美国白蛾核型多角体病毒超氧化物歧化酶基因的序列分析和表达

根据测序结果 ,HcNPVsod的核苷酸序列与BmNPVsod的完全一致 ,与AcNPVsod的核苷酸序列相比 ,同源性达到 97 2 % ;推测HcNPVsod编码 1 51个氨基酸 ,与BmNPVsod的完全一致 ,与AcNPVsod编码的氨基酸相比 ,有三个氨基酸的差别。按基酸序列分析表明 ,HcNPVSOD蛋白中含有对SOD结构和活性必需的氨基酸残基 ,在HcNPVsod中均是保守的。SOD活性测定表明酶活为 1 47 0 9U/mL菌液     

Isolation and characterization of a synergistic enzyme from the capsule of a granulosis virus of the armyworm, Pseudaletia unipuncta

A synergistic factor than enhances the infection of a nuclear polyhedrosis virus in the armyworm, Pseudaletia unipuncta, was isolated from the occlusion body (capsule) of a granulosis virus of the armyworm. Disc electrophoresis indicated that the purified factor was a single homogeneous compound. Chemical identification and amino acid analysis showed that it was a simple protein, with a molecular weight of 152,000–163,000. Proteolytic enzymes did not markedly reduce the activity of the factor. It could be stored at ?20°C or lyophilized. The synergistic factor displayed properties of an enzyme. It enhanced the hydrolysis of p-nitrophenyl esters of fatty acids with an optimum of pH 9.0. The relative hydrolytic activity increased with increase in number of carbon atoms in the fatty-acid chain from 2 to 8 and gradually decreased with the number of carbon atoms from 10 to 18. Copper sulfate markedly and mercuric chloride completely prevented enhancement of the hydrolysis of butyrate. When the synergistic factor was fed to larvae with mercuric chloride, it did not enhance the nuclear polyhedrosis virus.     

柞蚕核型多角体病毒泛素类似基因的克隆与序列分析

从感病的柞蚕Antheraea pernyi蛹中分离纯化柞蚕核型多角体病毒 (ApNPV),提取基因组DNA,分别构建ApNPV DNA的HindⅢ和SalⅠ酶切片段文库。对基因文库中1个克隆进行序列分析,得到1个长度为321 bp的序列,其中包含一个编码76个氨基酸的开放阅读框,预测的分子量为8.46 kD,系泛素类似基因。在读码框的上游调控序列中,具有典型的晚期基因启动子序列ataag。氨基酸序列同源性分析结果表明,ApNPV与黄杉毒蛾Orgyia pseudotsugata核型多角体病毒 (OpNPV)的同源性最高 (96.1%),与苜蓿尺蠖Autographa californica核型多角体病毒 (AcNPV) 的同源性为86.8%,与棉褐带卷蛾Adoxophyes orana 颗粒体病毒 (AoGV) 的同源性最低（71.1%）,但与人类、线虫和酵母的泛素同源性分别为77.6%、76.3%和76.3%。一些氨基酸残基在真核生物中保守,在杆状病毒中不保守,个别氨基酸残基是杆状病毒所特有的,这些氨基酸序列的改变对杆状病毒泛素基因的作用有待进一步研究。     

Characterization of an extremely basic protein derived from granulosis virus nucleocapsids

Nucleocapsids were isolated from purified enveloped nucleocapsids of Plodia interpunctella granulosis virus by treatment with Nonidet P-40. When analyzed on sodium dodecyl sulfate-polyacrylamide gels, the nucleocapsids consisted of eight polypeptides. One of these, a major component with a molecular weight of 12,500 (VP12), was selectively extracted from the nucleocapsids with 0.25 M sulfuric acid. Its electrophoretic mobility on acetic acid-urea gels was intermediate to that of cellular histones and protamine. Amino acid analysis showed that 39% of the amino acid residues of VP12 were basic: 27% were arginine and 12% were histidine. The remaining residues consisted primarily of serine, valine, and isoleucine. Proteins of similar arginine content also were extracted from the granulosis virus of Pieris rapae and from the nuclear polyhedrosis viruses of Spodoptera frugiperda and Autographa californica. The basic polypeptide appeared to be virus specific because it was found in nucleocapsids and virus-infected cells but not in uninfected cells. VP12 was not present in polypeptide profiles of granulosis virus capsids, indicating that it was an internal or core protein of the nucleocapsids. Electron microscopic observations suggested that the basic protein was associated with the viral DNA in the form of a DNA-protein complex.     

