- Volume 78, Issue 5, 1997
Volume 78, Issue 5, 1997
- Articles
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Stringent structural and sequence requirements of the human herpesvirus 6B lytic-phase origin of DNA replication.
More LessThe lytic-phase origin of DNA replication from human herpesvirus 6B (HHV-6B oriLyt) contains two binding sites for the origin-binding protein (OBPH6B), both of which are required for DNA replication and which are separated by an AT-rich spacer. We have tested the functional significance of the structural, spatial and sequence characteristics of this spacer element by constructing a series of mutated origin sequences and analysing their replication efficiency. Changes in the sequence composition or length of the spacer resulted in dramatic decreases in replication efficiency. Furthermore, in contrast to what has been observed for herpes simplex virus type 1 (HSV-1) oris, insertion of a complete helical turn of DNA into the spacer also resulted in abrogation of origin function. These data suggest that the arrangement of OBP sites in HHV-6B oriLyt is stringently constrained in terms of spacing and intervening sequence.
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Antigenic analysis of human herpesvirus 7 (HHV-7) and HHV-6 using immune sera and monoclonal antibodies against HHV-7.
Using polyclonal and monoclonal (MAbs) antibodies to human herpesvirus 7 (HHV-7), we have studied HHV-7-specific polypeptides. Human sera were obtained during the convalescent phase from patients with exanthem subitum due to HHV-7, and at least 16 HHV-7-specific polypeptides with apparent molecular masses of 26–210 kDa were immuno- precipitated. Sera prepared in mice also precipitated at least 17 HHV-7-specific polypeptides with molecular masses of 26–210 kDa. Among them, the most commonly observed antigenic protein had an apparent molecular mass of 52 kDa. Forty-two clones secreting MAbs against HHV-7-specific proteins, as determined by immunofluorescence assays, were established from BALB/c mice immunized with HHV-7-infected cell extracts. Seven MAbs which immunoprecipitated HHV-7-specific polypeptides were further characterized. Two of these, MAbs 5E12 and 5F12, reacted predominantly with glycoproteins of 78 kDa and 85 kDa, respectively, and possessed neutralizing activity. This suggests that there are at least two neutralization-inducing proteins in HHV-7. MAb 16B4 reacted with the major immunogenic protein of 52 kDa. Five of the 42 MAbs also reacted in immunofluorescence assays with HHV-6 antigens to the same degree as to HHV- 7. Two other MAbs, 7C10 and 10F1, recognized an HHV-7 protein of 40 kDa, and only 7C10 cross- reacted with an HHV-6 protein of 45 kDa.
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Particle and genomic characteristics of a new member of the Ascoviridae: Diadromus pulchellus ascovirus.
More LessA new member of the family Ascoviridae, Diadromus pulchellus ascovirus (DpAV), has been found in the lepidopteran nymphs of Acrolepiopsis assectella parasitized by the hymenopteran wasp Diadromus pulchellus. Virions have the standard features of the ascovirus group; each particle is about 220 nm long and 150 nm wide. They are multilayered, with two clear 7-nm-thick outer layers and one 15-nm-thick inner layer surrounding an electron-dense core (155 × 110 nm). However, the flattened rice-grain shape and fragility of the DpAV particles are unlike that of known ascoviruses infecting Noctuidae species. They form large vesicles containing virions in infected cells. The DpAV genome is about 116 kb long and has a circular and relaxed structure. It contains 6–8 repeated and interspersed sequences of 494 bp. The structural and genomic features of DpAV suggest that this virus belongs to an ascovirus sub-family different from that containing the asco- viruses previously found to infect species of Noctu- idae (Federici et al., 1991).
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Biological and molecular features of the relationships between Diadromus pulchellus ascovirus, a parasitoid hymenopteran wasp (Diadromus pulchellus) and its lepidopteran host, Acrolepiopsis assectella.
The Diadromus pulchellus ascovirus (DpAV) has been isolated from laboratory strains of Diadromus pulchellus and in natural wild populations collected from the Antibes locality (southern France). The DpAV genome was found in the cells of the head, thorax and abdomen of this hymenopteran wasp. DpAV virions are present in the female genitalia and are transmitted to the nymphal lepidopteran host, Acrolepiopsis assectella, at each oviposition of the female wasp. The presence of the DpAV genome in all Diadromus somatic cells suggests that it is inherited by vertical transmission. DpAV is amplified in the host tissues during the larval development of D. pulchellus in A. assectella. Cell lysis due to amplification of the virus does not prevent the development of the hymenopteran larva. Virus amplification appears to be slower in nymphs parasitized by D. pulchellus than in nymphs artificially infected with DpAV alone. Lysis of the nymphal cells due to viral replication seems to be synchronous with egg hatching and the development of the hymenopteran larva. The features of DpAV and its relationship with the parasitoid wasp D. pulchellus during its development are compared to those of the ichnoviruses.
