles varied from 250 to 400 nm in diameter, being covered with envelopes in which the surface projections were embedded. The diameter of inner helical structure was about 18 nm. These observations indicate that the virus belongs to a group of paramyxoviruses. On the basis of serological examinations, this virus can be identified as a new virus having some relations with Yucaipa or Bangore viruses. This virus is designated as "Murayama virus" from the name of the place where it was isolated.     

Coat Protein-derived Small Particles in a Tombusvirus from River Lato

A new tombusvirus cleariy distinguishable from other members of the group was isolated in Apulia from river Lato and therefore referred to as Lato River Tombusvirus (LRV). Purified virus preparations after storage for 5 months at 4°C in 20 mM phosphate buffer, pH 7.2, contained variable amounts of small particles (c. 17 nm in diameter) in addition to typical virus particles (c. 30 nm in diameter). LRV small particles were constituted by a single protein species with a tnol. wt of 29,000, did not contain nucleic acid and were not infective but proved to be serologically undistinguishable from ordinary virus particles. Attempts to artificially produce small particles by chemical orenzymatic treatments of full size LRV virions failed but their spontaneous production nder particularstorage conditions seems to be a remarkable feature of this virus as it does not occur with other definitive tombusviruses.     

Properties of spinach yellow mottle, a distinctive strain of tobacco rattle virus

A virus (isolate SYM) obtained from spinach plants in England with a severe yellow mottle disease induced symptoms resembling those of tobacco rattle virus (TRV) in several indicator species but caused systemic necrosis in Chenopodium amaranticolor and C. quinoa. It was transmitted to bait plants grown in soil containing the nematode Trichodorus primitivus. Purified virus preparations contained rod-shaped particles that were predominantly of four modal lengths: 188 nm (L particles), 101 nm (S particles), 57 nm and 48 nm (together called VS particles), containing RNA with mol. wts of 2.4, 1.5, 0.7 and 0.6 million, respectively. L particles (s°₂₀= 300 S) and S particles (230 S) greatly outnumbered VS particles (c. 150 S). All particles contained a single polypeptide species with estimated mol wt of 24 700, slightly larger than those previously reported for tobraviruses. Purified L particles were infective but both L and S particles were needed to induce the production of virus nucleoprotein particles. VS particles were not infective and apparently had no qualitative or quantitative effect on infection by L or by L plus S particles. S particles carried determinants for serological specificity and ability to invade C. amaranticolor systemically. Isolate SYM produced pseudo-recombinants with isolate PRN of TRV. Also, isolates CAM, OR and PRN of TRV, and isolate SYM, were found to be distantly related by three kinds of serological test. No relationship was detected between these isolates and pea early-browning virus in gel-diffusion precipitin tests or electron microscope serological tests, but a distant relationship between isolate SYM and pea early-browning virus was found by micro-precipitin tests. Isolate SYM therefore has closer affinities with TRV than with pea early-browning virus and is considered to be a distinctive strain of TRV.     

Characterisation of the bovine enteric calici-like virus, Newbury agent 1

The bovine enteric calici-like virus, Newbury agent 1 (NA1) was characterised to determine if it is a member of the Caliciviridae and to establish its antigenic relationship to the established bovine enteric calicivirus Newbury agent 2 (NA2). Solid phase immune electron microscopy (SPIEM) allowed quantification of NA1 virions and identification of faecal samples with optimal virus levels. NA1 particles were 36.6 nm in diameter, had an indefinite surface structure resembling that of human small round structured viruses (SRSVs), and a buoyant density of 1.34 g ml(-1). A single capsid protein of 49.4 kDa was detected by Western blotting in purified NA1 preparations prepared from post-infection but not pre-infection faecal samples and with post- but not pre-infection sera. NA1 was antigenically unrelated to the bovine enteric calicivirus NA2 by SPIEM. These properties were consistent with classification of NA1 within the Caliciviridae but demonstrated heterogeneity in the capsid composition of bovine enteric caliciviruses.     

Localization of hepatitis A antigen in liver tissue by peroxidase-conjugated antibody method: light and electron microscopic studies.