Effects of Substituting Granulin or a Granulin-Polyhedrin Chimera for Polyhedrin on Virion Occlusion and Polyhedral Morphology in Autographa californica Multinucleocapsid Nuclear Polyhedrosis Virus

Substitution of granulin from the Trichoplusia ni granulosis virus (TnGV) for polyhedrin of the Autographa californica multinucleocapsid nuclear polyhedrosis virus (AcMNPV) yielded a few very large (2 to 5 μm) cuboidal inclusions in the cytoplasm and nucleus of infected cells. These polyhedra lacked the beveled edges characteristic of wild-type AcMNPV polyhedra, contained fractures, and occluded few virions. Placing a nuclear localization signal (KRKK) in granulin directed more granulin to the nucleus and resulted in more structurally uniform cuboidal inclusions in which no virions were observed. A granulin-polyhedrin chimera produced tetrahedral occlusions with more virions than granulin inclusions but many fewer than wild-type polyhedra. Despite the unusual structure of the granulin and granulin-polyhedrin inclusions, they interacted with AcMNPV p10 fibrillar structures and electron-dense spacers that are precursors of the polyhedral calyx. The change in inclusion shape obtained with the granulin-polyhedrin chimera demonstrates that the primary amino acid sequence affects occlusion body shape, but the large cuboidal inclusions formed by granulin indicate that the amino acid sequence is not the only determinant. The failure of granulin or the granulin-polyhedrin chimera to properly occlude AcMNPV virions suggests that specific interactions occur between polyhedrin and other viral proteins which facilitate normal virion occlusion and occlusion body assembly and shape in baculoviruses.     

Relative pathogenicity of nuclear polyhedrosis viruses from Heliothis punctigera and Heliothis zea for larvae of Heliothis armigera and Heliothis punctigera

Laboratory bioassays indicated that the potency of a nuclear polyhedrosis virus from Heliothis zea derived from a commercial American formulation was similar to that of a naturally occurring nuclear polyhedrosis virus from H. punctigera in Australia. Both viruses exhibited high virulence for neonate larvae of H. armigera and H. punctigera, the major pest species in this genus in Australia. Hence evaluation of the virus in Australia can proceed employing virus from either H. punctigera or H. zea.     

A 37-kilodalton glycoprotein from a baculovirus of Orgyia pseudotsugata is localized to cytoplasmic inclusion bodies.

The gene encoding a 37-kDa glycoprotein (gp37) of Orgyia pseudotsugata multinucleocapsid nuclear polyhedrosis virus (OpMNPV) was located and sequenced. gp37 of OpMNPV was found to have 62 and 37% amino acid sequence identity with gp37 of Autographa californica multinucleocapsid nuclear polyhedrosis virus (AcMNPV) and with a protein reported to be a component of occlusion bodies from Choristoneura biennis entomopoxvirus, respectively. The mRNA start site of the OpMNPV gp37 gene was mapped within a late promoter sequence (TTAAG). A TrpE fusion protein containing 55% of the OpMNPV gp37 gene amino acid sequence was used to generate a monospecific antiserum. Western immunoblot analysis of OpMNPV-infected Lymantria dispar cells detected gp37 beginning at 24 h postinfection. Immunoelectron microscopy indicated that the protein is concentrated in cytoplasmic inclusion bodies late in infection. In contrast to gp37 of AcMNPV which was present in the matrix of occlusion bodies, OpMNPV gp37 was not observed in this location. Neither OpMNPV nor AcMNPV gp37 was associated with the polyhedron envelope.     