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Nucleotide sequence and taxonomy of maize chlorotic dwarf virus within the family Sequiviridae.
More LessThe complete sequence of a Tennessee isolate of maize chlorotic dwarf virus (MCDV-TN) was determined from cDNA clones and by direct sequencing of the viral RNA. The genome is 11813 nucleotides (nt) in length and contains one large open reading frame between nt 435 and 10763 that encodes a polyprotein of 3443 amino acids. The N- terminal amino acid sequences were determined for the three capsid proteins. All three were adjacent, starting at nt 2526 and putatively ending at nt 3761. Comparison of the sequence of MCDV-TN with other viral sequences revealed similarities to several plant picorna-like viruses including members of the Sequiviridae, Comoviridae and Potyviridae. This work also provides evidence based on genome organization that MCDV-TN is a member of the genus Waikavirus within the family Sequiviridae.
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Subcellular localization of the 28 kDa protein of the triple-gene-block of bamboo mosaic potexvirus.
More LessOpen reading frame 2 of the bamboo mosaic potexvirus (BaMV) genome encodes a 28 kDa protein, the first of the ‘triple-gene-block’ of BaMV which is believed to play a role in cell-to-cell movement of the virus in host plants. The 28 kDa protein was expressed in Escherichia coli and polyclonal antiserum was raised in a rabbit. Western blot analyses showed that the 28 kDa protein was associated mainly with components in the cell wall and 30000 g pellet fractions of a BaMV-infected leaf homogenate. Immunogold electron microscopy of infected leaf tissues revealed that the 28 kDa protein was associated with electron-dense crystalline bodies (EDCBs) in the cytoplasm and nuclei. Nuclear EDCBs were found closely associated with nucleoli. Gold-labelled EDCB-like structures were also detected in the cytoplasm, but not within nuclei, in protoplasts up to 48 h post-inoculation. No specific labelling of the 28 kDa protein was found within any cytoplasmic structures or within cell walls.
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Plasmid vector for cloning infectious cDNAs from plant RNA viruses: high infectivity of cDNA clones of tomato aspermy cucumovirus.
More LessAn improved version of the previously obtained cloning vector pCass was constructed by partially duplicating the 35S promoter used to drive the transient transcription of cloned viral cDNAs. Full- length cDNAs of the three genomic RNAs of tomato aspermy cucumovirus (TAV) cloned in this improved pCass (designated pCass2) gave a 3-fold higher infectivity in two plant species tested than the same cDNAs cloned in pCass1 with only a single 35S promoter. Host range, symptoms, morphology of viral particles and viral progeny RNAs induced by these sets of infectious cDNA clones analysed were identical to those induced by the wild-type virus. A mutant of genomic TAV RNA 3 containing a 163 nt deletion in the 3′ untranslated region was stably maintained in the progeny RNAs, indicating that these cDNA clones may facilitate a study of virus function. This is the first report of infectious cDNA clones of TAV as well as of infectious cDNA clones with a duplicated 35S promoter of CaMV.
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Evidence for an alternative direct route of access for the scrapie agent to the brain bypassing the spinal cord.
E Baldauf, M Beekes and H DiringerScrapie is a disease which occurs naturally in sheep and goats and belongs to a group of neurodegenerative disorders known as transmissible spongiform encephalopathies, or TSEs. There is currently no cure for TSEs, and the causative agent has not yet been identified. Numerous experiments, however, have addressed the pathogenetic process following a TSE infection. In this paper we present a study of the spread of the scrapie agent after intraperitoneal infection of hamsters. The accumulation of TSE-specific amyloid protein, TSE-AP (also known as PrP), was used as a marker for infectivity. The data suggested three points of agent entry into the spinal cord: the most important one between thoracic vertebrae T7−9, and two minor ones in the lower cervical spinal cord and between vertebrae T13 −L2. Further, strong evidence was found for the existence of a direct route of access to the brain which bypasses the spinal cord and most likely terminates in the medulla oblongata. The indication of an alternative pathway to the brain was confirmed by the data from orally infected hamsters. The spleen appeared to play a potential, but nonessential role in pathogenesis after intraperitoneal infection in our animal model.
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