Hepatitis A antigen (HAAG) was localized in liver tissue from marmosets inoculated with human hepatitis A virus (HAV) by light and electron microscopy by using a peroxidase-conjugated antibody method. The fine granular peroxidase staining was scattered throughout the cytoplasm of liver cells when viewed with the light microscope. The distribution of HAAg-positive cells was focal. Virus-like particles, 24 to 27 nm in diameter, were observed in the cytoplasm of hepatocytes and smaller cells, resembling Kupffer cells, by standard thin-section electron microscopy (thin section EM). By immunoperoxidase electron microscopy (immunoperoxidase EM), HAAg was detected on the particles, which were aggregated within cytoplasmic vesicles of the hepatocyte. The surrounding membrane of the vesicles was also HAAg- positive. Similar HAAg particles were observed in the cytoplasm of smaller cells adjacent to hepatocytes as well. Thus, immunoperoxidase EM revealed that the 24- to 27-nm virus-like particles in the cytoplasm of liver cells obtained from marmosets were infected with HAV contained HAAg.     

Isolation of a lethal rhabdovirus from the cultured Chinese sucker Myxocyprinus asiaticus

A rhabdovirus was found to be associated with a lethal hemorrhagic disease in the cultured Chinese sucker Myxocyprinus asiaticus Bleeker. The rhabdovirus was amplified and isolated from the infected GCO (grass carp ovary) cells. In ultrathin sections of liver cells from the diseased fish, the virus particles exhibited the characteristic bacilliform morphology, and budded through vesicle membranes of the infected cells. The isolated rhabdovirus particles were found to have a bacilliform morphology with 2 rounded ends rather than a typical flat base. The virus particles were measured and ranged in size from 150 to 200 nm in length and 50 to 60 nm in diameter. Most other characteristics, including their size, extensive virus infectivity to fish cell lines, strong cytopathogenic effects, stability at high temperatures, vesicle formation in infected cells, structure protein electrophoretic patterns and the presence of an RNA genome, very closely resembled those of other fish rhabdoviruses. At present it is not known if this is a novel virus species or if it is an isolate of a known fish rhabdovirus. Until a confirmed identification can be made, we will temporarily refer to this virus as Chinese sucker rhabdovirus (CSRV).     

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.     

Characterization of supercoiled nucleoprotein complexes released from detergent-treated vaccinia virions.

Treatment of vaccinia virions with 1% sodium dodecyl sulfate in the absence of reducing agents resulted in the release of subviral particles termed "subnucleoids," which contained viral DNA in combination with four polypeptides with molecular weights of 90,000, 68,000, 58,000 and 10,000. Biochemical and electron microscopic studies showed that viral DNA in combination with these polypeptides was maintained in a superhelical configuration. When subnucleoids were "fixed" with glutaraldehyde and formaldehyde and then examined by electron microscopy, spherical particles were observed, in which the supercoiled DNA was folded into globular structures that were 20 to 60 nm in diameter and were interconnected by DNA-protein fibers resembling the nucleosome structures described for eucaryotic chromatin.     

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.     

Narcissus latent, a virus with filamentous particles and a novel combination of properties

As previously reported, narcissus latent virus (NLV) has flexuous filamentous particles measuring c. 650 nm × 13 nm, is manually transmissible to Nicotiana clevelandii and Tetragonia expansa, and is transmitted by the aphid Myzus persicae following brief acquisition access periods. In contrast to previous reports the virus particle protein has an apparent mol. wt of c. 45 kD. Moreover, infected cells in N. clevelandii leaves contain cytoplasmic inclusion bodies resembling those of potyviruses. In vitro translation of NLV RNA produced only one major product (mol. wt c. 25 kD) which was not precipitated by antisera to virus particle protein or to cytoplasmic inclusion protein. Antisera to 12 potyviruses and nine carlaviruses failed to react with sap containing NLV particles. Similarly antiserum to NLV particles did not react with particles of seven potyviruses or four carlaviruses. A weak reaction was detected between NLV particles and antiserum to particles of maclura mosaic virus (MMV), a virus which resembles NLV in particle morphology and particle-protein size, and in inducing pinwheel inclusions. The cytoplasmic inclusion proteins (CIPs) of NLV, MMV and from narcissus plants with yellow stripe symptoms were serologically inter-related. These proteins were also serologically related to, and had mol. wt similar to, the CIP of members of the potyvirus group. Particles with the size and antigenic specificity of those of NLV were found consistently in narcissus plants with yellow stripe disease. Narcissus latent and narcissus yellow stripe viruses therefore seem to be synonymous and, together with MMV, have properties distinct from those of any previously described virus group.     