Physical Map of the DNA Genome of Autographa californica Nuclear Polyhedrosis Virus

A physical map of the 88 × 10⁶ dalton, circular DNA genome of Autographa californica nuclear polyhedrosis virus was constructed. The complete order of BamHI and XmaI restriction enzyme sites was determined. The EcoRI and HindIII fragments were partially ordered, and their general locations, relative to the BamHI and XmaI maps, were determined. Alterations in the restriction endonuclease fragment patterns of natural genotypic variants of A. californica nuclear polyhedrosis virus, including Trichoplusia ni MEV nuclear polyhedrosis virus, were located on the physical map. Alterations were found throughout the A. californica nuclear polyhedrosis virus DNA genome.     

Comparative chemical studies of the polyhedral proteins of the nuclear polyhedrosis viruses of Bombyx mori and Galleria mellonella

Amino and carboxyl terminal groups, amino acid composition, and peptide maps of polyhedral proteins of the nuclear polyhedrosis viruses (NPV) of Bombyx mori and Galleria mellonella were investigated. It is shown that both the proteins have a tyrosine residue as their carboxyl terminal group and no amino terminal group. Amino acid compositions of the proteins are similar. The proteins are found to have 242 residues. From the amino acid composition, a molecular weight of 28,000 was calculated. The tryptic peptide maps of both the proteins differed only in a few peptides.It is inferred that the polyhedral proteins of B. mori and G. mellonella NPV have a closely similar primary structure.     

Identification of two nuclear polyhedrosis viruses from the cabbage moth, Mamestra brassicae (Lepidoptera: Noctuidae)

Two nuclear polyhedrosis viruses from the cabbage moth Mamestra brassicae found in two geographical areas in Europe have been characterized and compared. These two virus isolates have similar biological activities and have the same host range. The two M. brassicae nuclear polyhedrosis viruses can be distinguished by restriction endonuclease analysis of their DNA. They appear to be distinct but related virus strains.     

Activation of latent virus infections in larvae of Adoxophyes orana (Lepidoptera: Tortricidae) and Barathra brassicae (Lepidoptera: Noctuidae) by foreign polyhedra

The number of larvae containing polyhedra increased when larvae of Adoxophyes orana and Barathra brassicae were fed on polyhedra of nuclear polyhedrosis virus (NPV) of the reciprocal species. Comparison of restriction endonuclease EcoRI cleavage patterns of DNA isolated from polyhedra used as inocula and from polyhedra obtained after cross-inoculation showed that cross infection did not occur. The observations indicate that latent viruses were activated in both insects. Activation of the A. orana latent NPV with polyhedra of a cytoplasmic polyhedrosis virus (CPV) of B. brassicae, and cross-inoculation with an extract prepared from healthy larvae indicated that an activating agent does not have to be a component of nuclear polyhedra.     

Protein Kinase Activity Associated with the Extracellular and Occluded Forms of the Baculovirus Autographa californica Nuclear Polyhedrosis Virus

Protein kinase activity is associated with both the extracellular and the occluded forms of Autographa californica nuclear polyhedrosis virus, a baculovirus. Serine and threonine are the predominant amino acids phosphorylated by the kinase activity associated with both viral forms; no phosphotyrosine was detected. The addition of calcium, cAMP, or cGMP has no apparent effect on the amount of phosphorylation or the substrates phosphorylated.     

A plaque assay for titration of alfalfa looper nuclear polyhedrosis virus in a cabbage looper (TN-368) cell line

This is the first report of plaque formation by a pathogenic insect virus. Trichoplusia ni (TN-368) cells overlaid with medium containing 0.6% methyl cellulose continued to multiply, developed into monolayers, and produced plaques after infection with alfalfa looper nuclear polyhedrosis virus. Viral polyhedral inclusion bodies were first observed 24 hr after exposure of cells to virus, and plaques continued to increase in size for 72 hr. Two different types of plaques were observed: one in which all cells had many polyhedra in their nuclei, and another in which few cells had inclusion bodies. When virus from either plaque was injected into T. ni larvae, they died of typical nuclear polyhedrosis virus disease. The assay was reproducible, and plaque numbers were related to virus concentration.     

Effect of alkaline protease on the antigenic nature of wiseana nuclear polyhedrosis virus polyhedron protein

Polyhedron protein from Wiseana spp. nuclear polyhedrosis virus was found to be degraded by an alkali protease when polyhedra are dissolved in alkali. The protease activity did not occur at high pH (0.1 M NaOH) and was inactivated by heating polyhedra to 70°C for 3 h. The products from the protease degradation of Wiseana spp. nuclear polyhedrosis virus polyhedron protein retain the antigenicity of undegraded polyhedron protein as measured by the direct solid-phase radioimmunoassay and immunoadsorption. Degradation products below 27,000 daltons could not be detected by the sandwich radioimmunoassay, indicating that they are probably monovalent.     

Sequencing of the putative DNA helicase-encoding gene of the Bombyx mori nuclear polyhedrosis virus and fine-mapping of a region involved in host range expansion

The complete sequence of a 3666-nucleotide (nt) open reading frame (ORF) and its flanking regions (58.1–62.1 map units (m.u.) from Bombyx mori nuclear polyhedrosis virus (BmNPV)) was determined. This ORF, BmNPV dnahel, encoded a predicted protein of 143 623 Da which possessed seven consensus motifs found in proteins which unwind duplex DNAs, indicating that it is a DNA helicase. A 572-bp SacI-HindlII fragment, BmScH, that was previously shown to expand the host range of Autographa californica NPV (AcNPV) following homologous recombination [Maeda et al. (1993) J. Virol. 67, 6234–6238], was localized within BmNPV dnahel. By cotransfection experiments, two adjacent nt (A and T) that appeared to be the minimal essential sequence necessary to expand the host range of AcNPV, were mapped within BmScH. These adjacent nt encoded a single amino acid difference between BmNPV (Asp) and AcNPV (Ser).     

Pathological response of the parasitoid, Glyptapanteles militaris, to nuclear polyhedrosis virus-infected armyworm hosts

The development of the embryonic and larval stages of the internal gregarious parsitoid, Glyptapanteles (=Apanteles) militaris, is adversely affected by the hypertrophy strain of a nuclear polyhedrosis virus in the armyworm, Pseudaletia unipuncta. The initial effects are cessation of parasitoid growth and general tissue disruption, followed by the melanization of parasitoid tissues. Melanization spreads from the parasitoids' caudal vesicle throughout the body, culminating in eventual encapsulation in virus-infected hosts. Parasitoids in armyworm hosts infected with the typical strain of nuclear polyhedrosis virus exhibited no abnormal development.     

Hybridization Selection and In Vitro Translation of Autographa californica Nuclear Polyhedrosis Virus mRNA

We isolated polyadenylated RNA from the cytoplasm of cells infected with Autographa californica nuclear polyhedrosis virus late after infection (21 h postinfection). At that time intracellular protein synthesis was directed almost exclusively toward infected cell-specific proteins. The polyadenylic acid-containing RNA sequences in the cytoplasm at 21 h postinfection were radiolabeled in vitro and hybridized to A. californica nuclear polyhedrosis virus DNA restriction fragments. The polyadenylic acid-containing RNA was derived from regions representing the entire viral genome. Translation in a reticulocyte cell-free protein-synthesizing system of cytoplasmic RNA selected by hybridization to viral DNA and polyadenylic acid-containing RNA produced almost identical polypeptide patterns, suggesting that late after infection almost all of the cytoplasmic polyadenylic acid-containing RNA present in infected cells was of viral origin. Polyhedrin protein (molecular weight, 33,000) and a number of virion structural proteins were among the translation products which were identified by immunoprecipitation and by comparing molecular weights. In addition, some tentative nonstructural infected cell-specific proteins were also detected. Using the hybridization selection technique, we determined that sequences complementary to the message coding for polyhedrin were located on EcoRI fragment I of A. californica nuclear polyhedrosis virus DNA, whereas sequences coding for a putative nonstructural protein (molecular weight, 39,000) were on EcoRI fragment J.     