Damage and repair in mammalian cells after exposure to non-ionizing radiations. II. Photoreactivation and killing of rat kangaroo cells (Potorous tridactylus) and Herpes simplex virus-1 by exposure to fluorescent "white" light or sunlight

Photoreactivation (PR) of ultraviolet (254 nm)-inactivated cornea cells of the potoroo (or rat kangaroo; Potorous tridacylus) has been studied at wavelengths greater than 375 nm from either fluorescent "white" light or sunlight. In both cases the PR kinetics curves pass through maxima, which most likely result from the superposition of concomitant inactivation by the photoreactivating light. The inactivating effect of light was directly demonstrated for non-UV-irradiated cells, permitting correction of the PR curves. Wavelengths greater than 475 nm, and even greater than 560 nm, which do not noticeably damage cells, still photoreactivate, though less effectively than shorter wavelengths. Light treatment of UV-inactivated Herpes simplex Virus-1 (HSV-1) after infection leads to PR effects resembling those observed for cells, while light treatment of unirradiated virus after infection likewise causes inactivation. The "fluence-reduction factor" of PR, which is greater than 3 for the virus, exceeds that for the cells, where it decreases with increasing UV fluence. In vitro tests have indicated that sunlight greater than 375 nm causes photorepairable DNA lesions which are virtually fully repaired by the same light. Thus cell inactivation resulting from these solar wavelengths must be due to non-photorepairable damage.     

Restriction analysis of the DNA of aleutian mink disease virus strain P-1

The II-1 strain of the Aleutian disease virus (ADV-II-1) was isolated from experimentally infected mink organs. The viral particles were isolated having 23 to 24 nm in diameter with the buoyant density of the virions in CsCl gradient being 1.41 g.ml-1. The single stranded ADV DNA extracted from the purified virus particles had the molecular mass about 1.4 . 10(6) (4800 bases). The double-stranded replicative form of ADV DNA has been synthesized in vitro with the use of a large "Klenow" fragment of DNA-polymerase I. A restriction endonuclease map of ADV-II-1 DNA has been constructed with the use of in vitro synthesized double-stranded DNA.     

香菇病毒的研究 Ⅰ.发生在我国的香菇病毒

我国香菇人工栽培历史悠久;在今天纯种人工栽培同样是食用菌生产的主要方向。经查上海栽培香菇“菌种”内生长不正常的菌丝体制剂中有直径为20nm,长度多为100—200nm的类似棒状病毒颗粒。在接种后14—20天,生长缓慢的菌丝体中有直径为28、36、40nm三种不同大小的类似球状病毒颗粒,未见棒状颗粒。在香菇子实体的制剂中同样见到与菌丝体中一样的球状颗粒以及大小为15—16nm×100—300nm的较细的棒状颗粒。病香菇菌褶超薄切片中显示棒状颗粒结晶及球状颗粒的聚集;在液泡中有直径为15—16nm的棒状颗粒。     

Characterization of a new densovirus infecting the green peach aphid Myzus persicae

A new icosahedral DNA virus was isolated from aphids (Myzus persicae) that showed abnormal growth and development. The purified virus particles have a diameter of 20 nm and contain a single-stranded DNA molecule of approximately 5.7 kb. The viral particles are composed of five structural proteins (92, 85, 68, 64, and 57 kDa). As the main biophysical properties of this virus are similar to those of the members of the genus Densovirus it was tentatively named Myzus persicae densovirus (MpDNV). A PCR-based detection method and a polyclonal antiserum raised against MpDNV allowed the detection of the virus in a single-infected aphid. MpDNV is immunologically related to Junonia coenia densovirus, but not to other members of the subfamily Densovirinae. Biological assays showed that MpDNV could be both transmitted transovarially and horizontally via honeydew and saliva. MpDNV was able to infect whiteflies but not other aphid species tested.