Molecular cloning, expression and characterization of a novel vacuolar protein sorting 4 gene in silkworm, Bombyx mori

The vacuolar protein sorting 4 (Vps4) protein is essential for the multivesicular body (MVB) pathway, virus budding process and cytokinesis. Vps4 has been identified and characterized from many species, but not from silkworm Bombyx mori. In this study, we firstly identified and cloned the silkworm homologous gene for VPS4, expressed it in Escherichia coli, purified and characterized the protein designated as BmVps4. The BmVps4 cDNA contains an open reading frame of 1,314?bp, and encodes a protein of 438 amino acid residues. BmVps4 is of high sequence-similarity to Vps4 proteins from other species. The recombinant BmVps4 shows ATPase activity, which can be stimulated by Mg²⁺ and inhibited by dominant mutations. Together, our data suggest BmVps4 is the genuine silkworm homologue of Vps4. To our knowledge, this is the first-time characterization of any silkworm MVB proteins. This study will facilitate further investigation of silkworm MVB pathway and its possible roles in the infection and budding of B. mori nuclear polyhedrosis virus (BmNPV), which is one of the most common and severe pathogens for silkworms. The cloned BmVps4 sequence is deposited in GenBank (Accession number GQ995504).     

Difference of proteins from inclusion bodies formed in the nucleus and cytoplasm of the cytoplasmic polyhedrosis virus-infected midgut in the silkworm,Bombyx mori

Strains of cytoplasmic polyhedrosis virus (CPV) of the silkworm Bombyx mori typically form proteinaceous inclusion bodies (IBs) which occlude many virions and are formed in the cytoplasm of the midgut epithelium. In contrast, an unusual strain of CPV termed “A” strain produces IBs containing no virions in the nuclei of the epithelial cells. In this case although the viruses multiply in the cytoplasm, few IBs are formed in the cytoplasm. To clarify why the A strain forms IBs in the nucleus, the structural differences on the IB proteins (IBPs) from A and a typical (H) strain were investigated. Analyses by SDS-PAGE showed A strain IBP had slightly lower electrophoretic mobility than these of H strain. When these IBPs were partially digested with Staphylococcus aureus V8 protease, one of the digested products between the two strains showed different electrophoretic mobility. Amino acid sequence analyses of peptides produced with lysylendopeptidase from IBP of A strain indicated that a histidine residue of H strain was replaced by a tyrosine residue. The carboxyl terminal regions of the two IBPs were also different; IBP of A strain was -Leu-Leu-Val-COOH, but the terminal residue of H strain could not be determined by the same method. These differences of amino acid sequence of IBPs between A and H strains may be responsible for the partitioning of them; i.e., in the case of A strain IBP may be transportable into the nucleus by the specific signal of amino acid sequence.     

Biochemical comparison of polyhedral protein from five nuclear polyhedrosis viruses infecting plusiine larvae (Lepidoptera: Noctuidae)

Polyhedral protein preparations from five nuclear polyhedrosis viruses isolated from four closely related host insects of the noctuid subfamily Plusiinae were characterized by sodium dodecyl sulfate-polyacrylamide-gel electrophoresis (SDS-PAGE), high voltage paper electrophoresis, and amino acid analysis. The viruses were Autographa california multiple-embedded virion type (MEV), Pseudoplusia includens singly embedded virion type (SEV), Rachiplusia ou MEV, Trichoplusia ni MEV, and T. ni SEV. Each was produced in its own host; A. californica MEV was also produced in T. ni larvae to determine possible host influence on polyhedral protein chemistry. Each test revealed minor, reproducible differences among most isolates. In SDS-PAGE, the major protein component ranged from 26,700 to 28,300 MW among the isolates. Differences were confined to minor protein bands or to band intensity. Peptide maps showed differences among most isolates in numbers of acidic and basic peptide spots, but all had an identical number of neutral spots. Migration patterns also differed among most isolates. The amino acid compositions of the six polyhedral inclusions were very similar, with aspartic and glutamic acids being the predominant residues. The greatest differences were found between the MEV and SEV groups, with lesser differences within each group. In all analyses, A. californica MEV produced in A. californica was indistinguishable from virus produced in T. ni.